Table of Content
I.Project Summary
II.Workflow Checklist
III.NGS Sequencing Results
IV.Complete Report Download
V.Raw Sequence Data Download
VI.Analysis - DADA2 Read Processing
 Sample Meta Info
 Read Count by Sample
VII.Analysis - Read Taxonomy Assignment
 Taxonomy Barplots
VIII.Analysis - Alpha Diversity
IX.Analysis - Beta Diversity
X.Analysis - Differential Abundance
 ANCOM Result
 LEfSe Result
XI.Analysis - Heatmap Profile
XII.Analysis - Network Association
XIII.Disclaimer

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FOMC Service Report

16S rRNA Gene V1V3 Amplicon Sequencing

Version V1.43

Version History

The Forsyth Institute, Cambridge, MA, USA
December 29, 2023

Project ID: FOMC15180

I. Project Summary

Project FOMC15180 services include NGS sequencing of the V1V3 region of the 16S rRNA gene amplicons from the samples. First and foremost, please download this report, as well as the sequence raw data from the download links provided below. These links will expire after 60 days. We cannot guarantee the availability of your data after 60 days.

Full Bioinformatics analysis service was requested. We provide many analyses, starting from the raw sequence quality and noise filtering, pair reads merging, as well as chimera filtering for the sequences, using the DADA2 denosing algorithm and pipeline.

We also provide many downstream analyses such as taxonomy assignment, alpha and beta diversity analyses, and differential abundance analysis.

For taxonomy assignment, most informative would be the taxonomy barplots. We provide an interactive barplots to show the relative abundance of microbes at different taxonomy levels (from Phylum to species) that you can choose.

If you specify which groups of samples you want to compare for differential abundance, we provide both ANCOM and LEfSe differential abundance analysis.

 

II. Workflow Checklist

1.Sample Received
2.Sample Quality Evaluated
3.Sample Prepared for Sequencing
4.Next-Gen Sequencing
5.Sequence Quality Check
6.Absolute Abundance
7.Report and Raw Sequence Data Available for Download
8.Bioinformatics Analysis - Reads Processing (DADA2 Quality Trimming, Denoising, Paired Reads Merging)
9.Bioinformatics Analysis - Reads Taxonomy Assignment
10.Bioinformatics Analysis - Alpha Diversity Analysis
11.Bioinformatics Analysis - Beta Diversity Analysis
12.Bioinformatics Analysis - Differential Abundance Analysis
13.Bioinformatics Analysis - Heatmap Profile
14.Bioinformatics Analysis - Network Association
 

III. NGS Sequencing

The samples were processed and analyzed with the ZymoBIOMICS® Service: Targeted Metagenomic Sequencing (Zymo Research, Irvine, CA).

DNA Extraction: If DNA extraction was performed, one of three different DNA extraction kits was used depending on the sample type and sample volume and were used according to the manufacturer’s instructions, unless otherwise stated. The kit used in this project is marked below:

ZymoBIOMICS® DNA Miniprep Kit (Zymo Research, Irvine, CA)
ZymoBIOMICS® DNA Microprep Kit (Zymo Research, Irvine, CA)
ZymoBIOMICS®-96 MagBead DNA Kit (Zymo Research, Irvine, CA)
N/A (DNA Extraction Not Performed)
Elution Volume: 50µL
Additional Notes: NA

Targeted Library Preparation: The DNA samples were prepared for targeted sequencing with the Quick-16S™ NGS Library Prep Kit (Zymo Research, Irvine, CA). These primers were custom designed by Zymo Research to provide the best coverage of the 16S gene while maintaining high sensitivity. The primer sets used in this project are marked below:

Quick-16S™ Primer Set V1-V2 (Zymo Research, Irvine, CA)
Quick-16S™ Primer Set V1-V3 (Zymo Research, Irvine, CA)
Quick-16S™ Primer Set V3-V4 (Zymo Research, Irvine, CA)
Quick-16S™ Primer Set V4 (Zymo Research, Irvine, CA)
Quick-16S™ Primer Set V6-V8 (Zymo Research, Irvine, CA)
Other: NA
Additional Notes: NA

The sequencing library was prepared using an innovative library preparation process in which PCR reactions were performed in real-time PCR machines to control cycles and therefore limit PCR chimera formation. The final PCR products were quantified with qPCR fluorescence readings and pooled together based on equal molarity. The final pooled library was cleaned up with the Select-a-Size DNA Clean & Concentrator™ (Zymo Research, Irvine, CA), then quantified with TapeStation® (Agilent Technologies, Santa Clara, CA) and Qubit® (Thermo Fisher Scientific, Waltham, WA).

Control Samples: The ZymoBIOMICS® Microbial Community Standard (Zymo Research, Irvine, CA) was used as a positive control for each DNA extraction, if performed. The ZymoBIOMICS® Microbial Community DNA Standard (Zymo Research, Irvine, CA) was used as a positive control for each targeted library preparation. Negative controls (i.e. blank extraction control, blank library preparation control) were included to assess the level of bioburden carried by the wet-lab process.

Sequencing: The final library was sequenced on Illumina® MiSeq™ with a V3 reagent kit (600 cycles). The sequencing was performed with 10% PhiX spike-in.

Absolute Abundance Quantification*: A quantitative real-time PCR was set up with a standard curve. The standard curve was made with plasmid DNA containing one copy of the 16S gene and one copy of the fungal ITS2 region prepared in 10-fold serial dilutions. The primers used were the same as those used in Targeted Library Preparation. The equation generated by the plasmid DNA standard curve was used to calculate the number of gene copies in the reaction for each sample. The PCR input volume (2 µl) was used to calculate the number of gene copies per microliter in each DNA sample.
The number of genome copies per microliter DNA sample was calculated by dividing the gene copy number by an assumed number of gene copies per genome. The value used for 16S copies per genome is 4. The value used for ITS copies per genome is 200. The amount of DNA per microliter DNA sample was calculated using an assumed genome size of 4.64 x 106 bp, the genome size of Escherichia coli, for 16S samples, or an assumed genome size of 1.20 x 107 bp, the genome size of Saccharomyces cerevisiae, for ITS samples. This calculation is shown below:

Calculated Total DNA = Calculated Total Genome Copies × Assumed Genome Size (4.64 × 106 bp) ×
Average Molecular Weight of a DNA bp (660 g/mole/bp) ÷ Avogadro’s Number (6.022 x 1023/mole)


* Absolute Abundance Quantification is only available for 16S and ITS analyses.

The absolute abundance standard curve data can be viewed in Excel here:

The absolute abundance standard curve is shown below:

Absolute Abundance Standard Curve

 

IV. Complete Report Download

The complete report of your project, including all links in this report, can be downloaded by clicking the link provided below. The downloaded file is a compressed ZIP file and once unzipped, open the file “REPORT.html” (may only shown as "REPORT" in your computer) by double clicking it. Your default web browser will open it and you will see the exact content of this report.

Please download and save the file to your computer storage device. The download link will expire after 60 days upon your receiving of this report.

Complete report download link:

To view the report, please follow the following steps:
1.Download the .zip file from the report link above.
2.Extract all the contents of the downloaded .zip file to your desktop.
3.Open the extracted folder and find the "REPORT.html" (may shown as only "REPORT").
4.Open (double-clicking) the REPORT.html file. Your default browser will open the top age of the complete report. Within the report, there are links to view all the analyses performed for the project.

 

V. Raw Sequence Data Download

The raw NGS sequence data is available for download with the link provided below. The data is a compressed ZIP file and can be unzipped to individual sequence files. Since this is a pair-end sequencing, each of your samples is represented by two sequence files, one for READ 1, with the file extension “*_R1.fastq.gz”, another READ 2, with the file extension “*_R1.fastq.gz”. The files are in FASTQ format and are compressed. FASTQ format is a text-based data format for storing both a biological sequence and its corresponding quality scores. Most sequence analysis software will be able to open them. The Sample IDs associated with the R1 and R2 fastq files are listed in the table below:



Sample IDOriginal Sample IDRead 1 File NameRead 2 File Name


F15180.S10original sample ID herezr15180_10V1V3_R1.fastq.gzzr15180_10V1V3_R2.fastq.gz


F15180.S11original sample ID herezr15180_11V1V3_R1.fastq.gzzr15180_11V1V3_R2.fastq.gz


F15180.S12original sample ID herezr15180_12V1V3_R1.fastq.gzzr15180_12V1V3_R2.fastq.gz


F15180.S01original sample ID herezr15180_1V1V3_R1.fastq.gzzr15180_1V1V3_R2.fastq.gz


F15180.S02original sample ID herezr15180_2V1V3_R1.fastq.gzzr15180_2V1V3_R2.fastq.gz


F15180.S03original sample ID herezr15180_3V1V3_R1.fastq.gzzr15180_3V1V3_R2.fastq.gz


F15180.S04original sample ID herezr15180_4V1V3_R1.fastq.gzzr15180_4V1V3_R2.fastq.gz


F15180.S05original sample ID herezr15180_5V1V3_R1.fastq.gzzr15180_5V1V3_R2.fastq.gz


F15180.S06original sample ID herezr15180_6V1V3_R1.fastq.gzzr15180_6V1V3_R2.fastq.gz


F15180.S07original sample ID herezr15180_7V1V3_R1.fastq.gzzr15180_7V1V3_R2.fastq.gz


F15180.S08original sample ID herezr15180_8V1V3_R1.fastq.gzzr15180_8V1V3_R2.fastq.gz


F15180.S09original sample ID herezr15180_9V1V3_R1.fastq.gzzr15180_9V1V3_R2.fastq.gz

Please download and save the file to your computer storage device. The download link will expire after 60 days upon your receiving of this report.

Raw sequence data download link:

 

VI. Analysis - DADA2 Read Processing

What is DADA2?

DADA2 is a software package that models and corrects Illumina-sequenced amplicon errors. DADA2 infers sample sequences exactly, without coarse-graining into OTUs, and resolves differences of as little as one nucleotide. DADA2 identified more real variants and output fewer spurious sequences than other methods.

DADA2’s advantage is that it uses more of the data. The DADA2 error model incorporates quality information, which is ignored by all other methods after filtering. The DADA2 error model incorporates quantitative abundances, whereas most other methods use abundance ranks if they use abundance at all. The DADA2 error model identifies the differences between sequences, eg. A->C, whereas other methods merely count the mismatches. DADA2 can parameterize its error model from the data itself, rather than relying on previous datasets that may or may not reflect the PCR and sequencing protocols used in your study.

DADA2 Publication: Callahan BJ, McMurdie PJ, Rosen MJ, Han AW, Johnson AJ, Holmes SP. DADA2: High-resolution sample inference from Illumina amplicon data. Nat Methods. 2016 Jul;13(7):581-3. doi: 10.1038/nmeth.3869. Epub 2016 May 23. PMID: 27214047; PMCID: PMC4927377.

DADA2 Software Package is available as an R package at : https://benjjneb.github.io/dada2/index.html

Analysis Procedures:

DADA2 pipeline includes several tools for read quality control, including quality filtering, trimming, denoising, pair merging and chimera filtering. Below are the major processing steps of DADA2:

Step 1. Read trimming based on sequence quality The quality of NGS Illumina sequences often decreases toward the end of the reads. DADA2 allows to trim off the poor quality read ends in order to improve the error model building and pair mergicing performance.

Step 2. Learn the Error Rates The DADA2 algorithm makes use of a parametric error model (err) and every amplicon dataset has a different set of error rates. The learnErrors method learns this error model from the data, by alternating estimation of the error rates and inference of sample composition until they converge on a jointly consistent solution. As in many machine-learning problems, the algorithm must begin with an initial guess, for which the maximum possible error rates in this data are used (the error rates if only the most abundant sequence is correct and all the rest are errors).

Step 3. Infer amplicon sequence variants (ASVs) based on the error model built in previous step. This step is also called sequence "denoising". The outcome of this step is a list of ASVs that are the equivalent of oligonucleotides.

Step 4. Merge paired reads. If the sequencing products are read pairs, DADA2 will merge the R1 and R2 ASVs into single sequences. Merging is performed by aligning the denoised forward reads with the reverse-complement of the corresponding denoised reverse reads, and then constructing the merged “contig” sequences. By default, merged sequences are only output if the forward and reverse reads overlap by at least 12 bases, and are identical to each other in the overlap region (but these conditions can be changed via function arguments).

Step 5. Remove chimera. The core dada method corrects substitution and indel errors, but chimeras remain. Fortunately, the accuracy of sequence variants after denoising makes identifying chimeric ASVs simpler than when dealing with fuzzy OTUs. Chimeric sequences are identified if they can be exactly reconstructed by combining a left-segment and a right-segment from two more abundant “parent” sequences. The frequency of chimeric sequences varies substantially from dataset to dataset, and depends on on factors including experimental procedures and sample complexity.

Results

1. Read Quality Plots NGS sequence analaysis starts with visualizing the quality of the sequencing. Below are the quality plots of the first sample for the R1 and R2 reads separately. In gray-scale is a heat map of the frequency of each quality score at each base position. The mean quality score at each position is shown by the green line, and the quartiles of the quality score distribution by the orange lines. The forward reads are usually of better quality. It is a common practice to trim the last few nucleotides to avoid less well-controlled errors that can arise there. The trimming affects the downstream steps including error model building, merging and chimera calling. FOMC uses an empirical approach to test many combinations of different trim length in order to achieve best final amplicon sequence variants (ASVs), see the next section “Optimal trim length for ASVs”.

Quality plots for all samples:

2. Optimal trim length for ASVs The final number of merged and chimera-filtered ASVs depends on the quality filtering (hence trimming) in the very beginning of the DADA2 pipeline. In order to achieve highest number of ASVs, an empirical approach was used -

  1. Create a random subset of each sample consisting of 5,000 R1 and 5,000 R2 (to reduce computation time)
  2. Trim 10 bases at a time from the ends of both R1 and R2 up to 50 bases
  3. For each combination of trimmed length (e.g., 300x300, 300x290, 290x290 etc), the trimmed reads are subject to the entire DADA2 pipeline for chimera-filtered merged ASVs
  4. The combination with highest percentage of the input reads becoming final ASVs is selected for the complete set of data

Below is the result of such operation, showing ASV percentages of total reads for all trimming combinations (1st Column = R1 lengths in bases; 1st Row = R2 lengths in bases):

R1/R2281271261251241231
32165.92%66.70%67.73%68.15%60.10%57.36%
31166.12%66.70%67.65%59.56%57.06%53.71%
30166.06%66.64%59.05%56.48%53.27%25.94%
29166.32%58.56%56.06%52.75%25.47%9.38%
28158.09%55.56%52.26%25.44%9.43%5.95%
27154.98%51.67%24.63%9.48%6.04%0.44%

Based on the above result, the trim length combination of R1 = 321 bases and R2 = 251 bases (highlighted red above), was chosen for generating final ASVs for all sequences. This combination generated highest number of merged non-chimeric ASVs and was used for downstream analyses, if requested.

