NMPFamsDB

NMPFamsDB

NMPFamsDB

A database of Novel Metagenome Protein Families

A database of Novel Metagenome Protein Clusters

A database of Novel Metagenome Protein Clusters
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Metagenome / Metatranscriptome Family F101000

Metagenome / Metatranscriptome Family F101000

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Overview Alignments Structure & Topology Gene Neighborhood Phylogeny Ecosystems Sequences
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Overview

Basic Information
Family ID F101000
Family Type Metagenome / Metatranscriptome
Number of Sequences 102
Average Sequence Length 181 residues
Representative Sequence AFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA
Number of Associated Samples 65
Number of Associated Scaffolds 102

Quality Assessment
Transcriptomic Evidence Yes
Most common taxonomic group Unclassified
% of genes with valid RBS motifs 0.98 %
% of genes near scaffold ends (potentially truncated) 96.08 %
% of genes from short scaffolds (< 2000 bps) 96.08 %
Associated GOLD sequencing projects 45
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 (90.196 % of family members)
NCBI Taxonomy ID N/A
Taxonomy N/A

Most Common Ecosystem
GOLD Ecosystem Environmental → Aquatic → Marine → Coastal → Unclassified → Aqueous
(78.431 % of family members)
Environment Ontology (ENVO) Unclassified
(86.275 % of family members)
Earth Microbiome Project Ontology (EMPO) Free-living → Saline → Water (saline)
(94.118 % 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: 26.46%    β-sheet: 25.93%    Coil/Unstructured: 47.62%
Feature Viewer
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Gene Neighborhood

Neighboring Pfam domains

Pfam IDName % Frequency in 102 Family Scaffolds
PF05135Phage_connect_1 14.71
PF05065Phage_capsid 7.84
PF05521Phage_H_T_join 3.92
PF04586Peptidase_S78 0.98

Neighboring Clusters of Orthologous Genes (COGs)

COG IDNameFunctional Category % Frequency in 102 Family Scaffolds
COG4653Predicted phage phi-C31 gp36 major capsid-like proteinMobilome: prophages, transposons [X] 7.84
COG3740Phage head maturation proteaseMobilome: prophages, transposons [X] 0.98

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Phylogeny

NCBI Taxonomy

Select NCBI taxonomy Level:
NameRankTaxonomyDistribution
UnclassifiedrootN/A90.20 %
All OrganismsrootAll Organisms9.80 %

Visualization
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Associated Scaffolds


