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 Family F063846

Metagenome Family F063846

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Overview Alignments Structure & Topology Gene Neighborhood Phylogeny Ecosystems Sequences
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Overview

Basic Information
Family ID F063846
Family Type Metagenome
Number of Sequences 129
Average Sequence Length 132 residues
Representative Sequence MRINGDALIGLGVVAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTATVKC
Number of Associated Samples 33
Number of Associated Scaffolds 129

Quality Assessment
Transcriptomic Evidence No
Most common taxonomic group Unclassified
% of genes with valid RBS motifs 32.56 %
% of genes near scaffold ends (potentially truncated) 41.09 %
% of genes from short scaffolds (< 2000 bps) 84.50 %
Associated GOLD sequencing projects 20
AlphaFold2 3D model prediction No

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 (74.419 % of family members)
NCBI Taxonomy ID N/A
Taxonomy N/A

Most Common Ecosystem
GOLD Ecosystem Environmental → Aquatic → Non-Marine Saline And Alkaline → Unclassified → Unclassified → Hypoxic/Sulfidic Aquatic
(47.287 % of family members)
Environment Ontology (ENVO) Unclassified
(47.287 % of family members)
Earth Microbiome Project Ontology (EMPO) Free-living → Saline → Water (saline)
(51.163 % 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: Transmembrane (alpha-helical) Signal Peptide: No Secondary Structure distribution: α-helix: 16.43%    β-sheet: 47.86%    Coil/Unstructured: 35.71%
Feature Viewer
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Gene Neighborhood

Neighboring Pfam domains

Pfam IDName % Frequency in 129 Family Scaffolds
PF05050Methyltransf_21 8.53
PF02475Met_10 1.55
PF00239Resolvase 0.78

Neighboring Clusters of Orthologous Genes (COGs)

COG IDNameFunctional Category % Frequency in 129 Family Scaffolds
COG109223S rRNA G2069 N7-methylase RlmK or C1962 C5-methylase RlmITranslation, ribosomal structure and biogenesis [J] 1.55
COG2264Ribosomal protein L11 methylase PrmATranslation, ribosomal structure and biogenesis [J] 1.55
COG2265tRNA/tmRNA/rRNA uracil-C5-methylase, TrmA/RlmC/RlmD familyTranslation, ribosomal structure and biogenesis [J] 1.55
COG2520tRNA G37 N-methylase Trm5Translation, ribosomal structure and biogenesis [J] 1.55
COG1961Site-specific DNA recombinase SpoIVCA/DNA invertase PinEReplication, recombination and repair [L] 0.78
COG2452Predicted site-specific integrase-resolvaseMobilome: prophages, transposons [X] 0.78

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Phylogeny

NCBI Taxonomy

Select NCBI taxonomy Level:
NameRankTaxonomyDistribution
UnclassifiedrootN/A74.42 %
All OrganismsrootAll Organisms25.58 %

Visualization
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Associated Scaffolds