3. Error plots from learning the error rates After DADA2 building the error model for the set of data, it is always worthwhile, as a sanity check if nothing else, to visualize the estimated error rates. The error rates for each possible transition (A→C, A→G, …) are shown below. Points are the observed error rates for each consensus quality score. The black line shows the estimated error rates after convergence of the machine-learning algorithm. The red line shows the error rates expected under the nominal definition of the Q-score. The ideal result would be the estimated error rates (black line) are a good fit to the observed rates (points), and the error rates drop with increased quality as expected.

Forward Read R1 Error Plot


Reverse Read R2 Error Plot

The PDF version of these plots are available here:

 

4. DADA2 Result Summary The table below shows the summary of the DADA2 analysis, tracking paired read counts of each samples for all the steps during DADA2 denoising process - including end-trimming (filtered), denoising (denoisedF, denoisedF), pair merging (merged) and chimera removal (nonchim).

Sample IDF15180.S01F15180.S02F15180.S03F15180.S04F15180.S05F15180.S06F15180.S07F15180.S08F15180.S09F15180.S10F15180.S11F15180.S12Row SumPercentage
input34,22768,83869,90352,672102,88033,56968,73061,35790,06937,18068,84845,789734,062100.00%
filtered29,03958,56459,78244,87787,36628,39258,26051,94076,52931,45758,32738,840623,37384.92%
denoisedF27,99858,05159,06644,46086,61827,97657,38451,40575,21331,16757,89438,392615,62483.87%
denoisedR28,10857,40458,42343,92285,38327,58856,72950,69474,55830,59357,03637,761608,19982.85%
merged24,60455,58054,68042,53881,56025,91753,16948,42168,37628,98054,60235,441573,86878.18%
nonchim23,40447,32949,82233,83872,54722,57449,07046,59464,65525,71149,81733,850519,21170.73%

This table can be downloaded as an Excel table below:

 

5. DADA2 Amplicon Sequence Variants (ASVs). A total of 1095 unique merged and chimera-free ASV sequences were identified, and their corresponding read counts for each sample are available in the "ASV Read Count Table" with rows for the ASV sequences and columns for sample. This read count table can be used for microbial profile comparison among different samples and the sequences provided in the table can be used to taxonomy assignment.

 

The table can be downloaded from this link:

 
 

Sample Meta Information

Download Sample Meta Information
#SampleIDGroup
F0000.S01KO D0 Fecal
F0000.S02KO D0 Fecal
F0000.S03KO D0 Fecal
F0000.S04KO D0 Fecal
F0000.S05KO D0 Fecal
F0000.S06KO D0 Fecal
F0000.S07KO D0 Fecal
F0000.S08KO D0 Fecal
F0000.S09KO D0 Fecal
F0000.S10KO D0 Fecal
F0000.S11WT D0 Fecal
F0000.S12WT D0 Fecal
F0000.S13WT D0 Fecal
F0000.S14WT D0 Fecal
F0000.S15WT D0 Fecal
F0000.S16WT D0 Fecal
F0000.S17WT D0 Fecal
F0000.S18WT D0 Fecal
F0000.S19KO 10D Fecal
F0000.S20KO 10D Fecal
F0000.S21KO 10D Fecal
F0000.S22KO 10D Fecal
F0000.S23KO 10D Fecal
F0000.S24KO 10D Fecal
F0000.S25KO 10D Fecal
F0000.S26KO 10D Fecal
F0000.S27KO 10D Fecal
F0000.S28KO 10D Fecal
F0000.S29WT 10D Fecal
F0000.S30WT 10D Fecal
F0000.S31WT 10D Fecal
F0000.S32WT 10D Fecal
F0000.S33WT 10D Fecal
F0000.S34WT 10D Fecal
F0000.S35WT 10D Fecal
F0000.S36WT 10D Fecal
F15180.S01cKO D0 Fecal
F15180.S02cKO D0 Fecal
F15180.S03cKO D0 Fecal
F15180.S04cKO D0 Fecal
F15180.S05cKO D0 Fecal
F15180.S06cKO D0 Fecal
F15180.S07cKO 10DL Fecal
F15180.S08cKO 10DL Fecal
F15180.S09cKO 10DL Fecal
F15180.S10cKO 10DL Fecal
F15180.S11cKO 10DL Fecal
F15180.S12cKO 10DL Fecal
 
 

ASV Read Counts by Samples

#Sample IDRead Count
F15180.S0622,574
F15180.S0123,404
F15180.S1025,711
F15180.S0433,838
F15180.S1233,850
F15180.S0846,594
F15180.S0247,329
F15180.S0749,070
F15180.S1149,817
F15180.S0349,822
F15180.S0964,655
F0000.S0171,419
F15180.S0572,547
F0000.S1275,430
F0000.S2480,457
F0000.S0480,615
F0000.S0581,336
F0000.S3082,148
F0000.S1382,986
F0000.S2883,780
F0000.S0784,294
F0000.S0884,757
F0000.S0287,402
F0000.S0687,570
F0000.S2993,544
F0000.S2294,839
F0000.S2695,124
F0000.S3395,740
F0000.S1795,756
F0000.S0396,702
F0000.S2097,500
F0000.S14101,366
F0000.S15101,728
F0000.S18105,201
F0000.S10106,094
F0000.S35112,580
F0000.S16113,458
F0000.S21122,427
F0000.S34127,324
F0000.S09130,060
F0000.S36134,516
F0000.S11151,010
F0000.S25156,210
F0000.S23159,621
F0000.S19161,287
F0000.S27167,162
F0000.S32167,665
F0000.S31183,979
 
 
 

VII. Analysis - Read Taxonomy Assignment

Read Taxonomy Assignment - Methods

 

The species-level, open-reference 16S rRNA NGS reads taxonomy assignment pipeline

Version 20210310
 

1. Raw sequences reads in FASTA format were BLASTN-searched against a combined set of 16S rRNA reference sequences. It consists of MOMD (version 0.1), the HOMD (version 15.2 http://www.homd.org/index.php?name=seqDownload&file&type=R ), HOMD 16S rRNA RefSeq Extended Version 1.1 (EXT), GreenGene Gold (GG) (http://greengenes.lbl.gov/Download/Sequence_Data/Fasta_data_files/gold_strains_gg16S_aligned.fasta.gz) , and the NCBI 16S rRNA reference sequence set (https://ftp.ncbi.nlm.nih.gov/blast/db/16S_ribosomal_RNA.tar.gz). These sequences were screened and combined to remove short sequences (<1000nt), chimera, duplicated and sub-sequences, as well as sequences with poor taxonomy annotation (e.g., without species information). This process resulted in 1,015 from HOMD V15.22, 495 from EXT, 3,940 from GG and 18,044 from NCBI, a total of 25,120 sequences. Altogether these sequence represent a total of 15,601 oral and non-oral microbial species.

The NCBI BLASTN version 2.7.1+ (Zhang et al, 2000) was used with the default parameters. Reads with ≥ 98% sequence identity to the matched reference and ≥ 90% alignment length (i.e., ≥ 90% of the read length that was aligned to the reference and was used to calculate the sequence percent identity) were classified based on the taxonomy of the reference sequence with highest sequence identity. If a read matched with reference sequences representing more than one species with equal percent identity and alignment length, it was subject to chimera checking with USEARCH program version v8.1.1861 (Edgar 2010). Non-chimeric reads with multi-species best hits were considered valid and were assigned with a unique species notation (e.g., spp) denoting unresolvable multiple species.

2. Unassigned reads (i.e., reads with < 98% identity or < 90% alignment length) were pooled together and reads < 200 bases were removed. The remaining reads were subject to the de novo operational taxonomy unit (OTU) calling and chimera checking using the USEARCH program version v8.1.1861 (Edgar 2010). The de novo OTU calling and chimera checking was done using 98% as the sequence identity cutoff, i.e., the species-level OTU. The output of this step produced species-level de novo clustered OTUs with 98% identity. Representative reads from each of the OTUs/species were then BLASTN-searched against the same reference sequence set again to determine the closest species for these potential novel species. These potential novel species were pooled together with the reads that were signed to specie-level in the previous step, for down-stream analyses.

Reference:
Edgar RC. Search and clustering orders of magnitude faster than BLAST. Bioinformatics. 2010 Oct 1;26(19):2460-1. doi: 10.1093/bioinformatics/btq461. Epub 2010 Aug 12. PubMed PMID: 20709691.

3. Designations used in the taxonomy:

	1) Taxonomy levels are indicated by these prefixes:
	
	   k__: domain/kingdom
	   p__: phylum
	   c__: class
	   o__: order
	   f__: family
	   g__: genus  
	   s__: species
	
	   Example: 
	
	   k__Bacteria;p__Firmicutes;c__Clostridia;o__Clostridiales;f__Lachnospiraceae;g__Blautia;s__faecis
		
	2) Unique level identified – known species:
	   
	   k__Bacteria;p__Firmicutes;c__Clostridia;o__Clostridiales;f__Lachnospiraceae;g__Roseburia;s__hominis
	
	   The above example shows some reads match to a single species (all levels are unique)
	
	3) Non-unique level identified – known species:

	   k__Bacteria;p__Firmicutes;c__Clostridia;o__Clostridiales;f__Lachnospiraceae;g__Roseburia;s__multispecies_spp123_3
	   
	   The above example “s__multispecies_spp123_3” indicates certain reads equally match to 3 species of the 
	   genus Roseburia; the “spp123” is a temporally assigned species ID.
	
	   k__Bacteria;p__Firmicutes;c__Clostridia;o__Clostridiales;f__Lachnospiraceae;g__multigenus;s__multispecies_spp234_5
	   
	   The above example indicates certain reads match equally to 5 different species, which belong to multiple genera.; 
	   the “spp234” is a temporally assigned species ID.
	
	4) Unique level identified – unknown species, potential novel species:
	   
	   k__Bacteria;p__Firmicutes;c__Clostridia;o__Clostridiales;f__Lachnospiraceae;g__Roseburia;s__ hominis_nov_97%
	   
	   The above example indicates that some reads have no match to any of the reference sequences with 
	   sequence identity ≥ 98% and percent coverage (alignment length)  ≥ 98% as well. However this groups 
	   of reads (actually the representative read from a de novo  OTU) has 96% percent identity to 
	   Roseburia hominis, thus this is a potential novel species, closest to Roseburia hominis. 
	   (But they are not the same species).
	
	5) Multiple level identified – unknown species, potential novel species:
	   k__Bacteria;p__Firmicutes;c__Clostridia;o__Clostridiales;f__Lachnospiraceae;g__Roseburia;s__ multispecies_sppn123_3_nov_96%
	
	   The above example indicates that some reads have no match to any of the reference sequences 
	   with sequence identity ≥ 98% and percent coverage (alignment length)  ≥ 98% as well. 
	   However this groups of reads (actually the representative read from a de novo  OTU) 
	   has 96% percent identity equally to 3 species in Roseburia. Thus this is no single 
	   closest species, instead this group of reads match equally to multiple species at 96%. 
	   Since they have passed chimera check so they represent a novel species. “sppn123” is a 
	   temporary ID for this potential novel species.

 
4. The taxonomy assignment algorithm is illustrated in this flow char below:
 
 
 
 

Read Taxonomy Assignment - Result Summary *

CodeCategoryMPC=0% (>=1 read)MPC=0.01%(>=443 reads)
ATotal reads4,472,2984,472,298
BTotal assigned reads4,432,0614,432,061
CAssigned reads in species with read count < MPC0147,046
DAssigned reads in samples with read count < 50000
ETotal samples4848
FSamples with reads >= 5004848
GSamples with reads < 50000
HTotal assigned reads used for analysis (B-C-D)4,432,0614,285,015
IReads assigned to single species2,193,8592,166,412
JReads assigned to multiple species362,864351,653
KReads assigned to novel species1,875,3381,766,950
LTotal number of species4,227410
MNumber of single species54586
NNumber of multi-species21727
ONumber of novel species3,465297
PTotal unassigned reads40,23740,237
QChimeric reads1,8721,872
RReads without BLASTN hits2,1122,112
SOthers: short, low quality, singletons, etc.36,25336,253
A=B+P=C+D+H+Q+R+S
E=F+G
B=C+D+H
H=I+J+K
L=M+N+O
P=Q+R+S
* MPC = Minimal percent (of all assigned reads) read count per species, species with read count < MPC were removed.
* Samples with reads < 500 were removed from downstream analyses.
* The assignment result from MPC=0.1% was used in the downstream analyses.
 
