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 F080646

Metagenome / Metatranscriptome Family F080646

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Overview Alignments Structure & Topology Gene Neighborhood Phylogeny Ecosystems Sequences
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Overview

Basic Information
Family ID F080646
Family Type Metagenome / Metatranscriptome
Number of Sequences 115
Average Sequence Length 182 residues
Representative Sequence PSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSKPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKDYITGRSSGKTDAYGREIKPGDSGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR
Number of Associated Samples 77
Number of Associated Scaffolds 115

Quality Assessment
Transcriptomic Evidence Yes
Most common taxonomic group Unclassified
% of genes with valid RBS motifs 9.64 %
% of genes near scaffold ends (potentially truncated) 63.48 %
% of genes from short scaffolds (< 2000 bps) 68.70 %
Associated GOLD sequencing projects 57
AlphaFold2 3D model prediction Yes
3D model pTM-score0.31

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 (87.826 % of family members)
NCBI Taxonomy ID N/A
Taxonomy N/A

Most Common Ecosystem
GOLD Ecosystem Environmental → Aquatic → Marine → Coastal → Unclassified → Aqueous
(66.956 % of family members)
Environment Ontology (ENVO) Unclassified
(77.391 % of family members)
Earth Microbiome Project Ontology (EMPO) Free-living → Saline → Water (saline)
(86.087 % 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: 30.45%    β-sheet: 0.91%    Coil/Unstructured: 68.64%
Feature Viewer
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Predicted 3D Structure

Structure Viewer
Per-residue confidence (pLDDT):
  0-50   51-70   71-90   91-100  
pTM-score: 0.31
Powered by PDBe Molstar

Low Quality Model:

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


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Gene Neighborhood

Neighboring Pfam domains

Pfam IDName % Frequency in 115 Family Scaffolds
PF12236Head-tail_con 45.22



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Phylogeny

NCBI Taxonomy

Select NCBI taxonomy Level:
NameRankTaxonomyDistribution
UnclassifiedrootN/A87.83 %
All OrganismsrootAll Organisms12.17 %

Visualization
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Associated Scaffolds


ScaffoldTaxonomyLengthIMG/M Link
3300000117|DelMOWin2010_c10168435Not Available704Open in IMG/M
3300000117|DelMOWin2010_c10205488Not Available603Open in IMG/M
3300006027|Ga0075462_10132647Not Available765Open in IMG/M
3300006752|Ga0098048_1158234Not Available674Open in IMG/M
3300006802|Ga0070749_10520158All Organisms → cellular organisms → Archaea → Euryarchaeota → Stenosarchaea group → Halobacteria → Halobacteriales → Halococcaceae → Halococcus → Halococcus agarilyticus647Open in IMG/M
3300006810|Ga0070754_10178273Not Available1001Open in IMG/M
3300006810|Ga0070754_10331436Not Available677Open in IMG/M
3300006810|Ga0070754_10382597Not Available618Open in IMG/M
3300006810|Ga0070754_10435285All Organisms → cellular organisms → Bacteria → Terrabacteria group → Firmicutes → Bacilli → Bacillales → Paenibacillaceae → Paenibacillus → Paenibacillus elgii570Open in IMG/M
3300006810|Ga0070754_10435287All Organisms → cellular organisms → Archaea → Euryarchaeota → Stenosarchaea group → Halobacteria → Halobacteriales → Halococcaceae → Halococcus → Halococcus agarilyticus570Open in IMG/M
3300006810|Ga0070754_10502581Not Available522Open in IMG/M
3300006867|Ga0075476_10093957Not Available1158Open in IMG/M
3300006867|Ga0075476_10206579Not Available713Open in IMG/M
3300006869|Ga0075477_10261806Not Available694Open in IMG/M
3300006916|Ga0070750_10289787All Organisms → Viruses → Duplodnaviria → Heunggongvirae → Uroviricota → Caudoviricetes → Caudovirales → Myoviridae → Aurunvirus → Synechococcus virus STIM5702Open in IMG/M
3300006919|Ga0070746_10395421All Organisms → cellular organisms → Bacteria → Proteobacteria → Gammaproteobacteria → Pseudomonadales → Pseudomonadaceae → Pseudomonas → Pseudomonas fluorescens group → Pseudomonas veronii620Open in IMG/M
3300006919|Ga0070746_10480935Not Available548Open in IMG/M
3300006990|Ga0098046_1019320All Organisms → Viruses → Duplodnaviria → Heunggongvirae → Uroviricota → Caudoviricetes → Caudovirales → Siphoviridae → unclassified Siphoviridae → Pelagibacter phage HTVC010P1741Open in IMG/M
3300007236|Ga0075463_10110320Not Available888Open in IMG/M
3300007236|Ga0075463_10128792Not Available817Open in IMG/M
3300007344|Ga0070745_1190743Not Available761Open in IMG/M
3300007344|Ga0070745_1323020Not Available546Open in IMG/M
3300007344|Ga0070745_1330358Not Available538Open in IMG/M
3300007344|Ga0070745_1360841Not Available508Open in IMG/M
3300007345|Ga0070752_1309740Not Available600Open in IMG/M
3300007346|Ga0070753_1287315Not Available590Open in IMG/M
3300007346|Ga0070753_1306129Not Available567Open in IMG/M
3300007538|Ga0099851_1289079Not Available580Open in IMG/M
3300007539|Ga0099849_1177244Not Available812Open in IMG/M
3300007541|Ga0099848_1195698Not Available727Open in IMG/M
3300007542|Ga0099846_1321859Not Available527Open in IMG/M
3300007640|Ga0070751_1133900Not Available1001Open in IMG/M
3300008012|Ga0075480_10542783Not Available555Open in IMG/M
3300008012|Ga0075480_10589785Not Available527Open in IMG/M
3300009027|Ga0102957_1186683Not Available741Open in IMG/M
3300010149|Ga0098049_1050511Not Available1327Open in IMG/M
3300010296|Ga0129348_1185479Not Available711Open in IMG/M
3300010296|Ga0129348_1254440Not Available590Open in IMG/M
3300010297|Ga0129345_1354917Not Available504Open in IMG/M
3300010318|Ga0136656_1224347Not Available624Open in IMG/M
3300017986|Ga0181569_10770592Not Available632Open in IMG/M
3300018036|Ga0181600_10342883Not Available739Open in IMG/M
3300018420|Ga0181563_10272914Not Available999Open in IMG/M
3300019708|Ga0194016_1003913Not Available1449Open in IMG/M
3300019756|Ga0194023_1051069Not Available832Open in IMG/M
3300020053|Ga0181595_10023887All Organisms → Viruses → Duplodnaviria → Heunggongvirae → Uroviricota → Caudoviricetes → Caudovirales → Siphoviridae → unclassified Siphoviridae → Pelagibacter phage HTVC010P3905Open in IMG/M
3300020173|Ga0181602_10238250Not Available783Open in IMG/M
3300020188|Ga0181605_10221755Not Available838Open in IMG/M
3300020188|Ga0181605_10256639Not Available755Open in IMG/M
3300020194|Ga0181597_10444080Not Available533Open in IMG/M
3300021959|Ga0222716_10608715Not Available595Open in IMG/M
3300022065|Ga0212024_1015487Not Available1196Open in IMG/M
3300022069|Ga0212026_1053919Not Available607Open in IMG/M
3300022158|Ga0196897_1029411Not Available663Open in IMG/M
3300022158|Ga0196897_1039590Not Available562Open in IMG/M
3300022200|Ga0196901_1054961All Organisms → Viruses → Predicted Viral1476Open in IMG/M
3300023273|Ga0255763_1151061Not Available974Open in IMG/M
3300025543|Ga0208303_1120418Not Available529Open in IMG/M
3300025610|Ga0208149_1097244Not Available709Open in IMG/M
3300025610|Ga0208149_1130849Not Available584Open in IMG/M
3300025630|Ga0208004_1015882All Organisms → Viruses → Duplodnaviria → Heunggongvirae → Uroviricota → Caudoviricetes → Caudovirales → Siphoviridae → unclassified Siphoviridae → Pelagibacter phage HTVC010P2422Open in IMG/M
3300025652|Ga0208134_1092568Not Available851Open in IMG/M
3300025671|Ga0208898_1021432All Organisms → Viruses → Predicted Viral2841Open in IMG/M
3300025671|Ga0208898_1162032Not Available589Open in IMG/M
3300025759|Ga0208899_1171309Not Available719Open in IMG/M
3300025769|Ga0208767_1097211Not Available1189Open in IMG/M
3300025769|Ga0208767_1171897Not Available762Open in IMG/M
3300025769|Ga0208767_1256247Not Available542Open in IMG/M
3300025771|Ga0208427_1141078Not Available802Open in IMG/M
3300025803|Ga0208425_1090906Not Available720Open in IMG/M
3300025818|Ga0208542_1098948Not Available842Open in IMG/M
3300025853|Ga0208645_1109872All Organisms → Viruses → Predicted Viral1122Open in IMG/M
3300025853|Ga0208645_1137876Not Available946Open in IMG/M
3300025853|Ga0208645_1257280Not Available576Open in IMG/M
3300026183|Ga0209932_1105601Not Available618Open in IMG/M
3300026187|Ga0209929_1000284All Organisms → Viruses → Duplodnaviria → Heunggongvirae → Uroviricota → Caudoviricetes → Caudovirales → Podoviridae19619Open in IMG/M
3300032274|Ga0316203_1132165Not Available696Open in IMG/M
3300032373|Ga0316204_10524518Not Available879Open in IMG/M
3300034374|Ga0348335_131231Not Available721Open in IMG/M
3300034375|Ga0348336_132704Not Available773Open in IMG/M
3300034418|Ga0348337_040830All Organisms → Viruses → Predicted Viral1986Open in IMG/M
3300034418|Ga0348337_055546All Organisms → Viruses → Predicted Viral1551Open in IMG/M
3300034418|Ga0348337_191435Not Available521Open in IMG/M