ScaffoldTaxonomyLengthIMG/M Link
3300000398|CisS_allDRAFT_1003771All Organisms → cellular organisms → Archaea → TACK group2369Open in IMG/M
3300000398|CisS_allDRAFT_1017828Not Available626Open in IMG/M
3300000398|CisS_allDRAFT_1018052Not Available618Open in IMG/M
3300003607|JGI20129J51889_1045016Not Available527Open in IMG/M
3300003607|JGI20129J51889_1045024Not Available527Open in IMG/M
3300003607|JGI20129J51889_1045928Not Available518Open in IMG/M
3300003607|JGI20129J51889_1046824Not Available510Open in IMG/M
3300003614|JGI20129J51890_10014637All Organisms → Viruses → Predicted Viral2692Open in IMG/M
3300003614|JGI20129J51890_10041695Not Available2049Open in IMG/M
3300003614|JGI20129J51890_10048191All Organisms → cellular organisms → Archaea → TACK group → Crenarchaeota → Thermoprotei → Thermoproteales → Thermoproteaceae → Caldivirga → Caldivirga maquilingensis1966Open in IMG/M
3300003614|JGI20129J51890_10122040Not Available1448Open in IMG/M
3300003614|JGI20129J51890_10122964Not Available1444Open in IMG/M
3300003614|JGI20129J51890_10122965Not Available1444Open in IMG/M
3300003614|JGI20129J51890_10124604Not Available1437Open in IMG/M
3300003614|JGI20129J51890_10124828Not Available1436Open in IMG/M
3300003614|JGI20129J51890_10125286Not Available1434Open in IMG/M
3300003614|JGI20129J51890_10127284Not Available1426Open in IMG/M
3300003614|JGI20129J51890_10178732All Organisms → Viruses → Predicted Viral1249Open in IMG/M
3300003614|JGI20129J51890_10186993All Organisms → Viruses → Predicted Viral1226Open in IMG/M
3300003614|JGI20129J51890_10207672All Organisms → Viruses → Predicted Viral1172Open in IMG/M
3300003614|JGI20129J51890_10220159Not Available1143Open in IMG/M
3300003614|JGI20129J51890_10221956All Organisms → Viruses → Predicted Viral1139Open in IMG/M
3300003614|JGI20129J51890_10223328Not Available1136Open in IMG/M
3300003614|JGI20129J51890_10223979Not Available1135Open in IMG/M
3300003614|JGI20129J51890_10245223Not Available1090Open in IMG/M
3300003614|JGI20129J51890_10255398Not Available1070Open in IMG/M
3300003614|JGI20129J51890_10255993Not Available1069Open in IMG/M
3300003614|JGI20129J51890_10281325Not Available1024Open in IMG/M
3300003614|JGI20129J51890_10311057Not Available977Open in IMG/M
3300003614|JGI20129J51890_10326406Not Available954Open in IMG/M
3300003614|JGI20129J51890_10442774Not Available811Open in IMG/M
3300003614|JGI20129J51890_10469706Not Available784Open in IMG/M
3300003614|JGI20129J51890_10474755Not Available779Open in IMG/M
3300003614|JGI20129J51890_10491269Not Available763Open in IMG/M
3300003614|JGI20129J51890_10493460Not Available761Open in IMG/M
3300003614|JGI20129J51890_10501143Not Available754Open in IMG/M
3300003614|JGI20129J51890_10506501Not Available749Open in IMG/M
3300003614|JGI20129J51890_10509692Not Available746Open in IMG/M
3300003614|JGI20129J51890_10532802Not Available725Open in IMG/M
3300003614|JGI20129J51890_10537220Not Available721Open in IMG/M
3300003614|JGI20129J51890_10569676Not Available693Open in IMG/M
3300003614|JGI20129J51890_10569677Not Available693Open in IMG/M
3300003614|JGI20129J51890_10575561Not Available688Open in IMG/M
3300003614|JGI20129J51890_10575562Not Available688Open in IMG/M
3300003614|JGI20129J51890_10581475Not Available683Open in IMG/M
3300003614|JGI20129J51890_10582434Not Available682Open in IMG/M
3300003614|JGI20129J51890_10583878Not Available681Open in IMG/M
3300003614|JGI20129J51890_10598572Not Available669Open in IMG/M
3300003614|JGI20129J51890_10609384Not Available660Open in IMG/M
3300003614|JGI20129J51890_10631445Not Available643Open in IMG/M
3300003614|JGI20129J51890_10635229Not Available640Open in IMG/M
3300003614|JGI20129J51890_10642884Not Available634Open in IMG/M
3300003614|JGI20129J51890_10661400Not Available620Open in IMG/M
3300003614|JGI20129J51890_10693849Not Available596Open in IMG/M
3300003614|JGI20129J51890_10704468Not Available588Open in IMG/M
3300003614|JGI20129J51890_10771821Not Available542Open in IMG/M
3300003614|JGI20129J51890_10790114Not Available530Open in IMG/M
3300003614|JGI20129J51890_10808791Not Available517Open in IMG/M
3300005342|Ga0074234_1791All Organisms → Viruses → Predicted Viral4626Open in IMG/M
3300005856|Ga0080005_143535Not Available1370Open in IMG/M
3300005959|Ga0081534_101958All Organisms → cellular organisms → Archaea → TACK group → Crenarchaeota → Thermoprotei → Fervidicoccales → Fervidicoccaceae → Fervidicoccus → unclassified Fervidicoccus → Fervidicoccus sp.5449Open in IMG/M
3300005959|Ga0081534_113984Not Available991Open in IMG/M
3300005959|Ga0081534_118739Not Available610Open in IMG/M
3300005964|Ga0081529_117291All Organisms → cellular organisms → Archaea → TACK group5628Open in IMG/M
3300006179|Ga0079043_1014268Not Available716Open in IMG/M
3300006180|Ga0079045_1001921All Organisms → Viruses → Predicted Viral2247Open in IMG/M
3300006180|Ga0079045_1006563Not Available992Open in IMG/M
