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 F046362

Metagenome Family F046362

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Overview Alignments Structure & Topology Gene Neighborhood Phylogeny Ecosystems Sequences
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Overview

Basic Information
Family ID F046362
Family Type Metagenome
Number of Sequences 151
Average Sequence Length 156 residues
Representative Sequence MANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Number of Associated Samples 63
Number of Associated Scaffolds 151

Quality Assessment
Transcriptomic Evidence No
Most common taxonomic group Unclassified
% of genes with valid RBS motifs 81.88 %
% of genes near scaffold ends (potentially truncated) 36.42 %
% of genes from short scaffolds (< 2000 bps) 69.54 %
Associated GOLD sequencing projects 39
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 (75.497 % of family members)
NCBI Taxonomy ID N/A
Taxonomy N/A

Most Common Ecosystem
GOLD Ecosystem Environmental → Aquatic → Marine → Coastal → Unclassified → Aqueous
(77.483 % of family members)
Environment Ontology (ENVO) Unclassified
(79.470 % of family members)
Earth Microbiome Project Ontology (EMPO) Free-living → Saline → Water (saline)
(91.391 % of family members)


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Multiple Sequence Alignments

Select alignment to view:      

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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: 13.58%    β-sheet: 35.80%    Coil/Unstructured: 50.62%
Feature Viewer
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Gene Neighborhood

Neighboring Pfam domains

Pfam IDName % Frequency in 151 Family Scaffolds
PF13385Laminin_G_3 30.46
PF12728HTH_17 0.66
PF00692dUTPase 0.66
PF05119Terminase_4 0.66

Neighboring Clusters of Orthologous Genes (COGs)

COG IDNameFunctional Category % Frequency in 151 Family Scaffolds
COG0717dCTP deaminaseNucleotide transport and metabolism [F] 0.66
COG0756dUTP pyrophosphatase (dUTPase)Defense mechanisms [V] 0.66
COG3747Phage terminase, small subunitMobilome: prophages, transposons [X] 0.66

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Phylogeny

NCBI Taxonomy

Select NCBI taxonomy Level:
NameRankTaxonomyDistribution
UnclassifiedrootN/A75.50 %
All OrganismsrootAll Organisms24.50 %

Visualization
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Associated Scaffolds