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Environmental Properties

Associated Habitat Types

Select Environment Taxonomy Level:
HabitatTaxonomyDistribution
AqueousEnvironmental → Aquatic → Marine → Coastal → Unclassified → Aqueous66.96%
Salt MarshEnvironmental → Aquatic → Marine → Intertidal Zone → Salt Marsh → Salt Marsh9.57%
Freshwater To Marine Saline GradientEnvironmental → Aquatic → Marine → Coastal → Unclassified → Freshwater To Marine Saline Gradient4.35%
Pond WaterEnvironmental → Aquatic → Non-Marine Saline And Alkaline → Saline → Unclassified → Pond Water3.48%
MarineEnvironmental → Aquatic → Marine → Oceanic → Unclassified → Marine2.61%
Estuarine WaterEnvironmental → Aquatic → Marine → Unclassified → Unclassified → Estuarine Water2.61%
FreshwaterEnvironmental → Aquatic → Freshwater → River → Unclassified → Freshwater1.74%
Microbial MatEnvironmental → Aquatic → Marine → Coastal → Sediment → Microbial Mat1.74%
SeawaterEnvironmental → Aquatic → Marine → Coastal → Unclassified → Seawater1.74%
MarineEnvironmental → Aquatic → Marine → Neritic Zone → Unclassified → Marine1.74%
SeawaterEnvironmental → Aquatic → Marine → Strait → Unclassified → Seawater1.74%
SedimentEnvironmental → Aquatic → Freshwater → Sediment → Unclassified → Sediment0.87%
Saline Water And SedimentEnvironmental → Aquatic → Non-Marine Saline And Alkaline → Saline → Sediment → Saline Water And Sediment0.87%