3300006180|Ga0079045_1012869Not Available653Open in IMG/M
3300006857|Ga0079041_1011513Not Available1217Open in IMG/M
3300007812|Ga0105109_1016937Not Available568Open in IMG/M
3300007812|Ga0105109_1019513Not Available517Open in IMG/M
3300007813|Ga0105108_103131Not Available739Open in IMG/M
3300007813|Ga0105108_103179Not Available735Open in IMG/M
3300007813|Ga0105108_104123Not Available647Open in IMG/M
3300007814|Ga0105117_1004051All Organisms → Viruses → Predicted Viral2265Open in IMG/M
3300007814|Ga0105117_1040470Not Available521Open in IMG/M
3300007815|Ga0105118_1001676Not Available1254Open in IMG/M
3300007815|Ga0105118_1009214Not Available581Open in IMG/M
3300007816|Ga0105112_1001158All Organisms → Viruses → Predicted Viral1771Open in IMG/M
3300007816|Ga0105112_1003164All Organisms → Viruses → Predicted Viral1129Open in IMG/M
3300007816|Ga0105112_1003681Not Available1059Open in IMG/M
3300007816|Ga0105112_1004758Not Available940Open in IMG/M
3300007816|Ga0105112_1006176Not Available827Open in IMG/M
3300007816|Ga0105112_1010302Not Available638Open in IMG/M
3300007816|Ga0105112_1012852Not Available569Open in IMG/M
3300013008|Ga0167616_1041104Not Available620Open in IMG/M
3300013008|Ga0167616_1042171Not Available609Open in IMG/M
3300013009|Ga0167615_1014202All Organisms → cellular organisms → Archaea → TACK group → Crenarchaeota → Thermoprotei → Thermoproteales → Thermoproteaceae → Caldivirga → Caldivirga maquilingensis1396Open in IMG/M
3300013009|Ga0167615_1030271Not Available886Open in IMG/M
3300013009|Ga0167615_1035758Not Available800Open in IMG/M
3300013009|Ga0167615_1039506Not Available754Open in IMG/M
3300025371|Ga0209224_1010970All Organisms → cellular organisms → Archaea → TACK group → Crenarchaeota → Thermoprotei → Thermoproteales → Thermoproteaceae → Caldivirga → Caldivirga maquilingensis1528Open in IMG/M
3300025371|Ga0209224_1031730Not Available751Open in IMG/M
3300025371|Ga0209224_1042124Not Available607Open in IMG/M
3300026623|Ga0208661_103843Not Available1776Open in IMG/M
3300026625|Ga0208028_100390All Organisms → Viruses → Predicted Viral2670Open in IMG/M
3300026625|Ga0208028_102691Not Available777Open in IMG/M
3300026625|Ga0208028_103807Not Available618Open in IMG/M
3300026762|Ga0208559_114510Not Available517Open in IMG/M
3300026813|Ga0208448_101717Not Available1565Open in IMG/M
3300026813|Ga0208448_108038Not Available659Open in IMG/M
3300026813|Ga0208448_109001Not Available616Open in IMG/M
3300026813|Ga0208448_109619Not Available592Open in IMG/M
3300026813|Ga0208448_109902Not Available582Open in IMG/M
3300026877|Ga0208314_120952Not Available810Open in IMG/M
3300026882|Ga0208313_102719All Organisms → Viruses → Predicted Viral2969Open in IMG/M
3300026906|Ga0208683_105902All Organisms → cellular organisms → Archaea → TACK group2582Open in IMG/M
3300027931|Ga0208312_100339All Organisms → cellular organisms → Archaea → TACK group4573Open in IMG/M
3300027931|Ga0208312_100370All Organisms → Viruses → Predicted Viral4387Open in IMG/M
3300027931|Ga0208312_100392All Organisms → Viruses → Predicted Viral4295Open in IMG/M
3300027931|Ga0208312_100579All Organisms → cellular organisms → Archaea → TACK group3543Open in IMG/M
3300027931|Ga0208312_100982All Organisms → Viruses → Predicted Viral2766Open in IMG/M
3300027931|Ga0208312_102367All Organisms → cellular organisms → Archaea → TACK group → Crenarchaeota → Thermoprotei → Thermoproteales → Thermoproteaceae → Caldivirga → Caldivirga maquilingensis1681Open in IMG/M
3300027931|Ga0208312_102526All Organisms → Viruses → Predicted Viral1619Open in IMG/M
3300027931|Ga0208312_102759All Organisms → Viruses → Predicted Viral1529Open in IMG/M
3300027931|Ga0208312_104227Not Available1162Open in IMG/M
3300027931|Ga0208312_106978Not Available801Open in IMG/M
3300027931|Ga0208312_108443Not Available693Open in IMG/M
3300027932|Ga0208429_100235All Organisms → cellular organisms → Archaea → DPANN group → Nanoarchaeota → Candidatus Nanoarchaeia → Nanoarchaeales → Nanopusillaceae → Candidatus Nanobsidianus → Candidatus Nanobsidianus stetteri8482Open in IMG/M
3300027932|Ga0208429_111559Not Available718Open in IMG/M
3300027937|Ga0208151_108657Not Available1514Open in IMG/M
3300029625|Ga0311297_1165776Not Available1179Open in IMG/M
3300031749|Ga0315298_1346622Not Available600Open in IMG/M
3300033476|Ga0326765_100930All Organisms → Viruses → Predicted Viral3527Open in IMG/M
3300033476|Ga0326765_107422All Organisms → Viruses → Predicted Viral1142Open in IMG/M
3300033892|Ga0326767_000071All Organisms → cellular organisms → Archaea → TACK group → Crenarchaeota → Thermoprotei44534Open in IMG/M
3300033892|Ga0326767_017056Not Available899Open in IMG/M
3300034404|Ga0374090_03794All Organisms → Viruses → Predicted Viral2950Open in IMG/M
3300034404|Ga0374090_08349All Organisms → Viruses → Predicted Viral1178Open in IMG/M


