NMPFamsDB

NMPFamsDB

NMPFamsDB

A database of Novel Metagenome Protein Families

A database of Novel Metagenome Protein Clusters

A database of Novel Metagenome Protein Clusters
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Metagenome Family F052950

Metagenome Family F052950

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Overview Alignments Structure & Topology Gene Neighborhood Phylogeny Ecosystems Sequences
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Overview

Basic Information
Family ID F052950
Family Type Metagenome
Number of Sequences 142
Average Sequence Length 90 residues
Representative Sequence MSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Number of Associated Samples 60
Number of Associated Scaffolds 142

Quality Assessment
Transcriptomic Evidence No
Most common taxonomic group Unclassified
% of genes with valid RBS motifs 0.00 %
% of genes near scaffold ends (potentially truncated) 2.11 %
% of genes from short scaffolds (< 2000 bps) 2.82 %
Associated GOLD sequencing projects 35
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 (94.366 % of family members)
NCBI Taxonomy ID N/A
Taxonomy N/A

Most Common Ecosystem
GOLD Ecosystem Environmental → Aquatic → Marine → Coastal → Unclassified → Aqueous
(84.507 % of family members)
Environment Ontology (ENVO) Unclassified
(88.732 % of family members)
Earth Microbiome Project Ontology (EMPO) Free-living → Saline → Water (saline)
(82.394 % of family members)


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Multiple Sequence Alignments

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Structure & Topology

Predicted Secondary Structure and Topology

Predicted Topology & Secondary Structure
Classification: Globular Signal Peptide: No Secondary Structure distribution: α-helix: 6.59%    β-sheet: 49.45%    Coil/Unstructured: 43.96%
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Gene Neighborhood

Neighboring Pfam domains

Pfam IDName % Frequency in 142 Family Scaffolds
PF08291Peptidase_M15_3 4.23
PF12708Pectate_lyase_3 1.41
PF00145DNA_methylase 0.70
PF01510Amidase_2 0.70
PF08299Bac_DnaA_C 0.70

Neighboring Clusters of Orthologous Genes (COGs)

COG IDNameFunctional Category % Frequency in 142 Family Scaffolds
COG0270DNA-cytosine methylaseReplication, recombination and repair [L] 0.70
COG0593Chromosomal replication initiation ATPase DnaAReplication, recombination and repair [L] 0.70

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Phylogeny

NCBI Taxonomy

Select NCBI taxonomy Level:
NameRankTaxonomyDistribution
UnclassifiedrootN/A94.37 %
All OrganismsrootAll Organisms5.63 %

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Associated Scaffolds


ScaffoldTaxonomyLengthIMG/M Link
3300005512|Ga0074648_1038453All Organisms → cellular organisms → Bacteria → FCB group → Bacteroidetes/Chlorobi group → Bacteroidetes → Flavobacteriia → Flavobacteriales → Flavobacteriaceae2261Open in IMG/M
3300006810|Ga0070754_10066393All Organisms → cellular organisms → Bacteria → FCB group → Bacteroidetes/Chlorobi group → Bacteroidetes → Flavobacteriia → Flavobacteriales → Flavobacteriaceae1855Open in IMG/M
3300006810|Ga0070754_10104134All Organisms → Viruses → Predicted Viral1399Open in IMG/M
3300022187|Ga0196899_1006552All Organisms → cellular organisms → Bacteria4859Open in IMG/M
3300022187|Ga0196899_1031515Not Available1856Open in IMG/M
3300022200|Ga0196901_1005248All Organisms → cellular organisms → Bacteria → Proteobacteria → Alphaproteobacteria → Hyphomicrobiales5801Open in IMG/M
3300025647|Ga0208160_1038944All Organisms → Viruses → Duplodnaviria → Heunggongvirae → Uroviricota → Caudoviricetes → Caudovirales → Siphoviridae → unclassified Siphoviridae → Synechococcus phage S-CBS41402Open in IMG/M
3300025671|Ga0208898_1027158All Organisms → cellular organisms → Bacteria → FCB group → Bacteroidetes/Chlorobi group → Bacteroidetes → Flavobacteriia → Flavobacteriales → Flavobacteriaceae2397Open in IMG/M
3300034374|Ga0348335_033992Not Available2189Open in IMG/M
3300034375|Ga0348336_030924All Organisms → cellular organisms → Bacteria → FCB group → Bacteroidetes/Chlorobi group → Bacteroidetes2524Open in IMG/M


