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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Sample 3300011308

3300011308: Marine microbial communities from the Southern Atlantic ocean - KN S18 NT29 metaT (Metagenome Metatranscriptome) (version 2)



Overview

Basic Information
IMG/M Taxon OID3300011308 Open in IMG/M
GOLD Reference
(Study | Sequencing Project | Analysis Project)		Gs0114292 | Gp0125906 | Ga0138393
Sample NameMarine microbial communities from the Southern Atlantic ocean - KN S18 NT29 metaT (Metagenome Metatranscriptome) (version 2)
Sequencing StatusPermanent Draft
Sequencing CenterDOE Joint Genome Institute (JGI)
Published?N
Use PolicyOpen

Dataset Contents
Total Genome Size72581559
Sequencing Scaffolds81
Novel Protein Genes109
Associated Families91

Dataset Phylogeny
Taxonomy GroupsNumber of Scaffolds
Not Available38
All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis13
All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda16
All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Podoplea → Harpacticoida → Harpacticidae → Tigriopus → Tigriopus californicus1
All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Deuterostomia → Chordata → Tunicata → Appendicularia → Copelata → Oikopleuridae → Oikopleura → Oikopleura dioica1
All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Podoplea → Siphonostomatoida → Caligidae → Lepeophtheirus → Lepeophtheirus salmonis1
All Organisms → cellular organisms → Eukaryota → Sar1
All Organisms → cellular organisms → Eukaryota → Opisthokonta1
All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Branchiopoda → Phyllopoda → Diplostraca → Cladocera → Anomopoda → Daphniidae → Daphnia → Daphnia pulex1
All Organisms → cellular organisms → Eukaryota → Sar → Alveolata → Apicomplexa → Aconoidasida → Haemosporida → Plasmodiidae → Plasmodium1
All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Podoplea3
All Organisms → cellular organisms → Eukaryota → Sar → Alveolata → Dinophyceae → Gonyaulacales → Lingulodiniaceae → Lingulodinium → Lingulodinium polyedra2
All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Acartiidae → Acartia → Acartia pacifica1
All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Hexapoda → Insecta → Dicondylia → Pterygota → Neoptera → Paraneoptera → Hemiptera → Sternorrhyncha → Aphidomorpha → Aphidoidea → Aphididae → Aphidinae → Macrosiphini → Acyrthosiphon → Acyrthosiphon pisum1

Ecosystem and Geography

Ecosystem Assignment (GOLD)
NameMarine Microbial Communities From The Southern Atlantic Ocean Transect To Study Dissolved Organic Matter And Carbon Cycling
TypeEnvironmental
TaxonomyEnvironmental → Aquatic → Marine → Oceanic → Unclassified → Marine → Marine Microbial Communities From The Southern Atlantic Ocean Transect To Study Dissolved Organic Matter And Carbon Cycling

Alternative Ecosystem Assignments
Environment Ontology (ENVO)marine biomemarine water bodysea water
Earth Microbiome Project Ontology (EMPO)Free-living → Saline → Water (saline)

Location Information
LocationSouthern Atlantic Ocean
CoordinatesLat. (o)-28.2362Long. (o)-38.4949Alt. (m)N/ADepth (m)N/A
Location on Map
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Associated Families

FamilyCategoryNumber of Sequences3D Structure?
F000021Metagenome / Metatranscriptome6082Y
F000048Metagenome / Metatranscriptome3365Y
F000049Metagenome / Metatranscriptome3277Y
F000051Metagenome / Metatranscriptome3266Y
F000052Metagenome / Metatranscriptome3223Y
F000068Metagenome / Metatranscriptome2731Y
F000073Metagenome / Metatranscriptome2639Y
F000086Metagenome / Metatranscriptome2462Y
F000139Metatranscriptome1948Y
F000287Metatranscriptome1370Y
F000306Metagenome / Metatranscriptome1332Y
F000481Metagenome / Metatranscriptome1089Y
F000544Metatranscriptome1039Y
F000797Metatranscriptome886Y
F000798Metagenome / Metatranscriptome886Y
F000879Metagenome / Metatranscriptome850Y
F001255Metatranscriptome736N
F001267Metatranscriptome734Y
F001271Metatranscriptome733Y
F001503Metatranscriptome681Y
F002043Metatranscriptome599N
F002056Metagenome / Metatranscriptome598Y
F002147Metatranscriptome589N
F002148Metatranscriptome589Y
F002224Metatranscriptome580Y
F002878Metatranscriptome523N
F003348Metagenome / Metatranscriptome492Y
F003780Metatranscriptome468N
F003844Metatranscriptome465N
F004094Metagenome / Metatranscriptome453Y
F004135Metatranscriptome451Y
F004380Metatranscriptome440Y
F004498Metagenome / Metatranscriptome435Y
F005377Metatranscriptome402Y
F005500Metatranscriptome398Y
F006690Metatranscriptome366Y
F007075Metatranscriptome358N
F007314Metatranscriptome353Y