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
3300001419Saline surface water microbial communities from Etoliko Lagoon, Greece - halocline water (15 m)EnvironmentalOpen 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
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
3300006752Marine viral communities from the Subarctic Pacific Ocean - 13_ETSP_OMZ_AT15268 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
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
3300006867Aqueous 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
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
3300006990Marine viral communities from the Subarctic Pacific Ocean - 11B_ETSP_OMZ_AT15265_CsCl metaGEnvironmentalOpen 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
3300008012Aqueous 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
3300009001Salt pond water microbial communities from South San Francisco under conditions of wetland restoration - Salt Pond MetaG SF2_C_H2O_MGEnvironmentalOpen in IMG/M
3300009027Salt pond water microbial communities from South San Francisco under conditions of wetland restoration - Salt Pond MetaG SF2_A_H2O_MGEnvironmentalOpen in IMG/M
3300010149Marine viral communities from the Subarctic Pacific Ocean - 13B_ETSP_OMZ_AT15268_CsCl metaGEnvironmentalOpen in IMG/M
3300010296Freshwater to marine salinity gradient microbial communities from Chesapeake Bay, USA - CPBay_Sum_27_0.8_DNAEnvironmentalOpen in IMG/M
3300010297Freshwater to marine salinity gradient microbial communities from Chesapeake Bay, USA - CPBay_Sum_20_0.8_DNAEnvironmentalOpen in IMG/M
3300010318Freshwater to marine salinity gradient microbial communities from Chesapeake Bay, USA - CPBay_Sum_15_0.8_DNAEnvironmentalOpen in IMG/M
3300010368Freshwater to marine salinity gradient microbial communities from Chesapeake Bay, USA - CPBay_Spr_15_0.2_DNAEnvironmentalOpen in IMG/M
3300017744Marine viral communities from the oligotrophic San Pedro Time Series (SPOT) site, San Pedro Channel, CA, USA ? 20 SPOT_SRF_2011-02-23EnvironmentalOpen in IMG/M
3300017746Marine viral communities from the oligotrophic San Pedro Time Series (SPOT) site, San Pedro Channel, CA, USA ? 12 SPOT_SRF_2010-06-29EnvironmentalOpen in IMG/M
3300017986Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 101405AT metaG (megahit assembly)EnvironmentalOpen in IMG/M
3300018036Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 041406US 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
3300018876Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 011513CT metaG (megahit assembly)EnvironmentalOpen in IMG/M
3300019708Sediment microbial communities from the Broadkill River, Lewes, Delaware, United States ? BRC_2-3_MGEnvironmentalOpen in IMG/M
3300019751Freshwater microbial communities from the Broadkill River, Lewes, Delaware, United States ? IW18Oct16_MGEnvironmentalOpen in IMG/M
3300019756Freshwater microbial communities from the Broadkill River, Lewes, Delaware, United States ? IW6Sep16_MGEnvironmentalOpen in IMG/M
3300020053Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 041401AS metaG (spades assembly)EnvironmentalOpen in IMG/M
3300020173Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 041408US metaG (spades assembly)EnvironmentalOpen in IMG/M
3300020188Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 041411US metaG (spades assembly)EnvironmentalOpen in IMG/M
3300020194Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 041403US metaG (spades assembly)EnvironmentalOpen in IMG/M
3300021958Estuarine water microbial communities from San Francisco Bay, California, United States - C33_27DEnvironmentalOpen in IMG/M
3300021959Estuarine water microbial communities from San Francisco Bay, California, United States - C33_13DEnvironmentalOpen in IMG/M
3300021960Estuarine water microbial communities from San Francisco Bay, California, United States - C33_9DEnvironmentalOpen in IMG/M
3300022065Aqueous 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 (v2)EnvironmentalOpen in IMG/M
3300022069Aqueous 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 (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
3300022200Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1504_1 Viral MetaG (v3)EnvironmentalOpen in IMG/M
3300023176Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 071411BT metaGEnvironmentalOpen in IMG/M
3300023273Coastal salt marsh microbial communities from the Groves Creek Marsh, Skidaway Island, Georgia - 041406US metaGEnvironmentalOpen in IMG/M
3300023704Metatranscriptome of seawater microbial communities from Monterey Bay, California, United States - 35R (Metagenome Metatranscriptome)EnvironmentalOpen in IMG/M
3300024334Seawater microbial communities from Monterey Bay, California, United States - 89DEnvironmentalOpen in IMG/M
3300025543Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1504_2 Viral MetaG (SPAdes)EnvironmentalOpen in IMG/M
3300025610Aqueous 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
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
3300025646Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_1S Viral MetaG (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
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
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