 
 

Read Taxonomy Assignment - ASV Species-Level Read Counts Table

This table shows the read counts for each sample (columns) and each species identified based on the ASV sequences. The downstream analyses were based on this table.
SPIDTaxonomyF0000.S01F0000.S02F0000.S03F0000.S04F0000.S05F0000.S06F0000.S07F0000.S08F0000.S09F0000.S10F0000.S11F0000.S12F0000.S13F0000.S14F0000.S15F0000.S16F0000.S17F0000.S18F0000.S19F0000.S20F0000.S21F0000.S22F0000.S23F0000.S24F0000.S25F0000.S26F0000.S27F0000.S28F0000.S29F0000.S30F0000.S31F0000.S32F0000.S33F0000.S34F0000.S35F0000.S36F15180.S01F15180.S02F15180.S03F15180.S04F15180.S05F15180.S06F15180.S07F15180.S08F15180.S09F15180.S10F15180.S11F15180.S12
SP105Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Tannerellaceae;Parabacteroides;goldsteinii250187317881047107334121493826198348668599424375551912737590336985254771607416579103422154831022361851329131987559473168216305064200021423000
SP1059Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-1];bacterium_MOT-1610051490645300131000000000083150000005606814804637800000000000000
SP1063Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Eisenbergiella;massiliensis000000315501536022000002736313035028275802701802680000000000000000
SP1064Bacteria;Proteobacteria;Epsilonproteobacteria;Campylobacterales;Helicobacteraceae;Helicobacter;ganmani46519426510196994123246621038888975423442382015610213417215213023291181626638468481103217109211524383142713222132373237
SP1102Bacteria;Proteobacteria;Alphaproteobacteria;Caulobacterales;Caulobacteraceae;Brevundimonas;lenta02435342446293700299700000000003112100000000002464000000000000
SP115Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Bacteroidaceae;Bacteroides;caecimuris00203753100771321068640618913029145385911572332159273173901115181365110322210008254891548
SP1214Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-1];bacterium_MOT-1600463007231790763795605533131947322453751162484264337212283337183123599143173930262217366101525193320000000000000
SP1226Bacteria;Firmicutes;Bacilli;Lactobacillales;Streptococcaceae;Streptococcus;thoraltensis0000112740115000000006661060000000001027106063699555000000000000
SP136Bacteria;Firmicutes;Clostridia;Eubacteriales;Peptostreptococcaceae;Romboutsia;ilealis000000000000000000000000000000000000364000001010467000
SP138Bacteria;Proteobacteria;Gammaproteobacteria;Enterobacterales;Enterobacteriaceae;Klebsiella;variicola000000430272142281516001205590210208700000027000023000000000000
SP143Bacteria;Firmicutes;Bacilli;Lactobacillales;Streptococcaceae;Streptococcus;danieliae153578242943012346340440804075416006443017001658612737713095601068616585002900081176461
SP144Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Adlercreutzia;muris00000000000000000000001140113006300000000275045226346177381001307585181
SP145Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Burkholderiaceae;Limnobacter;humi0000000000000000000000000025000000430515000000000000
SP158Bacteria;Firmicutes;Clostridia;Eubacteriales;Clostridiaceae;Clostridium;disporicum00000000000000000000000000000000000086130923154641681117153251140
SP171Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Roseburia;faecis028600271717334109126325987060677688968592881161682181211592682189315599199174600570000000000000
SP172Bacteria;Proteobacteria;Gammaproteobacteria;Enterobacterales;Enterobacteriaceae;Klebsiella;pneumoniae00000052020230000000053500011830000001700000000000000000
SP175Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri00000000122014211316021038000000000001226062415074394796223291637944031201408
SP185Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Adlercreutzia;caecimuris000064000004000282400000000003700990000646300211565615559289430105240294
SP188Bacteria;Proteobacteria;Epsilonproteobacteria;Campylobacterales;Helicobacteraceae;Helicobacter;typhlonius2610168816169329674348184419003381300515977538482141331334270832482916179302231311812001296014791538933171431021935585603231145000000000000
SP190Bacteria;Bacteroidota;Cytophagia;Cytophagales;Spirosomaceae;Flectobacillus;roseus0000000000000000000000000019900000010401102000000000000
SP191Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Sutterellaceae;Turicimonas;muris73414246208351196112822394583349300421080361421201471662322552154633534139555218292222058171701790340219638686
SP192Bacteria;Proteobacteria;Alphaproteobacteria;Sphingomonadales;Sphingomonadaceae;Sphingomonas;limnosediminicola4849405543453837104333400000000014354280000000001292600000000000000
SP218Bacteria;Proteobacteria;Gammaproteobacteria;Aeromonadales;Aeromonadaceae;Aeromonas;veronii0000000000000000000000000089000000120631000000000000
SP219Bacteria;Firmicutes;Erysipelotrichi;Erysipelotrichales;Erysipelotrichaceae;Ileibacterium;valens114161191262553065935817522621211020121223357411697202178698978431372025002174840159161931208238512563691017001372816010758893002766603
SP22Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculum;intestinale1633902363513542742414235419431415620599922762930949970389140443554380728657549630548162448195511581764452096248551346400061425952403539
SP224Bacteria;Firmicutes;Bacilli;Lactobacillales;Lactobacillaceae;Limosilactobacillus;reuteri0000000000000000000000000000000000009876303291126114678591929207635293241622223
SP225Bacteria;Proteobacteria;Gammaproteobacteria;Pseudomonadales;Pseudomonadaceae;Pseudomonas;vancouverensis362929293832202300731500000000001053400000000001020000000000000
SP232Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-4];bacterium_MOT-1654211112132421300162812032532912251062031111565854312248620822618422617617012223155235931924312424568949000000000000
SP234Bacteria;Firmicutes;Bacilli;Lactobacillales;Lactobacillaceae;Lactobacillus;taiwanensis994277380320237237410773361192081891184311341079171774317511315017221618123902032701691059397401890320088704340193605150466000
SP252Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Prevotellaceae;Prevotella;sp._MOT-128531207716424616946214004661518467280216958698441752259937641815584253313133218124151424388134116910822128926301000008000040
SP258Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-1];bacterium_MOT-15948523313721011494269296880294204546323149831119617811514356267852102639211473831305388895030772652108911891666961644136154000000511002300
SP275Bacteria;Firmicutes;Erysipelotrichia;Erysipelotrichales;Erysipelotrichaceae;Faecalibaculum;rodentium921661891010506663662594427931257882218575579861046588142810640742361541321926511622000025147658124660371395
SP283Bacteria;Actinobacteria;Coriobacteriia;Coriobacteriales;Coriobacteriaceae;Parvibacter;caecicola12101029165235171718112381227222891916215603140036172713210138004446430148015131147
SP289Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-4];bacterium_MOT-1510230016110210313900240012200150324903135152309435930000000000000000
SP329Bacteria;Verrucomicrobia;Verrucomicrobiae;Verrucomicrobiales;Akkermansiaceae;Akkermansia;muciniphila1138472628373523310051169161397117603286651903241820150302274934690195032119515163164292120241506922997678311331700128655752552075053164885318589877093944319120481550216056101714378828001545103
SP33Bacteria;Nitrospirae;Nitrospira;Nitrospirales;Nitrospiraceae;Nitrospira;moscoviensis4457061466352770746716000000000555928000000000284315000000000000
SP34Bacteria;Firmicutes;Bacilli;Lactobacillales;Lactobacillaceae;Lactobacillus;johnsonii3141903802513834269964366387631820114710974251150558717112092351934257592843964023771437739357938134751722144375081080312175799332802039117631682762169223943329
SP348Bacteria;Proteobacteria;Alphaproteobacteria;Hyphomicrobiales;Devosiaceae;Devosia;insulae6879998391876384139123676500000000211150805600000000177928348000000000000
SP349Bacteria;Firmicutes;Bacilli;Lactobacillales;Lactobacillaceae;Lactobacillus;intestinalis9140168537437130589736414515670602243766190153583330716351191212339178243231716388564623137848498749770273226091781298233
SP35Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Kineothrix;alysoides0022000009712905600330000099142000000000025574999404000000000000
SP36Bacteria;Proteobacteria;Betaproteobacteria;Nitrosomonadales;Thiobacillaceae;Thiobacillus;thioparus596743565459277908810000000000084130000000000199239000000000000
SP37Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-4];bacterium_MOT-164193760154236510011007163531076013521412726634128623971203189716651975876709135212675851425123625289921920155510169109005217223500085633148928463913
SP374Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Comamonadaceae;Ramlibacter;monticola3363823503423394303153492143924872000000003347126467000000002559635793000000000000
SP375Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Lawsonibacter;asaccharolyticus0536714111015421713111832002321051588212041316977928713610396381985940144460000000000000
SP38Bacteria;Actinobacteria;Actinobacteria;Bifidobacteriales;Bifidobacteriaceae;Bifidobacterium;pseudolongum652631441222194631081873217915027663121866722496725253173109316431231531426484458152000000088322901141105
SP391Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Bacteroidaceae;Phocaeicola;sartorii13331117131398841297261430721645352820011126561917596415381828182105716511160164425408032471025431139495
SP393Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-12];bacterium_MOT-179011623433613745474918210002676693500167645000489385592119008000000000000000
SP421Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-10425811456914133273732000442640740034470400037580600000050000000000000
SP427Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Rikenellaceae;Alistipes;putredinis111500916431401500211400002721162420101233221182534165370000000000000000
SP429Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-3];bacterium_MOT-1680440023020174078444300021022007973690273003123444683817884943600215014012500
SP44Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnoclostridium;[Clostridium] scindens2426443473205628021581193178377319410022113911568307156177214642662141373062031097295470653353000000000000
SP484Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Comamonadaceae;Acidovorax;wautersii0492231223131300630000000000072900000000009500000000000000
SP488Bacteria;Firmicutes;Erysipelotrichia;Erysipelotrichales;Erysipelotrichaceae;Erysipelatoclostridium;[Clostridium] innocuum88814100103179000764077007337037476845128348202840120634460504764000000000000
SP490Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Ruthenibacterium;lactatiformans00154000000000006700000000000900000044755420000000000000
SP550Bacteria;Firmicutes;Erysipelotrichia;Erysipelotrichales;Erysipelotrichaceae;Erysipelatoclostridium;[Clostridium] cocleatum147957832662918100610401455876977311671019255428756162050735672228158701606922109312061472538276291677780282325985314866679962124181601180541282573065251916533
SP553Bacteria;Firmicutes;Bacilli;Lactobacillales;Carnobacteriaceae;Carnobacteriaceae_[G-1];bacterium_MOT-198682964427322218934914100003416430143114107191680000412032222315216323595351371479260000000000000
SP558Bacteria;Firmicutes;Bacilli;Lactobacillales;Lactobacillaceae;Ligilactobacillus;murinus0000000000000000000000000000000000006444340645385409014814699436185123
SP56Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Adlercreutzia;mucosicola27884711478385969062380019040397404412586276389411743900615379000462309307910939138104239252503
SP561Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Bacteroidaceae;Bacteroides;acidifaciens000000000000000000000000000000000000314197606475727725016805
SP569Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Rikenellaceae;Alistipes;sp._MOT-1276715318827444238836910639922630545411724132135652356946118958332942645426928541845368072026944611081266516500001902300000
SP581Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Faecalicatena;orotica03831015009535668326058403231021894352803430604222290804191339320000000000000
SP6Bacteria;Firmicutes;Bacilli;Bacillales;Paenibacillaceae;Paenibacillus;aceris63400564352250009400000000000120000000000001050000000000000
SP622Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Anaerostipes;caccae248000072700000015500003790000001810120045000286332333193000000000000
SP659Bacteria;Proteobacteria;Alphaproteobacteria;Sphingomonadales;Sphingomonadaceae;Sphingomonas;sediminicola30323328263735279507246000000000585718000000002360390000000000000
SP667Bacteria;Actinobacteria;Actinomycetia;Micrococcales;Microbacteriaceae;Cryobacterium;psychrotolerans050460045495801076800000000007796000000000061660000000000000
SP67Bacteria;Firmicutes;Erysipelotrichi;Erysipelotrichales;Erysipelotrichaceae;Erysipelotrichaceae_[G-1];bacterium_MOT-18920002930036094112094381724176931118150807122649973338643915774224092879266141055381437598494581250866853104853857123569425571444122351216459045664055433909507643163680489353694862207719948304146211351138255005392
SP68Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Comamonadaceae;Rhodoferax;saidenbachensis33203429494129390590000000000063000000000008000000000000000
SP691Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-11];bacterium_MOT-177042000006637521430077422004105434207701732420242915137400360000000000000
SP693Bacteria;Firmicutes;Bacilli;Bacillales;Paenibacillaceae;Paenibacillus;endophyticus55438554497550730332620000000000303460000000000212270000000000000
SP7Bacteria;Actinobacteria;Actinomycetia;Propionibacteriales;Nocardioidaceae;Nocardioides;kribbensis000000000000000000460000026101870001730000460000000000000
SP71Bacteria;Bacteroidetes;Sphingobacteriia;Sphingobacteriales;Sphingobacteriaceae;Pedobacter;duraquae0250325303340001420000000000014800000000000390000000000000
SP72Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-7];bacterium_MOT-15433701875820659655021126933144710617330115643716513318154113661441085112353186414031092212695141002600012360000
SP730Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-2];bacterium_MOT-162853081737445423321381752558236622881814612478817995222413401415975191761032921927786094214922509481533149416229000046950124630
SP746Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-11];bacterium_MOT-17879506806313111073754234295647672562048361098480663244140603501397683180111509130255087911344116374221653720491291615065002916600000
SP772Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-3];bacterium_MOT-15027146383249356105272287300538380213249761212300600206211221496532521240163655140239954331417226841363721721200130034600004301318
SP792Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Ruminococcus;bromii4928569151816644123600020159051000198791251155937597521883062312390000000000000000
SP812Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-1];bacterium_MOT-129187549216953787215444404455573785666432625341588881400608686385754393581411138952889031029753401113665151036514119311019391550590110282929103604
SP824Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-14];bacterium_MOT-184000000006404966600000620110241000000000006900000000000299
SP827Bacteria;Actinobacteria;Actinomycetia;Corynebacteriales;Corynebacteriaceae;Corynebacterium;mastitidis6838012920911911440000221703872032470000231404071133644247246333156000000000000
SP85Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-2];bacterium_MOT-1670393775650145220424301223284040002333494924025263835029126055270000000000000
SP86Bacteria;Proteobacteria;Gammaproteobacteria;Pasteurellales;Pasteurellaceae;Rodentibacter;pneumotropicus9761285102173614917851010770000021430318116933115521915100002273222382124041732562132460272128211755000000000004
SP88Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-14];bacterium_MOT-18501560000080000059000000055071213000070000280128250006600000
SP896Bacteria;Proteobacteria;Deltaproteobacteria;Desulfovibrionales;Desulfovibrionaceae;Desulfovibrio;fairfieldensis09282406033939221313014110180671346361972271562033016826019000000000000
SP911Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-6];bacterium_MOT-1530130027017010102606225100000291732011100926093023424314000000000000
SP951Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Oxalobacteraceae;Herminiimonas;contaminans4536524141452028072070000000006900000000000144013000000000000
SP981Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-11];bacterium_MOT-176900580164510103000054000653206950698235707000101920950000000000000000
SPN1Bacteria;Proteobacteria;Deltaproteobacteria;Myxococcales;Polyangiaceae;Chondromyces;lanuginosus_nov_93.636%315966525636285010134420000000001274352140000000012932270000000000000
SPN1007Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Rikenellaceae;Alistipes;senegalensis_nov_93.686%000000000000000000000000000000000000603512700063531270015
SPN1008Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Adlercreutzia;equolifaciens_nov_92.029%23497435153174994057161397053101934013739959254385149376310173792430183222000000000000
SPN1018Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Adlercreutzia;equolifaciens_nov_94.498%815010200511000260000018800162365847351030111004000170000000000000
SPN1030Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales Family XIII. Incertae Sedis;Aminipila;butyrica_nov_88.544%05211109200202417261374210036562100000340028001100130000000000000
SPN1039Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Adlercreutzia;caecimuris_nov_94.156%0000000000000000000000000000000000000811606614171349882284
SPN1051Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_89.800%0000000000000000000000000000000000003683270051620158000
SPN1061Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Caproicibacter;fermentans_nov_89.895%000000000000000000000000000000000000179360023224514100421
SPN1072Bacteria;Firmicutes;Erysipelotrichia;Erysipelotrichales;Turicibacteraceae;Turicibacter;sanguinis_nov_95.923%0000000000000000000000000000000000003491110957502324322952266120616528
SPN1073Bacteria;Bacteroidetes;Bacteroidetes_[C-1];Bacteroidetes_[O-1];Bacteroidetes_[F-1];Bacteroidetes_[G-3];bacterium HMT436 nov_85.540%0000000000000000000000000000000000000017100000295000
SPN1085Bacteria;Proteobacteria;Gammaproteobacteria;Chromatiales;Granulosicoccaceae;Sulfuriflexus;mobilis_nov_90.271%183520162453221517224300000000018313100000000032262813000000000000
SPN1097Bacteria;Proteobacteria;Betaproteobacteria;Rhodocyclales;Zoogloeaceae;Azoarcus;olearius_nov_91.591%2933834192446402500280000000030004000000000490048000000000000
SPN110Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Paraeggerthella;hongkongensis_nov_93.510%0252021410021120420203012710210257747181273415121722263165014200000000000000
SPN1118Bacteria;Bacteroidetes;Bacteroidetes_[C-1];Bacteroidetes_[O-1];Bacteroidetes_[F-1];Bacteroidetes_[G-3];bacterium HMT436 nov_86.585%00000000000000000000000000000000000000272000593980000