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Environmental Properties

Associated Habitat Types

Select Environment Taxonomy Level:
HabitatTaxonomyDistribution
Hypoxic/Sulfidic AquaticEnvironmental → Aquatic → Non-Marine Saline And Alkaline → Unclassified → Unclassified → Hypoxic/Sulfidic Aquatic47.29%
Hot SpringEnvironmental → Aquatic → Thermal Springs → Hot (42-90C) → Unclassified → Hot Spring41.86%
Hot Spring WaterEnvironmental → Aquatic → Thermal Springs → Unclassified → Unclassified → Hot Spring Water3.10%
Hypoxic/Sulfidic AquaticEnvironmental → Aquatic → Non-Marine Saline And Alkaline → Alkaline → Unclassified → Hypoxic/Sulfidic Aquatic2.33%
Hot Spring SedimentEnvironmental → Aquatic → Thermal Springs → Hot (42-90C) → Acidic → Hot Spring Sediment1.55%
Hot Spring Microbial MatEnvironmental → Aquatic → Thermal Springs → Hot (42-90C) → Unclassified → Hot Spring Microbial Mat0.78%
Hot Spring SedimentEnvironmental → Aquatic → Thermal Springs → Hot (42-90C) → Sediment → Hot Spring Sediment0.78%
Hot SpringEnvironmental → Aquatic → Thermal Springs → Hot (42-90C) → Sediment → Hot Spring0.78%
Hot SpringEnvironmental → Aquatic → Thermal Springs → Hot (42-90C) → Acidic → Hot Spring0.78%
Ferrous Microbial Mat And AquaticEnvironmental → Aquatic → Non-Marine Saline And Alkaline → Unclassified → Unclassified → Ferrous Microbial Mat And Aquatic0.78%

Visualization
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Associated Samples