F009052Metatranscriptome323Y
F010012Metatranscriptome309Y
F010519Metagenome / Metatranscriptome302Y
F010596Metatranscriptome301N
F010768Metagenome / Metatranscriptome299Y
F012012Metatranscriptome284Y
F012678Metagenome / Metatranscriptome278Y
F012749Metatranscriptome277N
F013605Metatranscriptome269Y
F014227Metatranscriptome264N
F014741Metagenome / Metatranscriptome260Y
F015433Metatranscriptome254N
F016973Metagenome / Metatranscriptome243Y
F017830Metagenome / Metatranscriptome238Y
F021471Metatranscriptome218Y
F021706Metatranscriptome217N
F023281Metagenome / Metatranscriptome210Y
F023781Metatranscriptome208N
F024711Metatranscriptome204N
F025045Metatranscriptome203Y
F026014Metatranscriptome199Y
F028703Metatranscriptome190Y
F029977Metatranscriptome186N
F031753Metatranscriptome181N
F033300Metatranscriptome177Y
F033689Metatranscriptome176Y
F033768Metatranscriptome176Y
F039934Metatranscriptome162N
F042722Metatranscriptome157N
F042859Metatranscriptome157N
F050126Metagenome / Metatranscriptome145Y
F051681Metatranscriptome143N
F053053Metatranscriptome141N
F055401Metatranscriptome138N
F056299Metatranscriptome137N
F057872Metatranscriptome135N
F058168Metatranscriptome135N
F062417Metatranscriptome130N
F068737Metatranscriptome124N
F075631Metatranscriptome118N
F081411Metatranscriptome114N
F082867Metagenome / Metatranscriptome113Y
F083658Metatranscriptome112N
F085098Metatranscriptome111N
F085100Metatranscriptome111N
F088175Metatranscriptome109N
F089636Metatranscriptome108N
F090434Metatranscriptome108N
F090441Metatranscriptome108N
F094867Metatranscriptome105N
F103410Metagenome / Metatranscriptome101N
F104174Metatranscriptome100N
F104415Metatranscriptome100N

Associated Scaffolds

ScaffoldTaxonomyLengthIMG/M Link
Ga0138393_1001661Not Available544Open in IMG/M
Ga0138393_1007414Not Available581Open in IMG/M
Ga0138393_1010598All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis591Open in IMG/M
Ga0138393_1011868Not Available631Open in IMG/M
Ga0138393_1012625All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda644Open in IMG/M
Ga0138393_1015966All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis1089Open in IMG/M
Ga0138393_1017693Not Available607Open in IMG/M
Ga0138393_1018853Not Available1364Open in IMG/M
Ga0138393_1020511All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Podoplea → Harpacticoida → Harpacticidae → Tigriopus → Tigriopus californicus744Open in IMG/M
Ga0138393_1021668Not Available676Open in IMG/M
Ga0138393_1022766Not Available581Open in IMG/M
Ga0138393_1022818All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis500Open in IMG/M
Ga0138393_1022865Not Available1082Open in IMG/M
Ga0138393_1024368All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis626Open in IMG/M
Ga0138393_1035927Not Available1158Open in IMG/M
Ga0138393_1036221Not Available975Open in IMG/M
Ga0138393_1037544Not Available535Open in IMG/M
Ga0138393_1038378All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Deuterostomia → Chordata → Tunicata → Appendicularia → Copelata → Oikopleuridae → Oikopleura → Oikopleura dioica521Open in IMG/M
Ga0138393_1038872All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda702Open in IMG/M
Ga0138393_1041164All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis519Open in IMG/M
Ga0138393_1049133Not Available512Open in IMG/M
Ga0138393_1054887Not Available711Open in IMG/M
Ga0138393_1062090All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis630Open in IMG/M
Ga0138393_1064012All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda648Open in IMG/M
Ga0138393_1066284All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda639Open in IMG/M
Ga0138393_1067893All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis503Open in IMG/M
Ga0138393_1068062All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Podoplea → Siphonostomatoida → Caligidae → Lepeophtheirus → Lepeophtheirus salmonis693Open in IMG/M
Ga0138393_1069432All Organisms → cellular organisms → Eukaryota → Sar623Open in IMG/M
Ga0138393_1071627Not Available1017Open in IMG/M
Ga0138393_1071905All Organisms → cellular organisms → Eukaryota → Opisthokonta966Open in IMG/M
Ga0138393_1073286All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis531Open in IMG/M
Ga0138393_1074526All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Branchiopoda → Phyllopoda → Diplostraca → Cladocera → Anomopoda → Daphniidae → Daphnia → Daphnia pulex1137Open in IMG/M
Ga0138393_1076387All Organisms → cellular organisms → Eukaryota → Sar → Alveolata → Apicomplexa → Aconoidasida → Haemosporida → Plasmodiidae → Plasmodium807Open in IMG/M