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Environmental Properties

Associated Habitat Types

Select Environment Taxonomy Level:
HabitatTaxonomyDistribution
AqueousEnvironmental → Aquatic → Marine → Coastal → Unclassified → Aqueous84.51%
Saline Water And SedimentEnvironmental → Aquatic → Non-Marine Saline And Alkaline → Saline → Epilimnion → Saline Water And Sediment3.52%
Saline Water And SedimentEnvironmental → Aquatic → Non-Marine Saline And Alkaline → Saline → Unclassified → Saline Water And Sediment2.82%
Saline Water And SedimentEnvironmental → Aquatic → Non-Marine Saline And Alkaline → Saline → Sediment → Saline Water And Sediment2.82%
Freshwater To Marine Saline GradientEnvironmental → Aquatic → Marine → Coastal → Unclassified → Freshwater To Marine Saline Gradient2.11%
Hypersaline Lake SedimentEnvironmental → Aquatic → Non-Marine Saline And Alkaline → Hypersaline → Sediment → Hypersaline Lake Sediment2.11%
MarineEnvironmental → Aquatic → Marine → Oceanic → Unclassified → Marine1.41%
MarineEnvironmental → Aquatic → Marine → Neritic Zone → Unclassified → Marine0.70%

Visualization
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Associated Samples