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
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
3300026183Salt pond water microbial communities from South San Francisco under conditions of wetland restoration - Salt Pond MetaG SF2_B_H2O_MG (SPAdes)EnvironmentalOpen in IMG/M
3300026187Salt pond water microbial communities from South San Francisco under conditions of wetland restoration - Salt Pond MetaG SF2_C_H2O_MG (SPAdes)EnvironmentalOpen 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
3300032373Microbial mat bacterial communities from mineral coupon in-situ incubated in ocean water Damariscotta River, Maine, United States - 6-month pyrrhotite 2EnvironmentalOpen 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_1016843513300000117MarineTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGAGAILKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGNQVVQAPPVATTMPTGTPTASEVSQSAATDAAEDPIELRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR*
DelMOWin2010_1020548813300000117MarineKASGGNRDTSANNVPPSRRKYQPVTGTLSDPREKDDTAAKMDLFRNQGATNIKNTYMGAASVTKPFFQAGSRVTRDYFTEKVLGKGGYKGTTKQDFERMSRSAQESMYKGYITGRTSGKTDAMGREIISTGSGGENQVVQAPEVTAPTTAEVSQATTTDAVEDPIELRKRRXKAXGRSPTIMTGVTGATGSLTLGKPSLL
JGI11705J14877_1010390723300001419Saline Water And SedimentSVVNRKNFRENVLGKGAYKGTTQAEFDAMSRAAQESLYSGYMAGRTSGKTDAYGNPISQSGNGGGAIGTSGQVVQAPQPIVAPTTAEVSQVSAAEAEDPILLRKRKTLARGRSITIATSPTGASGDLTLGKPSLLGRA*
Ga0075462_1013264713300006027AqueousGGGGNQQAKARRLMTTTPNYGKPKTKSVTAGTLSDPREKDDTAAKASLFREQGATNIDNLKVVPPSVAILKGPLKAGSRFNRDYFKNEVLGKGAYKGTSVKDFESMSRSAQESLYSGYMAGRTSGKTDAYGNPISQGGNGGGAIESTGQVVQAPQPVTSPTTAEVSQATAADAQESLVLRKRKTLARGRSPTIMTGVTGATGSLTLGKPSLLGR*
Ga0075461_1023595623300006637AqueousYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQESLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIATSGQVVQAPTVTAPTEAEVSQSAATDAVEDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR*
Ga0098048_115823413300006752MarineDTAAKMDLFKNQGATNIKNTPMVGAGAILKPAFQAGSKITRDYFTSEVLGKGAYKGTSRQDFEKMSRTAQESMYKDYITGRSSGKTDAYGREIISTGDGGGATESSGVVVQAPKVETTPTESEVSQATTTDAEDPILLRKRKAKAKGRSSTIMTGVTGVTGSLTLGKPSLLGR*
Ga0070749_1023523523300006802AqueousAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDVNEDNILLRKRRTKARGRSLTIQTGPTGATGSLTLGRPSLLGR*
Ga0070749_1031980833300006802AqueousMGSNSGSNSGGGGNQQAKARRLMTTTPNYGKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIDNLKVVPPSVAILKGPLKAGSRFNRDYFKNEVLGKGAYKGTSVKDFESMSRSAQESLYSGYMAGRTSGKTDAYGRTINTDNGGGAIESTGQVVQAPQPVTSPTTAEVSQATAADAQESLVLRKR
Ga0070749_1052015813300006802AqueousGGNQQAKARRLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGAGAILKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGGAIASSGQVVQAPTATAPTTAEVSQATTTDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR*
Ga0070749_1061587213300006802AqueousMSLFREQGATNIKNMKFQTPTTAILSRPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFEKMTRSAQESMYKTYITGRTSGKTDAYGRTISASENGGATSSGMVVQAPTVTSPTTAEVSQSAAADAAEDNILLRKRRAKAIGRSPTVMTGVTGATGSLTLGKPSLLGR*
Ga0070754_1017827333300006810AqueousMGSNSGSNSGGGGNQQAKARRLMTTTPNYGKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIDNLKVVPPSVAILKGPLKAGSRFNRDYFKNEVLGKGAYKGTSVKDFESMSRSAQESLYGDYMSGRTSGKTDAYGREINQTDRGGNGGGAITSSGQVVQAPTVTAPTTAEVSQATAADAQESLVLRKRKTLARGRSPTIMTGVTGAT
Ga0070754_1033143613300006810AqueousMGSNSSSGGGGRDTSANNVPPSRRRYQPVTGTLSDPREKDDTAAKASLFRETGAINIRNTVSKFPTPTLVIASKPLQAGSRITRDFFKDKVLGSKNYKGTTKQDFERMSRTAQESMYKSYITGRTSGKIDAYGNRLIQGDNGGAIASSGQVVQAPAVTAPTTAEVSQATTTDAAEDSLILRKRRAKAKGRSPTIMT
Ga0070754_1038259713300006810AqueousKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSKPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKDYITGRSSGKTDAYGREIKPGDSGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR*
Ga0070754_1043528513300006810AqueousYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNMKFQTPATAILSGPLQAGSKITRDYFTEKVLGKGGYKGTTKQDFERMSRTAQESMYKGYITGRTSGKTDAMGREIKSTGDGGNQIVQAPLVATTMPTGTPTASEVSQSAATDAAEDPIELRKRKAKARGRSPTILTGVTGVTGGLTLGI
Ga0070754_1043528713300006810AqueousYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGTGAILKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGGAIASSGQVVQAPTATAPTTAEVSQATTTDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTLGIP
Ga0070754_1050258113300006810AqueousGTLSDPREKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSGPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGNPVSQGDNGGAMGSSGQVVQAPTVTSPTEAELSQSAATDVDEDNILLRKRRAKAVGRSVTIATGPTGSPTNGS
Ga0075476_1009395713300006867AqueousMGSNSGSNSGGGGNQQAKARRLMTTTPNYGKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIDNLKVVPPSVAILKGPLKAGSRFNRDYFKNEVLGKGAYKGTSVKDFESMSRSAQESLYGDYMSGRTSGKTDAYGREINQTDRGGNGGGAITSSGQVVQAPTVTAPTTAEVSQATAADAQESLVLRKRKTLARGRSPTIMTGVTGATGSLTLGKPSLLGR*
Ga0075476_1020657923300006867AqueousPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDVNEDNILLRKRRTKARGRSLTIQTGPTGATGSLTLGRPSLLGR*
Ga0075477_1026180613300006869AqueousKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIATSGQVVQAPTVTAPTEAEVSQSAATDAVEDNILLRKRRTKARGRSLTIQTGPTGLQTNGSLTLGRPSLLGR*
Ga0075475_1034799923300006874AqueousNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQESLYSGYMSGRQSGKTDAYGNPVSQGDNGGAMGSSGQVVQAPTVTSPTEAELSQSAATDVDEDNILLRKRRAKAVGRSVTIATGPTGSPTNGSLTLGRPSLLGRA*