Ga0138393_1079120Not Available965Open in IMG/M
Ga0138393_1083791All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda527Open in IMG/M
Ga0138393_1084368All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Podoplea630Open in IMG/M
Ga0138393_1085900Not Available523Open in IMG/M
Ga0138393_1086034All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda905Open in IMG/M
Ga0138393_1087645Not Available668Open in IMG/M
Ga0138393_1089776Not Available900Open in IMG/M
Ga0138393_1089991All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis701Open in IMG/M
Ga0138393_1090061Not Available1248Open in IMG/M
Ga0138393_1090851All Organisms → cellular organisms → Eukaryota → Sar → Alveolata → Dinophyceae → Gonyaulacales → Lingulodiniaceae → Lingulodinium → Lingulodinium polyedra915Open in IMG/M
Ga0138393_1092515Not Available693Open in IMG/M
Ga0138393_1096088Not Available541Open in IMG/M
Ga0138393_1097145Not Available627Open in IMG/M
Ga0138393_1097599All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda699Open in IMG/M
Ga0138393_1100725All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis649Open in IMG/M
Ga0138393_1102474Not Available784Open in IMG/M
Ga0138393_1102976All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Acartiidae → Acartia → Acartia pacifica527Open in IMG/M
Ga0138393_1104070Not Available515Open in IMG/M
Ga0138393_1106198Not Available1023Open in IMG/M
Ga0138393_1109142Not Available601Open in IMG/M
Ga0138393_1109926All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda843Open in IMG/M
Ga0138393_1113012All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda544Open in IMG/M
Ga0138393_1114072All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis656Open in IMG/M
Ga0138393_1114894All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda658Open in IMG/M
Ga0138393_1120598All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis983Open in IMG/M
Ga0138393_1124188Not Available679Open in IMG/M
Ga0138393_1125217All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda542Open in IMG/M
Ga0138393_1126217Not Available643Open in IMG/M
Ga0138393_1127924Not Available612Open in IMG/M
Ga0138393_1128421All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda667Open in IMG/M
Ga0138393_1131972Not Available683Open in IMG/M
Ga0138393_1133815All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Hexapoda → Insecta → Dicondylia → Pterygota → Neoptera → Paraneoptera → Hemiptera → Sternorrhyncha → Aphidomorpha → Aphidoidea → Aphididae → Aphidinae → Macrosiphini → Acyrthosiphon → Acyrthosiphon pisum502Open in IMG/M
Ga0138393_1133981Not Available974Open in IMG/M
Ga0138393_1134174Not Available957Open in IMG/M
Ga0138393_1136292Not Available1811Open in IMG/M
Ga0138393_1136612All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda858Open in IMG/M
Ga0138393_1137853All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda955Open in IMG/M
Ga0138393_1138091Not Available543Open in IMG/M
Ga0138393_1138454All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda774Open in IMG/M
Ga0138393_1141437Not Available663Open in IMG/M
Ga0138393_1141788All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Podoplea690Open in IMG/M
Ga0138393_1141825All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda883Open in IMG/M
Ga0138393_1143725All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Podoplea2102Open in IMG/M
Ga0138393_1147873Not Available528Open in IMG/M
Ga0138393_1149314All Organisms → cellular organisms → Eukaryota → Opisthokonta → Metazoa → Eumetazoa → Bilateria → Protostomia → Ecdysozoa → Panarthropoda → Arthropoda → Mandibulata → Pancrustacea → Crustacea → Multicrustacea → Hexanauplia → Copepoda → Neocopepoda → Gymnoplea → Calanoida → Temoridae → Eurytemora → Eurytemora affinis536Open in IMG/M
Ga0138393_1150004All Organisms → cellular organisms → Eukaryota → Sar → Alveolata → Dinophyceae → Gonyaulacales → Lingulodiniaceae → Lingulodinium → Lingulodinium polyedra535Open in IMG/M
Ga0138393_1150858Not Available601Open in IMG/M
Ga0138393_1152142Not Available2634Open in IMG/M

Sequences

Scaffold IDProtein IDFamilySequence
Ga0138393_1001165Ga0138393_10011651F062417MLERPGDLIPVLPNAVTIPWTRRRSQILNYLHRGPVTFNTLVYDTNVGDISALATYFNPDRISERELNLRFGHYPTTGEKHESPDKRTGAEAAVKPRLLLYPDHSQEKVQRTYNWVMSQDSKAGSPVPVLQGQQRQNLTTTTSSLDMGPPQLNVNRNFSNPLLSKPFTMPSTAISSVLDNVWSDKGTESPDSSWPDKLSETGFGLGELACRLNRSTAEGEMSAWESGPQPFR*
Ga0138393_1001661Ga0138393_10016611F053053VTGRSGEAPTSVSKSDLTGGMCFLLYTGGDEEKLSCVARAACESPVAADNYLAAAKMWYKMHKLIQAVPFSEKYNVIMETLYDASEHAKAGGHCSKYNW*
