NMPFamsDB

NMPFamsDB

NMPFamsDB

A database of Novel Metagenome Protein Families

A database of Novel Metagenome Protein Clusters

A database of Novel Metagenome Protein Clusters
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Metagenome / Metatranscriptome Family F049072

Metagenome / Metatranscriptome Family F049072

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Overview Alignments Structure & Topology Gene Neighborhood Phylogeny Ecosystems Sequences
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Overview

Basic Information
Family ID F049072
Family Type Metagenome / Metatranscriptome
Number of Sequences 147
Average Sequence Length 71 residues
Representative Sequence MARMLLALVLIVAVVAGLGFYMGWFHFSSGSDGNSAHVTVSMDKGQIQEDKDKAVDKVQDLGQQAKDKVETTTQKAQE
Number of Associated Samples 75
Number of Associated Scaffolds 147

Quality Assessment
Transcriptomic Evidence Yes
Most common taxonomic group Unclassified
% of genes with valid RBS motifs 0.00 %
% of genes near scaffold ends (potentially truncated) 0.00 %
% of genes from short scaffolds (< 2000 bps) 0.00 %
Associated GOLD sequencing projects 65
AlphaFold2 3D model prediction Yes
3D model pTM-score0.28

Note: High quality evidence is represented by blue. Low quality evidence is represented by red.
Hidden Markov Model
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Most Common Taxonomy
Group Unclassified (100.000 % of family members)
NCBI Taxonomy ID N/A
Taxonomy N/A

Most Common Ecosystem
GOLD Ecosystem Environmental → Aquatic → Freshwater → Sediment → Unclassified → Freshwater Sediment
(24.490 % of family members)
Environment Ontology (ENVO) Unclassified
(30.612 % of family members)
Earth Microbiome Project Ontology (EMPO) Free-living → Non-saline → Water (non-saline)
(35.374 % of family members)


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Multiple Sequence Alignments

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Structure & Topology

Predicted Secondary Structure and Topology

Predicted Topology & Secondary Structure
Classification: Globular Signal Peptide: No Secondary Structure distribution: α-helix: 48.11%    β-sheet: 0.00%    Coil/Unstructured: 51.89%
Feature Viewer
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Predicted 3D Structure

Structure Viewer
Per-residue confidence (pLDDT):
  0-50   51-70   71-90   91-100  		pTM-score: 0.28
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Low Quality Model:

This family has a low confidence model (pTM < 0.7) and has not been screened against SCOPe or PDB.

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Gene Neighborhood

Neighboring Pfam domains

Pfam IDName % Frequency in 147 Family Scaffolds
PF11752DUF3309 53.74
PF11154DUF2934 2.72
PF00690Cation_ATPase_N 2.72
PF00923TAL_FSA 2.04
PF05532CsbD 1.36
PF00005ABC_tran 1.36
PF11999Ice_binding 1.36
PF00702Hydrolase 0.68
PF13282DUF4070 0.68
PF00691OmpA 0.68
PF02310B12-binding 0.68
PF13229Beta_helix 0.68
PF13246Cation_ATPase 0.68
PF12779WXXGXW 0.68
PF13466STAS_2 0.68
PF04316FlgM 0.68
PF04055Radical_SAM 0.68
PF00196GerE 0.68
PF00582Usp 0.68

Neighboring Clusters of Orthologous Genes (COGs)

COG IDNameFunctional Category % Frequency in 147 Family Scaffolds
COG0474Magnesium-transporting ATPase (P-type)Inorganic ion transport and metabolism [P] 2.72
COG0176Transaldolase/fructose-6-phosphate aldolaseCarbohydrate transport and metabolism [G] 2.04
COG2747Negative regulator of flagellin synthesis (anti-sigma28 factor)Transcription [K] 2.04
COG3237Uncharacterized conserved protein YjbJ, UPF0337 familyFunction unknown [S] 1.36

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Phylogeny

NCBI Taxonomy

NameRankTaxonomyDistribution
UnclassifiedrootN/A100.00 %

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Associated Scaffolds


ScaffoldTaxonomyLengthIMG/M Link


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Environmental Properties

Associated Habitat Types

Select Environment Taxonomy Level:
HabitatTaxonomyDistribution
Freshwater SedimentEnvironmental → Aquatic → Freshwater → Sediment → Unclassified → Freshwater Sediment24.49%
SoilEnvironmental → Terrestrial → Soil → Wetlands → Unclassified → Soil19.73%
Freshwater WetlandsEnvironmental → Aquatic → Freshwater → Wetlands → Unclassified → Freshwater Wetlands18.37%
WetlandEnvironmental → Aquatic → Freshwater → Sediment → Unclassified → Wetland8.16%
Freshwater WetlandsEnvironmental → Aquatic → Freshwater → Wetlands → Unclassified → Freshwater Wetlands7.48%
SedimentEnvironmental → Aquatic → Freshwater → Lake → Sediment → Sediment4.76%
Enrichment CultureEngineered → Lab Enrichment → Defined Media → Anaerobic Media → Unclassified → Enrichment Culture2.72%
Groundwater SedimentEnvironmental → Aquatic → Freshwater → Sediment → Unclassified → Groundwater Sediment2.04%
Salt MarshEnvironmental → Aquatic → Marine → Intertidal Zone → Salt Marsh → Salt Marsh2.04%
Marine SedimentEnvironmental → Aquatic → Marine → Wetlands → Sediment → Marine Sediment2.04%
Freshwater Lake SedimentEnvironmental → Aquatic → Freshwater → Lentic → Sediment → Freshwater Lake Sediment1.36%
SoilEnvironmental → Terrestrial → Soil → Unclassified → Uranium Contaminated → Soil1.36%
Hydrocarbon Resource EnvironmentsEngineered → Wastewater → Industrial Wastewater → Petrochemical → Unclassified → Hydrocarbon Resource Environments1.36%
Natural And Restored WetlandsEnvironmental → Aquatic → Marine → Wetlands → Unclassified → Natural And Restored Wetlands0.68%
WetlandEnvironmental → Aquatic → Marine → Wetlands → Sediment → Wetland0.68%
Groundwater SedimentEnvironmental → Aquatic → Sediment → Unclassified → Unclassified → Groundwater Sediment0.68%
SoilEnvironmental → Terrestrial → Soil → Wetlands → Unclassified → Soil0.68%
Deep Subsurface AquiferEnvironmental → Terrestrial → Deep Subsurface → Aquifer → Unclassified → Deep Subsurface Aquifer0.68%
Anaerobic Biogas ReactorEngineered → Bioreactor → Anaerobic → Unclassified → Unclassified → Anaerobic Biogas Reactor0.68%