Ga0070750_1028978713300006916AqueousNQQAKARRLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKASLFRETGAMNIRNTVSKFPTPTLVIASKPLQAGSRITRDFFKDKVLGSKNYKGTTKQDFERMSRTAQESMYKSYITGRTSGKTDAYGNPISQGDNGGATSTGGQVVQAPAVTAPTTAEVSQATTTDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR*
Ga0070746_1039542113300006919AqueousRLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGTGAILKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGNQVVQAPLVATTMPTGTPTASEVSQSAATDAAEDPIELRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR*
Ga0070746_1048093513300006919AqueousGTLSDPREKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSVPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGNPVSQGDNGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDVNEDNILLRKRRTKARGRSLTIQTGPTGLQTNGSLTLGRPSL
Ga0098046_101932043300006990MarineMGSPSASTGGGGGGNQQANARRLMTTTPNYSKPKKKSVTDGTLSDPREKDDTAAKMDLFKNQGATNIKNTPMVGAGAILKPAFQAGSKITRDYFTSEVLGKGAYKGTSRQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIISTGDGGGATESSGVVVQAPKVETTPTESEVSQATTTDAEDPILLRKRKAKAKGRSSTIMTGVTGVTGSLTLGKPSLLGR*
Ga0075463_1011032013300007236AqueousGGGGGGNQQAKARRLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGAGAILKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGNQVVQAPLVATTMPTGTPTASEVSQSAATDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR*
Ga0075463_1012879223300007236AqueousMGSNSSSGGGGGNRSSANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYMSGRQSGKTDAYGNPVPQGDNGGVPDALVKIAKLDPTVANMSPTTAEVSQSAATDADQDNILLRKRRTKARGRSLTIQTGPTGLQTN
Ga0070745_119074313300007344AqueousGGNQQAKARRLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTYMGAASVTKPFFQAGSKITRDYFTEKVLGKGGYKGTTKQDFERMSRTAQESMYKGYITGRTSGKTDAMGREIISTGSGGENQVVQAPTPTAPTASEVSQSAATDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR*
Ga0070745_132302013300007344AqueousSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGAGAILKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGGAIASSGQVVQAPTATAPTTAEVSQATTTDAAEDPIQLRKRKAKARGRSPTILTGVTGVT
Ga0070745_133035813300007344AqueousGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPATAILAGVGQATSRYNRDFFTNEVLGKGAYKGTTKQDFEKMSRASQENLYSGYRSGINSGQRDAYGNLKAGYRTENIAYKKADGTMTTREVVMSDSGGAMESSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARG
Ga0070745_136084113300007344AqueousLSDPREKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSGPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGNPVSQGDNGGAMGSSGQVVQAPTVTSPTEAELSQSAATDVDEDNILLRKRRAKAVGRSVTIATGPTGSP
Ga0070752_130974013300007345AqueousYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNMKFQTPATAILSGPLQAGSKITRDYFTEKVLGKGGYKGTTKQDFERMSRTAQESMYKGYITGRTSGKTDAMGREIKSTGDGGNQIVQAPLVATTMPTGTPTASEVSQSAATDAAEDPIELRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR*
Ga0070752_131785213300007345AqueousAKMSLFREQGATNIKNMKFQTPTTAILSKPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKDYITGRSSGKTDAYGREIKPGDSGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR*
Ga0070753_128731513300007346AqueousTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTYMGAASVTKPFFQAGSKITRDYFTEKVLGKGGYKGTTKQDFERMSRTAQESMYKGYITGRTSGKTDAMGREIISTGSGGENQVVQAPTPTAPTASEVSQSAATDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR*
Ga0070753_130612913300007346AqueousGGGGNRSSANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPATAILAGVGQATSRYNRDFFTNEVLGKGAYKGTTKQDFEKMSRASQENLYSGYRSGINSGQRDAYGNLKAGYRTENIAYKKADGTMTTREVVMSDSGGAMESSGQVVQAPTVTSPTEAEVSQSAAADAAED
Ga0070753_132155813300007346AqueousKFPSPILSMASVPLQKGSRYTRDYFKSEVLGKGAYKGTDVTSFEAMSRPAQESMYKSYITGRTSGKTDAYGRKITSTDKKSGGAIGTSGQVVQAPKPVTSPTTAEVSQSAAAQAQEDITLRKRRILSKGRSPTIITGATGATGSFTLGKPSLLGK*
Ga0099851_128907913300007538AqueousGGSGNNNSANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQESLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIGTSGQVVQAPTVTAPTEAEVSQSAATDVDEDNILLRKRRTKARGRSLTIATTPTGATG
Ga0099851_134670323300007538AqueousFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGGAIASSGQVVQAPEVTAPTTAEVSQATTTDAAEDSLILRKRRAKAKGRSPTIMTGVTGVTGSLTLGKPSLLGS*
Ga0099851_135139323300007538AqueousPLQKGSRYTRDYFKSEVLGKGAYKGTDVTSFEAMSRPAQESMYKSYITGRTSGKTDAYGRKITSTDKKSGGAIGTSGQVVQAPKPVTSPTTAEVSQSAAAQAQEDITLRKRRILSKGRSPTIITGATGATGSLTLGKPSLLGK*
Ga0099849_117724423300007539AqueousGGSGNNNSANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQESLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIGTSGQVVQAPTVTAPTEAEVSQSAATDVDEDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR*
Ga0099849_130918523300007539AqueousKNMKFQTPTTAILSGPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKDYITGRSSGKTDAYGREIKSTGDGGGAIASSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR*
Ga0099848_119569813300007541AqueousANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQESLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIGTSGQVVQAPTVTAPTEAEVSQSAATDVDEDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR*
Ga0099846_132185913300007542AqueousRKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQESLYSGYMSGRQSGKTDAYGNPVSQGDNGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDATEDNILLRKRRTKARGRSLTIATTPTGA
Ga0070751_113390033300007640AqueousMGSNSGSNSGGGGNQQAKARRLMTTTLNYGKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIDNLKVVPPSVAILKGPLKAGSRFNRDYFKNEVLGKGAYKGTSVKDFESMSRSAQESLYGDYMSGRTSGKTDAYGREINQTDRGGNGGGAITSSGQVVQAPTVTAPTTAEVSQATAADAQESLVLRKRKTLARGRSPTIMTGVTGAT
Ga0099850_137791313300007960AqueousKGSRYTRDYFKSEVLGKGAYKGTDVTSFEAMSRPAQESMYKSYITGRTSGKTDAYGRKITSTDKKSGGAIGTSGQVVQAPKPVTSPTTAEVSQSAAAQAQEDITLRKRRILSKGRSPTIITGATGATGSFTLGKPSLLGK*