ScaffoldTaxonomyLengthIMG/M Link
3300000117|DelMOWin2010_c10107725Not Available1003Open in IMG/M
3300006025|Ga0075474_10089952All Organisms → cellular organisms → Bacteria → Proteobacteria → Alphaproteobacteria999Open in IMG/M
3300006026|Ga0075478_10194746Not Available620Open in IMG/M
3300006027|Ga0075462_10259464All Organisms → cellular organisms → Bacteria → Proteobacteria → Alphaproteobacteria → Rhodobacterales → Rhodobacteraceae → Roseibaca → Roseibaca calidilacus514Open in IMG/M
3300006029|Ga0075466_1179323Not Available533Open in IMG/M
3300006734|Ga0098073_1020861Not Available982Open in IMG/M
3300006802|Ga0070749_10509051Not Available655Open in IMG/M
3300006802|Ga0070749_10521119Not Available646Open in IMG/M
3300006802|Ga0070749_10568783All Organisms → cellular organisms → Bacteria → FCB group → Bacteroidetes/Chlorobi group → Bacteroidetes → Bacteroidia → Bacteroidales → Bacteroidaceae → Bacteroides → Bacteroides thetaiotaomicron613Open in IMG/M
3300006802|Ga0070749_10625230Not Available579Open in IMG/M
3300006802|Ga0070749_10699830All Organisms → cellular organisms → Bacteria → Proteobacteria → Alphaproteobacteria → Rhodobacterales → Rhodobacteraceae → Roseibaca → Roseibaca calidilacus542Open in IMG/M
3300006802|Ga0070749_10771781All Organisms → cellular organisms → Bacteria → Terrabacteria group → Actinobacteria → Actinomycetia → Corynebacteriales → Mycobacteriaceae → Mycobacterium → unclassified Mycobacterium → Mycobacterium sp. URHD0025511Open in IMG/M
3300006802|Ga0070749_10788889Not Available504Open in IMG/M
3300006803|Ga0075467_10011704All Organisms → cellular organisms → Bacteria → Terrabacteria group → Firmicutes5790Open in IMG/M
3300006810|Ga0070754_10281987Not Available750Open in IMG/M
3300006810|Ga0070754_10397969Not Available603Open in IMG/M
3300006810|Ga0070754_10494132Not Available527Open in IMG/M
3300006868|Ga0075481_10229846Not Available657Open in IMG/M
3300006868|Ga0075481_10276987Not Available587Open in IMG/M
3300006868|Ga0075481_10324173All Organisms → cellular organisms → Bacteria → FCB group → Bacteroidetes/Chlorobi group → Bacteroidetes → Bacteroidia → Bacteroidales → Bacteroidaceae → Bacteroides → Bacteroides ovatus534Open in IMG/M
3300006869|Ga0075477_10252208Not Available710Open in IMG/M
3300006874|Ga0075475_10278923Not Available694Open in IMG/M
3300006874|Ga0075475_10335833All Organisms → cellular organisms → Bacteria → FCB group → Bacteroidetes/Chlorobi group → Bacteroidetes → Bacteroidia → Bacteroidales → Bacteroidaceae → Bacteroides → Bacteroides thetaiotaomicron617Open in IMG/M
3300006916|Ga0070750_10361621Not Available611Open in IMG/M
3300006916|Ga0070750_10369449Not Available603Open in IMG/M
3300006919|Ga0070746_10346240Not Available674Open in IMG/M
3300006919|Ga0070746_10510890Not Available526Open in IMG/M
3300006919|Ga0070746_10541950All Organisms → cellular organisms → Bacteria → Terrabacteria group → Actinobacteria → Actinomycetia → Corynebacteriales → Mycobacteriaceae → Mycobacterium → unclassified Mycobacterium → Mycobacterium sp. URHD0025505Open in IMG/M
3300007229|Ga0075468_10087565All Organisms → cellular organisms → Bacteria → Proteobacteria → Alphaproteobacteria → Sphingomonadales1003Open in IMG/M
3300007234|Ga0075460_10185164Not Available713Open in IMG/M
3300007234|Ga0075460_10206718Not Available666Open in IMG/M
3300007234|Ga0075460_10229917Not Available623Open in IMG/M
3300007234|Ga0075460_10307968Not Available518Open in IMG/M
3300007236|Ga0075463_10201191Not Available641Open in IMG/M
3300007276|Ga0070747_1230606Not Available646Open in IMG/M
3300007344|Ga0070745_1212449Not Available711Open in IMG/M
3300007344|Ga0070745_1212450Not Available711Open in IMG/M
3300007344|Ga0070745_1236282Not Available665Open in IMG/M