Taxon OIDSample NameHabitat TypeIMG/M Link
3300000398Hypoxic/sulfidic aquatic microbial communities from Cistern Spring, Yellowstone National Park, USAEnvironmentalOpen in IMG/M
3300003607Hypoxic/sulfidic aquatic microbial communities from Monarch Geyser, Yellowstone National Park, USA - MGEnvironmentalOpen in IMG/M
3300003614Hypoxic/sulfidic aquatic microbial communities from Monarch Geyser, Yellowstone National Park, USA - MGEnvironmentalOpen in IMG/M
3300005342Hot spring viral communities from Yellowstone National Park, Wyoming, USA - Nymph LakeEnvironmentalOpen in IMG/M
3300005856Hot spring sediment microbial communities from Joseph's Coat, Yellowstone National Park, USA - JC3_ASED (SPADES assembly)EnvironmentalOpen in IMG/M
3300005959Hypoxic/sulfidic aquatic microbial communities from Monarch Geyser, Yellowstone National Park, USA - MG (SPADES assembly)EnvironmentalOpen in IMG/M
3300005964Ferrous microbial mat and aquatic microbial communities from Echinus Geyser, Yellowstone National Park, USA - transect B T=78-80 CEnvironmentalOpen in IMG/M
3300006179Hot spring microbial mat communities from Yellowstone National Park, Wyoming, USA - ECH_C virus_MetaGEnvironmentalOpen in IMG/M
3300006180Hot spring microbial mat communities from Yellowstone National Park, Wyoming, USA - BED_virus_MetaGEnvironmentalOpen in IMG/M
3300006857Hot spring microbial mat communities from Yellowstone National Park, Wyoming, USA - ECH_B host_MetaGEnvironmentalOpen in IMG/M
3300007812Extremophilic microbial mat communities from Yellowstone National Park, USA - BED_Mat_host_6_15EnvironmentalOpen in IMG/M
3300007813Extremophilic microbial mat communities from Yellowstone National Park, USA - BED_Mat_virus_6_15EnvironmentalOpen in IMG/M
3300007814Extremophilic microbial mat communities from Yellowstone National Park, USA - OSPB_Slides-mat_host_7_15EnvironmentalOpen in IMG/M
3300007815Extremophilic microbial mat communities from Yellowstone National Park, USA - OSPB_Mat_virus_9_15EnvironmentalOpen in IMG/M
3300007816Extremophilic microbial mat communities from Yellowstone National Park, USA - BED_Mat_virus_9_15EnvironmentalOpen in IMG/M
3300013008Extremophilic microbial mat communities from Yellowstone National Park, USA - OSPB_Mat_host_9_15 (v2)EnvironmentalOpen in IMG/M
3300013009Extremophilic microbial mat communities from Yellowstone National Park, USA - BED_Mat_host_9_15 (v2)EnvironmentalOpen in IMG/M
3300025371Hypoxic/sulfidic aquatic microbial communities from Monarch Geyser, Yellowstone National Park, USA - MG (SPAdes)EnvironmentalOpen in IMG/M
3300026623Hot spring microbial mat communities from Yellowstone National Park, Wyoming, USA - ECH_C virus_MetaG (SPAdes)EnvironmentalOpen in IMG/M
3300026625Extremophilic microbial mat communities from Yellowstone National Park, USA - BED_Mat_virus_6_15 (SPAdes)EnvironmentalOpen in IMG/M
3300026762Extremophilic microbial mat communities from Yellowstone National Park, USA - BED_Mat_host_6_15 (SPAdes)EnvironmentalOpen in IMG/M
3300026813Extremophilic microbial mat communities from Yellowstone National Park, USA - OSPB_Mat_virus_9_15 (SPAdes)EnvironmentalOpen in IMG/M
3300026877Extremophilic microbial mat communities from Yellowstone National Park, USA - OSPB_Mat_host_9_15 (SPAdes)EnvironmentalOpen in IMG/M
3300026882Extremophilic microbial mat communities from Yellowstone National Park, USA - OSPB_Slides-mat_host_7_15 (SPAdes)EnvironmentalOpen in IMG/M
3300026906Extremophilic microbial mat communities from Yellowstone National Park, USA - BED_Mat_host_9_15 (SPAdes)EnvironmentalOpen in IMG/M
3300027931Extremophilic microbial mat communities from Yellowstone National Park, USA - BED_Mat_virus_9_15 (SPAdes)EnvironmentalOpen in IMG/M
3300027932Hot spring microbial mat communities from Yellowstone National Park, Wyoming, USA - BED_virus_MetaG (SPAdes)EnvironmentalOpen in IMG/M
3300027937Hot spring microbial mat communities from Yellowstone National Park, Wyoming, USA - ECH_B host_MetaG (SPAdes)EnvironmentalOpen in IMG/M
3300029625Mildly acidic thermal spring sediment microbial community from Yellowstone National Park, USA - SJ3 SpringEnvironmentalOpen in IMG/M
3300031749Extremophilic microbial mat communities from Washburn Hot Springs, YNP, Wyoming, USA - WHS_1_MGEnvironmentalOpen in IMG/M
3300033476Hot spring water microbial communities from Norris Geyser Basin, Yellowstone National Park, WY, United States - NOR.RB_PEnvironmentalOpen in IMG/M
3300033892Hot spring water microbial communities from Norris-Mammoth Corridor, Yellowstone National Park, WY, United States - NMC.RSE_PEnvironmentalOpen in IMG/M
3300034404Hot spring sediment microbial community from Evening Primrose, Yellowstone National Park, WY, USA - EP_sedEnvironmentalOpen in IMG/M

Geographical Distribution
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Family Sequences