Ga0075480_1054278313300008012AqueousTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTYMGAASVTKPFFQAGSKITRDYFTEKVLGKGGYKGTTKQDFERMSRTAQESMYKGYITGRTSGKTDAMGREIISTGSGGENQVVQAPTPTAPTASEVSQSAATDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLT
Ga0075480_1058978513300008012AqueousTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGTGAILKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGGAIASSGQVVQAPTATAPTTAEVSQATTTDAAEDPIQLRKRKAKARGRS
Ga0102963_134276513300009001Pond WaterPSLAINVGAKILSKPLQAGSRITRDFFRQKVLGSKNYKGTTKTEFDAMSRSAQESMYKSYITGRTSGKTDAYGNPLSQGDGGGAIASSGQVVQAPAVTAPTTAEVSQAATTEAIEDDILLRKRRAKAKGRSPTIMTGVTGVTGSLTLGKPSLLGR*
Ga0102957_118668313300009027Pond WaterNQQAKARRLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFKNQGATNIKNTPMVGAGAILKPAFQAGSKVTRNYFTSEVLGKGAYKGTTKQEFERMSRAAQESMYKGYITGRSSGKTDAYGREIISTGDGGGNQVVQAPTPTAPTTEEVSQVTTTDAEDPIQLRKRKTKARGRSPTIMTGVTGVTGSLTLGKPSLLGRA*
Ga0098049_105051143300010149MarineMGSPSASTGGGGGGNQQANARRLMTTTPNYSKPKKKSVTDGTLSDPREKDDTAAKMDLFKNQGATNIKNTPMVGAGAILKPVFQAGSKITRDYFTNEVLGKGAYKRTSRQDFEKMSRTAQESMYKDYITGRSSGKTDAYGREIISTGDGGGATESSGVVVQAPKVETTPTESEVSQATTTDAQDPILLRKRKAKAKGRSSTIMTGVTGVTGSLTLGKPSLLGR*
Ga0129348_118547913300010296Freshwater To Marine Saline GradientNNSANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQESLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIGTSGQVVQAPTVTAPTEAEVSQSAATDVDEDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR*
Ga0129348_125444013300010296Freshwater To Marine Saline GradientQAKARRLMTTTPNYGKPKTKSVTAGTLSDPREKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSVPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGNPVPQGDNGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARGRSLTIATTPTGATGS
Ga0129345_135491713300010297Freshwater To Marine Saline GradientTLSDPREKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSGPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGRDISQTDRGGNGGGAIGTSGQIVQAPTVTAPTTAEVSQSAAADAQESLVLRKRKTLARGRSPTIMTG
Ga0136656_122434713300010318Freshwater To Marine Saline GradientGGSGNNNSANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSVPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGNPVPQGDNGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR*
Ga0129324_1043075323300010368Freshwater To Marine Saline GradientKSEVLGKGAYKGTDVTSFESMSRAAQESLYSDYIGGRTSGRTDAYGREITRGGDGGGAIGTSGQVVQAPTVTAPTTAEVSQSSATDAQESLVLRKRKTLARGRSPTIMTGVTGATGSLTLGKPSLLGR*
Ga0181397_110297923300017744SeawaterSKKTREFFTGKVLGKGGYKGTTKQEFERMSRAAQESMYKSYLEKRLSNKTDAYGNTLSQGDNGGATNTGGQVVQAPEVTAPTTAEVSQVTTTKAEDPIELRKRKIKAKGRNPTIMTGVTGVNDGLTLGKPSLLGKA
Ga0181389_117670123300017746SeawaterTREFFTGKVLGKGGYKGTTKQEFERMSRAAQESMYKSYLEKRLSNKTDAYGNTLSQGDNGGATNTGGQVVQAPEVTAPTTAEVSQVTTTKAEDPIELRKRKIKAKGRNPTIMTGVTGVNDGLTLGKPSLLGKA
Ga0181569_1077059213300017986Salt MarshPREKDDTAAKMDLFREQGATNIKNTYMGAASVAKPFFQAGSRKTRDYFVGEVLGKGAYKGTSRQDFERMSRTAQESMYKTYITGRSSGKLDAYGREITSTGDGGGAIESTGVVVQAPKVEAAPTEAEVSQVTTAEATPEEDILLRKRKTKRRGRSPTILTGVTGVTGGLTLGKPSLLGRA
Ga0181600_1034288313300018036Salt MarshMGSNSSSGGGGRDTSANNVPPSRRKYQPVTGTLSDPREKDDTAAKASLFRETGAINIRNTVSKFPTPTLVIASKPLQAGSRITRDFFKDKVLGSKNYKGTTKQDFERMSRTAQESMYKSYITGRTSGKIDAYGNRLIQGDNGGATSTGGQVVQAPAVTAPTTAEVSQATTTDAAEDSLILRKRRAKAK
Ga0181563_1027291423300018420Salt MarshVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTYMGAASVAKPFFQAGSRKTRDYFVGEVLGKGAYKGTSRQDFERMSRTAQESMYKTYITGRSSGKLDAYGREITSTGDGGGAIESTGVVVQTPKVEAAPTEAEVSQVTTAEATPEEDILLRKRKTKRRGRSPTILTGVTGVTGGLTLGKPSLLGRA
Ga0181564_1072802313300018876Salt MarshTRDYFTEKVLGKGGYKGTTKQDFERMSRTAQESMYKGYITGRTSGKTDAMGREIISTGSGGENQVVQAPTPTAPTTAEVSQATTTDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR
Ga0194016_100391313300019708SedimentMGSNSSSGGGGGVGNQQAKARRLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGAGAILKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGNQVVQAPLVATTMPTGTPTASEVSQSAATDAAEDP
Ga0194029_109200313300019751FreshwaterPMVGAGAILKPAFQAGSRITRDYFTGEVLGKGAYKGTTKQDFEKMSRSAQESMYKGYITGRSSGKTDAYGREIKSTGNGGNQVVQAPTATAPTTAEVSQATTTDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR
Ga0194023_105106923300019756FreshwaterMGSNSSSGGGGGVGNQQAKARRLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGAGAILKPAFQAGSRITRDYFTGEVLGKGAYKGTTKQDFERMSRSAQESMYKNYITGRTSGKTDAYGREIKSTGDGGGAIASSGQVVQAPEVTAPTTAEVSQATTTDATEDSLILRKRKVKAKGRNPTIMTGVTGVTADLTLGKPSLLGRA
Ga0181595_1002388723300020053Salt MarshMGSNSSSGGGGRDTSANNVPPSRRKYQPVTGTLSDPREKDDTAAKASLFRETGAINIRNTVSKFPTPTLVIASKPLQAGSRITRDFFKDKVLGSKNYKGTTKQDFERMSRTAQESMYKSYITGRTSGKIDAYGNRLIQGDNGGATSTGGQVVQAPAVTAPTTAEVSQATTTDAAEDSLILRKRRAKAKGRSPTIMTGVTGATGSLTLGKPSLLGS
Ga0181602_1023825013300020173Salt MarshMGSNSSSGGGGRDTSANNVPPSRRKYQPVTGTLSDPREKDDTAAKASLFRETGAINIRNTVSKFPTPTLVIASKPLQAGSRITRDFFKDKVLGSKNYKGTTKQDFERMSRTAQESMYKSYITGRTSGKIDAYGNRLIQGDNGGATSTGGQVVQAPAVTAPTTAEVSQATTTDAAEDSLILRKRRAKAKGRSPTI
Ga0181605_1022175513300020188Salt MarshMGSNSSSGGGGRDTSANNVPPSRRKYQPVTGTLSDPREKDDTAAKASLFRETGAINIRNTVSKFPTPTLVIASKPLQAGSRITRDFFKDKVLGSKNYKGTTKQDFERMSRTAQESMYKSYITGRTSGKIDAYGNRLIQGDNGGATSTGGQVVQAPAVTAPTTAEVSQATTTDAAEDSLILRKRRAKAKG
Ga0181605_1025663923300020188Salt MarshNNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDFFTNEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYRSGINSGQRDAYGNLKAGYRTENIAYKKADGTMTTREVVMSDSGGAMGSSGQVVQAPTVTAPTTAELSQSAATDVNEDNILLRKRRAKAVGRSVTIATGPTGSPTNGSLTLGRPSLLGRA