3300007344|Ga0070745_1251521Not Available639Open in IMG/M
3300007344|Ga0070745_1279368Not Available598Open in IMG/M
3300007344|Ga0070745_1302575Not Available569Open in IMG/M
3300007345|Ga0070752_1206888Not Available779Open in IMG/M
3300007345|Ga0070752_1269495Not Available656Open in IMG/M
3300007346|Ga0070753_1188609Not Available767Open in IMG/M
3300007346|Ga0070753_1213992Not Available709Open in IMG/M
3300007346|Ga0070753_1306144Not Available567Open in IMG/M
3300007346|Ga0070753_1334722Not Available536Open in IMG/M
3300007346|Ga0070753_1353305Not Available518Open in IMG/M
3300007539|Ga0099849_1247521Not Available656Open in IMG/M
3300007540|Ga0099847_1197389Not Available587Open in IMG/M
3300007640|Ga0070751_1330032Not Available563Open in IMG/M
3300016737|Ga0182047_1397067Not Available777Open in IMG/M
3300017713|Ga0181391_1003586Not Available4271Open in IMG/M
3300017719|Ga0181390_1116435Not Available700Open in IMG/M
3300017748|Ga0181393_1149067Not Available583Open in IMG/M
3300017751|Ga0187219_1150149Not Available672Open in IMG/M
3300018415|Ga0181559_10556423Not Available621Open in IMG/M
3300018416|Ga0181553_10304643Not Available886Open in IMG/M
3300018420|Ga0181563_10455365Not Available724Open in IMG/M
3300018420|Ga0181563_10792030Not Available519Open in IMG/M
3300020176|Ga0181556_1172701Not Available858Open in IMG/M
3300020185|Ga0206131_10341007Not Available650Open in IMG/M
3300021305|Ga0210296_1082647Not Available575Open in IMG/M
3300021305|Ga0210296_1125981Not Available530Open in IMG/M
3300021389|Ga0213868_10408704Not Available749Open in IMG/M
3300022057|Ga0212025_1064927Not Available630Open in IMG/M
3300022068|Ga0212021_1071240Not Available712Open in IMG/M
3300022071|Ga0212028_1090065Not Available572Open in IMG/M
3300022183|Ga0196891_1034365Not Available946Open in IMG/M
3300022183|Ga0196891_1090973Not Available538Open in IMG/M
3300022187|Ga0196899_1141482Not Available676Open in IMG/M
3300022308|Ga0224504_10435468Not Available546Open in IMG/M
3300022934|Ga0255781_10254895Not Available822Open in IMG/M
3300025570|Ga0208660_1098868Not Available643Open in IMG/M
3300025570|Ga0208660_1100094Not Available638Open in IMG/M
3300025630|Ga0208004_1136351Not Available544Open in IMG/M
3300025645|Ga0208643_1081228Not Available923Open in IMG/M
3300025652|Ga0208134_1108154Not Available758Open in IMG/M
3300025653|Ga0208428_1018393Not Available2325Open in IMG/M
3300025653|Ga0208428_1156612Not Available607Open in IMG/M
3300025751|Ga0208150_1255864Not Available527Open in IMG/M
3300025759|Ga0208899_1210012Not Available611Open in IMG/M
3300025769|Ga0208767_1196805Not Available681Open in IMG/M
3300025769|Ga0208767_1215280Not Available632Open in IMG/M
3300025771|Ga0208427_1176416Not Available692Open in IMG/M
3300025771|Ga0208427_1196878Not Available642Open in IMG/M
3300025803|Ga0208425_1050714Not Available1034Open in IMG/M
3300025806|Ga0208545_1144554Not Available574Open in IMG/M
3300025810|Ga0208543_1093984Not Available718Open in IMG/M
3300025818|Ga0208542_1085113Not Available929Open in IMG/M
3300025818|Ga0208542_1156922Not Available615Open in IMG/M
3300025840|Ga0208917_1199445Not Available667Open in IMG/M
3300025840|Ga0208917_1206368Not Available652Open in IMG/M
3300025849|Ga0209603_1307039Not Available552Open in IMG/M
3300025889|Ga0208644_1025761Not Available3618Open in IMG/M
3300028599|Ga0265309_10108153Not Available1657Open in IMG/M
3300032251|Ga0316198_10695639Not Available545Open in IMG/M
3300032274|Ga0316203_1129545Not Available705Open in IMG/M
3300034374|Ga0348335_132110Not Available717Open in IMG/M
3300034374|Ga0348335_173861Not Available556Open in IMG/M
3300034375|Ga0348336_138678Not Available744Open in IMG/M
3300034418|Ga0348337_179175Not Available556Open in IMG/M