Visualization
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Associated Samples

Taxon OIDSample NameHabitat TypeIMG/M Link
3300001580Wastewater microbial communities from Syncrude, Ft. McMurray, Alberta - Microbes from Suncor taillings pond 6 2012TP6_6EngineeredOpen in IMG/M
3300002220Wastewater microbial communities from Syncrude, Ft. McMurray, Alberta - West In Pit SyncrudeMLSB2011EngineeredOpen in IMG/M
3300003432Wetland sediment microbial communities from Twitchell Island in the Sacramento Delta, sample from surface sediment Aug2011 Site B2 BulkEnvironmentalOpen in IMG/M
3300003852Freshwater lake sediment microbial communities from the University of Notre Dame, USA, for methane emissions studies -HBP12 HBEnvironmentalOpen in IMG/M
3300004018Wetland microbial communities from San Francisco Bay, California, USA, that impact long-term carbon sequestration - China_Galinas_PWC_D2EnvironmentalOpen in IMG/M
3300005145Enrichment culture microbial communities om Arthur Kill intertidal strait, New Jersey, USA, that are MTBE-degrading - MTBE-AKS2 (Arthur Kill Sulfidogenic replicate 2) MetaGEngineeredOpen in IMG/M
3300006224Freshwater wetland microbial communities from Ohio, USA, analyzing the effect of biotic and abiotic controls - Mud 3 Core 4 Depth 4 metaGEnvironmentalOpen in IMG/M
3300007351Combined Assembly of Gp0115775, Gp0115815EnvironmentalOpen in IMG/M
3300007764Soil microbial communities from South San Francisco under conditions of wetland restoration - Salt Pond MetaG R2A_B_D2_MGEnvironmentalOpen in IMG/M
3300009009Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (1) Depth 1-3cm September2015EnvironmentalOpen in IMG/M
3300009037Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (3) Depth 1-3cm March2015EnvironmentalOpen in IMG/M
3300009053Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (3) Depth 19-21cm March2015EnvironmentalOpen in IMG/M
3300009078Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (1) Depth 10-12cm September2015EnvironmentalOpen in IMG/M
3300009081Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P7 Core (1) Depth 19-21cm May2015EnvironmentalOpen in IMG/M
3300009082Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (1) Depth 1-3cm May2015EnvironmentalOpen in IMG/M
3300009085Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P7 Core (6) Depth 10-12cm September2015EnvironmentalOpen in IMG/M
3300009087Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (1) Depth 19-21cm September2015EnvironmentalOpen in IMG/M
3300009091Freshwater wetland microbial communities from Ohio, USA, analyzing the effect of biotic and abiotic controls - Mud 3 Core 4 Depth 3 metaG (Illumina Assembly)EnvironmentalOpen in IMG/M
3300009146Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P7 Core (1) Depth 10-12cm March2015EnvironmentalOpen in IMG/M
3300009153Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (3) Depth 10-12cm March2015EnvironmentalOpen in IMG/M
3300009157Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P7 Core (1) Depth 19-21cm March2015EnvironmentalOpen in IMG/M
3300009166Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (1) Depth 10-12cm May2015EnvironmentalOpen in IMG/M
3300009167Freshwater wetland microbial communities from Ohio, USA, analyzing the effect of biotic and abiotic controls - Mud 3 Core 4 Depth 3 metaG - Illumina Assembly (version 2)EnvironmentalOpen in IMG/M
3300009168Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P7 Core (6) Depth 19-21cm September2015EnvironmentalOpen in IMG/M
3300009171Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (1) Depth 19-21cm May2015EnvironmentalOpen in IMG/M
3300009580Wetland microbial communities from Old Woman Creek Reserve in Ohio, USA - Mud_11_14_C (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300009586Wetland microbial communities from Old Woman Creek Reserve in Ohio, USA - Plant_11_14_A (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300009755Wetland microbial communities from Old Woman Creek Reserve in Ohio, USA - Plant_11_14_B (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300009773Anaerobic biogas reactor microbial communites from Washington, USA - Biogas_R2_B C12 SIP DNAEngineeredOpen in IMG/M
3300010131Wetland microbial communities from Old Woman Creek Reserve in Ohio, USA - Mud_11_14_A (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300010138Wetland microbial communities from Old Woman Creek Reserve in Ohio, USA - Mud_11_14_B (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300010144Wetland microbial communities from Old Woman Creek Reserve in Ohio, USA - Plant_11_14_C (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300012931Freshwater wetland microbial communities from Ohio, USA - Open water 3 Core 3 Depth 3 metaGEnvironmentalOpen in IMG/M
3300012964Freshwater wetland microbial communities from Ohio, USA - Open water 3 Core 3 Depth 4 metaGEnvironmentalOpen in IMG/M
3300013046Freshwater wetland microbial communities from Ohio, USA, analyzing the effect of biotic and abiotic controls - Mud 3 Core 4 Depth 3 metaT (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300013078Freshwater wetland microbial communities from Ohio, USA - Open water 3 Core 3 Depth 4 metaT (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300013080Freshwater wetland microbial communities from Ohio, USA - Open water 3 Core 3 Depth 3 metaT (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300018059Groundwater sediment microbial communities from an aquifer in East River, Colorado, USA - PLM4_65_coexEnvironmentalOpen in IMG/M