Ga0138393_1004137Ga0138393_10041371F000051DRVARTMDLQEDIAAKIEILKSNAATEAELLPQGDKVPADAQAFKDELARITKYVTDLQANTKIECDKYSNDVKYWAEYRTGIKEFTPWLVAAEKTAAEGLSKPSDLSEVQALNEKVLGFDKNCVNYLKVLTAAQAAAQKMTTHTEADAEVAALKARYDAVKNVSNTWVAKVDTLVKEWVLLDNTVTELNSWVAKDKSSEGENQFSLEKMESTLGELKNIFKQKEKLVEGL*
Ga0138393_1006889Ga0138393_10068891F000139DKPKFLEGNVKRIQEGWDDTKKKAQDRLKLLQDTKEAWVGYAENNETIASEFEVAEEEIKKVKKRYNLEDALSDLKKRQELYNKSNNTISGLFKAINDNFTCMSITLPEDKKKVLDKEIKAVDAKLEVVTRFKDTVAVVEDFCTALVNFDNSLKAVDGWKDTATAELKDIKEASGAMLPEDRVARTMDLQEDIAAKLEILKKCAETEAALLPQGGNVDKDAQAFKNELNRITDYVTKLAADTKIECDKYSNDVKFWAEYRTGIKEYSPWLAGAEKAAAEGLSKPSDLNEVKALHEKVSTFDKTCLTYAKVLDAANGAAQKMTTHAEADAEVAAL
Ga0138393_1007414Ga0138393_10074141F083658MVLTPKYPFLTPHRQIYKAYVEDGEGQQPIAKTKDWVEDLGTFNDKLFFAFKNGFALSTLAALVDIRHISQIKERKSQIARYAFYTVPLTLGAVSWMGGVELGKIWLGRKDERAWVVGSVMPAGIFGIWRRCPYKGLRTAVFLSAIGWAYQYSTNNNYVNTFVYPNTDNPNLPH
Ga0138393_1010598Ga0138393_10105981F021706MQHKLIAMACLLALSSAAPTAEAEADADAQFYGSYPTVPAPNCVTEVDVLVTQVCTPHAEEICSTETVQTEEIEYAPLCKDIVDVLCDAPAPHAAPYLVKREADAEADPQFFAPLHAVGRTITETVKHACREITTEHCVDNPTVIPVPVEVEHCHTVTRVTCDPVENQLPRTVCTPVETTHVSHAN
Ga0138393_1011868Ga0138393_10118681F010012TRSAVMFSVVITLTTISQVWGACSDYTCAYNPPEGKSKVTMTIDSGDNCAYNTQAGDTYPPPRGVDCVVNYEHGSCTRMKFECDSLNLRNKDDIPWRCKGGKKGGDRMIIYGHNDGAIYRETRKYCRNRAPMRVRSTEGLKIRLQILRRTKGGQGGKNCSIKCLD*
Ga0138393_1012446Ga0138393_10124461F000051WKDAATNELKDIREASGAMLPEDRVARTMDLQEDIAAKLEILKTCAATEQDLLPQGEKVPADAQVFKDELSRIIKYVEELQANTKIECDKYSNDVKFWAEYRTGIKEFSPWLASAEKAATEGLSKPSSLDEVKALNDKVNSFDKTCVNYMKVLSAAEGASLKMTTHTEADTEVAALKERYNKVKGVSDAWVKKCEVLVKEWVLLDNTVTELNSWVAKDKSEEGENQFSLEKMESTLGELKNIFKQKEKLVENL*
Ga0138393_1012625Ga0138393_10126251F001271DELIERQEKSLTQLDSKRGIVVDLIAKGKVILEHPDKPKFLEGNVKRIEEGWDDTKKKAQERLKLLNETKEAFIGYAENNETIATEFEIAEEEIKKIKKHFNLEAANADLKKRQDLYKKSEDTVNGLWSSINGNYNCMAITIPEDKKKILTKEMKAVEEKLEVLGRFKGTVTKIEELVASLTSFDNSLKAIDGWMQAATAELNDIKTASGSMLP
Ga0138393_1015249Ga0138393_10152491F000021LNLLKMDTYKMDMSKDTLFRGEFPVVQKLVEKLADGAAAKNVCDKVVDKNGTPKTGGTGIKQLRENIAESKLSYEIMDDAAQAFLKMKIMDNIHKYYYLIVFTAYMREAADAARNLVPDDKKAELTLTGGKCAIPANQLKLSRKFAAFMEENKKLIDLCETGKGNLQWERDIPPAALKNLEDLAKGDFKANLGKIIHDIYQTAHVMFSDMPQGDHKKRAKYRFASKTLMRILPADKKTEVEGLIEKKTITL
Ga0138393_1015966Ga0138393_10159661F002224NVLQVLADDDTKVQLNQEVEDLKTACEVSKAIDEKLVWLDNFNKSIIDYDKICKELEEIVVKDRKDLDALIKPEGAFKATDRLVSAMDLADDIRGQIEIANNKQQLWDQGLSPEGKENTPEAKEFVRRMTEVSTKLASLEKESDGEAAKYGQDIVLVAAFNNAQKGFAAWIDGAEAKCKTGYGSPNSLEEATKMLDDCKAWREGTASVCASLETGKANADKMTLHEEQDKLYTEMKARWVEVDKSCKEWSVKLDELSGMWTKQTEMLNKVTSTMVAGEGEGKGEQVNLNELDAQMEQIKDMFVKKQEMMKKMSSTTAPNPAELTA*
Ga0138393_1017693Ga0138393_10176931F012749MKTAYLVCCLLASSLALPAPQAQEINTLAQQKTDGDQQGLNGVTEILKFGASLVEGFIALMGQKVTFLSKLLSDQEFQESIGGTVDAAVNLTGTVARVAIPVAQGVLESVPTLVSQGSRFAGSVVRAANDTSPLFLEGIAEFTEQLPLIADFASAYAEVNAEQSQIVAET
Ga0138393_1018853Ga0138393_10188531F033689QKGDYQGKIFIDRVNKNFFLNKFKITGKVIKMGAEVFDLIIDTVSTPYHIDVFYPRYFQKMFNIPMERLTLDVHHAFTGAERVLKFITNYEDIAVEFERNPTHISAKVLKKDVTYMEFTQEHKLNFNAKKFFLTMKPTLHLHADSYLHKELCEFSSYTCFQDLVGDVNVGVVAKGKKQINTKITVNKDTEEIYYLEVSNKGFPYKFIFKSPYVVPFFKYMRGSTWLTWMMPVKKSPFEVAVEVHPGQKSLMVNTNIDTEENMIRVVPLDGDKFSIEWNNEVLVEFVAAARKVELMRPLKDGKILKTTFTWTSKDFYENTITATAMYKDIPQVATIGWNVKDLDHMTFNIDVVGKKAPMIGDFEFHRNFKWNDLNADAFELVWDGTAASNMMRSTSIKTDAKIAYNNGDLNVKMEKKFNSKTYALIFNTRPFKFAVLPFFEI*
Ga0138393_1020511Ga0138393_10205111F000287MVAGGAWRRPRMKVYDYNQEFGGNYYQPMIQYINKKEVYGPFMSRQDVYLPHAAEVTSDKYTNMRYQDKSSAKHNLDEFLKGAYAKQMKELNGTTAMARVNMMKTIVSDRRQPHSPLDNVNTPYNPIRLLKGAPPGQEAVNHYISELSIEKKNNTKLSDKERKHLVMLEACDDEYQYHYKLFGQGAGADRDMKFYAPQLVKDYINQIRKF*
Ga0138393_1021668Ga0138393_10216681F024711SFYCLIHFYKRERMFLSVLILLLPCLTVVTGGAGVLEGANIDPDCKADQCGTLYLLKDTDEEVGLYKGTHEKVKGAKEVKKARVVGSGCFKIFKSKGFKSSAFLVKGSGIHDLAENGHTWTTVKSIQYSPDCEFPRRAGVEIYVIVGVVAVVLLVAVAAFAWARFRRSRNNGSQVPTQETP*
Ga0138393_1021717Ga0138393_10217171F000052GLDSRNQRQGGDDTDVSFPAVAAARPGNDGKRCIDKVEMIEETEYDEVVQCDHSYDRRCHTTYVTQYESQQEEDCDENFRKSCFIEYEQIAFNETAEVCRTPLVKDCDVQGPEICRTEYESECWTKQEVHDVQDDVVECETQIEEKCNDNTSGYTTTTDCSKWPKEVCRVSKKNVKKYTPITGCTKEPRELCAPAGCGFKEGREECYEKTQTVVQDAPKEQCTLEPQRTCKHVTKLVPKLEPTEEC
Ga0138393_1022599Ga0138393_10225991F000068SVSKKPVKKYTPITGCTKEPRELCAPAGCGFKEGAEECFDKVQTVVQDAPKEQCSLEPQRTCKHVTKLVPKLEPTEECVDVPKEVCTRSRTNPRKVKKPVVKKWCYVPTEESGLA*
Ga0138393_1022766Ga0138393_10227661F003780MTYWNPYMVPHVYNQQPIVYAQHGVFGFPSHYAAGIPVATTRDIWPLSLSNVKDSKASFATSTSTCGGTTAGTAGTSACTIEGDVIFSQNGLKDVLCGNNAGLTISIRGSGLTAGNKYKLFLESASGCTLATATRTEIVEITAPVLGLNGGINVYMCVDGYNVDGSNSKTAVDGMYVAIQ
Ga0138393_1022818Ga0138393_10228181F004498GFKEGSEECFEKVQTVVQDAPKEQCTLEPQRTCKHVTKLVPKLEPTEECVDVPKEVCTRSRTNPRKVKKPVVKKWCYVPTEESGLA*