SPN1120Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_88.761%02090301214154472221167105121727415111035664025903764362616686212110819526129000000000000
SPN1127Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-1];bacterium_MOT-147_nov_96.466%000000000000000000000000000000000000800000000147113181
SPN1139Bacteria;Chloroflexi;Anaerolineae;Aggregatilineales;Aggregatilineaceae;Aggregatilinea;lenta_nov_86.811%0251733304600960000000000010800150000000078000000000000000
SPN1152Bacteria;Firmicutes;Clostridia;Clostridiales;Peptostreptococcaceae_[XI];Peptostreptococcaceae_[XI][G-2];bacterium HMT091 nov_82.353%00100100001542183403885022179018000000000106000023000000000000
SPN1162Bacteria;Firmicutes;Clostridia;Clostridiales;Eubacteriaceae_[XV];Eubacterium;ramulus_nov_87.500%0000000000000000000000000000000000001340260001767202000
SPN1181Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_94.050%722201520742237257099577996819242736767521563149560631185523454943711177205178084318865618131372843138515371182148113101037308813352945000000000000
SPN1182Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculum;intestinale_nov_89.796%121123491381979337716910627833916832318517525831222415424323428435914617803611593114183157684876615589249000000000000
SPN121Bacteria;Saccharibacteria_(TM7);Saccharibacteria_(TM7)_[C-1];Saccharibacteria_(TM7)_[O-1];Saccharibacteria_(TM7)_[F-1];Saccharibacteria_(TM7)_[G-3];bacterium HMT351 nov_95.400%0000000000000000000000000000000000000002419912412001870340
SPN1231Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_86.061%0000000000000000000000000000000000004387032578137231492511591774229212215064839
SPN1242Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Rikenellaceae;Millionella;massiliensis_nov_92.874%2701361335013364795658666894649165426144728749270595750541451561142019210000000000000
SPN1289Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Kineothrix;alysoides_nov_96.154%5218110411022689050012923448397123282152196182168673822653344771362402383301682722262912937011310943000000000000
SPN131Bacteria;Firmicutes;Mollicutes;Mollicutes_[O-1];Mollicutes_[F-1];Mollicutes_[G-1];bacterium_MOT-186_nov_87.104%13001326162801123213121421414242534012282721123272024231920600000000000000000
SPN1351Bacteria;Firmicutes;Erysipelotrichia;Erysipelotrichales;Turicibacteraceae;Turicibacter;sanguinis_nov_96.372%05900191412604144551632976372050338526354138753738931645367374700040000000000000
SPN137Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-9];bacterium_MOT-174_nov_96.627%192365031162036831051366139541107352244345414697929184360256514459184221214755000000000000
SPN1396Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Lawsonibacter;asaccharolyticus_nov_97.362%87142238373340129666411303012449567112154189130925650630463537717618115735023222615533617369727811652000000000000
SPN142Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-3];bacterium_MOT-168_nov_97.704%00000000000000000000000000000000000063021160333256664700
SPN15Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-10];bacterium_MOT-175_nov_90.618%2211018212329037241024488523216244735821801641351049421388875449217601241722120000000000000
SPN1505Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_90.575%12823216527427515132524424653346722726330022649936835519340125224025111231526212222024321724130187146109327000000000000
SPN152Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnoclostridium;[Clostridium] polysaccharolyticum_nov_90.852%00000000000000000000000000000000000019900004860415120780
SPN1564Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Faecalicatena;fissicatena_nov_94.154%0000000000000000000000000000000000005578651010422549148330799547
SPN1585Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Paraeggerthella;hongkongensis_nov_93.285%25645039772180112414922441485269570432477796028660846931104126656035000440000000000000
SPN1606Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-6];bacterium_MOT-153_nov_94.952%713102812607152443482083942131191153918462161241167628923242231617360950744738720918528695663400000000000000
SPN163Bacteria;Firmicutes;Clostridia;Eubacteriales;Clostridiaceae;Clostridium;oryzae_nov_88.942%110141811324431613254009016950332115292537150614325725117146090000000000000
SPN1710Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-1];bacterium_MOT-129_nov_89.726%59185107149193113182250189233598210262360257366399396154302185149398113304264117283280250524494114274143401000000000000
SPN1731Bacteria;Proteobacteria;Deltaproteobacteria;Desulfovibrionales;Desulfovibrionaceae;Mailhella;massiliensis_nov_92.081%3192511082361365951772481351791861481311309711077242153565210399233126304389173209123350475595274476336244000000000000
SPN1743Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_92.220%12827521436466118922141919827030811222327516840646928311375215416827667167249105319388146206451306244162000000000000
SPN175Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-6];bacterium_MOT-171_nov_96.875%0340025004402035002922025002731495624034744350310150025190000000000000
SPN1755Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-11];bacterium_MOT-178_nov_97.129%018591074159202167135182189212594303308518121220919215318723217313626025696242404231910190020219000000000000
SPN1763Bacteria;Acidobacteria;Acidobacteriia;Acidobacteriales;Acidobacteriaceae;Occallatibacter;riparius_nov_82.339%020000051021029163112356011845040343524281447011141360180000000000000000
SPN1765Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-2];bacterium_MOT-162_nov_95.913%7533116821536411556146170486461249132562376356606296157198782693041172263472292874041931771882127984235000000000000
SPN1778Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculum;intestinale_nov_87.443%1602311732966476081432381112108957161133209724081450255732084951765114067866015936116957715277904315139732704229917216012153303000000000000
SPN1779Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_91.954%69862609579048216218786303507685253271500522153253119100284125177183597326116823254287179105492000000000000
SPN1801Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-9];bacterium_MOT-174_nov_95.673%302505912912370692841572203541421032721021821501671112441702954101541492452132162141925711389211471240000000000000
SPN1813Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Rikenellaceae;Alistipes;putredinis_nov_95.890%6697135711071631416510413320919910814521216017725023214517220325425430321177119731135911341793110168120000000000000
SPN1823Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Tannerellaceae;Parabacteroides;merdae_nov_95.642%1131381262121571341431141522181931341832122013022171622501322091952041094052102042902552311083293381022898000000000000
SPN1834Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Neglectibacter;timonensis_nov_97.831%51714187281581441646266145192558844114421071141192202773442144132513783131795111114565109170305144000000000000
SPN1847Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Prevotellaceae;Prevotellamassilia;timonensis_nov_94.279%9421715104772314110573117633111268919473186259124991914122220553505115568126745243100813784317000000000000
SPN185Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-3];bacterium_MOT-150_nov_96.172%0314484416181929542811002400003137643617275126192021665101850000000000000
SPN1858Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_94.483%1051541434312631039312517319626321818526325642420111477219131149227144761411122181573794138771421131293000000000000
SPN1869Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-6];bacterium_MOT-171_nov_95.422%21127891477461483747315718255451171441277011140229165298291103184197219262176139414204702407254000000000000
SPN1878Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Tannerellaceae;Parabacteroides;distasonis_nov_97.732%0000000000000000000000000000000000001148416623832228610019757139297
SPN1882Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-6];bacterium_MOT-171_nov_94.759%000000000000000000000000000000000000944129808023974006100000
SPN1893Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-1];bacterium_MOT-129_nov_91.705%5151011520878784534116715297341708144062497612407761360122717726121871141614462540642556824307042401160215563300244854610544831051000000000000
SPN1894Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_88.554%00000000000000000000000000000000000012048028610201191995181223773945
SPN19Bacteria;Proteobacteria;Alphaproteobacteria;Hyphomicrobiales;Xanthobacteraceae;Pseudolabrys;taiwanensis_nov_95.422%3826450484701242113790000000003215611300000000022118700000000000000
SPN1904Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lacrimispora;xylanolytica_nov_97.596%9451071822714241724424372661291577651422617820654327215060372929317813314913232202863269000000000000
SPN1916Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Sutterellaceae;Parasutterella;excrementihominis_nov_94.331%11413392114422051327915719826229418312813018750168678013113015820311795798258130805187194314188370000000000000
SPN1938Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-2];bacterium_MOT-162_nov_95.433%772658106286169288884211681031134610014035215583949236814012341692129193417264223187024460109000000000000
SPN1949Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Anaerotaenia;torta_nov_97.108%28972963477459116119602370134107198133165192203104142622552115813910663889914627960202313648000000000000
SPN1960Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Paraeggerthella;hongkongensis_nov_92.823%301252668910438150124781241545528547768488982317718524963361280160345894803378249069177000000000000
SPN1972Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lacrimispora;amygdalina_nov_96.627%7217927144426078901247240917357629319820215092509910932112441291091581801493695225112264862000000000000
SPN1982Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculum;intestinale_nov_92.220%2194792183235872433172705516591376102770715875349191067903472569397339910375564590279615933638116079970152174478000000000000
SPN1985Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_92.906%43311547412637261048219216815815398148184101879813996174120408207941833311684173768915292128000000000000
SPN199Bacteria;Proteobacteria;Alphaproteobacteria;Hyphomonadales;Hyphomonadaceae;Vitreimonas;flagellata_nov_93.990%36495251434328341660000000000017100000000000139000000000000000
SPN1993Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Adlercreutzia;caecimuris_nov_89.224%00000000000000000000000000000000000065256534240631591026714630
SPN1996Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Faecalicatena;orotica_nov_92.276%0000000000000000000000000000000000001295562771782399661674822425246
SPN2005Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Kineothrix;alysoides_nov_93.764%516618039002032142207419921491237960956437126879810121060569734485100845652744878916865297727176366000000000000
SPN2006Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-3];bacterium_MOT-168_nov_94.792%000000000000000000000000000000000000411874550244710240158100630031
SPN2028Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculum;intestinale_nov_92.874%409954651066461107106164289901821281291461572487619012013220150303122681401351292621635012278156000000000000
SPN2040Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculum;intestinale_nov_92.694%291026427139498392761061551381041721196916311911614612311812378124117789522617889333325563057000000000000
SPN2051Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-1];bacterium_MOT-159_nov_94.712%089739011716543449422319712948186141145196263988084220169127371511358922427620913901355191000000000000
SPN2063Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_89.069%00000000000000000000000000000000000030535612290191469590195102744
SPN2075Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Lawsonibacter;asaccharolyticus_nov_95.933%18692837911558901575818248700513491337961831932231249712716111020072796345452481250000000000000
SPN2088Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-6];bacterium_MOT-171_nov_93.096%000000000000000000000000000000000000362019802191275310433082100
SPN2099Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Faecalicatena;orotica_nov_95.904%33345741235939016097227188595619994939111755277106205138441023551022008263542583798820000000000000
SPN210Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Kineothrix;alysoides_nov_97.115%75369252835359127834511773692380017618034916812003754328695841312384878067544042414062236159343990000000000000
SPN2103Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_93.379%29123517094415270537963039825563700329454516201128839845726798780020000000000000
SPN2107Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Ruminiclostridium;papyrosolvens_nov_88.756%3466135584711441027753437524112282936741745530264145112331531651331623523800041000000000000
SPN2118Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Rikenellaceae;Alistipes;senegalensis_nov_95.862%342307179306545443302562441536679388580529354422715756401762787946111270427337977407661293119820732903167344189165000000000000
SPN2119Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Anaerotaenia;torta_nov_97.590%392842831513625834120113173124914613749510715304916013626656530114186811260075495500000000000000
SPN2140Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-10];bacterium_MOT-175_nov_95.433%41111272171463835010667165977223572281051379039162103233834625401331201681011259603600000000000000
SPN2151Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Tannerellaceae;Parabacteroides;distasonis_nov_97.701%19112275853349052921288387561839012516414016516796116634472211871201341434189176729372000000000000
SPN2163Bacteria;Deferribacteres;Deferribacteres;Deferribacterales;Mucispirillaceae;Mucispirillum;schaedleri_nov_96.833%0859214702195186949391741264158201013893462250525961813349363382896026130000000000000
SPN2174Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales Family XIII. Incertae Sedis;Aminipila;butyrica_nov_91.627%751447313923460388785133135566683791181171242888153153213601661666919014067741822548730000000000000
SPN218Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Odoribacteraceae;Odoribacter;splanchnicus_nov_92.562%00000000000000000000000000000000000012510640380268539000
SPN2187Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-1];bacterium_MOT-158_nov_95.204%170069411600162228239601125121115223176184125115059304789534378054291140000156000000000000
SPN2207Bacteria;Firmicutes;Clostridia;Clostridiales;Eubacteriaceae_[XV];Eubacterium;ventriosum_nov_97.108%864251479812954181471332482861011349228517130479844742689812484968781332374053353865000000000000
SPN2212Bacteria;Firmicutes;Clostridia;Clostridiales;Clostridiales_[F-1];Clostridiales_[F-1][G-1];bacterium HMT093 nov_87.381%062294915019148438880211944353831382623261168884423614860424538164036140000000000000
SPN2218Bacteria;Firmicutes;Erysipelotrichia;Erysipelotrichales;Erysipelotrichaceae;Holdemania;massiliensis_nov_92.483%20741837245402727789412572505225675589540318210211052134104749927786130100521467179000000000000
SPN2230Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_92.414%13634314135531235528645438554982457045196743668875311083754924834688794841034111141010238961190219611522778805041783000000000000
SPN2231Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_91.724%17293005052412463991881281111171951142252897981495394451189076762191785031442603541000000000000
SPN2252Bacteria;Proteobacteria;Deltaproteobacteria;Desulfovibrionales;Desulfovibrionaceae;Desulfovibrio;fairfieldensis_nov_89.379%000000000000000000000000000000000000882611314160769612610439537463911
SPN2262Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_92.449%47127429297672601086719363415512286797511191144939710337418244521061299412714002600000000000000
SPN2275Bacteria;Proteobacteria;Betaproteobacteria;Nitrosomonadales;Nitrosomonadaceae;Nitrosospira;multiformis_nov_93.864%2082112292022202161902481022231093900000000105244121360000000022038020976000000000000
SPN228Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Caproiciproducens;galactitolivorans_nov_89.737%003325131126159272514015302203410502938780274132231416883101389000000000000
SPN2287Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Odoribacteraceae;Culturomica;massiliensis_nov_91.055%334635443556614531145867259133116988411949101661079860255190731641181353493817552829000000000000
SPN2297Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_90.800%000000000000000000000000000000000000644229164002405771242920
SPN2309Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-1];bacterium_MOT-129_nov_86.089%000000000000000000000000000000000000117200332300409189140006122
SPN2326Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_92.874%1514352423463692043224112573216712993905343024925334803004584463577963028816302837077454701512977123386223585000000000000
SPN2331Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_92.922%33795268751071298263234150588216488868928179122771491093565152455964135126100036160000000000000
SPN2337Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-4];bacterium_MOT-165_nov_97.356%31020104133017117210628583401721723023018581267515448841546021014530000000000000
SPN2343Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-1];bacterium_MOT-129_nov_89.431%00000000000000000000000000000000000056541963455020163865683032660830
SPN2354Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-3];bacterium_MOT-163_nov_93.765%0000048200105230172120100107121180189717112116000000000490000000000000000000
SPN2365Bacteria;Proteobacteria;Gammaproteobacteria;Nevskiales;Steroidobacteraceae;Povalibacter;uvarum_nov_90.909%156151141185173167921562869615474000000003418613258000000004259818175000000000000
SPN2376Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-11];bacterium_MOT-176_nov_94.523%0000000000000000000000000000000000001164093000001844000
SPN238Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-3];bacterium_MOT-163_nov_81.065%0000000000000000000000000000000000005002407187404723465
SPN2388Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Kineothrix;alysoides_nov_96.154%3426104412023038164389859282517933682320125531831623735449266912889507422703831000000000000
SPN2400Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-1];bacterium_MOT-129_nov_90.816%000000000000000000000000000000000000124179118900456821771218180
SPN2410Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Ruminococcus;albus_nov_92.530%0239881913312516785555136243773293782903913711295984744847764236568552835027000000000000
SPN2422Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_87.398%00000000000000000000000000000000000049175146800022015765500127