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Environmental Properties

Associated Habitat Types

Select Environment Taxonomy Level:
HabitatTaxonomyDistribution
AqueousEnvironmental → Aquatic → Marine → Coastal → Unclassified → Aqueous78.43%
Salt MarshEnvironmental → Aquatic → Marine → Intertidal Zone → Salt Marsh → Salt Marsh6.86%
SeawaterEnvironmental → Aquatic → Marine → Strait → Unclassified → Seawater3.92%
EstuarineEnvironmental → Aquatic → Marine → Intertidal Zone → Estuary → Estuarine1.96%
MarineEnvironmental → Aquatic → Marine → Oceanic → Unclassified → Marine0.98%
SedimentEnvironmental → Aquatic → Marine → Coastal → Sediment → Sediment0.98%
Microbial MatEnvironmental → Aquatic → Marine → Coastal → Sediment → Microbial Mat0.98%
SeawaterEnvironmental → Aquatic → Marine → Coastal → Unclassified → Seawater0.98%
Pelagic MarineEnvironmental → Aquatic → Marine → Pelagic → Unclassified → Pelagic Marine0.98%
SeawaterEnvironmental → Aquatic → Marine → Pelagic → Unclassified → Seawater0.98%
MarineEnvironmental → Aquatic → Marine → Neritic Zone → Unclassified → Marine0.98%
SedimentEnvironmental → Aquatic → Marine → Sediment → Unclassified → Sediment0.98%
SedimentEnvironmental → Aquatic → Marine → Subtidal Zone → Sediment → Sediment0.98%

Visualization
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Associated Samples

Taxon OIDSample NameHabitat TypeIMG/M Link
3300000117Marine microbial communities from Delaware Coast, sample from Delaware MO Winter December 2010EnvironmentalOpen in IMG/M
3300006025Aqueous 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
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
3300006027Aqueous 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
3300006029Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Spr_20_<0.8_DNAEnvironmentalOpen in IMG/M
3300006734Marine viral communities from the Gulf of Mexico - 31_GoM_OMZ_CsCl metaGEnvironmentalOpen 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
3300006803Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Spr_20_>0.8_DNAEnvironmentalOpen 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
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
3300007229Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Spr_30_<0.8_DNAEnvironmentalOpen in IMG/M
3300007234Aqueous 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
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
3300007276Aqueous 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_31EnvironmentalOpen 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
3300007539Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_1M Viral MetaGEnvironmentalOpen in IMG/M
3300007540Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1504_2 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
3300016737Metatranscriptome of coastal salt marsh microbial communities from the Groves Creek Marsh, Georgia, USA - 011506CT metaT (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300017713Marine viral communities from the oligotrophic San Pedro Time Series (SPOT) site, San Pedro Channel, CA, USA ? 14 SPOT_SRF_2010-08-11EnvironmentalOpen in IMG/M
3300017719Marine viral communities from the oligotrophic San Pedro Time Series (SPOT) site, San Pedro Channel, CA, USA ? 13 SPOT_SRF_2010-07-21EnvironmentalOpen in IMG/M
3300017748Marine viral communities from the oligotrophic San Pedro Time Series (SPOT) site, San Pedro Channel, CA, USA ? 16 SPOT_SRF_2010-10-21EnvironmentalOpen in IMG/M
3300017751Marine viral communities from the oligotrophic San Pedro Time Series (SPOT) site, San Pedro Channel, CA, USA ? 13 SPOT_SRF_2010-07-21 (version 2)EnvironmentalOpen 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
3300020176Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 011505AT metaG (spades assembly)EnvironmentalOpen in IMG/M
3300020185Pelagic subsurface seawater microbial communities from Kabeltonne, Helgoland, North Sea - Helgoland_Spring_Bloom_20160517_1EnvironmentalOpen in IMG/M
3300021305Metatranscriptome of estuarine water microbial communities from the Columbia River estuary, Oregon, United States ? R868 (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300021389Coastal seawater microbial communities near Pivers Island, North Carolina, United States - PICO127EnvironmentalOpen 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
3300022071Aqueous 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 (v2)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
3300022308Sediment microbial communities from San Francisco Bay, California, United States - SF_Oct11_sed_USGS_24EnvironmentalOpen in IMG/M
3300022934Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 101413BT metaGEnvironmentalOpen in IMG/M
3300025570Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Spr_30_>0.8_DNA (SPAdes)EnvironmentalOpen 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
3300025645Aqueous 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_12 (SPAdes)EnvironmentalOpen in IMG/M
3300025652Aqueous 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_31 (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
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
3300025771Aqueous 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_DNA (SPAdes)EnvironmentalOpen in IMG/M
3300025803Aqueous 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
3300025806Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - DEBay_Spr_30_<0.8_DNA (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
3300025818Aqueous 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
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
3300025849Pelagic marine microbial communities from North Sea - COGITO_mtgs_120607 (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
3300028599Marine sediment microbial communities from subtidal zone of North Sea - Hel_20160524 (Illumina Assembly)EnvironmentalOpen in IMG/M
3300032251Coastal sediment microbial communities from Oude Bieten Haven, Netherlands - site A anoxicEnvironmentalOpen in IMG/M
3300032274Microbial mat bacterial communities from mineral coupon in-situ incubated in ocean water Damariscotta River, Maine, United States - 6-month pyrrhotite 1EnvironmentalOpen 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