ScaffoldTaxonomyLengthIMG/M Link
3300000947|BBAY92_10049590All Organisms → Viruses → Predicted Viral1142Open in IMG/M
3300006026|Ga0075478_10067688Not Available1158Open in IMG/M
3300006561|Ga0101389_1007316All Organisms → cellular organisms → Bacteria → Terrabacteria group → Actinobacteria → Actinomycetia → Corynebacteriales → Gordoniaceae → Gordonia → Gordonia terrae549Open in IMG/M
3300006637|Ga0075461_10107090Not Available876Open in IMG/M
3300006802|Ga0070749_10014995All Organisms → Viruses → Predicted Viral4937Open in IMG/M
3300006802|Ga0070749_10035255All Organisms → Viruses → Predicted Viral3096Open in IMG/M
3300006802|Ga0070749_10088446All Organisms → Viruses → Predicted Viral1842Open in IMG/M
3300006802|Ga0070749_10176871Not Available1230Open in IMG/M
3300006802|Ga0070749_10452112Not Available704Open in IMG/M
3300006810|Ga0070754_10009213All Organisms → cellular organisms → Archaea → DPANN group → Candidatus Altiarchaeota → Candidatus Altiarchaeales → unclassified Candidatus Altiarchaeales → Candidatus Altiarchaeales archaeon6326Open in IMG/M
3300006810|Ga0070754_10025138All Organisms → Viruses → Predicted Viral3410Open in IMG/M
3300006810|Ga0070754_10035804Not Available2731Open in IMG/M
3300006810|Ga0070754_10131141All Organisms → Viruses → Predicted Viral1213Open in IMG/M
3300006810|Ga0070754_10242266All Organisms → cellular organisms → Bacteria → PVC group → Planctomycetes → Planctomycetia → Planctomycetales → Planctomycetaceae → unclassified Planctomycetaceae → Planctomycetaceae bacterium826Open in IMG/M
3300006810|Ga0070754_10284947Not Available745Open in IMG/M
3300006810|Ga0070754_10409801Not Available592Open in IMG/M
3300006810|Ga0070754_10411811Not Available590Open in IMG/M
3300006810|Ga0070754_10481153Not Available536Open in IMG/M
3300006868|Ga0075481_10210055Not Available694Open in IMG/M
3300006869|Ga0075477_10045204All Organisms → Viruses → Predicted Viral1976Open in IMG/M
3300006869|Ga0075477_10109645Not Available1176Open in IMG/M
3300006870|Ga0075479_10033934All Organisms → Viruses → Predicted Viral2213Open in IMG/M
3300006874|Ga0075475_10260266Not Available726Open in IMG/M
3300006916|Ga0070750_10039062All Organisms → Viruses → Predicted Viral2335Open in IMG/M
3300006916|Ga0070750_10041825Not Available2245Open in IMG/M
3300006916|Ga0070750_10045284Not Available2145Open in IMG/M
3300006916|Ga0070750_10056519Not Available1888Open in IMG/M
3300006916|Ga0070750_10086856All Organisms → Viruses → Predicted Viral1462Open in IMG/M
3300006916|Ga0070750_10454559Not Available529Open in IMG/M
3300006919|Ga0070746_10020468All Organisms → Viruses → Predicted Viral3637Open in IMG/M
3300006919|Ga0070746_10168466Not Available1058Open in IMG/M
3300006919|Ga0070746_10427692Not Available590Open in IMG/M
3300007236|Ga0075463_10033188All Organisms → Viruses → Predicted Viral1685Open in IMG/M
3300007344|Ga0070745_1017063Not Available3293Open in IMG/M
3300007344|Ga0070745_1025477Not Available2579Open in IMG/M
3300007344|Ga0070745_1035398Not Available2120Open in IMG/M
3300007344|Ga0070745_1044939Not Available1839Open in IMG/M
3300007344|Ga0070745_1084041Not Available1261Open in IMG/M
3300007344|Ga0070745_1123218Not Available998Open in IMG/M
3300007344|Ga0070745_1162975Not Available839Open in IMG/M
3300007344|Ga0070745_1197972Not Available743Open in IMG/M
3300007344|Ga0070745_1198023Not Available743Open in IMG/M
3300007344|Ga0070745_1357118Not Available511Open in IMG/M
3300007345|Ga0070752_1031743Not Available2561Open in IMG/M
3300007345|Ga0070752_1059824Not Available1717Open in IMG/M
3300007345|Ga0070752_1203222Not Available789Open in IMG/M
3300007346|Ga0070753_1063179Not Available1494Open in IMG/M
3300007346|Ga0070753_1105966Not Available1093Open in IMG/M
3300007346|Ga0070753_1121452Not Available1005Open in IMG/M
3300007346|Ga0070753_1159445Not Available851Open in IMG/M
3300007346|Ga0070753_1170209Not Available817Open in IMG/M
3300007346|Ga0070753_1204570Not Available729Open in IMG/M
3300007346|Ga0070753_1262074Not Available625Open in IMG/M
3300007538|Ga0099851_1056635Not Available1534Open in IMG/M
3300007538|Ga0099851_1124085Not Available974Open in IMG/M
3300007539|Ga0099849_1030601All Organisms → Viruses → Predicted Viral2304Open in IMG/M
3300007539|Ga0099849_1031994Not Available2247Open in IMG/M
3300007541|Ga0099848_1003742All Organisms → cellular organisms → Bacteria → PVC group → Planctomycetes → Planctomycetia7043Open in IMG/M
3300007541|Ga0099848_1029826All Organisms → Viruses → Predicted Viral2277Open in IMG/M
3300007541|Ga0099848_1061878Not Available1487Open in IMG/M
3300007541|Ga0099848_1292224Not Available561Open in IMG/M
3300007542|Ga0099846_1117428Not Available973Open in IMG/M
3300007640|Ga0070751_1014688Not Available3873Open in IMG/M
3300007640|Ga0070751_1034360Not Available2312Open in IMG/M
3300007640|Ga0070751_1037427Not Available2192Open in IMG/M
3300007640|Ga0070751_1179964Not Available831Open in IMG/M
3300007640|Ga0070751_1265974Not Available647Open in IMG/M
3300007640|Ga0070751_1334356Not Available558Open in IMG/M
3300007960|Ga0099850_1039876Not Available2027Open in IMG/M
3300007960|Ga0099850_1089753Not Available1276Open in IMG/M
3300007960|Ga0099850_1190091Not Available811Open in IMG/M
3300007960|Ga0099850_1228245Not Available724Open in IMG/M
3300007960|Ga0099850_1229888Not Available720Open in IMG/M
3300009030|Ga0114950_10759144Not Available766Open in IMG/M
3300009124|Ga0118687_10026809Not Available1891Open in IMG/M