Protein ID Sample Taxon ID Habitat Sequence
CisS_allDRAFT_100377133300000398Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLTAILLYIALFHTYPQLTCAYVTTHYINHTLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYIAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYMLTVPTNTTAAVKC*
CisS_allDRAFT_101782813300000398Hypoxic/Sulfidic AquaticMRINGDTLIGLGVAAVLAAILLYIALFHTYTQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYATTQRLPVTNSLISWSSYIAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYMLTVPTNTTAA
CisS_allDRAFT_101805223300000398Hypoxic/Sulfidic AquaticALFHTYTQLTCAYVTTHYANHVLTVLVNFTCSGDLYAVWDVNADNCIYATSQRLPVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGVGYAQCHYLLTIPTNATVKVKC*
JGI20129J51889_104501613300003607Hypoxic/Sulfidic AquaticMRISGDALIGLGVAAVLTAILLFIALYHTYPQLTCVYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHY
JGI20129J51889_104502413300003607Hypoxic/Sulfidic AquaticMRISGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHY
JGI20129J51889_104592813300003607Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAVLLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYATTQRLPVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHY
JGI20129J51889_104682413300003607Hypoxic/Sulfidic AquaticMRISGDALIGLGVVAVLAAILLFIALYHTYPQLTCVYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGA
JGI20129J51890_1001463743300003614Hypoxic/Sulfidic AquaticMRINGDALLGLGVVAVLAAILLFIAWYHTYPQLTCAYVTTRYINHTLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTAAVKC*
JGI20129J51890_1004169523300003614Hypoxic/Sulfidic AquaticMRINGDALLGLGVAVAVLAAILLFIAWYHTYPQLTCAYVTTRYINHTLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTAAVKC*
JGI20129J51890_1004819133300003614Hypoxic/Sulfidic AquaticMRISGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTAAVKC*
JGI20129J51890_1012204023300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTVPINTTAAVKC*
JGI20129J51890_1012296423300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAVLLFIALYHTYPQLTCAYVTTRYINHTLTVLVNFTCSGDLYAVWNVNASNCIYNYNASXQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTAAVKC*
JGI20129J51890_1012296523300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTIPTNTTAAVKC*
JGI20129J51890_1012460423300003614Hypoxic/Sulfidic AquaticMRINGDALLGLGVVAVLATILLFIAWYHTYPQLTCAYVTTHYANHTLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTAAVKC*
JGI20129J51890_1012482823300003614Hypoxic/Sulfidic AquaticMRINGDALLGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWNVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTAAVKC*
JGI20129J51890_1012528623300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTVPTNATVKVKC*
JGI20129J51890_1012728423300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLTAILLFIAWYHTYPQLTCAYVTTRYINHTLTVLVNFTCSGDLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCT
JGI20129J51890_1017873213300003614Hypoxic/Sulfidic AquaticAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTAAVKC*
JGI20129J51890_1018699333300003614Hypoxic/Sulfidic AquaticIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWDVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTAAVKC*
JGI20129J51890_1020767213300003614Hypoxic/Sulfidic AquaticFIAWYHTYPQLTCAYVTTHYANHTLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTAAVKC*
JGI20129J51890_1022015923300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTVTVNC*
JGI20129J51890_1022195623300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVTVNC*
JGI20129J51890_1022332823300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTVTVNC*
JGI20129J51890_1022397923300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAVLLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTIPTNTTVTVNC*
JGI20129J51890_1024522323300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTVTVNC*
JGI20129J51890_1025539823300003614Hypoxic/Sulfidic AquaticMRISGDALIGLGVAAVLAAILLFIALYHTYPQLTCVYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNATVKVKC*
JGI20129J51890_1025599333300003614Hypoxic/Sulfidic AquaticMRISGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTVTVNC*
JGI20129J51890_1028132523300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWGVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVTVNC*
JGI20129J51890_1031105713300003614Hypoxic/Sulfidic AquaticLLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTAAVKC
JGI20129J51890_1032640623300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYATSQRLPVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTVPINTTAAVKC*
JGI20129J51890_1044277423300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVVAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTATVKC*
JGI20129J51890_1046970613300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVTVNC*
JGI20129J51890_1047475513300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVVAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVTVNC*
JGI20129J51890_1049126923300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCVYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVTVNC*
JGI20129J51890_1049346023300003614Hypoxic/Sulfidic AquaticMRINGDALLGLGVAAVLAAILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVTVKC*
JGI20129J51890_1050114313300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTIPTNTTV
JGI20129J51890_1050650113300003614Hypoxic/Sulfidic AquaticMRISGDALIGLGVAAVLAAILLFIALYHTYPQLTCVYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTVPTNATVKVKC*
JGI20129J51890_1050969213300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNATVKVKC*
JGI20129J51890_1053280213300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYATTQRLPNVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLL
JGI20129J51890_1053722023300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYIAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTVKVKC*
JGI20129J51890_1056967623300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVVAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNANNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHY
JGI20129J51890_1056967713300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVVAVLAAVLLFIALYHTYPQLTCAYVTTHYANHTLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHY
JGI20129J51890_1057556113300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPASAGYAQCHY
JGI20129J51890_1057556223300003614Hypoxic/Sulfidic AquaticMRISGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHY
JGI20129J51890_1058147513300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVVAVLAAVLLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYL
JGI20129J51890_1058243413300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCVYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNT
JGI20129J51890_1058387823300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVVAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLT
JGI20129J51890_1059857213300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVVAVLAAILLFIALYHTYPQLTCAYVTTHYANHTLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYL
JGI20129J51890_1060938423300003614Hypoxic/Sulfidic AquaticAVLTAILLFIALYHTYPQLTCAYVTTRYINHTLTVLVNFTCSGNLYAVWNVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTAAVKC*
JGI20129J51890_1063144523300003614Hypoxic/Sulfidic AquaticVAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDL
JGI20129J51890_1063522913300003614Hypoxic/Sulfidic AquaticMRISGDALIGLGVAAVLAAILLFIALYHTYPQLTCVYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVTVNC*
JGI20129J51890_1064288423300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYATTQRLPNVTNSLISWSNYVAWNFTFTCTKPPSNVT
JGI20129J51890_1066140013300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWGVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTVTVNC*
JGI20129J51890_1069384913300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPASAGYAQCHY
JGI20129J51890_1070446823300003614Hypoxic/Sulfidic AquaticMRINGDALIGLGVVAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTC
JGI20129J51890_1077182113300003614Hypoxic/Sulfidic AquaticMRINGDALLGLGVVAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYATTQRLPNVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYMLTVPTNTTAAVKC*
JGI20129J51890_1079011423300003614Hypoxic/Sulfidic AquaticMRISGDALIGLGVVAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDL
JGI20129J51890_1080879113300003614Hypoxic/Sulfidic AquaticMRINGDALLGLGVVAVLAAILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPASAGYAQCHY
Ga0074234_179153300005342Hot SpringMRINTDALLGLGAVAVLTAILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCNGNLYAVWDVNAGNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPGNVTVDLTTPAGAGYAQCHYLLTIPTNTTAAVKC*
Ga0080005_14353533300005856Hot Spring SedimentMRINGDVLIGLGTVAVLTAILLYIALFHTYTQLTCVYVTTHYINNTLTVLVNFTCSGDLYAVWDVNAGNCIYNYNASQRLPVTNSFLSWSSYVAWNFTFTCVKPPCNVTVDLTTPAGAGYAQCHYLLTIPTNTTVAVKC*
Ga0081534_10195883300005959Hypoxic/Sulfidic AquaticMRINGDALIGLGVAAVLAAVLLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWNVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTAAVKC*
Ga0081534_11398433300005959Hypoxic/Sulfidic AquaticLIGLGVAAVLAAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVTVNC*
Ga0081534_11873923300005959Hypoxic/Sulfidic AquaticLFIALYHTYPQLTCAYVTTHYANHTLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTAAVKC*
Ga0081529_11729123300005964Ferrous Microbial Mat And AquaticMRINGDALIGLGVAAVLAAILLYIALFHTYTQLTCAYVTTRYINHTLTVLVNFTCSGSLYAVWDVNADNCIYATSQRLPVTKSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYMLTVPTNATVKVKC*
Ga0079043_101426823300006179Hot SpringMRINGDALIGLGVAAVLAAILLYIALFHTYTQLTCAYVTTRYINHTLTVLVNFTCSGSLYAVWGVNASNCIYATTQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYML
Ga0079045_100192123300006180Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCGGDLYAVWGVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYTQCHYLLTIPTNTTAAVKC*
Ga0079045_100656323300006180Hot SpringMRINGDALIGLGVVAVLTAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTVAVKC*
Ga0079045_101286913300006180Hot SpringMRINTDALLGLGAVAVLTAILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGDLYAVWGVNASNCIYATSQRLPVTKSLISWSNYVAWNFTFTCAKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVAVKC*
Ga0079041_101151323300006857Hot SpringMRINGDALIGLGVAAVLAAILLYIALFHTYTQLTCAYVTTRYINHTLTVLVNFTCSGSLYAVWGVNASNCIYATTQRLPVTKSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYMLTVPTNATVKVKC*
Ga0105109_101693713300007812Hot SpringLLFIAWYHTYPQLTCAYVATHYVNHVLTVLVNFTCSGNLYAIWGVNASNCIYNYNASQQLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCRYLLAIPTNTTVAVKC*
Ga0105109_101951323300007812Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCGGDLYAVWGVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAVYTQCHYLL
Ga0105108_10313113300007813Hot SpringLLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGDLYAVWDVNADNCIYNYNASQRLPVTNSLISWSNYVAWNFTFTCTEPPDNVTVDLTTPAGAGYAQCHSQCHYLLTIPTNATVKVKC*
Ga0105108_10317913300007813Hot SpringMRINTDAILGLGAVALLATILLFIEWYHTYPQLTCAYVTTHYANHVLTVLVNFTCGGDLYAVWGVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYTQCHYLLTIPTNTTAAVKC*
Ga0105108_10412323300007813Hot SpringMRINGDALIGLGAVALLATILLFIAWYHTYPQLTCAYVATHYVNHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTKSLISWSNYVAWNFTFTCTKPTSNVTVDLTTPAGAGYAQCHYLLTIPTNTTAAVKC*
Ga0105117_100405123300007814Hot SpringMRINGDVLIGLGTVAVLTAILLFIAWYHAYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWGVNADNCVYNYNASQRLPVTNSLISWSNYVAWNFTFTCTEPPGNITVDLTTPAGAGYAQCHYLLTIPINATVKVKC*
Ga0105117_104047013300007814Hot SpringMRINDDALIGLGVAAVLAVVLLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWDVNADNCIYNYNASQRLPVTNSFLSWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPVNTTAAVKC*
Ga0105118_100167633300007815Hot SpringMRISGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYITTRYINHTLTVLVNFTCSGSLYAVWGVNAGNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNATVKVKC*
Ga0105118_100921423300007815Hot SpringLLFIALYHTYPQLTCAYITTRYINHTLTVLVNFTCSGSLYAVWGVNASNCIYTTSQQLPNVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNATVKVKC*
Ga0105112_100115823300007816Hot SpringMRINTDALLGLGAVALLATILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGDMYAVWGVNASNCIYATSQRLPVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCRYLLTIPINTTAAVKC*
Ga0105112_100316423300007816Hot SpringMRINTDALLGLGVVAVLTAILLFIAWYHTYPQLTCAYVATHYANHVLTVLVNFTCSGNLYAVWGMNASNCIYVTSQRLPVTKSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPINATVKVKC*
Ga0105112_100368133300007816Hot SpringIIFLTLTKNAMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWGVNASNCIYNYNASQQLPVTKSLISWSNYVAWNFTFTCAKPPSNVTVDLTTPAGAGYAQCRYLLTIPINATVKVKC*
Ga0105112_100475823300007816Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYANHMLTVLVNFTCSGNLYAVWGVNTSNCIYVTSQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINATVKVKC*
Ga0105112_100617613300007816Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYVNHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTAAVKC*
Ga0105112_101030223300007816Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVATHYANHVLTVLVNFTCSGDLYAVWDVNADNCIYNYNASQRLPVTNSLISWSNYVAWNFTFTCTEPPDNVTVDLTTPAGAGYAQCHSQCHYLLTIPTNATVKVKC*
Ga0105112_101285223300007816Hot SpringMRINGDILIGLGVVAVLTAILLFIAWYHTYPQLTCAYVATHYANHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTKSLISWGNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVAVKC*
Ga0167616_104110413300013008Hot SpringGLGVVAVLTAILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTAAVKC*
Ga0167616_104217123300013008Hot SpringGVVAVLTAILLFIAWYHTYPQLTCAYVATHYANHVLTVLVNFTCSGNLYAVWGMNASNCIYVTSQRLPVTKSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVAVKC*
Ga0167615_101420213300013009Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVATHYVNHVLTVLVNFTCSGNLYAIWGVNASNCIYNYNASQQLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVAVKC*
Ga0167615_103027123300013009Hot SpringLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYVNHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTAAVKC*
Ga0167615_103575823300013009Hot SpringMRINGDALIGLGVAAVLAAILLYIALFHTYTQLTCAYVTTRYINHTLTVLVNFTCSGDLYAVWDVNASNCIYATSQRLPVTNSLISWSSYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLL
Ga0167615_103950623300013009Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGDLYAVWDVNADNCIYNYNASQRLPVTNSLISWSNYVAWNFTFTCTEPPDNVTVDLTTPAGAGYAQCHSQCHYLLTIPTNATVKVKC*
Ga0209224_101097013300025371Hypoxic/Sulfidic AquaticVVAVLAAVLLFIALYHTYPQLTCAYVTTHYANHTLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTAAVKC
Ga0209224_103173013300025371Hypoxic/Sulfidic AquaticMRISGDALIGLGVAAVLTAILLFIALYHTYPQLTCVYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYNYNASQQLPTVTNSLISWSSYVAWNF
Ga0209224_104212423300025371Hypoxic/Sulfidic AquaticMRINGDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNASNCIYATTQRLPNVTNSLISWSSYVAWNFTFTCTEPPSNV
Ga0208661_10384323300026623Hot SpringMRINGDALIGLGVAAVLAAILLYIALFHTYTQLTCAYVTTRYINHTLTVLVNFTCSGSLYAVWGVNASNCIYATTQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYMLTIPINTTAAVKC
Ga0208028_10039033300026625Hot SpringMRINGDVLIGLGAVALLATILLFIAWYHTYPQLTCAYVATHYVNHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCRYLLAIPTNTTVAVKC
Ga0208028_10269123300026625Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCGGDLYAVWGVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYTQCHYLLTIPTNTTAAVKC
Ga0208028_10380723300026625Hot SpringYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGDLYAVWDVNADNCIYNYNASQRLPVTNSLISWSNYVAWNFTFTCTEPPDNVTVDLTTPAGAGYAQCHSQCHYLLTIPTNATVKVKC
Ga0208559_11451013300026762Hot SpringWYHTYPQLTCAYVATHYVNHVLTVLVNFTCSGNLYAIWGVNASNCIYNYNASQQLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVAVKC
Ga0208448_10171723300026813Hot SpringMRISGDALIGLGVAAVLAAILLFIALYHTYPQLTCAYITTRYINHTLTVLVNFTCSGSLYAVWGVNAGNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNATVKVKC
Ga0208448_10803823300026813Hot SpringLGVAAVLTAILLFIAWYHTYPQLTCVYVTTHYANHVLTVLVNFTCSGSLYAVWDVNADNCIYNYNASQQLPVTNSFLSWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTAAVKC
Ga0208448_10900123300026813Hot SpringMRINGDALIGLGVAAVLAAILLFIAWYHTYPQLTCAYVTTRYINHTLTVLVNFTCSGSLYAVWGVNASNCIYTTSQRLPVTNSLISWSSYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTAAVKC
Ga0208448_10961913300026813Hot SpringYHTYPQLTCAYVTTHYINHTLTVLVNFTCSGSLYAVWDVNADNCIYNYNASQRLPVTNSLISWSNYVAWNFTFTCTEPPGNITVDLTTPAGAGYAQCHYLLTIPINATVKVKC
Ga0208448_10990213300026813Hot SpringMRINSDALIGLGVAAVLAAILLFIAWYHTYPQLTCAYVTTHYVNHVLTVLVNFTCSGNLYAVWDVNADNCIYNYNASQQLPVTNSLISWSNYVAWNFTFTCTKSPSNVTVDLTTPAGAGYAQCHYLLTIPI
Ga0208314_12095213300026877Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYVNHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTAAVKC
Ga0208313_10271923300026882Hot SpringMRINGDALIGLGVAAVLTAILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWDVNADNCIYNYNASQRLPVTNSLISWSNYVAWNFTFTCTEPPGNVTVDLTTPAGAGYAQCHYLLTIPVNTTAAVKC
Ga0208683_10590223300026906Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVATHYANHVLTVLVNFTCSGNLYAVWGMNASNCIYVTSQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCRYLLAIPTNTTVAVKC
Ga0208312_10033973300027931Hot SpringMRINTDALLGLGVVAVLTAILLFIAWYHTYPQLTCAYVATHYANHVLTVLVNFTCSGNLYAVWGMNASNCIYVTSQRLPVTKSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPINATVKVKC
Ga0208312_10037033300027931Hot SpringMRINTDALLGLGAVALLATILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGDMYAVWGVNASNCIYATSQRLPVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCRYLLTIPINTTAAVKC
Ga0208312_10039243300027931Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGDLYAVWDVNADNCIYNYNASQRLPVTNSLISWSNYVAWNFTFTCTEPPDNVTVDLTTPAGAGYAQCHPQCHYLLTIPTNATVKVKC
Ga0208312_10057963300027931Hot SpringMRINGDVLISLGVAAVLAAILLFIALYHTYPQLTCVYVTTHYANHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTNSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTAAVKC
Ga0208312_10098213300027931Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYVNHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTAAVKC
Ga0208312_10236733300027931Hot SpringAVALLATILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCGGDLYAVWGVNASNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYTQCHYLLTIPTNTTAAVKC
Ga0208312_10252623300027931Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYANHMLTVLVNFTCSGNLYAVWGVNTSNCIYVTSQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINATVKVKC
Ga0208312_10275933300027931Hot SpringMRINTDALLGLGAVALLATILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWGVNASNCIYNYNASQQLPVTKSLISWSNYVAWNFTFTCAKPPSNVTVDLTTPAGAGYAQCRYLLTIPINATVKVKC
Ga0208312_10422723300027931Hot SpringMRINGDALIGLGAVALLATILLFIAWYHTYPQLTCAYVATHYVNHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCRYLLAIPTNTTVAVKC
Ga0208312_10697813300027931Hot SpringLGVVAVLTAILLFIAWYHTYPQLTCAYVTTRYINHTLTVLVNFTCSGSLYAVWNVNADNCIYNYNASQQLPTVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTAAVKC
Ga0208312_10844313300027931Hot SpringINGDILIGLGVVAVLTAILLFIAWYHTYPQLTCAYVATHYANHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTKSLISWGNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVAVKC
Ga0208429_10023533300027932Hot SpringMRINTDALLGLGAVAVLTAILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTKSLISWSNYVAWNFTFTCAKPPSNVTVDLTTPAGAGYAQCHYLLTIPTNTTVAVKC
Ga0208429_11155923300027932Hot SpringMRINGDVLIGLGVVAVLTAILLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWGVNASNCIYATSQRLPVTKSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTVAVKC
Ga0208151_10865723300027937Hot SpringMRINGDALIGLGVAAVLAAILLYIALFHTYTQLTCAYVTTRYINHTLTVLVNFTCSGSLYAVWGVNASNCIYATTQRLPVTKSLISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYMLTVPTNATVKVKC
Ga0311297_116577623300029625Hot SpringMRINSDVLFGLGTVAVLTAILLYIALFHVYTQVTCAYVSTHYVNHTLTVLVNFTCSGNLYAVWDVNADNCIYNYNETQQLPATKSLISWSSYVAWNFTFTCTKPPSNVTVDLTTPAGAGYSQCHYLLTIPINTTVKVKC
Ga0315298_134662213300031749Hot Spring Microbial MatMRINGDALLGLGAVAMLTAIMLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWGVNASNCIYNYNASQRLPVTNSLISWSSYVAWNFTFTCTEPPVNVTVDLTTPAGAGYSQCHYLLTIPTNTTVAVKC
Ga0326765_10093053300033476Hot Spring WaterMRINTDALLGLGAVAVLTAILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGNLYAVWDVNASNCIYTTSQRLPVTKALISWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTVPTNTTVTVKC
Ga0326765_10742213300033476Hot Spring WaterMRINDDALIGLGVAAVLAAVLLFIALYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGDLYAVWDVNADNCIYNYNASQQLPVTKSLISWSNYVAWNFTFTCTEPPNN
Ga0326767_000071_34887_353063300033892Hot Spring WaterMRINSDALIGLGAVAVLTAILLFIAWYHTYPQLTCAYVSTHYANHVLTVLVNFTCNGNLYAVWDVNAGNCIYNYNASQQLPVTNSFLSWSNYVAWNFTFTCTKPPSNVTVDLTTPAGAGYAQCHYLLTVPTNATMSVKC
Ga0326767_017056_267_6833300033892Hot Spring WaterMRINGDVLIGLGVVAVLAAILLFIAWYHTYPQLTCAYVTTHYANHVLTVLVNFTCSGSLYAVWGVNASNCIYATTQRLPNVTNSLISWSNYVAWNFTFTCTEPPSNVTVDLTTPAGAGYAQCHYLLTIPINTTVKVKC
Ga0374090_03794_802_12243300034404Hot Spring SedimentMRINGDVLIGLGTVAVLAAILLFIALYHTYPQLTCAYVSTHYVNHTLTVLVNFTCSGSLYAVWGVNAGNCIYNYNASQRLPAVTNSFLSWSSYVAWNFTFTCTKPPSNVTVDLTTPAGAGYSQCHYLLTIPTNTTVAVKC
Ga0374090_08349_81_5003300034404Hot Spring SedimentMRINDDVLIGLGVVAVLMAILLFIAWYRTYPQLTCAYVSTHYVNHVLTVLVNFTCSGNLYAVWDVNADNCIYNYNASQRLPVTNSLISWSSYVAWNFTFTCTKPPSNVTVDLTTPAGAGYSQCHYLLTVPTNATVKVKC

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