Ga0138393_1022865Ga0138393_10228651F082867MPKKKKSSRSRRVHHINDINHNDTNITVQYRVVKPLTFTSNTLVLSVNPALTDLSNTLATIYRQYRVTELSFTFQASSDAGAYALAMQYVPQIGGTPSTLPTLLSEFEGPAVGYYETGRGREYTFRVPSDVLNAMGLNYYSTRTAVTPIQDPDILTQGLMVFLTSSPNIPVVAYMHVRYEFQTLEDPSFLASLFEDKKQDNDMLVVPRPSNTHQSNPIVDIKGATWDENARGVIRGQSLGSNRL*
Ga0138393_1024368Ga0138393_10243681F004135RHLLVFSLLLAVVHLKRPFCPGDGKPGKPPKCQSRDNQYKCGVFLEALITEHPITWLGALPDALKKVTPAEYKEILGEDISPESFDNHNCDIKAANSRCYATLAKFKGDPLDSCEKNLVNTKSTQTVGDFLCGQVKRWLRNDQDFKTNGRDNIKIPIYYSSCGKEWTQVSEGGQGLYVDEPLCCRPDGTFRRCDGSAYKSTC*
Ga0138393_1027041Ga0138393_10270411F000021EGIASKRECDKVIDKNGPAPKGTGIKQLRENIAESKLSYEIMDDAAQAFLKTKIMDNIQKYFYLICFTAYLRDMSKVAKDGVSEEEKKAFSLSGGKVSTPTENLKVTMPFTAWMDSHANLRQICEEGKGKLQWERDIPQEALDNLVALANNDFHKNLGKIIHDIYLTGHNLFKDMPQGDHKKRAKYRFASKTLMRILPDNLKNEVEGLISQKNITLDLYEILGQCTWGQAKSL*
Ga0138393_1033358Ga0138393_10333581F000306VVHQGYEQPKHNCSVLDVVEIADVCTPALDTVCTPIELSRKSIKDVEQCYTVTRTVCTESTEEIDNEVCTYSYQPKTEATTAKTVEVSFKKECENMMVTVCQPNAGYGYHAYGHNYCKEVAQETCYNVPVLTVVEPAVDVIYPEPIKTCVNKPISLPRISCEDLSEEKCITVPEIEVVSETFEKCVTGLTDPACQAVELTLPKQVCKEINYGYAEDTPAEAEPAYEAPAPAYAPAPAA*
Ga0138393_1035179Ga0138393_10351791F000073IEADKKASVALPASGKCSIPATELKVGRTFSEFMEENSSLRTLIDTGKGNLQWERDIPPAALANLEGLAAKDFQGNLGKIIHDIYQTAHVMFGDMPQGDHKKRAKYRFASKTIMRILPPAKKTEVEGLIAANSMTMDLYEILGKCTWTVPK*
Ga0138393_1035927Ga0138393_10359271F085098VAMQSFTIAIAILCSVSFSSGRVVRRSVESKPYKNAKELLSMKGAGEAIKTSFESAGSNLEALADELDKEVTSIADLAAYINGTETEKMSEALAEAKNIQSLMNDQRTELSGLAKQTISKSERIIKKFREMAAGSRKVDRGMRSVLRDMRSLLRFSEGKLKTAKETILTLREKINKVFATLRVFEGMIKAAKEKDARLRRGLKAKTAEEILNGITTDIMTGVDGYRKAKRGDETMSVVTSILGGVTRLTTSIIKAVNRPDVGPKLNSALKATGKAIEIVKQQKDSMEKEVELIIVWKDAVETVKQDVFAGDLKDKREEDAQDLYEEIEGLIEDGDVEELYEAFNGLKDAAQSYLSHIERVCSICTE*
Ga0138393_1036221Ga0138393_10362211F005500AERKGKSSSGKMRSLVALTLLVAVASGDMSMMKKIHHDMMTMSSQAMCWGKGNTMYYKLAMMKAMEECEGGHSSSTKPANPFAQLNKNPFQTLPSPVNNPFKTNTSPFARLNKPSVNANALKDLLFNNFRNKRQADGLIEVTEEDFAEFLEDFDEFKDHVASKMSALTCVLAKMNMLDSNLQVNLKAYTEDVWNDIDLSQTLAGEDPVWRKMMVDGYNDCYDIARSFPQSALNKNPIMKVFGRHMVFFKCSKKVEAHNCGMAQANHMIETLYGSNDGGYDWSQHGLPNNKYERAAMYMKVQYGTATPEEKFVHNFFYMDPAM*
Ga0138393_1037544Ga0138393_10375441F104174QTQTSTMADATFAKGNAYAFAMNNVVLIKTPHHKNLNCKPQDSDNLGHQGGQGQWARWHVEKDGGNFKFKNVKTGKYLRIGPQGGVNAGGTGGKWTVFKAHKQGGGKAKLESVEHAGKYISIKPNGSIEKGVGGAHCLLEFTRKD*
Ga0138393_1038378Ga0138393_10383781F050126MQLKVRKSVELFECLAVGNSGKDVSHSAGSLGEGVGEVLLGEGAVATVFSDEGSESGGDLTVELAEVFLVEDEGLVGFFVFGAWESGVDLCGLFEDLLDPLAGSLDVLVGGGGVVVGKIEEGSGVTSELVKSLCGVLDLSGGGDNDEGGGELHFYYF
Ga0138393_1038872Ga0138393_10388721F007314KILTKEIKAVEAKLEVCGRFKETVTKIEELVDSLTKFDKNLKTIDSWMQSATAELNDIKEASGNMLPEDRVARTMDLQEDIAAKIEILKADAATELELLPQGDKVPADAQAFKDELARITKYVMDLAEKTRIECDKYSNDVKFWAEYRTGIKEFTPWLVGAEKATGEGLSKPADLAEVQALNEKVLAFDKNCVNYLKVLTAAEAASKLMTTHTEADGEVAALKARFDKVKGVS
Ga0138393_1041164Ga0138393_10411641F088175SVQYIQSKEQFIDWKRSMGGLKRRNGSKPSGPREVLDTFKAHTMTEEDMKDEKDSRTRVTQKTVQERTWYTPEAWEHGGLRIKNELKEEMDEGMEGSSAKRVKKE*
Ga0138393_1042764Ga0138393_10427641F000048EVKALNDKVLAFDKNCVNYLKVLTAAQGAAQKMTTHTEADAEVAALKARFDAVKAISDTWVKKCDVLVKEWVLLDNTVTELNSWVAKDKSAEGENQFSLEKMESTLGELKNIFKQKEKLVEGL*
Ga0138393_1044144Ga0138393_10441441F000051ELARITKYVTDLAANTKVECDKYSNDVKFWAEYRTGIKEFTPWLVGAEGAATEGLSKPSSLDEVKALHEKVHNFDKTAVNYLKVLTAANEAAQKMTTHADADAEVAGLRERHVKVKAVSDEWVKKVDVLLKEWVLLDNTVTELNSWVAKDKSSEGENQFSLEKMESTLGELKNIFKEKEKLVDGL*
Ga0138393_1049133Ga0138393_10491331F042859RNMTDIANLLTPIYDLLQDEVVREKVEESARVFFSNSNLTINLIPALIIGALGLLFLLPLLGIPILDILGGMMSDVVGGHGGGYSAPSTGYGYVARGDTSYYDQTIADLQQQVAALQESEANLRNSLYYNNPVGDGAQATNNVGYSS*
Ga0138393_1054887Ga0138393_10548871F002043ATMLLNSLIPAVCLLLVSNSHSLGLQGLKEQKAREGKKQVGLPCKTIVTEECSEKEVPRLEEVCDWYSEQCETEYVNECAANKTNNKREKRGVLQAVLLTSAIASQNQGTTTEASAKVRCYHSPTTTCRHNHDGTIDGECRTTYTRHCYRARRSAEDECAQVPAKHCSLTPGAEEGVDAVKVCRQVKLAKVEKVCAKVESLVC*
Ga0138393_1062090Ga0138393_10620901F094867DNKDLTQEKMAGIGEIFGSFSGWLKLLELIFSFITLIIHRHGDFGNYLFFATTALKLSNTDSNIDMENLGNSTLVTFTVISCVLIIGYVIDGREYVQGSILEPVWNLVGTFMFMATGVCAIMTWSKEERIKTSGATSLSETEYNRNVDGGLAMGAMCIIIALIYAVDTLWSFIVRKRILRDEKA*
Ga0138393_1062149Ga0138393_10621491F016973NGVSPDNTCGMTLSGASLVNSTCTISGNDLAYVFAGNGAFITGPNTVTGYDGISGDAEFVVFFDQNQNDDLSMDNSTCWDASVSCVDNGAATAGVFFMETVNDHRGAKGGNVNLQISGVQNGDVLSLDLAGFACQNISAPFGTVTATEDAWGNQYSDDGVFTVTVGDDEFGDLFQISITQQPGQTSALNLWASSVTN*
Ga0138393_1064012Ga0138393_10640121F023281SGFQYAKYLEVLSLPDDMRELLDEYLDANSRAEQQKACEDFFHCPYSIKDSVKRNLSSNSL*
Ga0138393_1066284Ga0138393_10662841F007075MTFWQENYAFIKEVYDTRYSKMVEWMDNVEMAIAKVCASKVYTSAEFKREKDNFQSLCKNLERAETKRWLTETLETLMKERAADEQKAESVKLKAVMERHKSLIPKIQETLVKTECYWKCYSYGDDLIPIFEFIDDLRNRSVKELFSANSEQTEEHIEKQDKVLNQLENKRKMVMDFISKGEKLMEDPNCPKFLEGHVKKLKEAWDDTNEKA
Ga0138393_1067893Ga0138393_10678931F000879MKTLLVCSVLVAASSAQYLSYPYALGAPLTYTPHVIKPVVKEIEVPVKHITYGVKETGCTNVFGFAVPCLAEGEARRKRSADEEAEVKAAPVLSYAGLPFAGYPYAGYPYAHYPYVAPTYAVAEPKVTEVEVPQIVYKPVEEKIELAPLCHNGAGFAVPC