Taxon OIDSample NameHabitat TypeIMG/M Link
3300000116Marine microbial communities from Delaware Coast, sample from Delaware MO Spring March 2010EnvironmentalOpen in IMG/M
3300001419Saline surface water microbial communities from Etoliko Lagoon, Greece - halocline water (15 m)EnvironmentalOpen in IMG/M
3300005346Saline sediment microbial community from Etoliko Lagoon, GreeceEnvironmentalOpen in IMG/M
3300005512Saline surface water microbial communities from Etoliko Lagoon, Greece - halocline_waterEnvironmentalOpen in IMG/M
3300005611Saline surface water microbial communities from Etoliko Lagoon, GreeceEnvironmentalOpen in IMG/M
3300005613Saline sediment microbial communities from Etoliko Lagoon, Greece - sedimentEnvironmentalOpen 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
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
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
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
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
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
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
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
3300007540Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1504_2 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
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
3300010368Freshwater to marine salinity gradient microbial communities from Chesapeake Bay, USA - CPBay_Spr_15_0.2_DNAEnvironmentalOpen in IMG/M
3300013010Freshwater to marine salinity gradient microbial communities from Chesapeake Bay, USA - CPBay_Spr_31_0.8_DNAEnvironmentalOpen in IMG/M
3300017697Freshwater to marine salinity gradient microbial communities from Chesapeake Bay, USA - CPBay_Spr_31_0.2_DNA (version 2)EnvironmentalOpen in IMG/M
3300017963Hypersaline lake sediment archaeal communities from the Salton Sea, California, USA - SS_3_D_1 metaGEnvironmentalOpen in IMG/M
3300017971Hypersaline lake sediment archaeal communities from the Salton Sea, California, USA - SS_3_D_2 metaGEnvironmentalOpen in IMG/M
3300017989Hypersaline lake sediment archaeal communities from the Salton Sea, California, USA - SS_1_MS_2 metaGEnvironmentalOpen in IMG/M
3300022050Aqueous 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 (v3)EnvironmentalOpen in IMG/M
3300022053Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1504_2 Viral MetaG (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
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
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
3300022167Aqueous 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 (v2)EnvironmentalOpen in IMG/M
3300022169Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1504_2 Viral MetaG (v3)EnvironmentalOpen in IMG/M
3300022187Aqueous microbial communities from the Delaware River and Bay under freshwater to marine salinity gradient to study organic matter cycling in a time-series - Viral MetaG DEL_Sep_01 (v3)EnvironmentalOpen in IMG/M
3300022198Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_1S Viral MetaG (v3)EnvironmentalOpen in IMG/M
3300022200Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1504_1 Viral MetaG (v3)EnvironmentalOpen in IMG/M
3300025057Marine viral communities from the Gulf of Mexico - 31_GoM_OMZ_CsCl metaG (SPAdes)EnvironmentalOpen 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
3300025646Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_1S Viral MetaG (SPAdes)EnvironmentalOpen in IMG/M
3300025647Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1504_1 Viral MetaG (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
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
3300025687Freshwater to marine saline gradient viral communities from Chesapeake Bay - CB_1508_1D Viral MetaG (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
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
3300025828Aqueous 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
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
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
DelMOSpr2010_1005967523300000116MarineMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQ
JGI11705J14877_1005602013300001419Saline Water And SedimentAMSNNNKQAEFQKNTFGGANPILVADTTDTSGAFIALKAVNGDAELNSVTFTGGSQITTNITIQDGDVLYGNFITQFQLASGAVLAYQAQERA*
JGI11705J14877_1016423313300001419Saline Water And SedimentMSYNEKQTEFQKNTFGGANPILVADTTDTSGAFIALKAVNGDAELNSVTFTGGSQITTNITIQDGDVLYGNFITQFQLASGAVLAYQ
Ga0074242_1076329713300005346Saline Water And SedimentMSYNEKQTEFQKNTFWGALTPILVADTTDTSGAFIALKAVNGDAELNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQA
Ga0074648_101880123300005512Saline Water And SedimentMSYNEKQTEFQKNTFGGANPILVADTTDTSGAFIALKAVNGDAELNSVTFTGGSQITTNITIQDGDVLYGNFITQFQLASGAVLAYQAQERA*
Ga0074648_103570253300005512Saline Water And SedimentMSNNNKQAEFQKNTFGGANPILVADTTDTSGAFIALKAVNGDAELNSVTFTGGSQITTNITIQDGDVLYGNFITQFQLASGAVLAYQAQEGA*
Ga0074648_103845353300005512Saline Water And SedimentMSNNNKQAEFQKNTFGGANPILVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0074648_105747143300005512Saline Water And SedimentMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLYGNFITQFQLASGAVLAYQAQEGA*