3300009433|Ga0115545_1276287Not Available561Open in IMG/M
3300009435|Ga0115546_1112615Not Available981Open in IMG/M
3300018415|Ga0181559_10079441Not Available2069Open in IMG/M
3300018416|Ga0181553_10037140Not Available3363Open in IMG/M
3300018416|Ga0181553_10047148Not Available2890Open in IMG/M
3300018416|Ga0181553_10134014All Organisms → cellular organisms → Bacteria → PVC group → Planctomycetes → Phycisphaerae → unclassified Phycisphaerae → Phycisphaerae bacterium1492Open in IMG/M
3300018416|Ga0181553_10739804Not Available512Open in IMG/M
3300018420|Ga0181563_10033623All Organisms → Viruses → Predicted Viral3801Open in IMG/M
3300018420|Ga0181563_10074927All Organisms → Viruses → Predicted Viral2285Open in IMG/M
3300018420|Ga0181563_10173814Not Available1334Open in IMG/M
3300018420|Ga0181563_10233993Not Available1102Open in IMG/M
3300018420|Ga0181563_10249063All Organisms → Viruses → Predicted Viral1059Open in IMG/M
3300018420|Ga0181563_10377923Not Available812Open in IMG/M
3300019459|Ga0181562_10414068Not Available649Open in IMG/M
3300020176|Ga0181556_1148284Not Available968Open in IMG/M
3300020176|Ga0181556_1313627Not Available529Open in IMG/M
3300021335|Ga0213867_1000634All Organisms → cellular organisms → Bacteria15634Open in IMG/M
3300021425|Ga0213866_10012285All Organisms → cellular organisms → Bacteria5225Open in IMG/M
3300021425|Ga0213866_10095398Not Available1627Open in IMG/M
3300021425|Ga0213866_10141985Not Available1280Open in IMG/M
3300021425|Ga0213866_10184529Not Available1090Open in IMG/M
3300021957|Ga0222717_10504486Not Available651Open in IMG/M
3300021960|Ga0222715_10043544All Organisms → cellular organisms → Bacteria → Proteobacteria → Gammaproteobacteria → Chromatiales → Woeseiaceae → Woeseia → unclassified Woeseia → Woeseia sp.3143Open in IMG/M
3300021964|Ga0222719_10023857Not Available4860Open in IMG/M
3300021964|Ga0222719_10325205Not Available986Open in IMG/M
3300022057|Ga0212025_1003928Not Available1870Open in IMG/M
3300022068|Ga0212021_1073398Not Available701Open in IMG/M
3300022158|Ga0196897_1027774Not Available684Open in IMG/M
3300022183|Ga0196891_1029989Not Available1023Open in IMG/M
3300022187|Ga0196899_1018604Not Available2593Open in IMG/M
3300022187|Ga0196899_1053434Not Available1315Open in IMG/M
3300022187|Ga0196899_1103881Not Available838Open in IMG/M
3300022198|Ga0196905_1003651Not Available5605Open in IMG/M
3300022198|Ga0196905_1015107All Organisms → Viruses → Predicted Viral2487Open in IMG/M
3300022198|Ga0196905_1036183Not Available1459Open in IMG/M
3300022308|Ga0224504_10358968Not Available606Open in IMG/M
3300022925|Ga0255773_10154028All Organisms → cellular organisms → Bacteria → FCB group → Bacteroidetes/Chlorobi group → Chlorobi → unclassified Chlorobiota → Chlorobiota bacteirum1107Open in IMG/M
3300022929|Ga0255752_10035405All Organisms → Viruses → Predicted Viral3337Open in IMG/M
(restricted) 3300024518|Ga0255048_10026870All Organisms → Viruses → Predicted Viral2938Open in IMG/M
3300025630|Ga0208004_1035979Not Available1414Open in IMG/M
3300025653|Ga0208428_1127480Not Available697Open in IMG/M
3300025653|Ga0208428_1134737Not Available672Open in IMG/M
3300025655|Ga0208795_1107736Not Available738Open in IMG/M
3300025671|Ga0208898_1031504Not Available2154Open in IMG/M
3300025671|Ga0208898_1041317Not Available1763Open in IMG/M
3300025671|Ga0208898_1047551Not Available1585Open in IMG/M
3300025671|Ga0208898_1053769Not Available1443Open in IMG/M
3300025671|Ga0208898_1133612Not Available695Open in IMG/M
3300025674|Ga0208162_1021492Not Available2479Open in IMG/M
3300025674|Ga0208162_1021858All Organisms → Viruses → Predicted Viral2452Open in IMG/M
3300025674|Ga0208162_1177401Not Available560Open in IMG/M
3300025687|Ga0208019_1013199All Organisms → cellular organisms → Bacteria → PVC group → Planctomycetes3434Open in IMG/M
3300025687|Ga0208019_1135156Not Available713Open in IMG/M
3300025751|Ga0208150_1168357Not Available688Open in IMG/M
3300025759|Ga0208899_1048723All Organisms → Viruses → Predicted Viral1828Open in IMG/M
3300025759|Ga0208899_1063213All Organisms → Viruses → Predicted Viral1520Open in IMG/M
3300025759|Ga0208899_1086781Not Available1204Open in IMG/M
3300025759|Ga0208899_1145418Not Available818Open in IMG/M
3300025769|Ga0208767_1235666Not Available585Open in IMG/M
3300025810|Ga0208543_1163427Not Available517Open in IMG/M
3300025840|Ga0208917_1235404Not Available594Open in IMG/M
3300025853|Ga0208645_1067608Not Available1612Open in IMG/M
3300025889|Ga0208644_1039094All Organisms → cellular organisms → Bacteria → Proteobacteria → delta/epsilon subdivisions → Deltaproteobacteria → unclassified Deltaproteobacteria → Deltaproteobacteria bacterium2745Open in IMG/M
3300025889|Ga0208644_1076366All Organisms → Viruses → Predicted Viral1734Open in IMG/M
3300025889|Ga0208644_1262599Not Available707Open in IMG/M
3300028920|Ga0272441_10024737All Organisms → cellular organisms → Bacteria → Proteobacteria7687Open in IMG/M
3300034374|Ga0348335_017686Not Available3556Open in IMG/M
3300034374|Ga0348335_034155All Organisms → cellular organisms → Bacteria → Bacteria incertae sedis → Bacteria candidate phyla2181Open in IMG/M
3300034374|Ga0348335_047469Not Available1689Open in IMG/M
3300034374|Ga0348335_072559Not Available1197Open in IMG/M
3300034374|Ga0348335_078073Not Available1127Open in IMG/M
3300034375|Ga0348336_168780Not Available626Open in IMG/M
3300034418|Ga0348337_136416Not Available721Open in IMG/M
3300034418|Ga0348337_192577Not Available518Open in IMG/M