Ga0181597_1044408013300020194Salt MarshTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTYMGAASVTKPFFQAGSRITRDYFTEKVLGKGGYKGTTKQDFERMSRSAQESMYKGYITGRTSGKTDAMGRDTPETMRGIDAKLAGAEKLTTMPTGTPTASEVSQSAATDAAEDSLILRKRKAKARGRSPTIMTGVTGVTGS
Ga0222718_1001216793300021958Estuarine WaterNIKNIKLQTPTTAILSGPLQAGSRITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGGSIASTGQVVQAPKVDAAPTTAEVSQATTTSAAEDSLILRKRKAKARGRSPTIMTGVTGVTGSLTLGKPSLLGR
Ga0222716_1060871513300021959Estuarine WaterREKDGTAAKMSLFREQGATNIKNAKFQTPTTALLSGPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFEKMTRSSQESMYKSYITGRTSGKTDAYGRDISTTDNGGATSNGVVVQAPTVIAPTEAEVSQAAPQVTEEEARATANELIAKKRRGRGRSMTILTSAQGIEDDKSLTLGKKTLL
Ga0222715_1024677913300021960Estuarine WaterGAKNIRKLVSKFPSPILSIASVPLQKGSRYTRDYFKSEVLGKGAYKGTDVTSFEAMSRPAQESMYKNYITGRTSGKTDAYGRKITSTNKKSGGAIGTSGQVVQAPKPVTSPTTAEVSQSAAAQAQENITLRKRRILSKGRSPTIITGVTGATGSLTLGKPSLLGR
Ga0212024_101548723300022065AqueousTAAKASLFKEQGATNYQDSWMAKTMVGGLLSGPAKESTRANRSFFKNEVLGKGAYKDLSVQDFESKSRTAQEGIYQNYIQGRSKGKLDAYGREIKPGDSGGAIATSGQVVQAPTVTAPTEAEVSQSAATDAVEDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR
Ga0212026_105391913300022069AqueousPNYSKPKTKSVTAGTLSDPKEKDDTAAKMDLFRNQGATNIKNTPMVGAGAILKPAFQAGSKITRDYFTEKVLGKGGYKGTTKQDFERMSRTAQESMYKGYITGRTSGKTDAMGREIISTGSGGENQVVQAPTPTAPTASEVSQSAATDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR
Ga0196897_102941113300022158AqueousSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIATSGQVVQAPTVTAPTEAEVSQSAATDVNEDNILLRKRRTKARGRSLTIQTGPTGATGSLTLGRPSLLGR
Ga0196897_103959013300022158AqueousMTTTPNYGKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIDNLKVVPPSVAILKGPLKAGSRFNRDYFKNEVLGKGAYKGTSVKDFESMSRSAQESLYGDYMSGRTSGKTDAYGREINQTDRGGNGGGAITSSGQVVQAPTVTAPTTAEVSQATAADAQESLVLRKRKTLARGRSPTIMTGVT
Ga0196891_108832613300022183AqueousFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDVNEDNILLRKRRTKARGRSLTIQTGPTGLQTNGSLTLGRPSLLGR
Ga0196891_109847023300022183AqueousAYKGTDVTSFESMSRAAQENLYSNYIGGRTSGRTDAYGNPISQGGNGGGAITSSGQVVQAPKVDVAPTTAEVSQSSATDAEESLITRKRKNLAKGRSITIATSPTGATGGLTLGKPSLLGRA
Ga0196899_117952523300022187AqueousEQGATNIKNMKFQTPTTAILSKPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKDYITGRSSGKTDAYGREIKPGDSGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR
Ga0196901_105496123300022200AqueousANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQESLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIGTSGQVVQAPTVTAPTEAEVSQSAATDVDEDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR
Ga0255772_1021190813300023176Salt MarshQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIGTSGQVVQAPTVTSPTETEVSQSAATDADQDNILLRKRRTKARGRSLTIQTGPTGATGSLTLGRASLLGR
Ga0255763_115106123300023273Salt MarshMGSNSSSGGGGRDTSANNVPPSRRRYQPVTGSLSDPREKDDTAAKASLFRETGAINIRNTVSKFPTPTLVIASKPLQAGSRITRDFFKDKVLGSKNYKGTTKQDFERMSRTAQESMYKSYITGRTSGKIDAYGNRLIQGDNGGATSTGGQVVQAPAVTAPTTAEVSQATTTDAAEDSLILRKRRAKAKGRSPTIMTGVTGATGSLTLGKPSLLGS
Ga0228684_107328413300023704SeawaterMDLFKNQGATNIKNTPMVGAGAILKPAFQAGSKVTRDYFTSEVLGKGAYKGTSRQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIISTGNDGGATESSGVVVQAPKVETTPTESEVSQVTTTDAEDPILLRKRKAKARGRSPTIL
Ga0228671_111771823300024334SeawaterQAGSKVTRDYFTSEVLGKGAYKGTSRQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIISTGNDGGATESSGVVVQAPKVETTPTESEVSQVTTTDAEDPILLRKRKAKARGRSPTILTGVTGVTGSLTLGKPSLLGR
Ga0208303_112041813300025543AqueousKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNMKFQTPTTAILSGPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRSAQESMYKGYITGRSSGKTDAYGREIKSTGDGGGAIASSGQVVQAPEVTAPTTAEVSQATTTDAAEDSLILRKRRAKAKGRSPTIMTGVTG
Ga0208149_104087113300025610AqueousTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIATSGQVVQAPTVTSPTEAEVSQSAATDAVEDNILLRKRRTKARGRSLTIQTGPTGLQTNGSLTLGRPSLLGR
Ga0208149_109724413300025610AqueousPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTYMGAASVTKPFFQAGSKITRDYFTEKVLGKGGYKGTTKQDFERMSRTAQESMYKGYITGRTSGKTDAMGREIISTGSGGENQVVQAPTPTAPTASEVSQSAATDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR
Ga0208149_113084913300025610AqueousKAIRLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGTGAILKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGGAIASSGQVVQAPTATAPTTAEVSQATTTDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGG
Ga0208004_101588213300025630AqueousPKYGKYDVPGTLSDPREKDDTAAKASLFKEQGATNYQNSWMAKTMVGSILSGPAKESSRANRSFFKNEVLGKGAYKDLSVQDFESKSRTAQEGIYQNYIQGRSKGKLDAYGREIKPGDSGGAIATSGQVVQAPTVTAPTEAEVSQSAATDAVEDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR
Ga0208161_108106623300025646AqueousTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTSVQDFESKSRTAQEGIYQNYIQGRSKGKLDAYGREIKPGDSGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR
Ga0208134_109256813300025652AqueousMGSPKASGGNRDTSANNVPPSRRKYQPVTGTLSDPREKDDTAAKMDLFRNQGATNIKNTYMGAASVTKPFFQAGSRVTRDYFTEKVLGKGGYKGTTKQDFERMSRSAQESMYKGYITGRTSGKTDAMGREIISTGSGGENQVVQAPEVTAPTTAEVSQATTTDAVEDPIELRKRRAKARGRSPTIMTGVTGATGSLTLGKPSLLGR
Ga0208898_102143223300025671AqueousMGSNSGSNSGGGGNQQAKARRLMTTTPNYGKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIDNLKVVPPSVAILKGPLKAGSRFNRDYFKNEVLGKGAYKGTSVKDFESMSRSAQESLYGDYMSGRTSGKTDAYGREINQTDRGGNGGGAITSSGQVVQAPTVTAPTTAEVSQATAADAQESLVLRKRKTLARGRSPTIMTGVTGATGSLTLGKPSLLGR