SPN2433Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-12];bacterium_MOT-180_nov_94.231%254434521422506876428111032447851705738111112532920735908766060140012700000000000000
SPN244Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_93.578%13241015304943523139696339741173463110766429335442875860431041544429431504540000000000000
SPN2445Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_90.612%0000000000000000000000000000000000007410842613700119911365181583440
SPN2448Bacteria;Firmicutes;Erysipelotrichia;Erysipelotrichales;Erysipelotrichaceae;Amedibacillus;dolichus_nov_92.290%043170088130696982256349373513312249373041508521474920301841142500057000000000000
SPN2465Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Ruminiclostridium;cellulolyticum_nov_89.499%01800111289105255754011332428103658926534277395544442611849363282431270000000000000
SPN2474Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_91.264%72321494532262029548827325357689112124333930632735374048102602506112532769000000000000
SPN2478Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Odoribacteraceae;Odoribacter;splanchnicus_nov_93.807%39676014611552447539106330344953179961409710612399481887661220140594587122470000000000000
SPN248Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-4];bacterium_MOT-151_nov_96.651%1436022110036131520268270310200423138270354026432435648602100000000000000
SPN2486Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-12];bacterium_MOT-179_nov_92.548%011101150231484690733527274443732120274817330131414102231723171711216400000000000000
SPN2498Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Bacteroidaceae;Bacteroides;uniformis_nov_95.893%00000000000000000000000000000000000016113140208506375130030
SPN2509Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-1];bacterium_MOT-129_nov_86.640%00000000000000000000000000000000000033453302422106886167193242423
SPN2511Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Gluceribacter;canis_nov_93.501%0000000000000000000000000000000000000002455259000295659977
SPN2521Bacteria;Firmicutes;Erysipelotrichia;Erysipelotrichales;Erysipelotrichaceae;Longibaculum;muris_nov_92.308%2416008613021641021777713963542342064384501630122920170612325134001114000000000000
SPN2532Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Enterocloster;asparagiformis_nov_96.875%05004649001450804900500634633329939107724132603978804310735301800000000000000
SPN2543Bacteria;Firmicutes;Clostridia;Eubacteriales;Clostridiaceae;Butyricicoccus;pullicaecorum_nov_94.737%24208626071363043314197132255270325402352611120149345289015225460462529000000000000
SPN2555Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_91.034%525424789440327651491931984781341338015014212267901402212433193832590289117299245211544186191920167000000000000
SPN2556Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Burkholderiaceae;Paraburkholderia;hospita_nov_91.667%85106118116119119719601694937000000000187653800000000182677533000000000000
SPN2566Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-4];bacterium_MOT-165_nov_94.724%069533982650045907357012893701491034850073280147044431018200051034000000000000
SPN2577Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Sutterellaceae;Parasutterella;excrementihominis_nov_94.578%00000000000000000000000000000000000041451751252431891259153566539
SPN2588Bacteria;Proteobacteria;Alphaproteobacteria;Rhodospirillales;Kiloniellaceae;Kiloniella;majae_nov_88.836%7331971832582932455270051442061663320653043251021221530274802322112213000000000000
SPN259Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-1];bacterium_MOT-158_nov_96.635%0055102920352703600003574570002634280003270790000000000000000000
SPN2594Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Tannerellaceae;Parabacteroides;merdae_nov_93.265%000000000000000000000000000000000000403124671711284659174841641442
SPN2600Bacteria;Acidobacteria;Holophagae;Holophagales;Holophagaceae;Holophaga;foetida_nov_85.102%6490839910194551020265480000000000365630000000000215350000000000000
SPN2610Bacteria;Firmicutes;Erysipelotrichia;Erysipelotrichales;Erysipelotrichaceae;Erysipelatoclostridium;[Clostridium] saccharogumia_nov_93.213%033258117201075347715827194130892071489775315521283121106172423038012155000000000000
SPN2622Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Anaerotruncus;colihominis_nov_95.904%000000016300000220000011449737134534410727333110068800180000000000000
SPN2633Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_92.414%21121430966016452220024127272041822425319325172194332153013224825400270000000000000
SPN2643Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-10];bacterium_MOT-175_nov_93.525%039000009403361180352300470953760733032425338113153614027240000000000000
SPN2655Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-7];bacterium_MOT-172_nov_91.925%00000000000000000000000000000000000022223243736526811184711200
SPN2665Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Rikenellaceae;Alistipes;putredinis_nov_97.471%1232041082671584282481723093354644512933763185164268374212853963724334551250433384499442838192646041964598000000000000
SPN2666Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Odoribacteraceae;Odoribacter;splanchnicus_nov_92.184%1317232227291327294851242654394039512571365833226843467060507230703100000000000000
SPN2676Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_93.293%0000000000000000000000000000000000009811157208175038711407142
SPN2688Bacteria;Acidobacteria;Acidobacteriia;Bryobacterales;Bryobacteraceae;Paludibaculum;fermentans_nov_92.048%57113939610211882129689987000000000011568700000000038112500000000000000
SPN2694Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_87.375%0000000000000000000000000000000000000956781878149308932535338266
SPN2698Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_92.449%1659374910834232502349035603761833405066516708068294369519833025180000000000000
SPN2708Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Kineothrix;alysoides_nov_97.356%28532353431125013181419430131419100780017220248378301711460000000000000000
SPN271Bacteria;Proteobacteria;Gammaproteobacteria;Xanthomonadales;Rhodanobacteraceae;Dokdonella;fugitiva_nov_97.955%243546473231255182491418000000009572618000000006646023000000000000
SPN2719Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-10];bacterium_MOT-175_nov_96.394%6126125413065281756042000490452500262066290116559103500600000000000000000
SPN2731Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Muricomes;intestini_nov_97.831%02234612201343059251336252929290183447173473133213554213013431303300000000000000
SPN2742Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnoclostridium;[Clostridium] herbivorans_nov_92.917%00000000000000000000000000000000000075101170000320273000
SPN2752Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_92.449%21342346691964592955400283510354902365776586191376419677633294301570000000000000
SPN2772Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_93.333%1492179813739012922838522030050123842740723621456123520539837731449123811086512412881191531142713096823083249000000000000
SPN2774Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_90.669%00000000000000000000000000000000000011213262800085266175000
SPN2797Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-4];bacterium_MOT-151_nov_91.647%11114562792321142940965829222932413918135094812826322551373511019093613000000000000
SPN2805Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-4];bacterium_MOT-151_nov_97.847%07200572810305363105842514038274666663151679255398245228965678710656629000000000000
SPN2807Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_86.089%00000000000000000000000000000000000029160553007135200264009
SPN2818Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-2];bacterium_MOT-149_nov_95.704%9190173491834372348232901305916033252961352430302083421719299122900000000000000
SPN282Bacteria;Proteobacteria;Alphaproteobacteria;Hyphomicrobiales;Xanthobacteraceae;Pseudolabrys;taiwanensis_nov_95.673%3638045523540377548250000020009469420000000005343340000000000000
SPN2829Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Rikenellaceae;Alistipes;finegoldii_nov_97.241%3029033017342102602433511741123927193669463820659476349441026608100000000000000
SPN2841Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Anaeromassilibacillus;senegalensis_nov_93.765%03126201710847124148160445215172110234356502747104424228308014221392223000000000000
SPN2852Bacteria;Proteobacteria;Gammaproteobacteria;Chromatiales;Thioalkalispiraceae;Thiohalophilus;thiocyanatoxydans_nov_92.986%000000000000000000440000029503660002360000297000000000000
SPN2874Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-12];bacterium_MOT-180_nov_94.479%000000000000000000000000000000000000220001810491103107316
SPN2885Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_90.115%1861578414224014131627122335772426671135019027744352229838729030659922712785101882987524971422118848147101322000000000000
SPN2886Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Roseburia;faecis_nov_93.990%24425226491330402309000001260007101130000014300000160000000000000
SPN2896Bacteria;Proteobacteria;Alphaproteobacteria;Rhodospirillales;Azospirillaceae;Nitrospirillum;amazonense_nov_89.663%4150595550573256953782200000000011842110000000000118429222000000000000
SPN29Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-2];bacterium_MOT-149_nov_94.272%22340731302428014036000260012206371370855404902614211601100000000000000
SPN2906Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnoclostridium;[Clostridium] populeti_nov_95.422%012181150042300010210004400220222119331703851190603290000000000000000
SPN291Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_91.650%000000000000000000000000000000000000000006900034372287
SPN2914Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_88.235%229002439202633511666911271664173106556639399147584936261511743842550292928000000000000
SPN2918Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-4];bacterium_MOT-164_nov_96.154%020000131004488108430434746521933844003500000017917090220000000000000
SPN2930Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Kineothrix;alysoides_nov_97.108%11477340252423721802821004400210743458500055602800652810000000000000000
SPN2941Bacteria;Proteobacteria;Gammaproteobacteria;Nevskiales;Steroidobacteraceae;Povalibacter;uvarum_nov_90.971%63705863796950631034537000000000115642700000000013068330000000000000
SPN2953Bacteria;Proteobacteria;Gammaproteobacteria;Immundisolibacterales;Immundisolibacteraceae;Immundisolibacter;cernigliae_nov_92.727%000000000000000000310000028602220001980000383000000000000
SPN2964Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Oxalobacteraceae;Collimonas;fungivorans_nov_91.403%666876706066565133799000000000300102330000000026021163000000000000
SPN2976Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_86.720%00000000000000000000000000000000000015642041232181641082522151174
SPN2984Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-1];bacterium_MOT-129_nov_87.398%00000000000000000000000000000000000033873891120406615218006469
SPN2995Bacteria;Firmicutes;Clostridia;Clostridiales;Eubacteriaceae_[XV];Eubacterium;coprostanoligenes_nov_95.683%4860035350286102070532673109437632913019863259273981863091672403891066241826774238172742974651052849608000000000000
SPN2997Bacteria;Firmicutes;Clostridia;Clostridiales;Peptostreptococcaceae_[XI];Peptostreptococcaceae_[XI][G-2];bacterium HMT091 nov_93.285%9349127152131312343876311227116266414152202041009371257100110352521000000000000
SPN3008Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-1];bacterium_MOT-147_nov_97.143%02508553501054731502718231233240024374665600611381780470000000000000000
SPN3020Bacteria;Firmicutes;Clostridia;Clostridiales;Clostridiales_[F-1];Clostridiales_[F-1][G-1];bacterium HMT093 nov_90.215%136113981611196920291001227123900113635603729518340693420439401100000000000000
SPN3028Bacteria;Proteobacteria;Alphaproteobacteria;Micropepsales;Micropepsaceae;Rhizomicrobium;electricum_nov_93.012%1481391391351321321241702574411510000000003165391000000000292521130000000000000
SPN3041Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Oscillospiraceae_[G-4];bacterium_MOT-151_nov_97.608%20331938315815142527582134400322236004741621722451936357942575000000000000000
SPN3063Bacteria;Firmicutes;Bacilli;Bacillales;Paenibacillaceae;Paenibacillus;aurantiacus_nov_97.052%715966755976475901570000000000020600000000000116180000000000000
SPN3073Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-1];bacterium_MOT-129_nov_88.046%0000000004896098135001080092039002118900930000000000000000000
SPN3083Bacteria;Bacteroidota;Cytophagia;Cytophagales;Fulvivirgaceae;Xanthovirga;aplysinae_nov_84.424%00000000000000000000000000367000000340607000000000000
SPN3093Bacteria;Bacteroidetes;Bacteroidetes_[C-1];Bacteroidetes_[O-1];Bacteroidetes_[F-1];Bacteroidetes_[G-3];bacterium HMT436 nov_85.396%0000000000000000000000000000000000000033800000655000
SPN3103Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-1];bacterium_MOT-129_nov_86.957%13017189223202140266360245616685384428625321500560810248370221291384193943341161561522377912377103282165384000000000000
SPN3105Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Prevotellaceae;Prevotella;shahii_nov_87.398%0000000000000000000000000000000000000342003069029006190
SPN314Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Oxalobacteraceae;Collimonas;fungivorans_nov_92.273%415036345655455208300000000000970000000000020000000000000000
SPN326Bacteria;Proteobacteria;Alphaproteobacteria;Rhodospirillales;Kiloniellaceae;Aestuariispira;insulae_nov_86.936%122307832133613240362615191118162718132402121061034181416900000000000000000
SPN336Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Roseburia;intestinalis_nov_95.683%0261472270039193928151420033262211251521310251617371804637024813000000000000
SPN347Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Ruthenibacterium;lactatiformans_nov_97.590%1029912457110218341600019615001760796515618451728001901680000000000000
SPN354Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Rikenellaceae;Millionella;massiliensis_nov_87.156%17152380111048451008859407470757247481287390966115910150736511715524016342816000000000000
SPN358Bacteria;Rhodothermaeota;Rhodothermia;Rhodothermales;Salisaetaceae;Roseithermus;sacchariphilus_nov_88.479%23353721553232360017300000000000182000000000001010000000000000
SPN368Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Oxalobacteraceae;Herbaspirillum;seropedicae_nov_92.273%3243343333533058381703400000000412132270000000045368136000000000000
SPN379Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Adlercreutzia;muris_nov_94.952%021000130411415320013000240452736147099540132020046001525000000000000
SPN391Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Lawsonibacter;asaccharolyticus_nov_97.362%003300163500001200000025024026201800028313101410000000000000000
SPN40Bacteria;Firmicutes;Erysipelotrichia;Erysipelotrichales;Erysipelotrichaceae;Amedibacillus;dolichus_nov_92.081%000913191132039240102013913160213283504251286836381472141035150000000000000
SPN402Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Paraeggerthella;hongkongensis_nov_89.154%0000000000000000000000000000000000004601271720211269074842215
SPN413Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-11];bacterium_MOT-177_nov_97.608%01866648722923640000043200220000000072270310000000000000000000
SPN421Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_92.644%22025116730031315955555912445146714038725620140227123522242426531142518116984081725902941843614524415382652000000000000
SPN422Bacteria;Chloroflexi;Anaerolineae;Anaerolineales;Anaerolineaceae;Thermomarinilinea;lacunifontana_nov_86.779%00000000000000000015000001960119000860000280000000000000
SPN432Bacteria;Bacteroidota;Saprospiria;Saprospirales;Haliscomenobacteraceae;Portibacter;lacus_nov_89.220%374627215046313401411821000000000111301500000000040250000000000000
SPN444Bacteria;Bacteroidota;Cytophagia;Cytophagales;Fulvivirgaceae;Ohtaekwangia;koreensis_nov_94.253%0443243293136420615900000000001416700000000000860000000000000
SPN454Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-11];bacterium_MOT-176_nov_94.919%00000000000000000000000000000000000000000000677000
SPN463Bacteria;Deferribacteres;Deferribacteres;Deferribacterales;Mucispirillaceae;Mucispirillum;schaedleri_nov_97.500%04759131704769231722120211754139968632921173540440413821223552553590000000000000
SPN475Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales Family XIII. Incertae Sedis;Ihubacter;massiliensis_nov_97.596%0013182383201902326300022130256981424170916012351003269037000000000000
SPN486Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_89.919%000000000000000000000000000000000000223014106002784283000
SPN494Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Kineothrix;alysoides_nov_97.590%9100072379321200471570000041113050619297087033651391482745980000000000000000
SPN498Bacteria;Acidobacteria;Acidobacteriia;Acidobacteriales;Acidobacteriaceae;Granulicella;acidiphila_nov_83.732%0701416121980151858010709012019121714160191615162293100926000000000000
SPN50Bacteria;Acidobacteria;Acidobacteriia;Bryobacterales;Bryobacteraceae;Paludibaculum;fermentans_nov_93.780%45565648506340631295930000000007107102000000000059570000000000000
SPN510Bacteria;Firmicutes;Mollicutes;Mollicutes_[O-2];Mollicutes_[F-2];Mollicutes_[G-2];bacterium_MOT-187_nov_85.747%03400140280261745230431502302711160260024160310207180000000000000000
SPN519Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_89.264%00000000000000000000000000000000000000283018101601279719
SPN528Bacteria;Proteobacteria;Deltaproteobacteria;Desulfovibrionales;Desulfovibrionaceae;Desulfovibrio;fairfieldensis_nov_95.000%39395297795541234458187335115014789126038792937556336241338472120184395156155144971962076872361197104000000000000
SPN529Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Rikenellaceae;Tidjanibacter;massiliensis_nov_88.776%00000000000000000000000000000000000049179600172343161556175
SPN539Bacteria;Acidobacteria;Acidobacteriia;Acidobacteriales;Acidobacteriaceae;Pseudacidobacterium;ailaaui_nov_93.269%314217363837292884003200000000103005300000000760034000000000000
SPN551Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-13];bacterium_MOT-181_nov_91.189%000000000000000000000000000000000000874780110028423000
SPN560Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-2];bacterium_MOT-162_nov_94.712%031163134141600140002621182900004330171845273667075200000000000000000
SPN572Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Pseudoflavonifractor;phocaeensis_nov_89.474%93198383966402081112113883140179847210422344966632712244540454228249218118999000000000000