Note: Some of these datasets are restricted, as per the data usage policy of the Joint Genome Institute (JGI). Utilizing any of their features below requires obtaining a license from the datasets' corresponding author(s).


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Environmental Properties

Associated Habitat Types

Select Environment Taxonomy Level:
HabitatTaxonomyDistribution
AqueousEnvironmental → Aquatic → Marine → Coastal → Unclassified → Aqueous77.48%
Salt MarshEnvironmental → Aquatic → Marine → Intertidal Zone → Salt Marsh → Salt Marsh10.60%
SeawaterEnvironmental → Aquatic → Marine → Coastal → Unclassified → Seawater3.31%
Estuarine WaterEnvironmental → Aquatic → Marine → Unclassified → Unclassified → Estuarine Water2.65%
Pelagic MarineEnvironmental → Aquatic → Marine → Pelagic → Unclassified → Pelagic Marine1.32%
Deep SubsurfaceEnvironmental → Aquatic → Marine → Oceanic → Sediment → Deep Subsurface0.66%
SeawaterEnvironmental → Aquatic → Marine → Inlet → Unclassified → Seawater0.66%
Marine SedimentEnvironmental → Aquatic → Marine → Wetlands → Sediment → Marine Sediment0.66%
MarineEnvironmental → Aquatic → Marine → Neritic Zone → Unclassified → Marine0.66%
SedimentEnvironmental → Aquatic → Marine → Sediment → Unclassified → Sediment0.66%
SedimentEnvironmental → Aquatic → Sediment → Unclassified → Unclassified → Sediment0.66%
Macroalgal SurfaceHost-Associated → Algae → Green Algae → Ectosymbionts → Unclassified → Macroalgal Surface0.66%

Visualization
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Associated Samples

Note: Some of these datasets are restricted, as per the data usage policy of the Joint Genome Institute (JGI). Utilizing any of their features below requires obtaining a license from the datasets' corresponding author(s).