Ga0208898_116203213300025671AqueousLSDPREKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSGPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGNPVSQGDNGGAMGSSGQVVQAPTVTSPTEAELSQSAATDVDEDNILLRKRRAKAVGRSVTIATGPTGSPTNGSLTLGRPSLLGRA
Ga0208899_115109513300025759AqueousKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGNQVVQAPLVATTMPTGTPTASEVSQSAATDAAEDPIELRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR
Ga0208899_117130913300025759AqueousKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDVNEDNILLRKRRTKARGRSLTIQTGPTGLQTNGSLTLGRPSLLGR
Ga0208899_126173213300025759AqueousKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGGAIASSGQVVQAPTATAPTTAEVSQATTTDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR
Ga0208767_109721123300025769AqueousMGSNSSSGGGGGNRSSANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYMSGRQSGKTDAYGNPVPQGDNGGVPDALVKIAKLDPTVANMSPTTAEVSQSAATDADQDNILLRKRRTKARGRSLTIQTGPTGLQTNGSLTLGRPSLLGR
Ga0208767_117189723300025769AqueousGNQQAKARRLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGAGAILKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGNQVVQAPLVATTMPTGTPTASEVSQSAATDAAEDPIELRKRKAKARGRSPTILTGVTGVTGGLTLGIPSLLGR
Ga0208767_125624713300025769AqueousGGGNQQAKARRLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIATSGQVVQAPTVTAPTEAEVSQSAATDAVEDNILLRKR
Ga0208427_114107813300025771AqueousVEIESSANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNLKNTKFYTPTTAILAGVGQATSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQENLYSGYMSGRQSGKTDAYGNPVPQGDNGGAIATSGQVVQAPTVTAPTEAEVSQSAATDAVEDNILLRKRRTKARGRSLTIATTPTG
Ga0208425_109090623300025803AqueousGGGNQQAKARRLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGAGAILKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGNQVVQAPLVATTMPTGTPTAVEISQSEAADADDIYTRRKKSKARGRSMMTLTGPRGLSKDEKLTLGRPSLLGS
Ga0208542_109894813300025818AqueousVPPSRRKYQPVTGTLSDPREKDDTAAKASLFRETGATNIRNTVSKFPTPTLVIASKPLQAGSRITRDFFKDKVLGSKNYKGTTKQDFERMSRTAQESMYKSYITGRTSGKTDAYGNPISQGDNGGATSTGGQVVQAPAVTAPTTAEVSQATTTDAAEDSLILRKRKAKAKGRSPTIMTGVTGATGSLTLGKPSLLGS
Ga0208645_110987213300025853AqueousSSANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSKPLQAGSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQESLYSGYMSGRQSGKTDAYGNPVPQGDNGGVPDALVKIAKLDPTVANMSPTTAEVSQSAATDADQDNILLRKRRTKARGRSLTIQTGPTGLQTNGSLTLGRPSLLGR
Ga0208645_113787623300025853AqueousSSANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSKPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKDYITGRSSGKTDAYGREIKPGDSGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR
Ga0208645_125728013300025853AqueousNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTPMVGTGAILKPAFQAGSKITRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIKSTGDGGGAIASSGQVVQAPTATAPTTAEVSQATTTDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTLGIPS
Ga0208644_121623123300025889AqueousSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQESLYSGYMSGRQSGKTDAYGNPVPQGDNGGVPDALVKIAKLDPTVANMSPTTAEVSQSAATDATEDNILLRKRRTKARGRSLTIQTGPTGLQTNGSLTLGRPSLLGR
Ga0209932_110560113300026183Pond WaterAGTLSDPREKDDTAAKASLFRETGATNIRNTVSKFPTPTLVIASKPLQAGSRITRDFFKDKVLGSKNYKGTTKQDFERMSRTAQESMYKSYITGRTSGKTDAYGNPISQGDNGGATSTGGQVVQAPTVTAPTTAEVSQATTTKAEDPIELRKRRAKAKGRSPTIMTGVTGATGSLTLGKPSLLGS
Ga0209929_1000284223300026187Pond WaterLMTTTPNYSKPKTKSVTAGTLSDPREKDDTAAKMDLFKNQGATNIKNTPMVGAGAILKPAFQAGSKVTRNYFTSEVLGKGAYKGTTKQDFERMSRTAQESMYKGYITGRSSGKTDAYGREIISTGDGGGAIASSGQVVQAPKVDIAPTTAEVSQATTTKAEDPIELRKRRAKARGRTPTIMTGVTGVTGSLTLGKPSLLGRA
Ga0316203_113216523300032274Microbial MatSANNVPPSRRKYQPVTGTLSDPREKDDTAAKMDLFRNQGATNIKNTYMGAASVTKPFFQAGSRVTRDYFTEKVLGKGGYKGTTKQDFERMSRSAQESMYKGYITGRTSGKTDAMGREIISTGSGGENQVVQAPEVTAPTTAEVSQATTTDAVEDPIELRKRRAKARGRSPTIMTGVTGATGSLTLGKPSLLGR
Ga0316204_1052451813300032373Microbial MatTSANNVPPSRRKYQPVTGTLSDPREKDDTAAKMDLFRNQGATNIKNTYMGAASVTKPFFQAGSRVTRDYFTEKVLGKGGYKGTTKQDFERMSRSAQESMYKGYITGRTSGKTDAMGREIISTGSGGENQVVQAPEVTAPTTAEVSQATTTDAVEDPIELRKRRAKARGRSPTIMTGVTGATGSLTLGKPSLLGR
Ga0348335_131231_176_7213300034374AqueousEKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSKPLQAGSRYNRDYFANEVLGKGAYKGTTKQDFEKMSRTSQESLYSGYMSGRQSGKTDAYGNPVPQGDNGGVPDALVKIAKLDPTVANMSPTTAEVSQSAATDADQDNILLRKRRTKARGRSLTIQTGPTGLQTNGSLTLGRPSLLG
Ga0348335_180502_120_5363300034374AqueousAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKDYITGRSSGKTDAYGREIKPGDSGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR
Ga0348336_132704_158_7723300034375AqueousGGGNRSSANNVPPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSKPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKDYITGRSSGKTDAYGREIKPGDSGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR
Ga0348337_040830_1121_18013300034418AqueousMGSNSGSNSGGGGNQQAKARRLMTTTPNYGKPKTKSVTAGTLSDPREKDDTAAKMDLFRNQGATNIDNLKVVPPSVAILKGPLKAGSRFNRDYFKNEVLGKGAYKGTSVKDFESMSRSAQESLYGDYMSGRTSGKTDAYGREINQTDRGGNGGGAIGTSGQVVQAPQPVTSPTTAEVSQATAADAQESLVLRKRKTLARGRSPTIMTGVTGATGSLTLGKPSLLGR
Ga0348337_055546_1_5793300034418AqueousPSKRKYDVSGTLSDPREKDDTAAKMSLFREQGATNIKNMKFQTPTTAILSKPLQAGSRVTRDYFTGEVLGKGAYKGTTKQDFERMSRTAQESMYKDYITGRSSGKTDAYGREIKPGDSGGAIGTSGQVVQAPTVTSPTEAEVSQSAATDADQDNILLRKRRTKARGRSLTIATTPTGATGSLTLGRPSLLGR
Ga0348337_191435_2_5203300034418AqueousSVTAGTLSDPREKDDTAAKMDLFRNQGATNIKNTYMGAASVTKPFFQAGSKITRDYFTEKVLGKGGYKGTTKQDFERMSRTAQESMYKGYITGRTSGKTDAMGREIISTGSGGENQVVQAPTPTAPTASEVSQSAATDAAEDPIQLRKRKAKARGRSPTILTGVTGVTGGLTL


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