Ga0074648_105772013300005512Saline Water And SedimentRTKFEAMSNNNKQAEFQKNTFGGANPILVADTTDTSGAFIALKAVNGDAELNSVTFTGGSQITTNITIQDGDVLYGNFITQFQLASGAVLAYQAQEGA*
Ga0074647_100570023300005611Saline Water And SedimentMSYNEKQTEFQKNTFGGANPILVADTTDTSGAFIALKAVNGDAELNSVTFTGGSQITTNITIQDGDVLYGNFIAQFQLASGAVLAYQAQEGA*
Ga0074647_100877613300005611Saline Water And SedimentSNNNKQAEFQKNTFGGANPILVADTTDTSGAFIALKAVNGDAELNSVTFTGGSQITTNITIQDGDVLYGNFITQFQLASGAVLAYQAQEGA*
Ga0074647_101005513300005611Saline Water And SedimentSNNNKQAEFQKNTFGGANPILVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0074647_101290513300005611Saline Water And SedimentAEFQKNTFGGANPILVADTTDTSGAFIALKAVNGDAELNSVTFTGGSQITTNITIQDGDVLYGNFITQFQLASGAVLAYQAQEGA*
Ga0074649_106515523300005613Saline Water And SedimentMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0075474_1019224623300006025AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0075478_1003739513300006026AqueousTKFEAMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0075478_1004266423300006026AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGSVLAYQAVEA*
Ga0075478_1007785323300006026AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVL
Ga0075478_1011129823300006026AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0075461_1011293823300006637AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDVEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0098073_103078823300006734MarineMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0070749_1003080843300006802AqueousMSRNEKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGNAELNSVTFTGGSQITTNITILDGDVLPGNFITQFQLASGAVLAYQAVEA*
Ga0070749_1013046723300006802AqueousLRIAWRRKIITKFEAMSNNNKQAEFQKNTFGGANPVYVGDTTDTSGAFIALKAVNGDVEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASG
Ga0070749_1032213123300006802AqueousMSRNEKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLA
Ga0070749_1035868923300006802AqueousMSNNVKQAEFQQNTFGGAGFVLVNDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGFIYGNFITQFQLASGAVLAYRAQEAG*
Ga0070749_1042232423300006802AqueousMSRNEKQTEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASG
Ga0070749_1050947923300006802AqueousMSNNVKQAEFQQNTFGGSGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0070749_1064139813300006802AqueousRTKFEAMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDVEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0070754_1006042513300006810AqueousNPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0070754_1006639353300006810AqueousGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0070754_1008851223300006810AqueousVKIMNNLTSLRIAWRRKIITKFEAMSNNNKQAEFQKNTFGGANPVYVGDTTDTSRAFIALKAVNGDVEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0070754_1010413413300006810AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGSAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0070754_1021983223300006810AqueousMSNNNKQSEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0070754_1024550923300006810AqueousMSRNEKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0070754_1026427623300006810AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGSVIYGNFITQFQLASGAVLAYRAQEAG*
Ga0070754_1027795013300006810AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0070754_1037653713300006810AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAE*
Ga0070754_1040934513300006810AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEVG*
Ga0070754_1047659313300006810AqueousMSNNNKQAEFQKNTFGGANPVLVTDTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGSVLAYQAVEA*
Ga0070754_1051387513300006810AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDVGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0075476_1006976033300006867AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGNAELNSVTFTGGSQITTNITILDGDVLPGNFITQFQLASGAVLAYQAVEA*
Ga0075476_1018571823300006867AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGFIYGNFITQFQLASGAVLAYRAQEAG*
Ga0075481_1014969723300006868AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAELNSVTFTGGAQITTNITILNGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0075481_1027694223300006868AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGFIYGNFITQFQLASGAVLAYRAQEAG*
Ga0075477_1007599333300006869AqueousMSNNVKQAEFQQNTFGGAGFVLVNDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0075477_1015109123300006869AqueousSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAELNSVTFTGGAQITTNITILNGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0075477_1031675513300006869AqueousSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGNAELNSVTFTGGSQITTNITILDGDVLPGNFITQFQLASGAVLAYQAVEA*
Ga0075475_1029000513300006874AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQE
Ga0075475_1044333023300006874AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAELNSVTFTGGAQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0070750_1006598953300006916AqueousQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0070750_1009046023300006916AqueousMSRNVKQAEFQQNTFGGGGFVLVNDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGFIYGNFITQFQLASGAVLAYRAQEAE*