Taxon OIDSample NameHabitat TypeIMG/M Link
3300000947Macroalgal surface ecosystem from Botany Bay, Sydney, Australia - BBAY92Host-AssociatedOpen in IMG/M
3300006026Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Sum_29_D_<0.8_DNAEnvironmentalOpen in IMG/M
3300006561Marine microbial communities from the Black Sea in Odessa region - Od_1EnvironmentalOpen in IMG/M
3300006637Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Fall_15_>0.8_DNAEnvironmentalOpen in IMG/M
3300006802Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Nov_18EnvironmentalOpen in IMG/M
3300006810Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Sep_01EnvironmentalOpen in IMG/M
3300006868Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Sum_29_N_>0.8_DNAEnvironmentalOpen in IMG/M
3300006869Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Sum_22_N_>0.8_DNAEnvironmentalOpen in IMG/M
3300006870Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Sum_29_D_>0.8_DNAEnvironmentalOpen in IMG/M
3300006874Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Sum_22_D_>0.8_DNAEnvironmentalOpen in IMG/M
3300006916Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Nov_24EnvironmentalOpen in IMG/M
3300006919Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Mar_21EnvironmentalOpen in IMG/M
3300007236Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Fall_30_>0.8_DNAEnvironmentalOpen in IMG/M
3300007344Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Mar_4EnvironmentalOpen in IMG/M
3300007345Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Aug_30EnvironmentalOpen in IMG/M
3300007346Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Aug_31EnvironmentalOpen in IMG/M
3300007538Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_2 Viral MetaGEnvironmentalOpen in IMG/M
3300007539Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_1M Viral MetaGEnvironmentalOpen in IMG/M
3300007541Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_1S Viral MetaGEnvironmentalOpen in IMG/M
3300007542Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1504_1 Viral MetaGEnvironmentalOpen in IMG/M
3300007640Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Aug_28EnvironmentalOpen in IMG/M
3300007960Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_1D Viral MetaGEnvironmentalOpen in IMG/M
3300009030Deep subsurface microbial communities from Kermadec Trench to uncover new lineages of life (NeLLi) - N075 metaGEnvironmentalOpen in IMG/M
3300009124Marine sediment microbial communities from methane seeps within Hudson Canyon, US Atlantic Margin - Hudson Canyon PC-16 72 cmbsfEnvironmentalOpen in IMG/M
3300009433Pelagic marine microbial communities from North Sea - COGITO_mtgs_100330EnvironmentalOpen in IMG/M
3300009435Pelagic marine microbial communities from North Sea - COGITO_mtgs_100413EnvironmentalOpen in IMG/M
3300018415Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 011508AT metaG (megahit assembly)EnvironmentalOpen in IMG/M
3300018416Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 011502XT metaG (megahit assembly)EnvironmentalOpen in IMG/M
3300018420Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 011512CT metaG (megahit assembly)EnvironmentalOpen in IMG/M
3300019459Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 011511BT metaG (megahit assembly)EnvironmentalOpen in IMG/M
3300020176Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 011505AT metaG (spades assembly)EnvironmentalOpen in IMG/M
3300021335Coastal seawater microbial communities near Pivers Island, North Carolina, United States - PICO540EnvironmentalOpen in IMG/M
3300021425Coastal seawater microbial communities near Pivers Island, North Carolina, United States - PICO284EnvironmentalOpen in IMG/M
3300021957Estuarine water microbial communities from San Francisco Bay, California, United States - C33_18DEnvironmentalOpen in IMG/M
3300021960Estuarine water microbial communities from San Francisco Bay, California, United States - C33_9DEnvironmentalOpen in IMG/M
3300021964Estuarine water microbial communities from San Francisco Bay, California, United States - C33_34DEnvironmentalOpen in IMG/M
3300022057Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Aug_28 (v2)EnvironmentalOpen in IMG/M
3300022068Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Mar_21 (v2)EnvironmentalOpen in IMG/M
3300022158Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Aug_31 (v3)EnvironmentalOpen in IMG/M
3300022183Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Nov_24 (v3)EnvironmentalOpen in IMG/M
3300022187Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Sep_01 (v3)EnvironmentalOpen in IMG/M
3300022198Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_1S Viral MetaG (v3)EnvironmentalOpen in IMG/M
3300022308Sediment microbial communities from San Francisco Bay, California, United States - SF_Oct11_sed_USGS_24EnvironmentalOpen in IMG/M
3300022925Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 011502XT metaGEnvironmentalOpen in IMG/M
3300022929Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 011512CT metaGEnvironmentalOpen in IMG/M
3300024518 (restricted)Seawater microbial communities from Jervis Inlet, British Columbia, Canada - JV7_2_2EnvironmentalOpen in IMG/M
3300025630Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Fall_15_>0.8_DNA (SPAdes)EnvironmentalOpen in IMG/M
3300025653Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Sum_29_N_>0.8_DNA (SPAdes)EnvironmentalOpen in IMG/M
3300025655Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_2 Viral MetaG (SPAdes)EnvironmentalOpen in IMG/M
3300025671Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Mar_4 (SPAdes)EnvironmentalOpen in IMG/M
3300025674Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_1M Viral MetaG (SPAdes)EnvironmentalOpen in IMG/M
3300025687Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_1D Viral MetaG (SPAdes)EnvironmentalOpen in IMG/M
3300025751Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Sum_29_D_>0.8_DNA (SPAdes)EnvironmentalOpen in IMG/M
3300025759Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Nov_24 (SPAdes)EnvironmentalOpen in IMG/M
3300025769Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Mar_21 (SPAdes)EnvironmentalOpen in IMG/M
3300025810Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Fall_30_>0.8_DNA (SPAdes)EnvironmentalOpen in IMG/M
3300025840Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Sum_22_D_>0.8_DNA (SPAdes)EnvironmentalOpen in IMG/M
3300025853Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Sep_01 (SPAdes)EnvironmentalOpen in IMG/M
3300025889Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Nov_18 (SPAdes)EnvironmentalOpen in IMG/M
3300028920Marine sediment archaeal communities from Little Sippewissett salt marsh, Falmouth, MA, United States - SSM-Prop-6NEnvironmentalOpen in IMG/M
3300034374Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Aug_31 (v4)EnvironmentalOpen in IMG/M
3300034375Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Aug_30 (v4)EnvironmentalOpen in IMG/M
3300034418Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Aug_28 (v4)EnvironmentalOpen in IMG/M

Geographical Distribution
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Family Sequences

Note: Some of these sequences are restricted, as per the data usage policy of the Joint Genome Institute (JGI). Utilizing any of their features below requires obtaining a license from the datasets' corresponding author(s).