Protein ID Sample Taxon ID Habitat Sequence
DelMOWin2010_1010772513300000117MarineYGAFVTVTEQLMLQGGPAVENLITQDMVTQLNRQIDKAVFDTIIGTGDGDSDAAVSTAAMLTGEAVLVAAGVDLSKVKVIANATAHALIAGEAIVSNVDPTINRASAGNFSAMGYPYYVTDLLPANGVVAEGTLIMMDPNQAAVLGLFGGLDINVNPYVLDLSHEIRISIHRYADSAVLHAAAAYTFHDNAA*
Ga0075474_1008995213300006025AqueousGSGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVAGINAAIDRGTVGRMSCLGYPYYVSDLLPANGVAVEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA*
Ga0075478_1019474623300006026AqueousDTIIGTGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA*
Ga0075462_1025946413300006027AqueousLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVNSVAHALLGDDAIVAGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGVAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQ
Ga0075466_117932313300006029AqueousGGPAVEQLITNDMITQLNRQIDKAVFDTIFGAGDGDNTDPVSAAGMIAGEAALIAAGVDLRNVKVIADSVAHGILADDPLVSGVNAVIDRSSAGNFSALGYPYAVTDLLPANLTDEGSLIMFDPNMAAVLGLFGGLDIVVNPYAMDLSHQVRISIHRYADAAVLHAGAKYNFHDNA*
Ga0098073_102086123300006734MarineVEALITQDMVTQMNREVDKLVFDTIIGIGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVAGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIPAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA*
Ga0070749_1050905113300006802AqueousGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDSAAPVSAAAILGGEGALAAAGVDLSRVQIIADSVAHSLLATDDIVQSVSAAINRSNIGQLSACGYPYYVTDLLPANGIPAEGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNA*
Ga0070749_1052111913300006802AqueousQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNAVSAARLLIGEGVLAGAGVDLSNVQIIVNAKGHELLSNDAIVDGVNAAIDRSTRGQMSCLGYPYYVSDLVPVNGVATEGTCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNVA*
Ga0070749_1056878313300006802AqueousRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGSGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVAGINAAIDRGTVGRMSCLGYPYYVSDLLPANGVAVEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA*
Ga0070749_1062523013300006802AqueousADAGTAIGSSDLAPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKMVFDTIIGNGDGDSDAAVSAAALLAGESTLAAAGVDLNNVQIIVDSTAHTLLGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANGVAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADA
Ga0070749_1069983013300006802AqueousDAGTAIGSSDLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVNSVAHALLGDDAIVAGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGVAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQ
Ga0070749_1077178113300006802AqueousLTPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDSDAAVSAAGILGGEGALAAAGVDLSRVQIIADSVAHALLATDDIVQNVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQ
Ga0070749_1078888913300006802AqueousGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSPVSASALLTGESTLAGAGVDLNNVQIIVDSAAHTILGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRIS
Ga0075467_1001170453300006803AqueousVFDTIFGTGDGDNTNPVSAAQMIVGEAALIAAGVDLRNVKVIADATAHALLSDDAIVADVNPAIDRTSAGNFNALGYPYAVTDLLPANGVAAEGSLVMFDPNQAAVLGLFGGLDIVVNPYAMDLSHQVRISIHRYADAAVLHAGAAYTFHDNA*
Ga0070754_1028198713300006810AqueousMTADAGTAIGSSDLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLSTDSIVDSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNVA*
Ga0070754_1039796913300006810AqueousAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDSAAPVSAAAILGGEGALAAAGVDLSRVQIIADSVAHSLLATDDIVQSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA*
Ga0070754_1049413213300006810AqueousLVFDTIIGTGDGDNTSPVSASALLTGESTLAGAGVDLNNVQIIVDSAAHTILGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA*
Ga0075481_1022984613300006868AqueousMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA
Ga0075481_1027698713300006868AqueousPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLSTDSIVDSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNA*
Ga0075481_1032417313300006868AqueousAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTNAVSAATLLAGESSLAAAGVDLNNVQIIVDAAAHTLLGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLH
Ga0075477_1025220813300006869AqueousDLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLSTDSIVDSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNVA*
Ga0075475_1027892313300006874AqueousYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLATDDIVASVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNVA*
Ga0075475_1033583313300006874AqueousYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGSGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVAGINAAIDRGTVGRMSCLGYPYYVSDLLPANGVAVEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA*
Ga0070750_1036162113300006916AqueousLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA*
Ga0070750_1036944913300006916AqueousMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSPVSASALLTGESTLAGAGVDLNNVQIIVDSAAHTILGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA*
Ga0070746_1034624013300006919AqueousTAIGSSDLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSPVSASALLTGESTLAGAGVDLNNVQIIVDSAAHTILGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA*
Ga0070746_1051089013300006919AqueousRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLSTDSIVDSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYA
Ga0070746_1054195013300006919AqueousPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDSDAAVSAAGILGGEGALAAAGVDLSRVQIIADSVAHALLATDDIVQNVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQ
Ga0075468_1008756523300007229AqueousVTQLNRQIDKAVFDTIFGAGDGDNTDPVSAAGMIAGEAALIAAGVDLRNVKVIADSVAHGILADDPLVSGVNAVIDRSSAGNFSALGYPYAVTDLLPANLTDEGSLIMFDPNMAAVLGLFGGLDIVVNPYAMDLSHQVRISIHRYADAAVLHAGAKYNFHDNA*
Ga0075460_1018516413300007234AqueousAGTAIGSSDLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVNSVAHALLGDDAIVAGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGVAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA*
Ga0075460_1020671813300007234AqueousMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGSGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVAGINAAIDRGTVGRMSCLGYPYYVSDLLPANGVAVEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA*
Ga0075460_1022991713300007234AqueousYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSPVSASALLTGESTLAGAGVDLNNVQIIVDSAAHTILGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA*
Ga0075460_1030796813300007234AqueousEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLSTDSIVDSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLH
Ga0075463_1020119113300007236AqueousDAGTAIGSSDLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA*
Ga0070747_123060613300007276AqueousRYGAFVTVTEQLMLQGGPAVENLITQDMVTQLNRQIDKAVFDTIIGAADGDSDEAVSTAAMLTGEAVLVAAGVDLSKVKVIANATAHALIAGEAIVSNVDPTINRASAGNFSAMGYPYYVTDLLPVNGVVAEGTLIMMDPNQAAVLGLFGGLDINVNPYVLDLSHEIRISIHRYADSAVLHAAAAYTFHDNAA*
Ga0070745_121244913300007344AqueousLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDSDAAVSAAAILGGEGALAAAGVDLSRVQIIADSVAHSLLATDDIVQSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA*
Ga0070745_121245013300007344AqueousLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDTDAAVSAAGILGGEGALAAAGVDLSRVQIIADSVAHGLLAIDDIVESVSAAINRSNIGQLSCCGYPYYVTDLLPANGVLADGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA*
Ga0070745_123628213300007344AqueousLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLSTDSIVDSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNVA*
Ga0070745_125152113300007344AqueousDLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGSGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVAGINAAIDRGTVGRMSCLGYPYYVSDLLPANGVAVEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA*
Ga0070745_127936813300007344AqueousVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSAVSAGTLLAGESSLAAAGVDLNNVQIIVDAAAHTLLGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLAGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNA*
Ga0070745_130257513300007344AqueousAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSPVSASALLTGESTLAGAGVDLNNVQIIVDSAAHTILGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA*
Ga0070752_120688813300007345AqueousISNPGEGVAMTADAGTAIGSSDLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVREMNREVDKLVFDTIIGTGDGDSDAAVSAAGLLGGEGALAAAGVDLNNVQIIVDSVAHALLGSEAIVDSVSAAINRTNVGQMSCLGYPYYVSNLLPANGVAAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA*
Ga0070752_126949513300007345AqueousLTPTRYGAFVTVTEQLMLQGGPAVENLITQDMVTQLNRQIDKAVFDTIIGAGDGDSDAAVSTAAMLTGEAVLVAAGVDLSKVKVIANATAHALIAGEAIVSNVDPTINRASAGNFSAMGYPYYVTDLLPANGVVAEGTLIMMDPNQAAVLGLFGGLDINVNPYVLDLSHEIRISIHRYADSAVLHAAAAYTFHDNAA*
Ga0070753_118860923300007346AqueousITQDMVTQMNREVDKLVFDTIIGTGDGDTDAAVSAAGILGGEGALAAAGVDLSRVQIIADSVAHGLLAIDDIVESVSAAINRSNIGQLSCCGYPYYVTDLLPANGVLADGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA*
Ga0070753_121399213300007346AqueousPGEGVAMTADAGTAIGSSDLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSPVSASALLTGESTLAGAGVDLNNVQIIVDSAAHTILGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA*
Ga0070753_130614413300007346AqueousRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLSTDSIVDSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTF
Ga0070753_133472213300007346AqueousTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLATDDIVASVSAAINRSNIGQLSACGYPYYVTDLLPANGLPAEGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNA*
Ga0070753_135330513300007346AqueousGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVNSVAHALLGDDAIVAGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGVAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRY
Ga0099849_124752113300007539AqueousNDMITQLNRQIDKAVFNTIIGAGDGDNTEEVSAAQMIVGEAALIAAGVDLRNVKVVADSVAHALLADEAIVAGVNPAIDRTSAGNFNALGYPYAVTDLLPANGVAADGSLIMFDPNQAAVLGLFGGLDIVINPYALDLEHSIRVSIHRYADSAVLHAGAAYTFHDNA*
Ga0099847_119738913300007540AqueousERYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDSAAPVSAAAILGGEGALAAAGVDLSRVQIIADSVAHSLLATDDIVQSVSAAINRSNIGQLSACGYPYYVTDLLPANGIPAEGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNA*
Ga0070751_133003213300007640AqueousTQMNREVDKLVFDTIIGTGDGDSDAAVSAAALLAGESNLAAAGVDLNNVQIIVDSTAHTLLGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANGVAAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA*
Ga0182047_139706713300016737Salt MarshTGDGDNTAAVSAAALLAGESNLAAAGVDLNNVQIIVDSVAHALLGSEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA
Ga0181391_100358613300017713SeawaterQIDKAVFDTIIGTGDGDNTDAVSAAGMILGEAALIAAGVDLRNVKVVADSVAHGILADDPLVANVNAVIDRTSAGNFSALGYPYAVTDLLPANGVASEGSMIMFDPNQAAVLGLFGGLDIVVNPYAMDLSHQVRISIHRYADSAVLHGAAAYTFHDEAA
Ga0181390_111643513300017719SeawaterAFVTVTEQLMMQGGPAVEQLMLQGGPAVEQLITNDMITQLNRQIDKTVFDTIFGTGDGDNTNPVSAAQMIVGEAALIAAGVDLRNVKVIADSVAHSLLSDDAIVADVNPAIDRTSAGNFNALGYPYAVTDLLPANGVAAEGSLVMFDPNQAAVLGLFGGLDIVINPYVLDLEHSIRVSIHRYADSAVLHGTAAYTFHDNA
Ga0181393_114906713300017748SeawaterLITNDMITQLNRQIDKTVFDTIFGTADGDNTNPVSAAQMIVGEAALIAAGVDLRNVKVIADSVAHALLSDDAIVADVNPAIDRTSAGNFNALGYPYAVTDLLPANGVAAEGSLVMFDPNQAAVLGLFGGLDIVVNPYAMDLSHQVRISIHRYADAAVLHAGAAYTFHDNA
Ga0187219_115014913300017751SeawaterYGAFVTVTEQLMMQGGPAVEQLITNDMITQLNRQIDKTVFDTIFGTGDGDNTNPVSAAQMIVGEAALIAAGVDLRNVKVIADSVAHSLLSDDAIVADVNPAIDRTSAGNFNALGYPYAVTDLLPANGVAAEGSLVMFDPNQAAVLGLFGGLDIVINPYVLDLEHSIRVSIHRYADSAVLHGTAAYTFHDNA
Ga0181559_1055642313300018415Salt MarshDMVTQMNREVDKLVFDTIIGTGDGDSDAAVSATALLSGESALAASGVNLNNVQIIVDSVAHALLGNEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANGVAAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNA
Ga0181553_1030464323300018416Salt MarshTQDMVTQMNREVDKLVFDTIIGTGDGDTDAAVSAAAILGGEGALAAAGVDLSRVQIIADSVAHSLLATDDIVQSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPTEGSLIMAAFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA
Ga0181563_1045536513300018420Salt MarshSSDLAPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSPVSAATLLAGESNLAAAGVDLNNVQIIVDSAAHTLLGSEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMMDANQAAVLGLFGGIDIVINPYSLDLNHQVRISIHRYADAAVLHAGAAYTFHDNA
Ga0181563_1079203013300018420Salt MarshFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTAAVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGQMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADA
Ga0181556_117270123300020176Salt MarshFDTIIGTGDGDSDAAVSAAGLLAGEASLAASGVDLTNVQIIVDSVAHALLGADAVVSNIDAAINRNNIGQLSCLGYPYYVTDLLPANGVAAEGSCIMMDANQAAVLGLFGGIDIVVNPYTLDLNHQVRISIHRYADAAVLHGAAAYTFHDNTA
Ga0206131_1034100713300020185SeawaterVTVTEQLMLQGGPAVENLITQDMVTQLNRQIDKAVFDTIIGAGDGDSDDAVSTAAMLTGEAVLVAAGVDLSQVKVIANATAHALIAGEAIVSNVDPTINRASAGNFSAMGYPYYVTDLLPANGVVAEGTLIMMDPNQAAVLGLFGGLDINVNPYVLDLSHEIRISIHRYADSAVLHAAAAYTFHDNAA
Ga0210296_108264713300021305EstuarineTVTEQLMMQGGPAVEQLITNDMITQLNRQIDKAVFDTIIGTGDGDNTDAVSAAGMILGEAALIAAGVDLRNVKVIADSVAHGILADDPLVANVNAVIDRTSAGNFSALGYPYAVTDLLPANGVAAEGSMIMFDPNQAAVLGLFGGLDIVVNPYAMDLSHQVRISIHRYADAAVLHAAAAYTFHDDAA
Ga0210296_112598113300021305EstuarineMMQGGPAVEQLITNDMITQLNRQIDKAVFDTIFGTGDGNNTDPVSAAGMIAGEAALIAAGVDLRNVKVIADSVAHGILADDPLVSGVNAVIDRSSAGNFSALGYPYAVTDLLPANLTDEGSLIMFDPNMAAVLGLFGGLDIVVNPYAMDLSHQVRISIHRYADAAVLHAGAKYNFH
Ga0213868_1040870413300021389SeawaterGADVSNAASAVGKRELSPTRYGAFVTVTEQLMMQGGPAVEQLITNDMITQLNRQIDKAVFDTIFGAGDGDNTDPVSAAGMIAGEAALIAAGVDLRNVKVIADSVAHGILADDPLVSGVNAVIDRSSAGNFSALGYPYAVTDLLPANLTDEGSLIMFDPNMAAVLGLFGGLDIVVNPYAMDLSHQVRISIHRYADAAVLHAGAKYNFHDNA
Ga0212025_106492713300022057AqueousLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA
Ga0212021_107124013300022068AqueousITQDMVTQMNREVDKLVFDTIIGTGDGDNTSAVSAGTLLAGESSLAAAGVDLNNVQIIVDAAAHTLLGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLAGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA
Ga0212028_109006513300022071AqueousPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLATDDIVASVSAAINRSNIGQLSACGYPYYVTDLLPANGLPAEGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNVA
Ga0196891_103436523300022183AqueousVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA
Ga0196891_109097313300022183AqueousGVAMTADAGTAIGSSDLAPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSPVSASALLTGESTLAGAGVDLNNVQIIVDSAAHTILGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYT
Ga0196899_114148213300022187AqueousGSSDLAPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA
Ga0224504_1043546813300022308SedimentVFDKIIGTGDGDSDAAVSAAALLAGESNLAAAGVDLNNVQIIVDSVAHALLGSEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPVNGEAADGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA
Ga0255781_1025489523300022934Salt MarshLMLQGGPAVEQLITQDMVTQLNREIDKTVFDTIVGTGDGDNVAAVSATVLGAGESALAAAGVDLSNVRILADATAHALIDDAAFVTGVNAIINRDTPGTMNCIGYPYYVTDLLPANGIAAEGSLIMADFNQAAVLGLFGGLDIVVNPYTLDINHQVRISVHKYADAAVLHAAAAYTVHDN
Ga0208660_109886813300025570AqueousNLITQDMVTQLNRQIDKAVFDTIIGTGDGDSDAAVSTAAMLTGEAVLVAAGVDLSKVKVIANATAHALIAGEAIVSNVDPTINRASAGNFSAMGYPYYVTDLLPANGVVAEGTLIMMDPNQAAVLGLFGGLDINVNPYVLDLSHEIRISIHRYADSAVLHAAAAYTFHDNAA
Ga0208660_110009413300025570AqueousTEQLMLQGGPAVENLITQDMVTQLNRQIDKAVFDTIIGTGDGDSDAAVSTAAMLTGEAVLVAAGVDLSQVKVIANATAHALIAGEAIVSNVDPTINRASAGNFSAMGYPYYVTDLLPANGVVAEGTLIMMDPNQAAVLGLFGGLDINVNPYVLDLSHEIRISIHRYADSAVLHAAAAYTFHDNAA
Ga0208004_113635113300025630AqueousIGSGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVAGINAAIDRGTVGRMSCLGYPYYVSDLLPANGVAVEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA
Ga0208643_108122823300025645AqueousMLQGGPAVENLITQDMVTQLNRQIDKAVFDTIIGAGDGDSDAAVSTAAMLTGEAVLVAAGVDLSQVKVIANATAHALIAGEAIVSNVDPTINRASAGNFSAMGYPYYVTDLLPANGVVAEGTLIMMDPNQAAVLGLFGGLDINVNPYVLDLSHEIRISIHRYADSAVLHAAAAYTFHDNA