3300019229Metatranscriptome of soil microbial communities from meander-bound floodplain in the East River, Colorado, USA - East River metaT ERMLT660_1_16_1Ra (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300020067Metatranscriptome of soil microbial communities from meander-bound floodplain in the East River, Colorado, USA - East River metaT ERMLIBT47_16_1Ra (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300022185Freshwater wetland microbial communities from Ohio, USA, analyzing the effect of biotic and abiotic controls - Mud 3 Core 4 Depth 4 metaT (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300027536Enrichment culture microbial communities om Arthur Kill intertidal strait, New Jersey, USA, that are MTBE-degrading - MTBE-AKS2 (Arthur Kill Sulfidogenic replicate 2) MetaG (SPAdes)EngineeredOpen in IMG/M
3300027592Enrichment culture microbial communities from Arthur Kill intertidal strait, New Jersey, USA, that are MTBE-degrading - MTBE-AKS1 (Arthur Kill Sulfidogenic replicate 1) MetaG (SPAdes)EngineeredOpen in IMG/M
3300027713Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (3) Depth 10-12cm March2015 (SPAdes)EnvironmentalOpen in IMG/M
3300027722Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P7 Core (1) Depth 19-21cm March2015 (SPAdes)EnvironmentalOpen in IMG/M
3300027723Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (1) Depth 10-12cm May2015 (SPAdes)EnvironmentalOpen in IMG/M
3300027726Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (3) Depth 1-3cm March2015 (SPAdes)EnvironmentalOpen in IMG/M
3300027740Soil microbial communities from uranium-contaminated site in the Upper Colorado River Basin, Wyoming, United States - RVT95D214 HiSeqEnvironmentalOpen in IMG/M
3300027743Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P7 Core (6) Depth 19-21cm September2015 (SPAdes)EnvironmentalOpen in IMG/M
3300027818Freshwater sediment microbial communities from Prairie Pothole Lake near Jamestown, North Dakota, USA - PPLs Lake P8 Core (1) Depth 19-21cm September2015 (SPAdes)EnvironmentalOpen in IMG/M
3300027896Freshwater lake sediment microbial communities from the University of Notre Dame, USA, for methane emissions studies -HBP12 HB (SPAdes)EnvironmentalOpen in IMG/M
3300028920Marine sediment archaeal communities from Little Sippewissett salt marsh, Falmouth, MA, United States - SSM-Prop-6NEnvironmentalOpen in IMG/M
3300030616Marine sediment archaeal communities from Little Sippewissett salt marsh, Falmouth, MA, United States - SSM-Form-2OEnvironmentalOpen in IMG/M
3300031111Marine sediment archaeal communities from Little Sippewissett salt marsh, Falmouth, MA, United States - SSM-Form-13EnvironmentalOpen in IMG/M
3300031277Salt marsh sediment microbial communities from the Plum Island Ecosystem LTER, Massachusetts, United States - WE1603-30EnvironmentalOpen in IMG/M
3300031364Salt marsh sediment microbial communities from the Plum Island Ecosystem LTER, Massachusetts, United States - SW1603-30EnvironmentalOpen in IMG/M
3300031885Sediment microbial communities from Yellowstone Lake, YNP, Wyoming, USA - YL17G09_36EnvironmentalOpen in IMG/M
3300031999Sediment microbial communities from Yellowstone Lake, YNP, Wyoming, USA - YL17G02_20EnvironmentalOpen in IMG/M
3300032053Sediment microbial communities from Yellowstone Lake, YNP, Wyoming, USA - YL17G09_16EnvironmentalOpen in IMG/M
3300032118Sediment microbial communities from Yellowstone Lake, YNP, Wyoming, USA - YL17G05_15EnvironmentalOpen in IMG/M
3300032156Sediment microbial communities from Yellowstone Lake, YNP, Wyoming, USA - YL17G14_0EnvironmentalOpen in IMG/M
3300032401Sediment microbial communities from Yellowstone Lake, YNP, Wyoming, USA - YL17G03_0EnvironmentalOpen in IMG/M
3300033414Wetland soil microbial communities from Old Woman Creek delta, Ohio, United States - OWC_Aug_M1_C1_D4_BEnvironmentalOpen in IMG/M
3300033416Wetland soil microbial communities from Old Woman Creek delta, Ohio, United States - OWC_Aug_OW2_C1_D5_CEnvironmentalOpen in IMG/M
3300033418Wetland soil microbial communities from Old Woman Creek delta, Ohio, United States - OWC_Aug_T1_C1_D1_AEnvironmentalOpen in IMG/M
3300033480Wetland soil microbial communities from Old Woman Creek delta, Ohio, United States - OWC_Aug_M1_C1_D5_BEnvironmentalOpen in IMG/M
3300033485Wetland soil microbial communities from Old Woman Creek delta, Ohio, United States - OWC_Aug_T1_C1_D5_AEnvironmentalOpen in IMG/M
3300033486Wetland soil microbial communities from Old Woman Creek delta, Ohio, United States - OWC_Aug_N3_C1_D5_AEnvironmentalOpen in IMG/M
3300033487Wetland soil microbial communities from Old Woman Creek delta, Ohio, United States - OWC_May_M1_C1_D6_AEnvironmentalOpen in IMG/M
3300033488Wetland soil microbial communities from Old Woman Creek delta, Ohio, United States - OWC_Aug_OW2_C1_D1_CEnvironmentalOpen in IMG/M
3300033489Soil microbial communities from uranium-contaminated site in the Upper Colorado River Basin, Wyoming, United States - RVT95D214EnvironmentalOpen in IMG/M
3300033493Wetland soil microbial communities from Old Woman Creek delta, Ohio, United States - OWC_May_M1_C1_D3_AEnvironmentalOpen in IMG/M
3300033513Wetland soil microbial communities from Old Woman Creek delta, Ohio, United States - OWC_Aug_M2_C1_D5_CEnvironmentalOpen in IMG/M
3300033521Wetland soil microbial communities from Old Woman Creek delta, Ohio, United States - OWC_Aug_M1_C1_D1_BEnvironmentalOpen in IMG/M
3300033557Wetland soil microbial communities from Old Woman Creek delta, Ohio, United States - OWC_Aug_M1_C1_D2_BEnvironmentalOpen in IMG/M