SPN573Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Comamonadaceae;Schlegelella;aquatica_nov_90.971%424247564932304653040000000000143850000000000851390000000000000
SPN584Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Papillibacter;cinnamivorans_nov_93.795%0002800430000900080520010301915251332090334180000000000000000
SPN596Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-11];bacterium_MOT-178_nov_92.089%00000000000000000000000000000000000013803800010283870170
SPN60Bacteria;Actinobacteria;Acidimicrobiia;Acidimicrobiales;Iamiaceae;Actinomarinicola;tropica_nov_91.607%00000000000000000000000023601820002090000315000000000000
SPN606Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Harryflintia;acetispora_nov_93.079%22702200033019900161617680300643582632263216242111001400000000000000
SPN617Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Anaerocolumna;cellulosilytica_nov_90.000%000000000000000000000000000000000000440001317040497000
SPN628Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-12];bacterium_MOT-179_nov_94.501%000000000000000000000000000000000000401315701011161223000
SPN640Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_93.333%12720512216233914021829018024928918824826213713237129818930527823837818686342318323884631415401006128230140247000000000000
SPN649Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-3];bacterium_MOT-168_nov_95.208%0000000000000000000000000000000000000000042000519410
SPN660Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Marvinbryantia;formatexigens_nov_91.435%0000000000000000000000000000000000009904210000081000
SPN672Bacteria;Proteobacteria;Gammaproteobacteria;Nevskiales;Steroidobacteraceae;Povalibacter;uvarum_nov_94.104%32322550394032421152190000000001673160000000001187230000000000000
SPN681Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Rikenellaceae;Alistipes;putredinis_nov_96.782%375345595639783342896691581776463391133729775040641016277872846557111867000000000000
SPN683Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Roseburia;faecis_nov_94.231%00310010001521400107600026000171900010001500282045331000000000000
SPN696Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Eisenbergiella;massiliensis_nov_94.286%000000033029100000000150462423200104177151772334000000000000
SPN705Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculum;intestinale_nov_94.533%00000000000301708886493626000000035029018800000000000000000
SPN715Bacteria;Proteobacteria;Betaproteobacteria;Burkholderiales;Sphaerotilaceae;Piscinibacter;defluvii_nov_97.500%514246595342454012250000000000202113130040000025272718000000000000
SPN72Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-6];bacterium_MOT-171_nov_95.188%00000000000000000000000000000000000090066034316004071220
SPN726Bacteria;Chloroflexi;Anaerolineae;Aggregatilineales;Aggregatilineaceae;Aggregatilinea;lenta_nov_87.081%34023360213529177448000000000308068000000000056270000000000000
SPN735Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Adlercreutzia;mucosicola_nov_97.826%013018180312118031020250000004327107224121021232415370000000000000000
SPN746Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-11];bacterium_MOT-176_nov_97.608%772552304482111156254613233540611815420429522212814362550253674441188428314305621252187371184857342131160000000000000
SPN747Bacteria;Acidobacteria;Vicinamibacteria;Vicinamibacterales;Vicinamibacteraceae;Luteitalea;pratensis_nov_92.135%27373901734507734680000000000256302300000000858012000000000000
SPN757Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lacrimispora;xylanolytica_nov_93.789%00000000000000000000000000000000000000001442470776415023
SPN767Bacteria;Firmicutes;Clostridia;Eubacteriales;Oscillospiraceae;Hydrogenoanaerobacterium;saccharovorans_nov_93.735%0000078380118132600806261650101014710000031281200014000000000000
SPN779Bacteria;Acidobacteria;Acidobacteriia;Bryobacterales;Bryobacteraceae;Paludibaculum;fermentans_nov_91.388%3040513647263548066000000000016870000000000137100000000000000
SPN789Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Coprococcus;catus_nov_95.192%6412980127512252745000003827381110005674943916915265110200290560000000000000000
SPN791Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lacrimispora;indolis_nov_90.625%0333233300025019000151209901821342317141422190141167156000000000000000
SPN800Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnoclostridium;[Clostridium] populeti_nov_96.386%000280100280394621032350000320230015300001201211831035000000000000
SPN809Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Adlercreutzia;muris_nov_88.745%0000000000000000000000000000000000003741351191131717126551497
SPN819Bacteria;Firmicutes;Clostridia;Eubacteriales;Desulfotomaculaceae;Pelotomaculum;terephthalicicum_nov_86.667%004044560160050506200000000057526700000000016390000000000000
SPN830Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-11];bacterium_MOT-177_nov_94.606%0000000000000000000000000000000000000000010220511000
SPN84Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Butyrivibrio;crossotus_nov_97.108%001590012004443494515222933136401923000000103000000000000000000000
SPN841Bacteria;Proteobacteria;Alphaproteobacteria;Hyphomonadales;Hyphomonadaceae;Vitreimonas;flagellata_nov_95.465%03926323437154506516130000000009793000000000059160000000000000
SPN852Bacteria;Saccharibacteria_(TM7);Saccharibacteria_(TM7)_[C-1];Saccharibacteria_(TM7)_[O-1];Saccharibacteria_(TM7)_[F-1];Saccharibacteria_(TM7)_[G-3];bacterium HMT351 nov_97.122%801375984216294135123179293450167144354141238439717216247167305389147103728216221243979490780925975371000000000000
SPN853Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Prevotellaceae;Prevotella;sp._MOT-128_nov_91.954%0001440189519721991302311161014054602714133020701500000000000000
SPN864Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-6];bacterium_MOT-171_nov_91.213%00000000000000000000000000000000000014011012982002780015
SPN876Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_89.474%0000000000000000000000000000000000000323700310222841000
SPN887Bacteria;Actinobacteria;Coriobacteriia;Eggerthellales;Eggerthellaceae;Adlercreutzia;caecimuris_nov_92.291%0000000000000000000000000000000000002601603037052210150128
SPN899Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-14];bacterium_MOT-184_nov_94.820%00000000000000000000000000000000000000541000017070000
SPN900Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Anaerotignum;lactatifermentans_nov_97.847%016942130002145314302024251501701123025401319106521008011000000000000
SPN923Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Odoribacteraceae;Culturomica;massiliensis_nov_89.613%000000000000000000000000000000000000382410800021791980025
SPN932Bacteria;Proteobacteria;Alphaproteobacteria;Rhodospirillales;Rhodospirillaceae;Dongia;mobilis_nov_96.145%2821344523241628241732000000000276781100000000014600000000000000
SPN943Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-10];bacterium_MOT-175_nov_90.612%000000000000000000000000000000000000620300070443170025
SPN95Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-2];bacterium_MOT-104_nov_91.284%5827543761014224684313701455135614034068110014361834950172831012193106416282760253746071469725627591245324489934218926782901821429920603925000000000000
SPN953Bacteria;Bacteroidota;Cytophagia;Cytophagales;Fulvivirgaceae;Chryseolinea;soli_nov_95.392%41410360460000128360000000017011723000000000000000000000000
SPN962Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculum;intestinale_nov_93.822%87110828516569189111208297837254386327208220328294284308194216538163304218116154481300149971450127144308000000000000
SPN963Bacteria;Bacteroidota;Cytophagia;Cytophagales;Spirosomaceae;Arsenicibacter;rosenii_nov_97.936%000000000000000000000000000000000800403000000000000
SPN974Bacteria;Bacteroidetes;Bacteroidetes_[C-1];Bacteroidetes_[O-1];Bacteroidetes_[F-1];Bacteroidetes_[G-3];bacterium HMT436 nov_85.223%0000000000000000000000000000000000002394000013621600014
SPN98Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Kineothrix;alysoides_nov_97.837%64174781872887397464143310710108212283117149229171113473297606503249567290361275471213991304434368186139000000000000
SPN985Bacteria;Bacteroidota;Bacteroidia;Bacteroidales;Muribaculaceae;Duncaniella;freteri_nov_90.283%0000000000000000000000000000000000000263460160253336000
SPN989Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;Muribaculaceae_[G-1];bacterium_MOT-129_nov_91.705%197241391957119011094830904868395463641335715303952813049851994461383018142249588623948119628995316279144782723919470393416004244871780743689218791214721729786223676000000000000
SPN99Bacteria;Tenericutes;Mollicutes;Anaeroplasmatales;Anaeroplasmataceae;Anaeroplasma;abactoclasticum_nov_92.874%493319270861324791613033251115031191122210175154882105127172610715000000000000
SPN997Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-3];bacterium_MOT-163_nov_94.005%00020540022373033111824232989127000000167063300000000000000000
SPP102Bacteria;Firmicutes;Bacilli;Bacillales;Staphylococcaceae;Staphylococcus;multispecies_spp102_30000000000000000001790000000109700080300000000000000000
SPP110Bacteria;Proteobacteria;Alphaproteobacteria;Rhizobiales;Bradyrhizobiaceae;multigenus;multispecies_spp110_18865493947265849213799126106000000001299315414400000000112678996000000000000
SPP115Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-12];multispecies_spp115_2003458205025580546026000206600288736420002929920019605200000000000000
SPP12Bacteria;Actinobacteria;Actinomycetia;Micrococcales;Micrococcaceae;multigenus;multispecies_spp12_70126129116146001370872429100000000095258990000000006117769000000000000
SPP122Bacteria;Proteobacteria;Gammaproteobacteria;Pasteurellales;Pasteurellaceae;multigenus;multispecies_spp122_2216420941995211514872069145619735314104441466452537339498296433120745365455485354034893185534907536458883588000000000000
SPP147Bacteria;Firmicutes;Bacilli;Lactobacillales;Lactobacillaceae;Ligilactobacillus;multispecies_spp147_32983819557912511902419625321013242283824898741991767390110661489327525358344995335866512847924124514046034264359105847103308710355031376471000000000000
SPP148Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Bacteroidaceae;Bacteroides;multispecies_spp148_294150143332250242371097098761085580535610588103389310633425561652413061459311215029522931911132204822287450000000000000
SPP159Bacteria;Proteobacteria;Alphaproteobacteria;Sphingomonadales;Sphingomonadaceae;Sphingomonas;multispecies_spp159_20000000000000000000000000040000000440462000000000000
SPP164Bacteria;Bacteroidota;Flavobacteriia;Flavobacteriales;Weeksellaceae;multigenus;multispecies_spp164_20000000000000000000000000081000000640735000000000000
SPP166Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Blautia;multispecies_spp166_3421432256240239416081513466225772772310101521353573440391957106353998814244202095157616513892472387711612314491254235499000000000000
SPP178Bacteria;Proteobacteria;Gammaproteobacteria;Enterobacterales;Enterobacteriaceae;multigenus;multispecies_spp178_53054821134331133805368968749211762248263310528390152937461910802425319004171320812758903497000000000000
SPP188Bacteria;Proteobacteria;Alphaproteobacteria;Hyphomicrobiales;Methylobacteriaceae;Methylorubrum;multispecies_spp188_900000000000000000000000000767000000580810000000000000
SPP189Bacteria;Proteobacteria;Gammaproteobacteria;Pseudomonadales;Pseudomonadaceae;Pseudomonas;multispecies_spp189_437282323304526270721400000000007721000000000070200000000000000
SPP195Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Enterocloster;multispecies_spp195_200950000000000059000000280142004850003100000000000000000
SPP2Bacteria;Firmicutes;Clostridia;Eubacteriales;Clostridiaceae;Hungatella;multispecies_spp2_200351000000000001650000073105127617346174237444275940000000000000000
SPP209Bacteria;Firmicutes;Clostridia;Eubacteriales;Clostridiaceae;Clostridium;multispecies_spp209_24738434429483448011409000000000132000000000009100000000000000
SPP23Bacteria;Actinobacteria;Actinomycetia;Micrococcales;Micrococcaceae;multigenus;multispecies_spp23_53633873253383594823153268039286513500000000121430884142000000008233865198000000000000
SPP32Bacteria;Proteobacteria;Alphaproteobacteria;Rhizobiales;Rhizobiaceae;Mesorhizobium;multispecies_spp32_5374752384370434130725400000000043709518000000003671630000000000000
SPP44Bacteria;Actinobacteria;Actinobacteria;Bifidobacteriales;Bifidobacteriaceae;Bifidobacterium;multispecies_spp44_21700000121623471042571741816270000000140000007100000000000000000
SPP58Bacteria;Proteobacteria;Gammaproteobacteria;Pseudomonadales;Pseudomonadaceae;Pseudomonas;multispecies_spp58_318302930155743444058270000000004846230000000005275290000000000000
SPP60Bacteria;Firmicutes;Bacilli;Bacillales;Bacillaceae;Priestia;multispecies_spp60_20000000010000000000000172400084500000050802965000000000000
SPP65Bacteria;Firmicutes;Clostridia;Eubacteriales;Clostridiaceae;Clostridium;multispecies_spp65_28311011925961151371671653212045352341465206158237434612929266005812922175803200000000000000
SPP81Bacteria;Firmicutes;Bacilli;Lactobacillales;Lactobacillaceae;multigenus;multispecies_spp81_28472116698139245995877528872724192617315634261517115546109607329341642296126459581000000000000
SPP87Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-4];multispecies_spp87_20062133164570080235220145011495271367155901043115810386064681821149208045730211000000000000
SPP89Bacteria;Firmicutes;Bacilli;Lactobacillales;Streptococcaceae;Streptococcus;multispecies_spp89_2965184815861652201484915031530112101119105679151111431234145566310819201557196447461303142312291432664113011263160343641422481000000000000
SPP94Bacteria;Proteobacteria;Alphaproteobacteria;Hyphomicrobiales;Rhizobiaceae;Rhizobium;multispecies_spp94_2000210003002600000000001600008500000010401189000000000000
SPP99Bacteria;Firmicutes;Bacilli;Bacillales;Bacillaceae;multigenus;multispecies_spp99_204157553941445400640000000003906200012650000020637693557000000000000
SPPN112Bacteria;Acidobacteria;Vicinamibacteria;Vicinamibacterales;Vicinamibacteraceae;multigenus;multispecies_sppn112_2_nov_92.971%5145521500001825980000000002428660000000001417460000000000000
SPPN133Bacteria;Acidobacteria;Acidobacteriia;Acidobacteriales;Acidobacteriaceae;Edaphobacter;multispecies_sppn133_2_nov_91.346%231724171834025870013000000008700150000000090000000000000000
SPPN175Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Lachnospiraceae_[G-11];multispecies_sppn175_2_nov_97.375%40145126287514506444736926939744812551005515460660510114022000177037000000000000
SPPN18Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Muribaculaceae;multigenus;multispecies_sppn18_2_nov_92.677%16446635350745723853653244411071063577465713654951740614409112744751988731132868832510096174189871123191532325558000000000000
SPPN211Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;multigenus;multispecies_sppn211_2_nov_97.590%174758919062236410616002471259115030119847016861715196111383114840217900000000000000
SPPN226Bacteria;Firmicutes;Clostridia;Eubacteriales;Lachnospiraceae;Faecalicatena;multispecies_sppn226_2_nov_97.590%89398315543901562061661362321792766218519249612915818719214329515320512026722747097169984174401245080000000000000
SPPN236Bacteria;Firmicutes;Clostridia;Eubacteriales;Eubacteriales_[F-1];Eubacteriales_[G-1];multispecies_sppn236_2_nov_97.837%24164322993505016401330025461024731051154120294174111162919117445819615219431502300000000000000
SPPN245Bacteria;Actinobacteria;Coriobacteriia;Coriobacteriales;Atopobiaceae;Olsenella;multispecies_sppn245_2_nov_96.682%2410726967339210877813316010946708010391109836783961096912211111111311875140713311916914899000000000000
SPPN255Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Bacteroidaceae;Bacteroides;multispecies_sppn255_2_nov_96.552%37586213516350104103721811311027611612023121012717119936743853304785160149662241159211612069000000000000
SPPN26Bacteria;Firmicutes;Clostridia;Eubacteriales;Defluviitaleaceae;Defluviitalea;multispecies_sppn26_2_nov_87.828%0265714292005773229140197731254707710331904253112916146600100000000000000
SPPN263Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Rikenellaceae;Alistipes;multispecies_sppn263_2_nov_96.552%311073012811099654898121117155361117516112913390118117122110131119145531441431453081381536030000000000000
SPPN267Bacteria;Firmicutes;Clostridia;Eubacteriales;multifamily;multigenus;multispecies_sppn267_3_nov_95.422%077201512938020148721302130118333492781513488124180738590122762036610210361054800000000000000
SPPN273Bacteria;Firmicutes;Clostridia;Eubacteriales;multifamily;multigenus;multispecies_sppn273_3_nov_96.386%039382113570148971182111983579132604962341476510212681515710660481039271223535326000000000000
SPPN274Bacteria;Actinobacteria;Coriobacteriia;Coriobacteriales;Atopobiaceae;Olsenella;multispecies_sppn274_2_nov_91.966%00000000000000000000000000000000000012300369158472350231177309730240
SPPN313Bacteria;Proteobacteria;Alphaproteobacteria;Rhodospirillales;Rhodospirillaceae;Dongia;multispecies_sppn313_2_nov_96.386%59856376789251121016158000000000172198100000000018175760000000000000
SPPN315Bacteria;Bacteroidetes;Bacteroidetes_[C-1];Bacteroidetes_[O-1];Bacteroidetes_[F-1];Bacteroidetes_[G-3];multispecies_sppn315_2_nov_87.500%0120006002921958803265415948674234296228234458176140241503900412000000000000
SPPN339Bacteria;Bacteroidetes;Bacteroidia;Bacteroidales;Rikenellaceae;Alistipes;multispecies_sppn339_2_nov_96.322%00001800341519376510111125412415712044316329131819443329286018727000000000000
SPPN342Bacteria;Proteobacteria;Alphaproteobacteria;Hyphomicrobiales;Devosiaceae;Devosia;multispecies_sppn342_2_nov_96.145%30456840337834780851110000000009811181400000000092960000000000000
SPPN41Bacteria;Proteobacteria;Alphaproteobacteria;Hyphomicrobiales;Parvibaculaceae;Rhodoligotrophos;multispecies_sppn41_2_nov_79.157%133401913161300199000111233663448324801014456276180014331449000000000000
SPPN42Bacteria;Firmicutes;multiclass;multiorder;multifamily;multigenus;multispecies_sppn42_3_nov_87.668%7072616195401394622025720281864112441849826015922312822228840414017913922410174220722623992461231291406000000000000
SPPN5Bacteria;Proteobacteria;Alphaproteobacteria;Hyphomicrobiales;Hyphomicrobiaceae;Hyphomicrobium;multispecies_sppn5_2_nov_94.940%53595136395835552578333200000000457843530000000045773340000000000000
SPPN59Bacteria;Proteobacteria;Alphaproteobacteria;Hyphomicrobiales;Methylocystaceae;Methylocystis;multispecies_sppn59_2_nov_97.590%035203542043355261039000000006892122300000000545700000000000000
SPPN78Bacteria;Actinobacteria;Actinomycetia;Kineosporiales;Kineosporiaceae;multigenus;multispecies_sppn78_3_nov_97.381%000000000000000000290000012701180001100000220000000000000
 