Protein ID Sample Taxon ID Habitat Sequence
BBAY92_1004959013300000947Macroalgal SurfaceMANKVYINEETAKTWASSGGDYTLTLGGLAADGVQVGAQGDLGVSPRADQYEWKLFIDGFGTAPVVGETVDVYLSFSDGSYADGDVGTLDAAGSTDDLPNLLFLGAASVQTTTAGDNLIISGVCQITQRYVSPVIHNNTADALLSVVSGATHKFILTPVPPEVQ*
Ga0075478_1006768823300006026AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTAGDSLIISGVCQVTQRYVSPVIHNNTADALLGTADSHKFILTPIPPEVQ*
Ga0101389_100731613300006561MarineMANKVYIQEEAAKTWTDTGGDYTLDLGSLAPDGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVSETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTAADNLIISGLVNIPFRYVSPVVHNNTADALLGTADAHKFILTPVPPEVQAA
Ga0075461_1010709023300006637AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTASDSLIISGVCHLTQRYVSPVIHNNTADALLGTADSHKFILTPIPPEVQ*
Ga0070749_1001499543300006802AqueousMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVDGFDTAPVVGESVDLYIATSDGTYVDGDVGTVDAAGFTSDLPNLMYLGSASVQTTTAADNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070749_1003525543300006802AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMFLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ*
Ga0070749_1008844643300006802AqueousMANKVYIAEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVDGFDTAPVVGETVDLYIATSDGSYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDKLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070749_1017687113300006802AqueousMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070749_1045211223300006802AqueousMANKVYINEEASKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYIATSDGSYVDGDVGTVDAAGSTDDLPNLMYLGSASVQTTTASDSLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070754_1000921333300006810AqueousMANKVYITEETAKTWTDTGGDYTLDLGSLAPDGVKVGAQGDLGAAPRADQYMFKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDKLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070754_1002513823300006810AqueousMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSATVQTTTAGDNLIVSGVCQITQRYVSPVIHNNTADALLGTADSHKFILTPVPPEAQ*
Ga0070754_1003580433300006810AqueousMANKVYINEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTPPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ*
Ga0070754_1013114123300006810AqueousMANKVYINEEASKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYIATSDGSYVDGDVGTVDAAGSTDDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070754_1024226623300006810AqueousMANKIKLAEETAKTWTDSGGDYAMDLGGLAADAVRVGARGDLGTSPRSRLYAWTFVVDGFDTAPVIGEAVHLYLALSDGIYAAGNVGTADAAGSTDALPNLLYLGSATVQTTTASDDLVIAGTVELSHRYVSPVAHNATADALLSTSDAHKFILQPVPDELQ*
Ga0070754_1028494713300006810AqueousMANKVYINEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAGGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070754_1040980113300006810AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGESVDIYLAFSDGSYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPE
Ga0070754_1041181123300006810AqueousMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVDGFDTAPVVGETVDLYIATSDGTYVDGDVGTADAAGFTYDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNN
Ga0070754_1048115313300006810AqueousKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVDGFQTSLSSVGETVDIYLAGSDGQNIDGDVGTADAGGFTSDLPNLMYVGSASTQDTTAGQKLIISGVIQWTQRYISPVVHNNTSQALKGLADAHKFILTPVPPEVQ*
Ga0075481_1021005513300006868AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTPPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ*
Ga0075477_1004520413300006869AqueousSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMFLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ*
Ga0075477_1010964513300006869AqueousVNMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTAGDSLIISGVCQVTQRYVSPVIHNNTADALLGTADSHKFILTPIPPEVQ*
Ga0075479_1003393423300006870AqueousMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGVCQITQRYVSPVIHNNTADALLGTADSHKFILTSVPPEVQ*
Ga0075475_1026026613300006874AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMYLGSASVQTTTASDDLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070750_1003906233300006916AqueousMANKVYIAEEAAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPDVGETVDLYIAFSDGTYVDGDVGTVDASGSTADLPNLMYLGSASVQTTTASDKLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070750_1004182533300006916AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADALGSTDDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ*
Ga0070750_1004528423300006916AqueousMANKVYIAEETANTWTDTGGDYTLDQGSLAADGVRVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYIATSDGSYVDGDVGTVDAAGSTDDLPNLMYLGSASVQTTTASDSLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070750_1005651913300006916AqueousMANKVYIQEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDSLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPIPPEVQ*
Ga0070750_1008685613300006916AqueousKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRADQYMFKFVIDGFDTAPVVGESVDLYLAFSDGTYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTAADNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070750_1045455913300006916AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLVADGVKVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAGGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070746_1002046833300006919AqueousMANKVYIAEEAAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIAFSDGTYVDGDVGTVDASGSTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070746_1016846613300006919AqueousMANKVYINEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRADQYMFKFVIDGFDTAPVVGESVDIYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070746_1042769213300006919AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTPPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTS
Ga0075463_1003318813300007236AqueousMANKVYIAEEAAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMFLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ*
Ga0070745_101706333300007344AqueousMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVDGFDTAPVVGETVDLYIATSDGTYVDGDVGTADAAGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070745_102547733300007344AqueousMANKVYIAEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGESVDLYIATSDGNYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070745_103539833300007344AqueousMANKVYIAEETAKIWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDAAGSTDDLPNLMYLGSASVQTTTASDKLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070745_104493953300007344AqueousMANKVYIAEETSKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070745_108404123300007344AqueousMANKVYINEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRADQYMFKFVIDGFDTAPVVGESVDIYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALL
Ga0070745_112321823300007344AqueousMANKVYIAEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRPDQFAYKFVIDGFDTAPVVSETVDLYLAFSDGTYVDGDVGTVDAAGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070745_116297523300007344AqueousMANKVYITEETAKTWTDTGGDYTLDLGSLAPDGVKVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070745_119797213300007344AqueousMANKVYINEEASKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQFAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADALGSTDDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ*
Ga0070745_119802323300007344AqueousMANKVYIAEETAKTWTDTGGDYTLELGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMFLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHK
Ga0070745_135711813300007344AqueousGVRVGAQGDLGAAPRADQYMFKFVVDGFQTSLSSVGETVDIYLAGSDGTNIDGDVGTADAAGFTSDLPNLMYIGSASTQDTTAGQKLIISGVIQWTQRYISPVVHNNTSQALKGLADAHKFILTPVPPEVQ*
Ga0070752_103174313300007345AqueousMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGVCQITQRYVSPVIHNNTAD
Ga0070752_105982423300007345AqueousMANKVYINEEASKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYIATSDGSYVDGDVGTVDAAGSTDDLPNLMYLGSASVQTTTASDKLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070752_120322223300007345AqueousMANKVYIAEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAGGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPE
Ga0070753_106317913300007346AqueousMANKVYIAEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGESVDLYIATSDGNYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVLNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070753_110596633300007346AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMFLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVP
Ga0070753_112145213300007346AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQFAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADALGSTDDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVP
Ga0070753_115944523300007346AqueousLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDAAGSTDDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070753_117020923300007346AqueousMANKVYIAEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRPDQFAYKFVIDGFDTAPVVSETVDLYLAFSDGTYVDGDVGTVDAAGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSP
Ga0070753_120457023300007346AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAPDGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAGGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070753_126207423300007346AqueousMPNKIYIAEEVAKTWTDTGGDYTIDLGGLAADAVRVGGQGDLGASPRSDQYSWKLVIDGFATAPIVGQTVDLYLAFSDGTNVDADAGTVDAAGLTTDLPNLVFLGAASVQTVTAGDSLIISGTVQILQRYVSPVIHNNTDDQLLGTADNHRFILTP
Ga0070753_129625113300007346AqueousPAGDVKVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0099851_105663513300007538AqueousMANKVYIAEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGETVDLYIATSDGNYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0099851_112408533300007538AqueousMANKVYINEEASKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQFAYKFVIDGFDTQPVAGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMFLGSASVQTTTASDNLIISGLVNIPFRY
Ga0099849_103060123300007539AqueousMANKVYINEETAKTWTDTGGDYVMDLGSLAAGNVKVGAQGDLGAAPRADQYMFKFVVDGFQTSLSSVGETVDIYLAGSDGQNIDGDVGTADAGGFTNDLPNLMYVGSASTQDTTAGQKLIISGVIQWTQRYISPVVHNNTSQALKGLADAHKFILTPVPPEVQ*
Ga0099849_103199423300007539AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAPDGVKVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGETVDLYIATSDGNYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0099848_100374223300007541AqueousMANKVYIAEETAKTWTDTGGDYVMDLGSLAAGNVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIATSDGNYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPLPPEVQ*
Ga0099848_102982623300007541AqueousMANKVYINEEASKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQFAYKFVIDGFDTQPVAGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMFLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0099848_106187823300007541AqueousMANKVYITEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPQEVQ*
Ga0099848_129222413300007541AqueousTSQEHVNMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGDTVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTASDSLIISGVCHLTQRYVSPVIHNNTADALLGTADSHKFILTPVPPEVQ*
Ga0099846_111742823300007542AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTASDSLIISGVCHLTQRYVSPVIHNNTADALLGTADSHKFILTPVPPEVQ*
Ga0070751_101468813300007640AqueousMANKVYINEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAGGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070751_103436033300007640AqueousLDLGSLAADGVKVGAQGDLGAAPRADQFAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMFLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ*
Ga0070751_103742713300007640AqueousEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTPPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ*
Ga0070751_117996423300007640AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDAAGSTDDLPNLMYLGSASVQTTTASDKLIISGLVNIPFRYVSPVVHNNTADALLG
Ga0070751_126597423300007640AqueousAPDGVRVGAQGDLGAAPRADQYMFKFVVDGFDTAPVVGESVDLYIATSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTAADNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0070751_133435613300007640AqueousETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVDGFQTTLSSVGETVDIYLAGSDGQNIDGDVGTADAGGFTSDLPNLMYVGSASTQDTTAGQKLIISGVIQWTQRYISPVVHNNTSQALKGLADAH*
Ga0099850_103987633300007960AqueousMANKVYINEEASKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0099850_108975313300007960AqueousLDLGSLAADGVRVGAQGDLGAAPRADQFAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0099850_119009123300007960AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTASDSLIISGVCHLTQRYVSPVIHNNTADALLGTADSHKF
Ga0099850_122824513300007960AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYMFKFVVDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0099850_122988813300007960AqueousMANKVYIAEETAKTWTDTGGDYVMDLGSLAAGNVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIATSDGNYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFIL
Ga0114950_1075914423300009030Deep SubsurfaceMATKIYVSPETALEWTDSGGDYVIDLGGIAADGVRVGARGDLGAAAHSDTYAWRFVLDGFDTAPVVGETVDIYVSTSDGTNEDGDVGTADAAGVTVSLPNLMFLGSAVVQTTTAGDNLQVSGIVSLPNRYVSPVIHNNTVDALLSSGDAHKFFLTPMPMESQ*
Ga0118687_1002680923300009124SedimentMANKVYINEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVNGFDTAPVVGETVDLYIATSDGNFVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ*
Ga0115545_127628713300009433Pelagic MarineMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYQFKLVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYAGSASVQTITAGDNLIISGLVQITQRYVSPVIHNNTADALLGTADAHKFILTPVPPEVQ*
Ga0115546_111261513300009435Pelagic MarineMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYQFKLVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYAGSASVQTITAGDNLIISGLVQITQRYVSPVIHNNTADALLGT
Ga0181559_1007944113300018415Salt MarshMANKVYINEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIATSDGSYVDGDVGTVDAAGSTDDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPV
Ga0181553_1003714033300018416Salt MarshMANKVYIAEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYIATSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0181553_1004714833300018416Salt MarshMANKVYINEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIATSDGSYVDGDVGTVDAAGSTDDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0181553_1013401423300018416Salt MarshMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIATSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0181553_1073980413300018416Salt MarshGIIMANKVYINEETTKTWTDTGGDYTMDLGALAADAVRVGAQGDLGAAPRPDQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGVSDAAGATVDLPNLLFLGSAVVQTTTAGDNLIISGMVQIAQRYVSPVIHNNTADALLSTADSHQFILTPVPPEVQ
Ga0181563_1003362323300018420Salt MarshMANKVYINEETSKTWSDATTGGDYVMDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYIATSDGSYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0181563_1007492713300018420Salt MarshMANKVYIQEETSKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVDGLDTAPVVGETVDLYIATSDGSYVDGDVGTADAAGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSP
Ga0181563_1017381413300018420Salt MarshMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQFAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDKLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKF
Ga0181563_1023399323300018420Salt MarshYALDIGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIATSDGSYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0181563_1024906313300018420Salt MarshMANKVYINEETTKTWTDTGGDYTMDLGALAADAVRVGAQGDLGAAPRPDQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGVSDAAGATVDLPNLLFLGSAVVQTTTAGDNLIISGMVQIAQRYVSPVIHNNTADALLSTADSHKFILTPVPPEVQ
Ga0181563_1037792313300018420Salt MarshMANKVYIQEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIATSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0181562_1041406813300019459Salt MarshTWSDATTGGDYVMDPGSLAADGVRVGAQGDLGAAPRADQYAYKFVVDGFDTASVVGETVDLYIATSDGSYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0181556_114828413300020176Salt MarshMANKVYIQEETAKTWSDATTGGDYVMDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYIATSDGSYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGT
Ga0181556_131362713300020176Salt MarshMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIATSDGSYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTA
Ga0213867_1000634143300021335SeawaterMANKVYINEEAAKTWTDTGGDYVMDLGSLAAGNVKVGAQGDLGAAPRPDQFAYKFVVDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDKLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0213866_1001228553300021425SeawaterMANKVYINEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVDGFDTAPVVGETVDLYIATSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0213866_1009539823300021425SeawaterMANKVYIQEETAKTWSDATTGGDYVIDLGSLAADGVRVGAQCDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIAMSDGSYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTAADNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0213866_1014198523300021425SeawaterMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0213866_1018452923300021425SeawaterMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIATSDGNYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTAADNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0222717_1050448613300021957Estuarine WaterMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTAGDSLIISGVCQVTQRYVSPVIHNNTADALLGTADSHKFILTPIPPEVQ
Ga0222715_1004354413300021960Estuarine WaterTAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGTADAAGATNDLPNLLFIGAASVQTTTAGDSLIISGVCQITQRYVSPVIHNNTADALLGTADSHKFILTPIPPEVQ
Ga0222719_1002385723300021964Estuarine WaterMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVDGFDTAPVVGESVDLYIATSDGTYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0222719_1032520523300021964Estuarine WaterNKVYINEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQFAYKFVIDGFDTAPVVGETVDLYIATSDGTYVDGDVGTADAAGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0212025_100392823300022057AqueousMANKVYITEETAKTWTDTGGDYTLDLGSLAPDGVKVGAQGDLGAAPRADQYMFKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDKLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0212021_107339823300022068AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTASDSLIISGVCHLTQRYVSPVIHNNTADALLGTADSHKFILTPIPPEVQ