Ga0138393_1068062Ga0138393_10680621F004094VSAQELGHTESTNPVVAEDLGHLLVGVEELLVLRVLKVVLLDVSPQLLDALSPGSLLLADNVSELSGELHGLGESGSLRHVEFLRVVSVGFE
Ga0138393_1069432Ga0138393_10694321F000544QLGTEAVRGMSSFRLLVSALSLQTVVGFRVVSQACVAEEVAARAMMQNKLAGVCEEMCKDVGSYPKCECPGYVDTTDSTPGLLTWEELLTHMSDLVAWGKETMKANTKMSVRQHKAHIIKAMQASKACMSEDQKERTAVQNKLHDVCVDMCKELGAYPEKCTCPGYTDTTDKTPGVMTWDELLTFMGDVKGYSAESLKSWKATAR*
Ga0138393_1071627Ga0138393_10716271F081411KTRDHTKMKLFAALAAAASAQVGAPVNPMAPAPMMGMGGMMSNPLMLSLLLKDDSSSSNNDLLTLMMLGGGMGGAMGGQMNPLMLSLLLGDDVPKSKAAYDKICGTTTACTDEIAKIYNPIDGTKNAGVSDADVKAAHDAIMKYDTSSSSSNMSDLLLLSMMSGGGMQGGMQGLLPLLLLKDDSSSSGLFGDDNSLLLMMMMSGQNGMAPIMG*
Ga0138393_1071905Ga0138393_10719052F013605LILLDSLLQETLWRTVLQPQEVTVVDSEEGLVTVVGEDVAEAADVVAGEEGEDVTRRRRTGSP*
Ga0138393_1073286Ga0138393_10732861F006690LLSLLIPSDYPLPYIITDATTTLLAILTMFALLRMECTQILAEAEEMWQQPAVPASEAGTNSTGLSSGTPSPQVQHRTVTLPPLRTIASPQYQQHPSMDERERREINSSTMGFEEAIDLEPIDFEHFLDEPDLERSHHLEKMFRVTYGEGPARGR*
Ga0138393_1074526Ga0138393_10745261F012012DYNDLDCQKRLICEVMKEPGFYGAVAQKFKTGFQYAKYLEILDLPDDMRELLDEYMDANSRADQQKNCEEFFTCPYSIKDSMKRNVADTNNL*
Ga0138393_1076387Ga0138393_10763872F010768MRATLEGDKLMKEVLNGGYNVHPVPPPNSEIKERITRRYERKRIKIEKLLTLGYTTSGEP
Ga0138393_1079120Ga0138393_10791201F090441KGEVWELATLSFPDLLALGALITRRVIVGRQFPDAVSYRKNDCDKFRSHSRT*
Ga0138393_1080754Ga0138393_10807541F025045CMERVACEVGGLAEDAGISKSLTRASEAFLPKKYNKMMKNFNHGKDCSKNNKCGLF*
Ga0138393_1083791Ga0138393_10837911F017830HIATHDNKKALLSIRKNGEEIASIFDQNHKDNHKNSMAGQNIIMDVKRGDEIVVYAYTGTWLADFPMNHYTHWVGLLLKPSQEEAEALRKEAMENY*
Ga0138393_1084368Ga0138393_10843681F002056DLLKMDRYKMDPSKDPLFRGEFEVVKELVATLPDGAAAKNECDKVIDKNGTPKTGGTGIKQLRENIAESKLSYEIMDDAAQAFLKMKIMDNIHKYFYLIVFTGYIRQAADLARESCTDEQKAALTLSGGRCAIPGDQLKLAKTFVTYCDENKFIRDLIDTGKGNLQWERDIPPAALSNLESLAKSDFKANLGKIIHDIYQTAHVMFSDM
Ga0138393_1085900Ga0138393_10859001F001271LLTETKEAFIGYAEDSETVALDFEKAEEEIKKVKKIFNLEAANIDLTKRKEILKSTEDTINGLFDTINKNYNTMAITIPEDKKKILQKEIKAVEEKLEVLMRFKDTVKVIADLVDNLTAFDNSLKTIDTWKDAATNELKDIREASGAMLPEDRVARTMDLQEDIAAKLEILKTC
Ga0138393_1086034Ga0138393_10860341F000049MAFWQENYQFIKEIYEMRHSKMAEWMENVEKAIARIMADKVYTSAEFKRERDNFQALCKDLERTEVKKWLNQILEILMAERAKSQQETENEKLNVLIKKHEELIPSVQKTSVMVDLYWKCYAYGDELKPHIEFLGGIMLSSTRDIAPSCVENVDELIERQEKSLVQLDSKRNVVNDLIEKGKKILEHPDKPKFLEGNVKRIQEGWDDTKKKAQDRLKLLQDTKEAWVGYAENNETIASEFEVAEEEIKKVKKRYNLEDALSDLKKRQELYNKSNNTISGLF
Ga0138393_1087645Ga0138393_10876451F089636MAQKPATFFVAVDDENKEDKEFAAQLQTVMAELDLKKKLLANPNIAAISTKKWKAQKTTVIIAHLDRKFYNNPEATEIWEQRPECLKLLSVKHEMMQKKPDSMVALYNVLDAKQEPLQIAGKDVIVCVSKGKAASESSIAALKTPTNIIQPTKKNEYQHNTETDLKAVVDADELLISKKLN*
Ga0138393_1087917Ga0138393_10879171F000049MSFWQENYAFIKDVYDMRHQKMAEWMDNVEKAISRIMADKVYTSAEFKRERDNFHALCKDLERVEVKKWLRQILEILMAERAKDQRAKETELLDSLIKKHEELIPTVSKTQIMVDLYWKCYAYGDELKPHIEFLDGIMLSSTREIAPSCVENVDELIERQEKSLVQLDTKRSVVTDLIDKGKL
Ga0138393_1088510Ga0138393_10885101F000051AVQEKLEVAGRFGSAVKQIEDFVNNLNAFDVALKSLNDWMVQATGELTAIRDAAGSMLPEDRVARTMDLQEDIASKLQVLKANTATEKDLLPQGDKPPQDAQDYKDELNRITKYITDLDAQTRKECDAYSEDVKYWAEYRTGIKEFSPWLAECEKSVTGGLSKPSDLAEVKALNDKVTTYDKTCLNYIKVLEAAEAASKKMTTHAEADAEVAALKERYKKVKTVSEEWVKKVDTLVKEWALLDNTVTELNAWVAKDKTSDGENQFSLEKMESTLGELKNIFKEKEKLVENL*
Ga0138393_1089776Ga0138393_10897761F023781QQLPWKILDRGRQGTKMLSKLVVALLLVSIQLALYVDQAEGMGICFGGGYPACCQGKNTCGPLCASCSRVSEFLRMMMMFGGIGPGTPDVFRTINPDPHKDAGQDAVPFPAAPFPVNGGNRRPRGRGRRPRSLKFPLEA*
Ga0138393_1089991Ga0138393_10899911F009052DDVVTCDHSYDKRCHTTYKTSFDSVQEEECEENFRKTCFITMVDTAMNVTTNVCKKPMVKDCDIEGEPICRTEYQSECWSKQIPHEVEDDVAECVTVQDRMCKEETSGYTTKEKCEDWPRQECTVVKKKVTKFTTMTGCNKEPTELCAPAGCGFREGAEECHDVVKTHIQEKPEEECTLEPVKTCKHITRLVPKLVEVQECVDVPKEICNRSKQNPRKVKKPIIKNWCYTPSE
Ga0138393_1089998Ga0138393_10899981F000051AAKMKIIVKEIENEKTLLPQGEKVPQDAQAHKDELTRIHKYVVELQNKVKKECDNFSEDVKYWAEYKTGIKEFLPWLTGVENDSTNGLAKPSSLQEAQALFDKVSSYQKQCLDNLKVLEAANAAAVKMTTHKDADAEVVSLRERYVKVKDIADAWVKKVDTLVKEWTLLDSTVTELNAWVAKDKTEEGDNQFSLEKMESTLGELKTIFKQKESLVDNL*
Ga0138393_1090061Ga0138393_10900611F014227LKMKLIVASLLLLALVSAQDSRSARERVKGQVRQWASIQAHCAEASNTKGSIQQDVALQCKKCQAGVGDWNTAEGFQRGKACLETYEPQTIAVCGDLFQQYEDSGYDVSYTTKMVECWENTYMRDIAGKCMEATGGEDMNLALLCVFKHLTDNHKHAESVLFGSSDDNPMKPSKMQLVVESIFNEGRCIHANEGNLNRIQECATCFNHVVMSEKKLLMKMKFQKKHGLEGLDAEEFFEKGRKIGSMWSVCSDVYLAPVYSDCNENVEELLEADMAEWMTEEWRNKQQEVEGCMLLKQSKYYYKDCSAAGGEGVDGFMNFYSCAQNLTMAWVTDKRPEAIDMMSAYMRGGMIMMDDDEP*
Ga0138393_1090851Ga0138393_10908511F000797MFYQVQRGATTKLADNPKELEIIKYQKANGLGVFACDEWKVFSDKKVDIGGISTAPVLISQDFTKYFRKDKPDRYLNTPLFMDMWKQIKDDNRYSIYAWTIKADASTVFLPAKLKARLAQTPTTAKGVYLETCNKVLQGYFGNLEVVSKAGMKRFLEQFESYYYNGGKCWRWDTEACKKQWKYGPWGEDLFMQKTMDDAEVLKKEDFTLTDTGTCPGMRPKADKKNMSYVPSCRD