Geographical Distribution
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Family Sequences

Protein ID Sample Taxon ID Habitat Sequence
Draft_1006440233300001580Hydrocarbon Resource EnvironmentsMVRMLLALALIVAVIAGLGFYTGWFHFSSGNDDNSAHLTVSVDKDQIQKDKDKAVDAVQDLGQQAEDKVETTTQKAQE*
MLSBCLC_1058526653300002220Hydrocarbon Resource EnvironmentsMLLVLVLIVAVVGGAGFYMGWFHFSSGSDSGSAHVTVSVDKGQIQEDTDKAVDKVQDLGQQAKDEVAPTTQNTPQ*
JGI20214J51088_1093593413300003432WetlandRIFFVIVLILAIVAGIGYYRGWLHVSSNSDNNNAQVTVSVDKDRMEEDKDKAVNKVEDLGQQAKDKVAPTTH*
Ga0031655_1000551643300003852Freshwater Lake SedimentMARVLLVLVLIVAVVAGLGFYMGWFHFSSGSDHGNAHITVSVDKDKIQKDKDKAVDKVATTTQKAQE*
Ga0055452_1009250433300004018Natural And Restored WetlandsMARILFTLVLIVAVVAGLGFYMGWFHVSSSSDGGSAQITVSMDKDQIQEDKDKAVDKVQDLGQQAKDKIETTTQKAQE*
Ga0068713_100652163300005145Enrichment CultureMVRMLLVLAAIVVIVAGLGFYMGWFHFSSGRDDKGAHVTVSVDKDQIQEDTDKAVDKVQDLGEQAKDKVETTTQKAQD*
Ga0068713_109573223300005145Enrichment CultureMVGMLLALALIVAVVAGLGFYAGWFHFSSGSDGSSAHVTVSVDKNQIQNDKDQAVDTVQDLGKQAEDKVETTTQKVQD*
Ga0079037_10116517223300006224Freshwater WetlandsLSTLIRGIFMARMLLVLVVIVAVGAGLGFYMGWFHFSSGSDGNSAHVTVSMDKGQIQKDKDKAVDKVQDLGQQAKDKVATTTQKAQE*
Ga0079037_10165898033300006224Freshwater WetlandsLIVAVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIQKDKDKAVDKVQDLGHQEKEKVATTTQTAQK*
Ga0104751_129708213300007351Deep Subsurface AquiferMIRVLLVLALIVAVVAGLGLYMGWFHFSSGSDSKNAHLTVSVDKDQIEKDKDKVVDKVQDLGQQAEDKVATTTQKAQE*
Ga0102950_109847333300007764SoilMARMLLTLVLIVAVVAGLGFYMGWFHFSSGSDGNSTHVTVSMDKDQIQEDKVITTTQKAQE*
Ga0105105_1062087023300009009Freshwater SedimentMARMLLVLVLIVAVGAGLGFYMGWFHFSSGSDGNSAHVTVSMDKGQVQQDTDKAVDKVQDLGQPAKDKVAPTTQKAQE*
Ga0105105_1109335413300009009Freshwater SedimentMKRILIVLAVIVVVAAGLSFYMGWFHFSSGSDNNNAYITVTVDKDQIQEDKDKVQDLGQ*
Ga0105093_1005804933300009037Freshwater SedimentMLLVLAVIVAVVGGLGLYMGWFHFSSASDDNNAHVTVSVDKGQIQEDKDKAVDKVQDLGQHARDKVATTTQKAQE*
Ga0105095_1020663213300009053Freshwater SedimentVNGCCSLLLSFALTVSVVACLSFYMGWFHFSSGSDDNNAHVTVSVDKGQIQKDKDKAVDKAQDLGQQARDKVATTTQNARE*
Ga0105106_1005477293300009078Freshwater SedimentMARMLLVLVLIVAVVAGLGFYMGWFHFSSSSDDNSARVTVSVDKGQIQEDKVATTTPKG*
Ga0105106_1066310623300009078Freshwater SedimentLSRRSLARPGFLEDAFMIRMLLVLAVIVVVVGGLGFYMGWFHFSSGSDDNNAHVTVSVDKGQIQEDKDKAVDKVQDLGQHARDKVATTTQKAQE*
Ga0105106_1099703513300009078Freshwater SedimentLLLSFALTVSVVACLSFYMGWFHFSSGSDDNNAHVTVSVDNGQIQKDKDKAVDKAQDLGQQARDKVATTTQNARE*
Ga0105098_1030503023300009081Freshwater SedimentMIRAFLVLALIVAVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIQKDRDKAVDKVQDLGQQAKDQVATTTQKAQE*
Ga0105098_1049331223300009081Freshwater SedimentFLVLALIVAGVAGLGVYMGWFHFSSGSDGKNAHVTVSVDKGRIQEDKDKAVDKVKDLGQQAQDKVASVTQKAQE*
Ga0105099_1109410823300009082Freshwater SedimentMLLALALIVAVVAGLGFYMGWFHFSSGSDDKNAHVTVSVDKDQIQKDKDKAVDKVQGVGQ
Ga0105103_1079123913300009085Freshwater SedimentMLLVLALTVAVVAGLGFYMGWFHFSSGSDDNNAHVTVSVDKGQIQEDKDKAVDKVQDLGQQAKDKVATTTQKAQK*
Ga0105107_1078975723300009087Freshwater SedimentMARMLLVLALIVAVVAGLGYYRGWFHFSSGSDDQKAIVTVSVDKDQIQEDKDKAVDKVQNLGQ*
Ga0102851_1193928413300009091Freshwater WetlandsGMFMARMLLVLVLIVAVVAGLGFYMGWFHFSSGSDGNSAHVTVSVDKGQMQKDKDKAVDKLQDLGEQAKDKVATTTQKAQK*
Ga0102851_1193971113300009091Freshwater WetlandsMIMARMLLVLVLIVAVVAGLGFYMGWFHFSSGSDGKNAHVTVSVDKDQIQEDKDKAVDKVKDLGQ*
Ga0102851_1297300323300009091Freshwater WetlandsMARMLLALVLIVAVVAGLGFYMGWFHFSSGSDGNSAHVTVSMDKGQIQEDKDKAVDKVQDLGQQAKDKVETTTQKAQE*
Ga0105091_1031834823300009146Freshwater SedimentMARMLLVLVLIVAGGAGLGFYMGWFHFSSGSDGNSAHITVSMDKGQIEKDKD