Ga0070746_1029243713300006919AqueousVKIMNNLTSLRIAWRRKIITKFEAMSNNNKQAEFQKNTFGGANPVYVGDTTDTSGAFIALKAVNGDVEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0075460_1012134423300007234AqueousRRKIITKFEAMSNNNKQAEFQKNTFGGANPVYVGDTTDTSGAFIALKAVNGDVEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0070745_105131713300007344AqueousICKNYDMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0070745_106995013300007344AqueousICKNYDMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGSAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0070745_109833513300007344AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0070745_112593323300007344AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEVG*
Ga0070745_115338423300007344AqueousMSRNVKQAEFQQNTFGGGGFVLVNDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0070745_125163623300007344AqueousMSNNNKQAEFQKNTFGGANPVYVGDTTDTSGAFIALKAVNGDVEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0070745_131206313300007344AqueousMSRNVKQAEFQQNTFGGGGFVLVNDTTDTSGTFIAIQAVGGDAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0070745_136521313300007344AqueousFEAMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGSVLAYQAVEA*
Ga0070753_134576113300007346AqueousSNNVKQAEFQQNTFGGAGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0099851_101945533300007538AqueousMSRNVKQAEFQQNTFGGSGFVLVDDTTDTSGTFIAIQAVGGSAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0099851_130774823300007538AqueousMSNNVKQAEFQQNTFGGAGFVLVNDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQF
Ga0099847_105659423300007540AqueousMSNNVKQAEFQRNTFGAGGFDLVDDTTDTTGKFVALVVCSGGAEFNSITQTNKAQITDNFTMPAGSVVLGSFITQFQLASGSVLAYSAIEG*
Ga0099847_106217823300007540AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAELNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0099847_115489623300007540AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQ
Ga0099847_123715823300007540AqueousMSRNVKQAEFQQNTFGGEGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0099848_106061823300007541AqueousMSRNEKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSITFTGGAQITTNITILDGDVLFGNFITQFQLASGSVLAYQAVEA*
Ga0099848_115139523300007541AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGNVLAYQAVEA*
Ga0099848_132182123300007541AqueousFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAELNSITFTGGAQITTNITILNGDVLPGNFITQFQLASGAVLAYQAVEA*
Ga0099846_121097413300007542AqueousKIITKFEAMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGNVLAYQAVEA*
Ga0070751_103627513300007640AqueousEAMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA*
Ga0070751_125809613300007640AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGIIYGNFITQFQLASG
Ga0070751_132181813300007640AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGSVIYGNFITQFQLASGAV
Ga0075480_1012189513300008012AqueousKNTFGGANPVLVADTTDTSGTFIALKAVNGNAELNSVTFTGGSQITTNITILDGDVLPGNFITQFQLASGAVLAYQAVEA*
Ga0075480_1024130523300008012AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGFIYGNFITQFQLASGAVLAYRAQEVG*
Ga0129324_1014856223300010368Freshwater To Marine Saline GradientMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAELNSITFTGGAQITTNITILDGDVLFGNFITQFQLASGAVLAYQAQEGA*
Ga0129327_1017459113300013010Freshwater To Marine Saline GradientMSNNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG*
Ga0180120_1028882323300017697Freshwater To Marine Saline GradientMSRNVKQAEFQQNTFGGGGFVLVNDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG
Ga0180437_1093505613300017963Hypersaline Lake SedimentMSYNEKQAEFQKNSFGGANPVLVADTTDTSGSFIALKAVNGAAEFNSVTFTGGSQITTNITIQDGDVLFGNFITQFQLASGAVLAYQAQEGA
Ga0180438_1064331923300017971Hypersaline Lake SedimentMSYNEKQAEFQKNSFGGANPVLVADTTDTSGSFIALKAVNGDAEFNSITFTGGSQITTNITIQDGDVLFGNFITQFQLASGAVLAYQAQEGA
Ga0180432_1116399113300017989Hypersaline Lake SedimentMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSITFTGGAQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0196883_100078213300022050AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGFIYGNFITQFQLASGAVLAYRAQEAG
Ga0196883_104040413300022050AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG
Ga0212030_103703713300022053AqueousMSRNVKQAEFQQNTFGGSGFVLVDDTTDTSGTFIAIQAVGGSAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEA
Ga0212026_102530723300022069AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGSVLAYQAVEA
Ga0212026_107816713300022069AqueousQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0212028_100823513300022071AqueousAMSRNEKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0196897_101561713300022158AqueousANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0212020_107014023300022167AqueousMSRNEKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLSSGAVLAYQAVEA
Ga0196903_100398333300022169AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGSAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG
Ga0196899_100655223300022187AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0196899_100869513300022187AqueousVKIMNNLTSLRIAWRRKIITKFEAMSNNNKQAEFQKNTFGGANPVYVGDTTDTSGAFIALKAVNGDVEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0196899_102288023300022187AqueousMSRNEKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0196899_102487623300022187AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGSVIYGNFITQFQLASGAVLAYRAQEAG
Ga0196899_102710853300022187AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0196899_103151513300022187AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG
Ga0196899_113156423300022187AqueousMSRNVKQAEFQQNTFGGGGFVLVNDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG
Ga0196899_115181123300022187AqueousMSNNVKQAEFQQNTFGGAGFVLVNDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGFIYGNFITQFQLASGAVLAYRAQEAG
Ga0196899_116272523300022187AqueousQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAELNSVTFTGGAQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0196905_114636323300022198AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGNAEFNSITFTGGAQITTNITILDGDVLFGNFITQFQLASGSVLAYQAVEA
Ga0196901_100524863300022200AqueousMSRNVKQAEFQQNTFGGSGFVLVDDTTDTSGTFIAIQAVGGSAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG
Ga0196901_115635223300022200AqueousMSNNVKQAEFQQNTFGGGGFVLVNDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG
Ga0196901_125791123300022200AqueousMSNNVKQAEFQQNTFGGAGFVLVNDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG
Ga0208018_12505113300025057MarineMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0208303_103579233300025543AqueousMSNNVKQAEFQRNTFGAGGFDLVDDTTDTTGKFVALVVCSGGAEFNSITQTNKAQITDNFTMPAGSVVLGSFITQFQLASGSVLAYSAIEG
Ga0208149_102645213300025610AqueousRTKFEAMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGNAELNSVTFTGGSQITTNITILDGDVLPGNFITQFQLASGAVLAYQAVEA
Ga0208149_104189813300025610AqueousAMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGSVLAYQAVEA
Ga0208149_110032713300025610AqueousNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0208161_100335513300025646AqueousMSRNEKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSITFTGGAQITTNITILDGDVLFGNFITQFQLASGSVLAYQAVEA
Ga0208160_103894413300025647AqueousSLIVLRRKIITKFEAMSRNEKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSITFTGGAQITTNITILDGDVLFGNFITQFQLASGSVLAYQAVEA
Ga0208428_102053023300025653AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGNAELNSVTFTGGSQITTNITILDGDVLPGNFITQFQLASGAVLAYQAVEA
Ga0208898_101661733300025671AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEVG
Ga0208898_102550313300025671AqueousQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG
Ga0208898_102715813300025671AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0208898_103679613300025671AqueousICKNYDMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG
Ga0208898_104586823300025671AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAE
Ga0208898_112483113300025671AqueousKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0208019_110717623300025687AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSVTFTGGAQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0208767_107191743300025769AqueousKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0208767_127871913300025769AqueousAMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0208427_101914723300025771AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAELNSVTFTGGAQITTNITILNGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0208542_119288623300025818AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDVEFNSITFTGGSQITTNITILDGDVLFGNFITQ
Ga0208547_113490623300025828AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGNAELNSVTFTGGSQITTNITILDGDVLPGNFITQFQLASGAVLA
Ga0208547_115765513300025828AqueousMSRNVKQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSITQTNEAQITDNFTLSDGGFIYGNFITQ
Ga0208645_103971053300025853AqueousGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG
Ga0208645_104131373300025853AqueousKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSVTFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0208645_104386863300025853AqueousMSNNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAELNSVTFTGGAQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0208645_117201523300025853AqueousMSNNVKQAEFQQNTFGGSGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGFIYGNFITQFQLASGAVLAYRAQEAG
Ga0208645_125835613300025853AqueousMSNNNKQSEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0208644_103856923300025889AqueousMSRNEKQAEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGNAELNSVTFTGGSQITTNITILDGDVLPGNFITQFQLASGAVLAYQAVEA
Ga0208644_125551313300025889AqueousMSRNEKQTEFQKNTFGGANPVLVADTTDTSGTFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLA
Ga0348335_033992_103_3783300034374AqueousMSNNNKQAEFQKNTFGGANPVLVTDTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGSVLAYQAVEA
Ga0348335_129835_2_2473300034374AqueousQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGSVLAYQAVEA
Ga0348335_141936_2_2473300034374AqueousQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAELNSVTFTGGAQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0348336_004096_4189_44643300034375AqueousMSNNNKQAEFQKNTFGGANPVYVGDTTDTSGAFIALKAVNGDVEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0348336_030924_2_2593300034375AqueousQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA
Ga0348336_061307_1210_14703300034375AqueousQAEFQQNTFGGGGFVLVDDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQLASGAVLAYRAQEAG
Ga0348336_065717_2_2653300034375AqueousNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGSVLAYQAVEA
Ga0348336_171091_386_6163300034375AqueousMSRNVKQAEFQQNTFGGGGFVLVNDTTDTSGTFIAIQAVGGAAEFNSVTQTNEAQITDNFTLSDGGIIYGNFITQFQ
Ga0348337_043390_1630_18963300034418AqueousNNKQAEFQKNTFGGANPVLVADTTDTSGAFIALKAVNGDAEFNSITFTGGSQITTNITILDGDVLFGNFITQFQLASGAVLAYQAVEA

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