Ga0138393_1092515Ga0138393_10925151F075631MKPCLSLVVMVSLANGSTVQYLGPLGYSTFGYTSVSPSLLPPRSALDVLPQSLSAYPGSSTFFNQFPGLRGFPALPYAPAFAYNPLIAASPALPPAPLALDQTPVVSDVVDVAEEEKDEEVPIVTVAQTIEAIPSPPRSPFRGELPNIPAGIGAQSTQPIFTHQLFKNPKFAAHGLFVLNSKDSPVLREIQAAAAGKATAVDLL*
Ga0138393_1093259Ga0138393_10932591F000049MAFWQENYQFIKEIYEMRHTKMAEWMENVEKAIARIMADKVYTSAEFKRERDNFQALCKDLERTEVKKWLNQILEILMAERAKSQQETENGKLEVLIQKHEELIPTVQKTSLMVDLYWKCYAYGDELKPHIEFLDGIMLSSTRDIAPSCVENVDELIERQEKSLTQLDSKRGIVVDLIAKGKVI
Ga0138393_1096088Ga0138393_10960881F001255LYTGHPLTYAVPYVTYHAPKCETEFEEVKGQSCVTKPVTECNDVEVPSHKIVTEDVCQNVTTAECTHSTYSAGVYYGKREAEADPQVLVGAVPAVVPYHTCENKVTEVCYPVQKVEPTTITEKSCLLKGEVECTEVVVATIPKVTCTHEEHTKPADDAAAVETE*
Ga0138393_1097145Ga0138393_10971451F055401ALAQQPPQQSPTWFIPSEEKGAQDESAFCAAELAKTSPSELYKTRTSEILLPESLPPAVCIEFPFAPDQLRYGAGSRGECHNQCCFFRPPSKNIPDPPPNPEWYEADAGCNDDGKAVSKPIILNGENGDKRTVCIKNEEGIFSTVDGATMACARGCCLFFAAEN*
Ga0138393_1097599Ga0138393_10975991F001503MYIREVGPKDYNQTFKAWMDEHANLRDMIAEGRSKLEWERKIPDDKLADLKVMLDSAEFKTNLPKVIKRIYELAWEQFSDLPRGHHKNNSMHKLASKTMIEILPDKLMKYIEAKCGSLASTPDFFDVIGQVSWYDEAA*
Ga0138393_1100307Ga0138393_11003071F000052ICRTPLVKDCDIEGEEICSTQYESECLTEQEVHEVTDDVPECRTVVEEKCEDDTSGYTTSTKCSSWPREECSLSKQATTKYTPLTKCTKVPVELCGPASCGFVEGVEQCYEKTQTVIGDKPEETCSLDPQRTCKHVTKLVPKLVEVENCFDVPKEVCVRSETNPRKVKKPVVKK
Ga0138393_1100671Ga0138393_11006711F000306VHAPVHHAYHAPKHNCSVVDVVESAEVCTPAFETVCETIEVPTKKIIDVEQCYPVTRTVCSESVEVIDNEICVYSYSQKVVPTTAKTVTVPFARECNTQMVTVCQPNPGYGYHQYGHNYCKEVAQETCYNVPVVTEDIQDVEVAFPEPIEECVQKPIDLIRISCEDLTEEKCITVPEVMDDIELEEKCITQLAAPACQTVELTLPKQVCKEINYGYAENVHEVEPVTYAPAPAYAAPEPVVPAYAAAAPAETM*
Ga0138393_1100725Ga0138393_11007251F056299TTRQECTTNYVKECSTIYKNVCVQKFRTEYEPYTESECTTEYKQDCQYEWRGHGNDKVWAPIEGTCQNVPYDECRDVEKTHAKQVAYQECNDVPEQKCVSVPKQTCVTVPDQICKTEPLTECQDVPRQQCHSEHKRFPVRISRQAPKKVCDEVHSTAPLAAAAVHQAPVHHQASPTVQDLLNYGVPAVPTQTVPQIIDARDKQKLQSAAKDDRIVF
Ga0138393_1102091Ga0138393_11020911F103410SCSRSLVVKKCRPKGLQSLIASLPGPSHKSPQTRRSAATCILAQPIPTQPRASPFDALISLSAQHVPGRTPEGTSRTVLTDQIGLPKVSRSPQRRTFLHHPEASLELASFRLPYHKTAQKLFSNTADHFCQHLRRHARVPDPDLANRQSDDPKIIFLPISLAFDRLAQGLHDPGHTTP
Ga0138393_1102385Ga0138393_11023851F000086WDETKNKASARLELLYNTKAAWEGYATGLETIVVEFEKGEEEIKKVKKRFNLDAAKDDLAKRKGIFNDTKNTIEGMFGEIQHNYDVMTMTLPEDKKDFVKKEVKAIQDKLEVVSRFKEKVDKIDEFVASLDNFDKTLKMVDSWMKEADNQLNDIKNNSDTMTPEDRVSCTMELQEDVTAKVDIVVAAIKTENDLLPQGDQVPKDAQDFKDELKRINDYVTDLQKRVMTECEHFSEDVKYWAEYKTGIRGFKPWLEASETRTGGGLSKPQTLDEANAMFANVNDFDQGCLKHLTILLNAETAANKMTTHKEADVEVAGLKE
Ga0138393_1102474Ga0138393_11024741F104415LLAATSSLLLLAVCRADKSAGHVNNNVQVPAASSTAGINPYYSEYDYSLYEPQAQTFNSLDRQASIEAVLGAPVVITAFAAALFGGLLSPLISEGLSRMSEYQIEWPSFSQRVERKKTKTRTKSGKAREFEDAVSSMSWMEVLDNVHNVISTVNSLSKRSVDTEQKGSENLSF*
Ga0138393_1102976Ga0138393_11029761F002148RYSPGSKMVVKSGGNWKRPVNRMYTYNFQIGENYYLPMTSYLETKTGAAADVPGPLCFSERISLHPLSGTSVSVYGDQSVETIKKTRQVISNM*
Ga0138393_1104070Ga0138393_11040701F001267LTSFTSDMLKLVLLLSVASLGSALNCQECVNEMHGLSFLIKQGAPEIMNYLTANYCPGLEGHQEQCENDLTKNYVQMLFMVVQHFFVDGAQHICEAWNFCPVPQDVVPQPHPYTCEECVEGLEVVGAYMTDPLWIAEYTLYLEQNFCVGHPDRCVQAVKTHFPPMHAMVVE
Ga0138393_1106198Ga0138393_11061981F012678MLNQHSLGEIAEIHNLLGDIKKEYEEGIKPILIKSSPKLFKNPHTVPKLKKIQINRGLG
Ga0138393_1108919Ga0138393_11089191F000021RATTGCVTACLYKEFQISASFEGLVETVPGMDLSLLKMDRYKMDPNKDALFRGEFEVIKELVAELGADGEASKRECDKVIDKNGPAKTGGTGIKQLRENIAESKLSYEIMDDAAQVFLKSKIMDNIHKYFYLIVFTAYMRQAAELAKDAGSDEEKQKNGLTGGKISTPACELKLLKTFVQFMEEHSKFRDMVDEGKGKLQWERDIPAAALANLESLATTDFKANLGKIIHDIYQTAHTMFADMPQGDHKKRAKYRFASKTLMRILPADLKGEVEALIEKQSITLDLYDILGQCTWGQGIKA*
Ga0138393_1109142Ga0138393_11091421F090441ELATLSFPDSLALGALITRRVIVGCQFPDAASHRKNDSDTFRSRNGT*
Ga0138393_1109926Ga0138393_11099261F014741SHVNRIEVGWDDTKEKAQARLQLLNNTKAAWVGYAEGLENIAVEFDKGEEEIKKVKKRFNLQAAFEDLEKRQKIFNDTKNTIEGMFGAIQNNYDVMTMTLPEDKKDFVKKEVKAVSEKLVVVEKFHEKVAKIENFVNKLNEFDGTLKSMDKWMKEADTQLHDIKNNSDKMTPEDRVSYTMELQEDVAAKVEVIKANVAAELELLPQGDKVPQDAEDYKIELKRIQDFVADLQKRVMKECDNFSEDVKYWAEYKTGIKEFKPWLENAEVRSKEGLGKPQTL
Ga0138393_1111642Ga0138393_11116421F010596MSATTAPVNTLNKSKEDFIWFVKKAVTDKKSYSYTELYHCLLKMFVDADTNNDGLVSKESFSKLVDAAGALPRAYGFAPQDSELYKNEKEKEDARKKMFDSMDKKATGVITFDEWLAYCLEHILAKTATLAPHPIIDHGTVDQYKTFMKAAITNVGGPENVELYWFMLELFTDHDTTKCGQVSLANFPPMMSELVKTAKKHGLVTPAEDQYETILKKYDPRGNGTLTI
Ga0138393_1113012Ga0138393_11130121F000481LYWKCYAYGDELKPHIEFLDGIMMSSTREIAPSCVENVDELIERQEKALHQLDSKRHIVKDLIEKGKNLLLDPEKPKFLDSHVQKIVDGWDDTKLKAQERLNLLIATKAAWEGYAEGSEGIMVEFEKAEEEMEKIKKKFDVDAAKEDLAKRKQIYDATKSQLEGVYNKIKSDYDTMAITL
Ga0138393_1114072Ga0138393_11140721F002147HTNTMLRYIAATILLASVTAGARVRRDDSYGAPEPDTYGAPAETYGAPDTSYSAPSYAADTGLDLTTIIIPLLALLGLFLLFPTYVTLTSVRRKREAIEDAGETNMVERMMDMYQAIIESEECLERVACDVGGLANDAGFDPTMAQLASVMVPNKYSKYMKQFASAKNCHKLKCGNLF*