Ga0105091_1033351123300009146Freshwater SedimentMIRILLVLALIVAVVGGLGFYMGWFHFSSGSDDNNAHITVSVDKAQIQEDKDKAVDKVQDLGQQAKDQAATTTQNASE*
Ga0105091_1059257223300009146Freshwater SedimentMLVGLVLIVAVVAGLGFYLGWFHFSSSSDSDSARVTMSVDKDQIQKDTDKAVDTVQDLGQQAKDEVAPTTQKAQE*
Ga0105094_1011284213300009153Freshwater SedimentVNGCCFLLLSFALTVSVVACLSFCVGWFHFSSGSDDNNAHVTVSVDKGQIQKDKDKAVDKAQDLGQQARDKVATTTQNARE*
Ga0105094_1013872333300009153Freshwater SedimentMLLVLAVIVVVVGGLGFYMGWFHFSSGSDDNNAHVTVSVDKGQIQEDKDKAVDKVQDLGQHARDKVATTTQKAQE*
Ga0105094_1078691313300009153Freshwater SedimentMKSTLIVLAVIVVVVAGLSFYMGWFHFSSGSDDNNAHITVTVDKDQIQEDKDKVQDLGQ*
Ga0105092_1002255063300009157Freshwater SedimentMARMLLVLVLIVAVGAGLGFYMGWFHFSSGSDGNSAHITVSMDKGQIEKDKDKAVDKVEDLGHQPKDKVATTPQTAQE*
Ga0105092_1059822223300009157Freshwater SedimentMARMLLALVLIVAVVAGLGFYMGWFHFSSGSDGNSAHVTVSMDKGQIQEDKDKAVDKVQDLGQQAKDKVATTTQKGQE*
Ga0105092_1096515113300009157Freshwater SedimentAGLGFYMGWFHFSSGSDGNSAHVTVSMDKGQVQQDTDKAVDKVQDLGQPAKDKVAPTTQKAQE*
Ga0105100_1000953043300009166Freshwater SedimentMLLVLAVIVAVVGGLGLYMGWFHFSSGSDDNNAHVTVSVDKGQIQEDKDKAVDKVQDLGQHARDKVATTTQKAQE*
Ga0105100_1056353113300009166Freshwater SedimentMARMLLVLVVILAVGAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIQKDRDKA
Ga0113563_1063725323300009167Freshwater WetlandsMARMLLVFVLIVAVVAGLGFYMGWFHYSSSSDDNSAHVTVSMDKGQIQEDKVATTTQKGQE*
Ga0113563_1114670223300009167Freshwater WetlandsMARMLLALVLIVAVVAGLGFYMGWFHFSSGSDGKNAHVTVSVDKDQIQEDKDKAVDKVQDLGQ*
Ga0105104_1007975713300009168Freshwater SedimentMMRMFLVLALIVAGVAGLGVYMGWFHFSSGSDGKNAHVTVSVDKGRIQEDKDKAVDKVKDLGQQAQDKVASATQKAQE*
Ga0105104_1013101343300009168Freshwater SedimentMARMLLVLALIVAVVAGLGYYRGWFHFSSGSDDQKAIVTVSVDKDQIQEDKDKAVDKVQN
Ga0105104_1073419213300009168Freshwater SedimentMLLVLALTVAVVAGLGFYMGWFHFSSGSDDNNAHVTVSVDKGQIQEDKDKAVDKVQDLGQQAKDKVATTTQKGQE*
Ga0105104_1093135523300009168Freshwater SedimentMARMLLGLVLIVAVVAGLGFYMGWFHFSSGSDGNSAHVTVSMDKGQVQQDTDKAVDKVQDLGQPAKDKVAPTTQKAQE*
Ga0105101_1020033623300009171Freshwater SedimentMVRILFVLALIVVVVAGLGFYMGWFHFSSGSDDNSAHVTVSLDKGQIQEDKDKAVDKVQDLGQHARDKVATTTQKAQE*
Ga0115596_101012313300009580WetlandMARMFLVLVLIAAGVAGLGVYMGWFHFSSGSDGGSAHVTVSVDKSQIQKDKDKAVDKVETATRKAQDW*
Ga0115591_100666513300009586WetlandMIRMFLGLAVIVAVVAGLGLYLGWFHFSSGNNDKKAHVTVSVDKGQVQKDKD*
Ga0115591_110473013300009586WetlandMKSTLIVLAVIVVIAAGLSFYMGWFHFSSGSDDNNAHITVTVDKDQIQEDKDKVQDLGQ*
Ga0115592_107215233300009755WetlandMKSIVFAFVLVVACVLGLGFYMGWFHFSSGSDGNSANITLSVDKGKIEGDKDKAVNAVQDTGQDAKDTTTATTPKAQE*
Ga0123333_1046299713300009773Anaerobic Biogas ReactorMSRTLLVLVLIVAVVAGLGFYMGWFHFSSSNNDNNAQVTVSVDKDQVHADTDKAADKVETTTQQAPDE*
Ga0115594_103882413300010131WetlandMLLGLVLIVAVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIQKDKDKAVDKVQDLGHQEKEKVATTTQTAQK*
Ga0115594_106863023300010131WetlandMARMLLGLVLIVAVVASLGFYMGWFHFSSGSDGGSARVTVSVDKGQIQKDKDEAVNKVETSTRKAPD*
Ga0115595_110983833300010138WetlandMKGALFALVLIVAVVAGLGFYMGWFHFSSGSDNRNAHITVSVDKDQMQKDKDKAVD
Ga0115595_121067813300010138WetlandMARMFLTLVLIAAGVAGLGVYMGWFHFSSGSDGGSAHVTVSVDKNQIQKDKDKAVDKVETATRKAPD*
Ga0115593_105727313300010144WetlandMKSVIFVLVLVVAGVAGLGFYMGWFHVASGSDDKKASVTLSLDKGKIEKDKDKALDKVEDLKQPAKE*
Ga0115593_107644833300010144WetlandMARMLLGLVLIVAVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIQKDRDKAVDKVQDLGQHAKDQVATTPQTAQQ*
Ga0115593_114955723300010144WetlandMKRTLIVLAVIVVIATGLSFYMGWFHLSSGSDDNNAHITVTVDKDQIQEDKDKVQDLGQ*
Ga0115593_137022413300010144WetlandMARMLLGLVLIVAVVAGLGFYMGWFHFSSSSDGNNANVTVSVDKDQIQKDTDKAVDKVQGLGQPAKDKVETTTQ*
Ga0153915_1019218923300012931Freshwater WetlandsMIRLLLVLALTVAVVGGLGFYMGWFHFSSGSDDRNAHITVSVDKGQIQNDKDKAVDKVQDLGK*