 
Download OTU Tables at Different Taxonomy Levels
PhylumCount*: Relative**: CLR***:
ClassCount*: Relative**: CLR***:
OrderCount*: Relative**: CLR***:
FamilyCount*: Relative**: CLR***:
GenusCount*: Relative**: CLR***:
SpeciesCount*: Relative**: CLR***:
* Read count
** Relative abundance (count/total sample count)
*** Centered log ratio transformed abundance
;
 
The species listed in the table has full taxonomy and a dynamically assigned species ID specific to this report. When some reads match with the reference sequences of more than one species equally (i.e., same percent identiy and alignmnet coverage), they can't be assigned to a particular species. Instead, they are assigned to multiple species with the species notaton "s__multispecies_spp2_2". In this notation, spp2 is the dynamic ID assigned to these reads that hit multiple sequences and the "_2" at the end of the notation means there are two species in the spp2.

You can look up which species are included in the multi-species assignment, in this table below:
 
 
 
 
Another type of notation is "s__multispecies_sppn2_2", in which the "n" in the sppn2 means it's a potential novel species because all the reads in this species have < 98% idenity to any of the reference sequences. They were grouped together based on de novo OTU clustering at 98% identity cutoff. And then a representative sequence was chosed to BLASTN search against the reference database to find the closest match (but will still be < 98%). This representative sequence also matched equally to more than one species, hence the "spp" was given in the label.
 
 

Taxonomy Bar Plots for All Samples

 
 

Taxonomy Bar Plots for Individual Comparison Groups

 
 
Comparison No.Comparison NameFamiliesGeneraSpecies
Comparison 1WT 10D Fecal vs KO 10D Fecal vs cKO 10DL FecalPDFSVGPDFSVGPDFSVG
Comparison 2WT D0 Fecal vs KO D0 Fecal vs cKO D0 FecalPDFSVGPDFSVGPDFSVG
 
 

VIII. Analysis - Alpha Diversity

 

In ecology, alpha diversity (α-diversity) is the mean species diversity in sites or habitats at a local scale. The term was introduced by R. H. Whittaker[1][2] together with the terms beta diversity (β-diversity) and gamma diversity (γ-diversity). Whittaker's idea was that the total species diversity in a landscape (gamma diversity) is determined by two different things, the mean species diversity in sites or habitats at a more local scale (alpha diversity) and the differentiation among those habitats (beta diversity).


References:
Whittaker, R. H. (1960) Vegetation of the Siskiyou Mountains, Oregon and California. Ecological Monographs, 30, 279–338. doi:10.2307/1943563
Whittaker, R. H. (1972). Evolution and Measurement of Species Diversity. Taxon, 21, 213-251. doi:10.2307/1218190

 

Alpha Diversity Analysis by Rarefaction

Diversity measures are affected by the sampling depth. Rarefaction is a technique to assess species richness from the results of sampling. Rarefaction allows the calculation of species richness for a given number of individual samples, based on the construction of so-called rarefaction curves. This curve is a plot of the number of species as a function of the number of samples. Rarefaction curves generally grow rapidly at first, as the most common species are found, but the curves plateau as only the rarest species remain to be sampled.


References:
Willis AD. Rarefaction, Alpha Diversity, and Statistics. Front Microbiol. 2019 Oct 23;10:2407. doi: 10.3389/fmicb.2019.02407. PMID: 31708888; PMCID: PMC6819366.

 
 
 

Boxplot of Alpha-diversity Indices

The two main factors taken into account when measuring diversity are richness and evenness. Richness is a measure of the number of different kinds of organisms present in a particular area. Evenness compares the similarity of the population size of each of the species present. There are many different ways to measure the richness and evenness. These measurements are called "estimators" or "indices". Below is a diversity of 3 commonly used indices showing the values for all the samples (dots) and in groups (boxes).

 
Alpha Diversity Box Plots for All Groups
 
 
 
 
 
 
 
Alpha Diversity Box Plots for Individual Comparisons
 
Comparison 1WT 10D Fecal vs KO 10D Fecal vs cKO 10DL FecalView in PDFView in SVG
Comparison 2WT D0 Fecal vs KO D0 Fecal vs cKO D0 FecalView in PDFView in SVG
 
 
 

Group Significance of Alpha-diversity Indices

To test whether the alpha diversity among different comparison groups are different statistically, we use the Kruskal Wallis H test provided the "alpha-group-significance" fucntion in the QIIME 2 "diversity" package. Kruskal Wallis H test is the non-parametric alternative to the One Way ANOVA. Non-parametric means that the test doesn’t assume your data comes from a particular distribution. The H test is used when the assumptions for ANOVA aren’t met (like the assumption of normality). It is sometimes called the one-way ANOVA on ranks, as the ranks of the data values are used in the test rather than the actual data points. The H test determines whether the medians of two or more groups are different.