Ga0196897_102777413300022158AqueousMANKVYINEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTPPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNN
Ga0196891_102998923300022183AqueousMANKVYIAEEAAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIAFSDGTYVDGDVGTVDASGSTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0196899_101860433300022187AqueousMANKVYINEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTPPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ
Ga0196899_105343423300022187AqueousMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGVCQITQRYVSPVIHNNTADALLGTADSHKFILTSVPPEVQ
Ga0196899_110388113300022187AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMFLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ
Ga0196905_100365143300022198AqueousMANKVYIAEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGETVDLYIATSDGNYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0196905_101510713300022198AqueousMANKVYINEEASKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQFAYKFVIDGFDTQPVAGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMFLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0196905_103618323300022198AqueousMANKVYIAEETAKTWTDTGGDYVMDLGSLAAGNVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIATSDGNYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPLPPEVQ
Ga0224504_1035896813300022308SedimentMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVDGFDTAPVVGESVDLYIATSDGTYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTAADNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0255773_1015402813300022925Salt MarshSLAADGVRVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYIATSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0255752_1003540523300022929Salt MarshMANKVYIQEETSKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYIATSDGSYVDGDVGTADAAGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
(restricted) Ga0255048_1002687033300024518SeawaterMANKIYINEETQLVWAASGGDFTLDLGTSGGDAGGVRVGARGDLGAAARSEWYEWRMLIDGFDTAPVVGENVDIYIATSDGTVEDGEVGTADADGATTDLPNLTFLRSATVQTTTAGNNLQVSGIVRIVARYVSPVIHNNTADKLLSTADAHQFLLTPVPPEVQ
Ga0208004_103597923300025630AqueousGWNRTTSQEHVNMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTASDSLIISGVCHLTQRYVSPVIHNNTADALLGTADSHKFILTPIPPEVQ
Ga0208428_112748013300025653AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTAGDSLIISGVCQVTQRYVSPVIHNNTADALLGTAD
Ga0208428_113473713300025653AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTPPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ
Ga0208795_110773623300025655AqueousMANKVYINEEASKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQFAYKFVIDGFDTQPVAGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0208898_103150433300025671AqueousMANKVYIAEETAKIWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDAAGSTDDLPNLMYLGSASVQTTTASDKLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0208898_104131723300025671AqueousMANKVYIAEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGESVDLYIATSDGNYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0208898_104755123300025671AqueousMANKVYIAEETAKTWTDTGGDYTLELGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMFLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ
Ga0208898_105376933300025671AqueousMANKVYINEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRADQYMFKFVIDGFDTAPVVGESVDIYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNN
Ga0208898_113361213300025671AqueousMANKVYIAEETSKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0208162_102149233300025674AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAPDGVKVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGETVDLYIATSDGNYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0208162_102185823300025674AqueousMANKVYINEETAKTWTDTGGDYVMDLGSLAAGNVKVGAQGDLGAAPRADQYMFKFVVDGFQTSLSSVGETVDIYLAGSDGQNIDGDVGTADAGGFTNDLPNLMYVGSASTQDTTAGQKLIISGVIQWTQRYISPVVHNNTSQALKGLADAHKFILTPVPPEVQ
Ga0208162_117740113300025674AqueousFKGRRTSFRFSQGWNRTTSQEHVNMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTASDSLIISGVCHLTQRYVSPVIHNNTADALLGTADSHKFILTPVPPEVQ
Ga0208019_101255913300025687AqueousGVRVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYIATSDGNYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0208019_101319923300025687AqueousMANKVYIAEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0208019_113515623300025687AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTASDSLIISGVCHLTQRYVSPVIHNNTADALLGTADSHKFILTPVPPEVQ
Ga0208150_116835723300025751AqueousNKVYINEEASKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVVDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGVCQITQRYVSPVIHNNTADALLGTADSHKFILTSVPPEVQ
Ga0208899_104872333300025759AqueousMANKVYINEEASKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYIATSDGSYVDGDVGTVDAAGSTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0208899_106321323300025759AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADALGSTDDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ
Ga0208899_108678123300025759AqueousMANKVYINEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRADQYMFKFVIDGFDTAPVVGESVDIYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTAADNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0208899_114541813300025759AqueousMANKVYIQEETAKTWTDTGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDSLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPIPPEVQ
Ga0208767_123566623300025769AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADALGSTDDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSP
Ga0208543_116342723300025810AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADAVRVGAQGDLGAAPRADQYSWKLVIDGFDTAPVVGETVDLYLAFSDGTNIDGDVGASDAAGATNDLPNLLFIGAASVQTTTASDSLIISGVCHLTQRYVSPVIHNNT
Ga0208917_123540423300025840AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDALGSTADLPNLMYLGSASVQTTTASDDLIISGLVNIPFRYVSPVVHNNTADALLGTS
Ga0208645_106760813300025853AqueousMANKVYINEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAGGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0208644_103909433300025889AqueousMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVDGFDTAPVVGESVDLYIATSDGTYVDGDVGTVDAAGFTSDLPNLMYLGSASVQTTTAADNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0208644_107636623300025889AqueousMANKVYIAEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVDGFDTAPVVGETVDLYIATSDGSYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDKLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0208644_126259923300025889AqueousMANKVYIAEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRADQYMFKFVIDGFDTAPVVGESVDIYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNT
Ga0272441_1002473743300028920Marine SedimentMANKLYVQQETAIEWTDSGGDYALDLGSLAADAVRVGARADLGAAPRAFQYEWRIVIDGFDTAPVVGEGVNIFLSTSDGTYEDGDVGTADAAGTKVSLSNLLFIGSAIVQTTTAADKLQASGLVNIAARYVSPVVWNGTADALLGTADAHKFYLTPMPLELQ
Ga0348335_017686_748_12363300034374AqueousMANKVYIQEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYMFKFVVDGFDTAPVVGETVDLYIATSDGTYVDGDVGTADAAGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0348335_034155_2_4453300034374AqueousTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQFAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTAADNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0348335_047469_172_6603300034374AqueousMANKVYINEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0348335_072559_190_6783300034374AqueousMANKVYIAEETAKTWTDTGGDYTLDLGSLAADGVKVGAQGDLGAAPRADQFAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADALGSTDDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADDLLGTSDAHKFILTPVPPEVQ
Ga0348335_078073_241_7293300034374AqueousMANKVYIAEETAKTWTDTGGDYVMDLGSLPAGDVKVGAQGDLGAAPRPDQFAYKFVIDGFDTAPVVSETVDLYLAFSDGTYVDGDVGTVDAAGFTSDLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0348336_168780_2_4363300034375AqueousGGDYTLDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVSETVDLYLAFSDGTYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0348337_136416_172_6603300034418AqueousMANKVYINEETAKTWTDTGGDYALDLGSLAADGVRVGAQGDLGAAPRADQYAYKFVIDGFDTAPVVGETVDLYLAFSDGTYVDGDVGTADAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVSPVVHNNTADALLGTSDAHKFILTPVPPEVQ
Ga0348337_192577_123_5183300034418AqueousMANKVYITEETAKTWTDTGGDYTLDLGSLAPDGVKVGAQGDLGAAPRADQYAYKFVVNGFDTAPVVGETVDLYLAFSDGTYVDGDVGTVDAAGFTADLPNLMYLGSASVQTTTASDNLIISGLVNIPFRYVS

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Institute for Fundamental Biomedical Research
Biomedical Sciences Research Center "Alexander Fleming"
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