Ga0153915_1043847433300012931Freshwater WetlandsMARMLLALVLIVAVVAGLGFYMGWFHFSSGSDGNSGHVTVSVDKDQIQKDTDKAVDKVQDLGQ*
Ga0153915_1200688613300012931Freshwater WetlandsAKTLSGPIRGIFMARMLLVLALIVAVVAGPGFYMGWFHFSSGSDGNSAHVTVSMDKGQIQKDKDKAVDKVQDLGQQAKDKVATTTQKAQE*
Ga0153916_10016368113300012964Freshwater WetlandsMLLALVLIVAVVASLGFYMGWFHFSSGSDGNSAHITVSMDKDKAVEKVQDLGQQGKDKVETTTQKAQE*
Ga0153916_1042774023300012964Freshwater WetlandsMTRMLGVFVLIVAVVAGLGFYMGWFHFSSGSDGSGAHVTVSMDKGQIQNDKDKSVEKVEDLGHQAKEKVATTTQTAQE*
Ga0153916_1055002923300012964Freshwater WetlandsMTRMLLALVLIVAVVASLGFYMGWFHFSSGSDGNSAHVTVSMDKDQIQEDKDKAVDKVQDLGQQAKDKVETTTQKAQE*
Ga0153916_1186061923300012964Freshwater WetlandsMIRLVLVLALTVAVVGGLGFYMGWFHFSSGSDDRNAHITVSVDKGKIQKDKDKAVDKVQDLGQQAKDKVATTTQKAQDK*
Ga0153916_1195336123300012964Freshwater WetlandsLVLIVAVVAGPGFYMGWFHFSSGGDDNNVHITVSVDKDQIQKDKDRAVDKVQDLGQ*
Ga0153916_1245695623300012964Freshwater WetlandsMARMLLALVLIVAVVAGLGFYMGWFHFSSGSDGNSGHVTVSVDKDQLQKDTDKAVDKVQDLGQ*
Ga0153916_1251006923300012964Freshwater WetlandsMARMLLALVLIVAVVAGLGFYMGWFHFSSGGDHNNAHITVSVDRDQIQKDKDKAVDKVKDLGQ*
Ga0153916_1305214013300012964Freshwater WetlandsIHARMLLVLALIVAVVAGLGFYMGWFHFSSGSDDRNAHITVSVNKDQIQKDKDKAVDKITTTTQKAQDK*
Ga0079038_14357213300013046Freshwater WetlandsMRGALFTLVLIVAVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIQKDRDKAVDKVQDLGQHAKDQVATTPQTAQQ*
Ga0153914_121589513300013078Freshwater WetlandsMARMLLGLVLIVAVVAGLGFYMGWFHFSSGSDGNSAHVTVSMDKGQIEKDKDKAVDKVQDLGQQAKDKGETTIQKGQE*
Ga0153913_123555013300013080Freshwater WetlandsMLLALVLIVAVVASLGFYMGWFHFSSGSDGNSAHITVSMDKDQIQEDKDKAVDKVQDLGQ
Ga0153913_130470543300013080Freshwater WetlandsMLLVLALIVAVVAGLGFYMGWFHFSSGSDGNSAHITVSMDKGQIEKDKDKAVDKVEDLGHQPKDKVATTTQTAQE*
Ga0153913_143567323300013080Freshwater WetlandsMLGVFVLIVAVVAGLGFYMGWFHFSSGSDGSGAHVTVSMDKGQIQKDKDKAVEKVEDLGHQAKEKVATTTQTAQE*
Ga0184615_1000048323300018059Groundwater SedimentMARMLLALVLIVAVVAGLGFYMGWFHFSSGSDDNNAHVTVSVDKDQIQEDKDKAVDKVQDLGQ
Ga0180116_121148323300019229Groundwater SedimentMKSVIFVLVLVVAGVAGLGYYMGWFHVTSGSDDKKASVTLSLDKGKIEKDKDKAVDKVEDLRQPARE
Ga0180109_103653533300020067Groundwater SedimentMKSLVFAFVLVVACVLGLGFYMGWFHFSSGNDGNSANITLSVDKGKIQDDKDKAVNTVQDTGQDAKDTTTATTPKAQE
Ga0180109_124768423300020067Groundwater SedimentMARMLLALVLIVAVVAGLGFYMGWFHFSSGSDGNSAHVTVSVDKDQIQQDKDKAVDAVQDLGQQAKD
Ga0079039_102162913300022185Freshwater WetlandsMKGALLAFVLIVAVVAGLGFYMGWFHFSSGSDHRNAHITVSVDKDQIQKDKDKAVDKVQDLGH
Ga0079039_107823513300022185Freshwater WetlandsMTRMLFAFVLIVVVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIQKDKDKAVDKVQDLGQQAKDKVATTTQKAQK
Ga0079039_120914713300022185Freshwater WetlandsMARMLLVFVLIVAVVAGLGFYMGWFHFSSGNDGSSAHVTVSMDKGQIQKDTDKAVDKVQDLGQHAKDQVATTTQTAQK
Ga0079039_128621023300022185Freshwater WetlandsMIRMLGVLVLIVAVVVGLGFYMGWFHFSSGSDGKNAHVTMSVDKGRIQEDKDKAV
Ga0079039_130736723300022185Freshwater WetlandsMARMLLGLVLIVAVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIQKDKDKAVDKVQDLGQQAKDKVAPTTQKAQE
Ga0079039_130842123300022185Freshwater WetlandsMIRVVFVLVLILVVVAALGLYMGWFHFSSGSDDDNAHITVTVDKGQIQKDTDKAVDTVQDLGQQAKD
Ga0079039_141687063300022185Freshwater WetlandsLGLVLIVAVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIQKDRDKAVDKVQDLGQHAKDQVATTPQTAQQ
Ga0079039_141694223300022185Freshwater WetlandsMVRMLLTLALIVAVVAGLGFYTGWFHFSSGSDDNSAHLTVSVDKDQIQKDKDKAVDAVQNLGQQAEDKVETTTQKVQE
Ga0079039_145232023300022185Freshwater WetlandsMARMLLVLVLIVAVVAGLGFYMGWFHFSSGSDGNSAHITVSMDKGQTQKDKDKAEVEDLGHQAKDKVATTPRTAKE