Ga0208134_110815423300025652AqueousAVSNAANEVGKRSLTPTRYGAFVTITEQLMLQGGPAVEQLITNDMITQLNRQIDKTVFDTIFGTGDGDNTNPVSAAQMIVGEAALIAAGVDLRNVKVIADSVAHALLSDDAIVADVNPAIDRTSAGNFNALGYPYAVTDLLPANGVAAEGSLVMFDPNQAAVLGLFGGLDIVINPYVLDLEHSIRVSIHRYADSAVLHAAAAYTFHDNA
Ga0208428_101839313300025653AqueousQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA
Ga0208428_115661213300025653AqueousPAEGAAMTVDANTAIGSSDLAPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLSTDSIVDSVSAAINRSNIGQLSACGYPYYVTDLLPANGLPAEGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAA
Ga0208150_125586413300025751AqueousQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLSTDSIVDSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRY
Ga0208899_121001213300025759AqueousGVAMTADAGTAIGSSDLAPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSPVSASALLTGESTLAGAGVDLNNVQIIVDSAAHTILGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGA
Ga0208767_119680513300025769AqueousASTISNPGEGVAMTADAGTAIGSSDLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVREMNREVDKLVFDTIIGTGDGDSDAAVSAAGLLGGEGALAAAGVDLNNVQIIVDSVAHALLGSEAIVDSVSAAINRTNVGQMSCLGYPYYVSNLLPANGVAAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA
Ga0208767_121528013300025769AqueousFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSPVSASALLTGESTLAGAGVDLNNVQIIVDSAAHTILGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA
Ga0208427_117641613300025771AqueousAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA
Ga0208427_119687813300025771AqueousGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLSTDSIVDSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNVA
Ga0208425_105071423300025803AqueousGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVNSVAHALLGDDAIVAGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGVAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA
Ga0208545_114455413300025806AqueousIDKAVFDTIFGAGDGDNTDPVSAAGMIAGEAALIAAGVDLRNVKVIADSVAHGILADDPLVSGVNAVIDRSSAGNFSALGYPYAVTDLLPANLTDEGSLIMFDPNMAAVLGLFGGLDIVVNPYAMDLSHQVRISIHRYADAAVLHAGAKYNFHDNA
Ga0208543_109398413300025810AqueousLVFDTIIGTGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVNSVAHALLGDDAIVAGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGVAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA
Ga0208542_108511323300025818AqueousFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGSGDGDSDAAVSAAGLLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVAGINAAIDRGTVGRMSCLGYPYYVSDLLPANGVAVEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA
Ga0208542_115692213300025818AqueousYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSPVSASALLTGESTLAGAGVDLNNVQIIVDSAAHTILGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA
Ga0208917_119944513300025840AqueousTAIGSSDLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA
Ga0208917_120636813300025840AqueousTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLSTDSIVDSVSAAINRSNIGQLSACGYPYYVTDLLPANGVPAEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNVA
Ga0209603_130703913300025849Pelagic MarineTRYGAFVTVTEQLMLQGGPAVENLITQDMVTQLNRQIDKAVFDTIIGAGDGDSDAAVSTAAMLTGEAVLVAAGVDLSQVKVIANATAHALIASEAIVSNVDPTINRASAGNFSAMGYPYYVTDLLPANGVVAEGTLIMMDPNQAAVLGLFGGLDINVNPYVLDLSHEIRISIHRYADSAVLHA
Ga0208644_102576113300025889AqueousEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNAGPVSAAALLGGEAALAAAGVDLSNVQIIVDSVAHALLGDDAIVSGVNAAIDRGTVGRMSCLGYPYYVSDLLPANGIAAEGSCIMMDANQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHGGAAYTFHDNA
Ga0265309_1010815313300028599SedimentTQDMVTQLNRQIDKAVFDTIIGAGDGDSDAAVSTAAMLVGEGVLIAAGVDLSKVKVIANATAHNLIAGEAIVSSVDATINRASAGNFSAMGYPYYVTDLLPANGVPAEGTLIMMDPNQAAVLGLFGGLDINVNPYVLDLSHEVRISIHRYADSAVLHAGAAYTFHDNAA
Ga0316198_1069563913300032251SedimentLMLQGGPAVENLITQDMVTQLNRQIDKAVFDTIIGAGDGDSDAAVSTAAMLVGEGVLIAAGVDLSKVKVIANATAHNLIAGEAIVSSVDATINRASAGNFSAMGYPYYVTDLLPANGVPAEGTLIMMDPNQAAVLGLFGGLDINVNPYVLDLSHEVRISIHRYADSAVLHAGAAYTFHDD
Ga0316203_112954513300032274Microbial MatITQDMVTQLNRQIDKAVFDTIIGASDGDNTTPVSASNMIAGEAALIAAGVDLSNVRVIADAVAHSLLSDDAIVASVNAAIDRSSAGNFAAMGYPYFVTDLLPANLAGEGSLIMADFNMAAALGLFGGIDIVVNPYSLDINHQVRISVHKYADAAVLHGAAAYTFHDNA
Ga0348335_132110_30_5753300034374AqueousMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDTDAAVSAAGILGGEGALAAAGVDLSRVQIIADSVAHGLLAIDDIVESVSAAINRSNIGQLSCCGYPYYVTDLLPANGVLADGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNA
Ga0348335_173861_8_5503300034374AqueousMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTNAVSAATLLAGESSLAAAGVDLNNVQIIVDAAAHTLLGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLAGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNAA
Ga0348336_138678_67_6963300034375AqueousMTADAGTAIGSSDLAPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDDTNPVSAARILVGEGALAAAGVDLSNVQIIADSVAHALLATDDIVASVSAAINRSNIGQLSACGYPYYVTDLLPANGLPAEGSLIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHRYADAAVLHAGAAYTFHDNA
Ga0348337_179175_2_5563300034418AqueousAGTAIGSSDLSPQRYGAFVTVTEQLMLQGGPAVEALITQDMVTQMNREVDKLVFDTIIGTGDGDNTSAVSAGTLLAGESSLAAAGVDLNNVQIIVDAAAHTLLGAEAIVDSVSAAINRTNVGQMSCLGYPYYVSDLLPANLVGEGSCIMADFNQAAVLGLFGGIDIVINPYTLDLNHQVRISIHR

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