Below are the Kruskal Wallis H test results for each comparison based on three different alpha diversity measures: 1) Observed species (features), 2) Shannon index, and 3) Simpson index.

 
 
Comparison 1.WT 10D Fecal vs KO 10D Fecal vs cKO 10DL FecalObserved FeaturesShannon IndexSimpson Index
Comparison 2.WT D0 Fecal vs KO D0 Fecal vs cKO D0 FecalObserved FeaturesShannon IndexSimpson Index
 
 

IX. Analysis - Beta Diversity

 

NMDS and PCoA Plots

Beta diversity compares the similarity (or dissimilarity) of microbial profiles between different groups of samples. There are many different similarity/dissimilarity metrics. In general, they can be quantitative (using sequence abundance, e.g., Bray-Curtis or weighted UniFrac) or binary (considering only presence-absence of sequences, e.g., binary Jaccard or unweighted UniFrac). They can be even based on phylogeny (e.g., UniFrac metrics) or not (non-UniFrac metrics, such as Bray-Curtis, etc.).

For microbiome studies, species profiles of samples can be compared with the Bray-Curtis dissimilarity, which is based on the count data type. The pair-wise Bray-Curtis dissimilarity matrix of all samples can then be subject to either multi-dimensional scaling (MDS, also known as PCoA) or non-metric MDS (NMDS).

MDS/PCoA is a scaling or ordination method that starts with a matrix of similarities or dissimilarities between a set of samples and aims to produce a low-dimensional graphical plot of the data in such a way that distances between points in the plot are close to original dissimilarities.

NMDS is similar to MDS, however it does not use the dissimilarities data, instead it converts them into the ranks and use these ranks in the calculation.

In our beta diversity analysis, Bray-Curtis dissimilarity matrix was first calculated and then plotted by the PCoA and NMDS separately. Below are beta diveristy results for all groups together:

 
 
NMDS and PCoA Plots for All Groups
 
 
 
 
 

The above PCoA and NMDS plots are based on count data. The count data can also be transformed into centered log ratio (CLR) for each species. The CLR data is no longer count data and cannot be used in Bray-Curtis dissimilarity calculation. Instead CLR can be compared with Euclidean distances. When CLR data are compared by Euclidean distance, the distance is also called Aitchison distance.

Below are the NMDS and PCoA plots of the Aitchison distances of the samples:

 
 
 
 
 
 
 
NMDS and PCoA Plots for Individual Comparisons
 
 
Comparison No.Comparison NameNMDAPCoA
Bray-CurtisCLR EuclideanBray-CurtisCLR Euclidean
Comparison 1WT 10D Fecal vs KO 10D Fecal vs cKO 10DL FecalPDFSVGPDFSVGPDFSVGPDFSVG
Comparison 2WT D0 Fecal vs KO D0 Fecal vs cKO D0 FecalPDFSVGPDFSVGPDFSVGPDFSVG
 
 
 
 
 

Interactive 3D PCoA Plots - Bray-Curtis Dissimilarity

 
 
 

Interactive 3D PCoA Plots - Euclidean Distance

 
 
 

Interactive 3D PCoA Plots - Correlation Coefficients

 
 
 

Group Significance of Beta-diversity Indices

To test whether the between-group dissimilarities are significantly greater than the within-group dissimilarities, the "beta-group-significance" function provided in the QIIME 2 "diversity" package was used with PERMANOVA (permutational multivariate analysis of variance) as the group significant testing method.

Three beta diversity matrics were used: 1) Bray–Curtis dissimilarity 2) Correlation coefficient matrix , and 3) Aitchison distance (Euclidean distance between clr-transformed compositions).

 
 
Comparison 1.WT 10D Fecal vs KO 10D Fecal vs cKO 10DL FecalBray–CurtisCorrelationAitchison
Comparison 2.WT D0 Fecal vs KO D0 Fecal vs cKO D0 FecalBray–CurtisCorrelationAitchison
 
 
 

X. Analysis - Differential Abundance

16S rRNA next generation sequencing (NGS) generates a fixed number of reads that reflect the proportion of different species in a sample, i.e., the relative abundance of species, instead of the absolute abundance. In Mathematics, measurements involving probabilities, proportions, percentages, and ppm can all be thought of as compositional data. This makes the microbiome read count data “compositional” (Gloor et al, 2017). In general, compositional data represent parts of a whole which only carry relative information (http://www.compositionaldata.com/).

The problem of microbiome data being compositional arises when comparing two groups of samples for identifying “differentially abundant” species. A species with the same absolute abundance between two conditions, its relative abundances in the two conditions (e.g., percent abundance) can become different if the relative abundance of other species change greatly. This problem can lead to incorrect conclusion in terms of differential abundance for microbial species in the samples.

When studying differential abundance (DA), the current better approach is to transform the read count data into log ratio data. The ratios are calculated between read counts of all species in a sample to a “reference” count (e.g., mean read count of the sample). The log ratio data allow the detection of DA species without being affected by percentage bias mentioned above

In this report, a compositional DA analysis tool “ANCOM” (analysis of composition of microbiomes) was used. ANCOM transforms the count data into log-ratios and thus is more suitable for comparing the composition of microbiomes in two or more populations. "ANCOM" generates a table of features with W-statistics and whether the null hypothesis is rejected. The “W” is the W-statistic, or number of features that a single feature is tested to be significantly different against. Hence the higher the "W" the more statistical sifgnificant that a feature/species is differentially abundant.


References:

Gloor GB, Macklaim JM, Pawlowsky-Glahn V, Egozcue JJ. Microbiome Datasets Are Compositional: And This Is Not Optional. Front Microbiol. 2017 Nov 15;8:2224. doi: 10.3389/fmicb.2017.02224. PMID: 29187837; PMCID: PMC5695134.

Mandal S, Van Treuren W, White RA, Eggesbø M, Knight R, Peddada SD. Analysis of composition of microbiomes: a novel method for studying microbial composition. Microb Ecol Health Dis. 2015 May 29;26:27663. doi: 10.3402/mehd.v26.27663. PMID: 26028277; PMCID: PMC4450248.

Lin H, Peddada SD. Analysis of compositions of microbiomes with bias correction. Nat Commun. 2020 Jul 14;11(1):3514. doi: 10.1038/s41467-020-17041-7. PMID: 32665548; PMCID: PMC7360769.

 
 

ANCOM Differential Abundance Analysis

 
ANCOM Results for Individual Comparisons
Comparison No.Comparison Name
Comparison 1.WT 10D Fecal vs KO 10D Fecal vs cKO 10DL Fecal
Comparison 2.WT D0 Fecal vs KO D0 Fecal vs cKO D0 Fecal
 
 

ANCOM-BC2 Differential Abundance Analysis

 

Starting with version V1.2, we include the results of ANCOM-BC (Analysis of Compositions of Microbiomes with Bias Correction) (Lin and Peddada 2020). ANCOM-BC is an updated version of "ANCOM" that:
(a) provides statistically valid test with appropriate p-values,
(b) provides confidence intervals for differential abundance of each taxon,
(c) controls the False Discovery Rate (FDR),
(d) maintains adequate power, and
(e) is computationally simple to implement.

The bias correction (BC) addresses a challenging problem of the bias introduced by differences in the sampling fractions across samples. This bias has been a major hurdle in performing DA analysis of microbiome data. ANCOM-BC estimates the unknown sampling fractions and corrects the bias induced by their differences among samples. The absolute abundance data are modeled using a linear regression framework.

Starting with version V1.43, ANCOM-BC2 is used instead of ANCOM-BC, So that multiple pairwise directional test can be performed (if there are more than two gorups in a comparison). When performing pairwise directional test, the mixed directional false discover rate (mdFDR) is taken into account. The mdFDR is the combination of false discovery rate due to multiple testing, multiple pairwise comparisons, and directional tests within each pairwise comparison. The mdFDR is adopted from (Guo, Sarkar, and Peddada 2010; Grandhi, Guo, and Peddada 2016). For more detail explanation and additional features of ANCOM-BC2 please see author's documentation.

References:

Lin H, Peddada SD. Analysis of compositions of microbiomes with bias correction. Nat Commun. 2020 Jul 14;11(1):3514. doi: 10.1038/s41467-020-17041-7. PMID: 32665548; PMCID: PMC7360769.

Guo W, Sarkar SK, Peddada SD. Controlling false discoveries in multidimensional directional decisions, with applications to gene expression data on ordered categories. Biometrics. 2010 Jun;66(2):485-92. doi: 10.1111/j.1541-0420.2009.01292.x. Epub 2009 Jul 23. PMID: 19645703; PMCID: PMC2895927.

Grandhi A, Guo W, Peddada SD. A multiple testing procedure for multi-dimensional pairwise comparisons with application to gene expression studies. BMC Bioinformatics. 2016 Feb 25;17:104. doi: 10.1186/s12859-016-0937-5. PMID: 26917217; PMCID: PMC4768411.

 
 
ANCOM-BC Results for Individual Comparisons
 
Comparison No.Comparison Name
Comparison 1.WT 10D Fecal vs KO 10D Fecal vs cKO 10DL Fecal
Comparison 2.WT D0 Fecal vs KO D0 Fecal vs cKO D0 Fecal
 
 
 

LEfSe - Linear Discriminant Analysis Effect Size

LEfSe (Linear Discriminant Analysis Effect Size) is an alternative method to find "organisms, genes, or pathways that consistently explain the differences between two or more microbial communities" (Segata et al., 2011). Specifically, LEfSe uses rank-based Kruskal-Wallis (KW) sum-rank test to detect features with significant differential (relative) abundance with respect to the class of interest. Since it is rank-based, instead of proportional based, the differential species identified among the comparison groups is less biased (than percent abundance based).

Reference:

Segata N, Izard J, Waldron L, Gevers D, Miropolsky L, Garrett WS, Huttenhower C. Metagenomic biomarker discovery and explanation. Genome Biol. 2011 Jun 24;12(6):R60. doi: 10.1186/gb-2011-12-6-r60. PMID: 21702898; PMCID: PMC3218848.

 
WT 10D Fecal vs KO 10D Fecal vs cKO 10DL Fecal
 
 
 
 
 
 
 
LEfSe Results for All Comparisons
 
Comparison No.Comparison Name
Comparison 1.WT 10D Fecal vs KO 10D Fecal vs cKO 10DL Fecal
Comparison 2.WT D0 Fecal vs KO D0 Fecal vs cKO D0 Fecal
 
 

XI. Analysis - Heatmap Profile

 

Species vs Sample Abundance Heatmap for All Samples

 
 
 

Heatmaps for Individual Comparisons

 
A) Two-way clustering - clustered on both columns (Samples) and rows (organism)
Comparison No.Comparison NameFamily LevelGenus LevelSpecies Level
Comparison 1WT 10D Fecal vs KO 10D Fecal vs cKO 10DL FecalPDFSVGPDFSVGPDFSVG
Comparison 2WT D0 Fecal vs KO D0 Fecal vs cKO D0 FecalPDFSVGPDFSVGPDFSVG
 
 
B) One-way clustering - clustered on rows (organism) only
Comparison No.Comparison NameFamily LevelGenus LevelSpecies Level
Comparison 1WT 10D Fecal vs KO 10D Fecal vs cKO 10DL FecalPDFSVGPDFSVGPDFSVG
Comparison 2WT D0 Fecal vs KO D0 Fecal vs cKO D0 FecalPDFSVGPDFSVGPDFSVG
 
 
C) No clustering
Comparison No.Comparison NameFamily LevelGenus LevelSpecies Level
Comparison 1WT 10D Fecal vs KO 10D Fecal vs cKO 10DL FecalPDFSVGPDFSVGPDFSVG
Comparison 2WT D0 Fecal vs KO D0 Fecal vs cKO D0 FecalPDFSVGPDFSVGPDFSVG
 
 

XII. Analysis - Network Association

To analyze the co-occurrence or co-exclusion between microbial species among different samples, network correlation analysis tools are usually used for this purpose. However, microbiome count data are compositional. If count data are normalized to the total number of counts in the sample, the data become not independent and traditional statistical metrics (e.g., correlation) for the detection of specie-species relationships can lead to spurious results. In addition, sequencing-based studies typically measure hundreds of OTUs (species) on few samples; thus, inference of OTU-OTU association networks is severely under-powered. Here we use SPIEC-EASI (SParse InversE Covariance Estimation for Ecological Association Inference), a statistical method for the inference of microbial ecological networks from amplicon sequencing datasets that addresses both of these issues (Kurtz et al., 2015). SPIEC-EASI combines data transformations developed for compositional data analysis with a graphical model inference framework that assumes the underlying ecological association network is sparse. SPIEC-EASI provides two algorithms for network inferencing – 1) Meinshausen-Bühlmann's neighborhood selection (MB method) and inverse covariance selection (GLASSO method, i.e., graphical least absolute shrinkage and selection operator). This is fundamentally distinct from SparCC, which essentially estimate pairwise correlations. In addition to these two methods, we provide the results of a third method - SparCC (Sparse Correlations for Compositional Data)(Friedman & Alm 2012), which is also a method for inferring correlations from compositional data. SparCC estimates the linear Pearson correlations between the log-transformed components.


References:

Kurtz ZD, Müller CL, Miraldi ER, Littman DR, Blaser MJ, Bonneau RA. Sparse and compositionally robust inference of microbial ecological networks. PLoS Comput Biol. 2015 May 7;11(5):e1004226. doi: 10.1371/journal.pcbi.1004226. PMID: 25950956; PMCID: PMC4423992.

Friedman J, Alm EJ. Inferring correlation networks from genomic survey data. PLoS Comput Biol. 2012;8(9):e1002687. doi: 10.1371/journal.pcbi.1002687. Epub 2012 Sep 20. PMID: 23028285; PMCID: PMC3447976.

 

SPIEC-EASI Network Inference by Neighborhood Selection (MB Method)

 
 

 

Association Network Inference by SparCC

 
 

 
 

XIII. Disclaimer

The results of this analysis are for research purpose only. They are not intended to diagnose, treat, cure, or prevent any disease. Forsyth and FOMC are not responsible for use of information provided in this report outside the research area.

 
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