Ga0079039_147452413300022185Freshwater WetlandsMTRMLLLVALIVYMGWFHFSSASDSKNAHLTVSVDKDQIEKDKDKVVDKVQDLGQQAKDKVATMTQKVRD
Ga0079039_150778333300022185Freshwater WetlandsMARMLLVLVVIVAVGAGLGFYMGWFHFSSGSDGNSAHVTVSMDKGQIQKDKDKAVDKVVTTTQKAQD
Ga0079039_152164113300022185Freshwater WetlandsLVLIVAVVAGLGFYMGWFHFSSGSDGKDAHVTVSVDKGRIQEDKDKAVDKVKDLGQQAKDKVETVTQ
Ga0079039_152239523300022185Freshwater WetlandsMVRMFLALALIVAVVAGLGFYTGWFHFSSGSDDNSAHLTVSVDKDQIQQDKDKAVDAVQDLGQQAEDKVETTTQKVQE
Ga0079039_152893843300022185Freshwater WetlandsMLRAFLVLALIVAVVGGLGFYMGWFHFSSGSDGNNAHVTVSVDKGQMQKDKDRAVDKVQDLGEQAKDKVATTTQKAQD
Ga0079039_161913223300022185Freshwater WetlandsGIFMARMLLGLVLIVAVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIQKDKDKAVDKVQDLAHQEKEKVATTTQKAQE
Ga0209163_101495713300027536Enrichment CultureMVRMLLVLAAIVVIVAGLGFYMGWFHFSSGRDDKGAHVTVSVDKDQIQEDTDKAVDKVQDLGEQAKDKVETTTQKAQD
Ga0209270_102316963300027592Enrichment CultureMVRMLLVLAAIVVIVAGLGFYMGWFHFSSGRDDKGAHVTVSVDKDQIQEDTDK
Ga0209286_132593733300027713Freshwater SedimentMARMLLVLVLIVAVVAGLGFYMGWFHFSSGSDDNNAHVTVSVDKGQIQEDKDKAVDKVQDLGQHAR
Ga0209819_1008688423300027722Freshwater SedimentMARMLLVLVLIVAVGAGLGFYMGWFHFSSGSDGNSAHVTVSMDKGQVQQDTDKAVDKVQDLGQPAKDKVAPTTQKAQE
Ga0209703_100630123300027723Freshwater SedimentMARMLLVLVLIVAVVAGLGFYMGWFHFSSSSDDNSARVTVSVDKGQIQEDKVATTTPKG
Ga0209285_1006706433300027726Freshwater SedimentMARMLLVLALIVAVVAGLGFYMGWFHFSSGSDSKNAHITVSVDKDQIQKDKDKAVDKVQDLGQHARDKVATTTQKAQE
Ga0214474_107649713300027740SoilMARMLLALVLIVAVVAGLGFYMGWFHFSSGGDGKNAHVTVSVDKDQIQKDKDKAVDKVKDLGQ
Ga0209593_1009533213300027743Freshwater SedimentMMRMFLVLALIVAGVAGLGVYMGWFHFSSGSDGKNAHVTVSVDKGRIQEDKDK
Ga0209593_1010796313300027743Freshwater SedimentMARMLLVLVLIVAVGAGLGFYMGWFHFSSGSDGNSAHITVSMDKGQIEKDKDKAVDKVEDLGHQPKDKVATTPQTA
Ga0209706_1013281013300027818Freshwater SedimentMIRVLLVLVLIVAVVAGLGFYMGWFHFSSGSDDNNAHVTVSVDKGQIQEDRDKAVDKVQDLGQQAKGEVATTTQKAQD
Ga0209706_1022043813300027818Freshwater SedimentMARMLLVLALIVAVVAGLGYYRGWFHFSSGSDDQKAIVTVSVDKDQIQEDKDKAVDKVQNLGQ
Ga0209777_10000956303300027896Freshwater Lake SedimentMARVLLVLVLIVAVVAGLGFYMGWFHFSSGSDHGNAHITVSVDKDKIQKDKDKAVDKVATTTQKAQE
Ga0272441_1117652123300028920Marine SedimentMKGLLIVLVLIVVVVGALGLYLGWFRFSSGSDGNKANVTVSVDKDKIQEDKDKVAGKVYD
Ga0272442_1017719013300030616Marine SedimentMVRIFLVLVLIVAIVAVLGFYLGWFHFSSGSDDNNAHITVSMDKDQIQQDKDEAVDKVQALGQ
Ga0272444_1015472433300031111Marine SedimentMARTLLVLVLIVAVVAGLGFYMGWFHFSSGSDGGSAHVTLSMDKGQLQEDKDKAVDKVQDLGQPAKDKVETTTQTAPE
Ga0307425_101575143300031277Salt MarshMARILFTLVLIVAVVAGLGFYMGWFHFSSSSDGNSAHVTVSMDKDQIQEDKDKAVDKVQDLGQQAKDTVETATQKAQE
Ga0307425_102231433300031277Salt MarshLAKKIRGIFMVRILLVLALIVAVVAGIGFYRGWFHFSSGSDDNNSHVTVSVDNGQIQEDKDKVVDKV
Ga0307445_1013958223300031364Salt MarshDSAKTLSRPIRGIFMARMLLALVLIVAVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKDQIQEDKDKAVDKVQDLGQQAKDTVETATQKAQE
Ga0315285_1020656443300031885SedimentMIRMLFVFALIVAAVAGLGFYMGWFRFSSGSDGKNAHVTVSVDKDQIQKDKDKAVDKVKDLGQQAKDKVATTTQKAQE
Ga0315274_1055829043300031999SedimentMIRMLFVFALIVAAVAGLGFYMGWFRFSSGSDGKNAHVTVSVDKDQIQKDKDKAVDKV
Ga0315284_1200321513300032053SedimentMIRMLFVFALIVAAVAGLGFYMGWFRFSSGSDGKNAHVTVSVDKDQIQKDKDKAVDKVKDLGQQAKDKVATTTQKAQ
Ga0315277_1013357513300032118SedimentMARMLFTLALIVAVVAGLGFYMGWFHFSSGSDGNSAHVTISMDKGQIQKDKDKAVDKVQDLGQQAKDKVETTAQKAQE
Ga0315277_1135610913300032118SedimentMARMLLVFVLIVAVVAGLGFYMGWFHFSSGSDDKNAHVTVSVDKGQIQKDKDKAMDKVQDLGQQAKDKVATTTQKARDY
Ga0315295_1084535033300032156SedimentMIRALLVLALIVAVVAGLGFYMGWFHFSSGSDDRNAHITVSVDKDQIQEDKDKAVDKVQDLGQQAKDKVETTTQKAGE
Ga0315275_1024490723300032401SedimentMIRMLGVLALIVAGVAGLGFYMGWFHFSSGRDGRNAHVTVSVDKGRIQEDKDKAVDKVKDLGQQAKDKVETATQKAQE
Ga0316619_1170162523300033414SoilVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGRIQEDKDKAVDKVKDLEQRAKDKVETATQKAQE
Ga0316622_10010601923300033416SoilMARMLLVLVLIVAVVAGLGFYMGWFHFSSSSDDNSAHVTVSMDKGQIQEDKVATTTQKGQ
Ga0316625_10131730613300033418SoilMARMFLTLVLIAAGVAGLGVYMGWFHFSSGSDGGSAHVTVSVDKDQIQKDKDKAVNKVETATRKAPD
Ga0316620_1007343743300033480SoilMARMLLVLVLIVAVVAGLGFYMGWFHFSSGSDGNRAHITVSMDKGQTQKDKDKAEVEDLGHQAKDKVATTPRTAKE
Ga0316620_1013926923300033480SoilMTRMLGVFVLIVAVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIEKDKDKVVDKVEDLGHQAKDKVATTTQKAQE
Ga0316620_1014443543300033480SoilMARMLLVLVLIVAVVAGLGFYMGWFHFSSGSDGNSAHVTVSMDKGQIEKDKDRAVDKVQDLGHQEKEKVATTTQTAQE
Ga0316620_1032496423300033480SoilPIRGIFMARMLLVFALIVAVIAGLGFYMGWFHFSSGSDDKNAHITVSVDKDQIQKDKDKAVDKVETMTQKAQE
Ga0316620_1045224723300033480SoilMTRMLGVFVLIVAVVAGLGFYMGWFHFSSGSDGSGAHVTVSMDKGQIQKDKDKAVEKVEDLGHQAKEKVATTTQTAQE
Ga0316620_1120133323300033480SoilMARMLLALVLIVAVVAGLGFYMGWFHFSSGGDHNNAHITVSVDRDQIQKDKDRAVDKVQDLGQ
Ga0316620_1140916523300033480SoilMVRMLLALALIVVVVAGLGLYMGWFHFSSGSDGNSAHVTVSIDKDQIQKDKDKAVEKAQDLGQQAKDKVETTAQKAQE
Ga0316620_1150796613300033480SoilMARMLLGLVLIVAVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIQKDKDKAVDKVQDLGQQVKDKVATTTQKAQE
Ga0316626_1024765223300033485SoilMARMLLVLVLIVAVVAGLGFYMGWFHFSSSSDDNSAHVTVSMDKGQIREDKVATTTQKGQ
Ga0316626_1066301823300033485SoilMTRMLLTLVLIVAVVAGLGFYMGWFHFSSGRDGNNAHVTVSVDKDQIQEDKDKAVDKVQDLGQ
Ga0316626_1101291913300033485SoilMVRMLLVLVLIVAVVAGLGFYMGWFHFSSGSDDKNAHVTVSVDRDQIQKDKDKAVDKVQDLGQ
Ga0316626_1152284913300033485SoilMARMLLALVLIVAVVAGLGFYMGWFHFSSGSDGNSGHVTVSVDKDQIQKDTDKAVDKVQDLGQ
Ga0316626_1158937013300033485SoilSRQTIRGIFMARMLLALVLIVAVVAGLGFYMGWFHFSSGSDGSSAHVTVSMDKGQIEKDKDKVVDKVEDLGHQAKDKVATTTQKAQE
Ga0316624_1034162113300033486SoilMARMLLVLVLIVTVVAGLGFYMGWFHFSSGSDGNSAHITVSMDKGQIQKDKDKAVDKVQDLGQQGKDKVATTTQTAQE
Ga0316624_1147687233300033486SoilMTRMLGVFVLIVAVVVGLGFYMGWFHFSSGSDGNGAHVTVSMDKGRIQEDKDKAVD
Ga0316624_1217866313300033486SoilARLSEEAFMTRMFLVMVLIVYMGWFHFSSGSDDGNAHIAVSVDKDQIPKDKDKAVDKVQDPGQQAKDKVA
Ga0316630_1048931413300033487SoilMVRMFLALALIVAGVAGLGFYTGWFHFSSGSDDNSAHLTVSVDKDQIQQDKDKAVDAVQDLGQQAEDKVETTTQKVQE
Ga0316621_1085445823300033488SoilMKSIVFAFVLVVACVLGLGFYMGWFHFSSGSDGNSANITLSVDKGKIEGDKDKAVNAVQDTGQDAKDTTTATTPKAQE
Ga0299912_1008303243300033489SoilMARMLLALVLIVAVVAGLGFYMGWFHFSSGSDGNSAHVTVSMDKDQIQEDKDKAVDKVQDLGQ
Ga0316631_1035877913300033493SoilMTRMLLALVLIVAVVASLGFYMGWFHFSSGSDGNSAHITVSMDKDQIQEDKDKA
Ga0316628_10013333323300033513SoilMARMLLVFVLIVAVVAGLGFWGWFHFSSGSDGSSAHVTVSMDKGRIQKDKDKAVDKVQDLGHQEKEKVATTTQKAQE
Ga0316628_10164422613300033513SoilMARMLLVLVLIVAVGAGLGFYMGWLHFSSGSDGSSAHVTVSMDKGQIQKDRDKAVDKVQHLGQHAKDQVATTTQKAQE
Ga0316628_10250494523300033513SoilMFMARMLLVLVLIVAVVAGLGVYMGWFHFSSGSDGNSAHVTVSMDKDQIQKDKDKAVDKVQDLGQQAKDKVATTTQKAQE
Ga0316628_10405631523300033513SoilVLIVAVVAGLSFYMGWFHFSSGSDGSSAHVTVSMDKGQIQKDKDKAVDKVQDLGHQEKEKVATTTQTAQK
Ga0316616_10120944643300033521SoilMTRMLGVFVLIVAVVVGLGFYMGWFHFSSGSDGNGAHVTVSMDKGQIQKDKDKAVDKVQ
Ga0316616_10368215013300033521SoilRPVEEVSMKSIVFAFVLVVACVLGLGFYMGWFHFSSGSDGNSANITLSVDKGKIEGDKDKAVNAVQDTGQDAKDTTTATTPKAQE
Ga0316617_10182258013300033557SoilMARMLLGLVLIVAVVAGLGFYMGWFHFSSGSDGKNAHVTVSVDKDQIQEDKDKAVDKVQDLGQQAKDKVATATQTAQE

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Bioinformatics & Integrated Biology Lab
Institute for Fundamental Biomedical Research
Biomedical Sciences Research Center "Alexander Fleming"
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