Ga0138393_1114894Ga0138393_11148941F000481LIKKHEELIPNVQKTSVMVDLYWKCYAYGDELKPHVEFLDGIMLSSTRDIAPSCLENVDELIERQEKSLSQLDSKRNIVTDLIAKGKVILQNPDKPKFLEGHVKRIQDGWEDTKNKAQDRLQLLSETRTAFIGYAENSETIANEFDIAEEEIKKVKKIFNLDAANADLSKRQSILKNTDDTINGLFTSINNHYNCMAITIPEDKKKILQKEIKAVEEKL
Ga0138393_1118142Ga0138393_11181421F000051AIRAAAGSMLPEDRVARTMDLQEDIAAKMEVLKEDTNTELDLLPQGSDVPKDAQNFKDELARITKYITDLAEKVRKDCDAFSEDVKFWAEYRTGIKEFTPWLVGAEKATTEGLSKPSDLNEVKALHEKVHTFEKTCLKYLQVLTAASDAAQKMTTHDEADGEVAALRERYAKVKAVADEWTAKVDTLLKEWTLLDNTVTELNTWVAKDKSSEGENQFSLEKMESTLGELKNIFKLKE
Ga0138393_1120598Ga0138393_11205981F021471QKMKRLEAEAQEEVRQTLARQREAKMKAMRAAEPQKPKEITVVAGDGKSVKIQLGGDQNEDSRKQVAEAAGLKHVPLPDFDDSDSSAWAGSLKKTPRVKSVAGKGEAESGESPWAGSLRHVNDKPRRSQKHEEREDDKGSAPWMGTLRHVVHDNKVTRNYGVNQQQSKRYPDEDAGNPYESLGGCNAKPAFPLTPAAIINGSVMSREEMARREEEEEVARIRSNIGSKTVSTALLQVLMPKLLKMHEAKYDPMEKADAEAIMEEILGMQCGLNPDQQADANEEAEMIIRAIMQDEVDKSVYAKMADDLEHAAKKLKKRKVKKVKESP
Ga0138393_1124188Ga0138393_11241881F026014HGLGLPEAATYVAPPVRTVAEAPIVEQVVEPVEQWGYKVAY*
Ga0138393_1125217Ga0138393_11252171F001271TVVTDLIDKGKVILQHPEKPKFLEANVKRIEEGWDDTKKKAQERLQLLNETKDAFIGYAENNETIANEFEIAEEEIKKVKKMFNLDAANADLKKRQDILKKSTDTINGLFSSINANMATMSITIPEDKKKILTKEIKAVEGKLEVTGRFKSTVSKIEELVAALTAFDGSLKSIDAWKDAA
Ga0138393_1126217Ga0138393_11262171F005377MAISAEEWAQQQATWNEWIKALLEVNFTKVTVIVRPHNLADGQAHPYAWSPLAYSAADCVATQWEKTDADGNKTMINENQELLNDWRSAQYLSGDAKPIATFHFFQQAFKIIRRFDDSEEGQECAIVGQTKEAIVVAKKYKTVFVVMMAPLVKDKKEKGFTAARTAYPAACKAMFDAADEEEF*
Ga0138393_1127856Ga0138393_11278562F003348VKTTGQTKDELMKNKRGKVISKKAHAHGKRVYKRNGIAKWTKAFMQARKNLGVKGFQPCKKGSKLYKETMRLYK*
Ga0138393_1127924Ga0138393_11279241F002878ITMKLLLLVVAAAGVAQGAVTCDECQAAAQDFVSHLLTEESIAEQVQLMKDNVCPQLGMDGCEGILDMWYKDMATCIFNHFIIDGDACSLAGLCYVRDWTCDECSMLMSGLADFMVQEETITEGVSYLQGECFCGAEGHTETCPSLVEAVVPLAMPVLAAALTEKTVEHCQEIVGVC*
Ga0138393_1128421Ga0138393_11284211F000481ERAKDQKNSEFGKLDTLIKKHEELIPNVQKTAVMVDLYWKCYAYGDELKPHVEFLDGIMLSSTRDIAPSCLENVDELIERQEKSLSQLDAKRNVVTDLIAKGKVILQNPDKPKFLEANVKRIQDGWEDTKNKATDRLTLLTETKNAFIGYAENSETVAREFDGAEEEIKKVKKIFNLEAANADLKKRQDIYKKTNDGITGLFNSINNNYNTMCITIPEDKKK
Ga0138393_1131972Ga0138393_11319721F003844QPTDKYKMFRPLFFAPLALCLVLLQQVPTTSGTFAITAVSGTTTLLSLTAAQSTALAAVGLLGIKAKLLGAYLLSRRGKRSAEEEQDLPTLETFATLEVEDCYKRVICAASTGELKNHQVENVLALFTPVQHMQAPLSHKAMKFVEAARYGGSRRSVAKCEHRYTCSLGMDLLQDLF*
Ga0138393_1133815Ga0138393_11338151F033768MVLVRAREGQTQPQSRQDFEDIDVPAGEAVDIFYRYGFFSLSVRVVPRDDHGSWIVREPTTKVFTPNSLRQVKQPLANKFDSQFQIFFCDDVADLKKHYFHDFKAEGVKEPYRLYTGSWRTATTVKYFGLSEDTLNS
Ga0138393_1133981Ga0138393_11339812F057872MMEADTMDALKMDTMDTMDALKMNMENSLHSTMEEQRQEAWLTREQELASFLFARNNYLKEHHHEIKEHHMYEGEDASTKMMHLMHSDTMVVVVALIVMICVGLLFRSLCLRLTRDKTRKERIRGGLKALADHMNSVTRSMSNDPNPDSPRAVMRTYSSYGRSKPGEEEVQEINTHKGKYPTIRTMSRENLRVQAFSNILSKEGICQPSEQVHPSTQGHRQGGRDQVQRDHQVSIEMSNNPAGPRTR*
Ga0138393_1134174Ga0138393_11341741F090434TEKVINDDQIMIKLHDSLEIDPDSALFRRVVSKYRFLTQFQKRTGEYEFFVNKKERNVLLHKFHVKGEVKKDGQTAMKLLLSTDEKPYKFELFLPILLNRIYSDMNEYKVSVDHVPGDHLNIQTNGKKFKSFVIAKTGNNNERKIEINGKQLASGDYTLTDNSFKTKITLQNGDWLEPKVTWEGALPKSRSEAEKFFLKNNFKISATGSKRNFDIDLSWKATKPDWDFSTPESLKVDLNAKGESPRWGNWMLSRDASFKVENKVIQVDVSGKAHFKGGLLATSTPIVTEVHMKYLIPQRDLQGKFSKMINGKEYSINF
Ga0138393_1136292Ga0138393_11362921F051681MRAEATVHIEVKPHHLFRYPSEWDPRQNGKTKGGYLEGHIRLPDNLGHFRVLLSTYPNTPHSSPNLHLSKSETEIHPTLLHVVRKGQGNRRYNSKEPVPNINHWQQEFEVRGKKVFICNKTSDNDELRSIAIPDKDEMFELSEDMVLKIGKDAGELNMIILIPKTEKRASGNDVSLNKLLQSRVQNPSVLEALSESYRGKNSVNLKKVKLKLEVFDLDSGAILGRSISGAISDTASKAHGAMDLHDSTPLRSCAKGGRKVVMLAEFGLAKDVLPRFQLYNHEGKRVSGEEESLLRQPQLTDISIMKETIVFITPAQPHIDTIRSKGYTVKLLARRTSDGYISKKKFDFDYLPHDYYDPCFFCFENPDNNPESSRAKLVPMKEVARPGLRKRQMSVTENTEIQRKIKVKGDEHIKLLNMNRPPVIKTTTSITNTSQQILPTLTLIPVTQLQRANLNIDSLNKIEKTFIKTEPIDEQETKSSSPRIIPYHDIANNLIKTLPSSIVTTNNTSPSNLIFPIKKEL*
Ga0138393_1136612Ga0138393_11366121F000049MAFWQENYQFIKEVYDMRHHKMAEWMENVEKAISRIMADKVYTSAEFKRERDTFNSLCKDLERTEVKKWLAQILEILMAERAKDQKKKENDQLEALIKKHEELIPNVQKTAVMVDLYWKCYAYGDELKPHVEFLDGIMLSSTRDIAPSCVENVDELIERQEKSLAQLDSKRAVVTDLIAKGKVILQNPDKPKFLEANVKRIQDGWEDTKKKAQDRLQLLTETKEAFIGYAEDSETVALDFEKAEEEIKKVKKIFNLEA
Ga0138393_1137853Ga0138393_11378531F010519SICDWLNLMGVLSISIVDLLANLLGESKLNSLAGRGSKLGDALLRGNSGVFNLWDSDALLLSEVFTADSWERDWLVDTGLDWLRVGNLNSWLNRGDNRDIVASLLGNLLAVVVSIAVVSVSWGWLADGDHLGVTLLLEGNLNGLGSGGLSLLLVRVGADLVVDLLNALGTDGTGDWVALLFVNNDLDGKLNWVADSLKSWGADFSGLNNILN*
Ga0138393_1137853Ga0138393_11378532F085100VLRLLITVVGLVVNRGGLVVGWGSMVNSVVNSMVGNWGMVGNHGGSVNCVVNNWGVNCVVNSRGSMMDSVSTESCERNGWPTSHKGDKSNQSKDLHDVVVWKD
Ga0138393_1138091Ga0138393_11380911F029977LIIFTLSALLAFAVAEREFNLCAREEKVCPGGVKPKTPCADGSQPKCPSGRTDTCKPKWKRCADRSEPVRQCATGKPHCPWTTKNRNHPWGK*
Ga0138393_1138454Ga0138393_11384541F068737GAGRSMEGPVVTEADLTGGMCFMMFASGASEKLSCIQRTACEDPYLANDYLTAAKMVYKAHKLLGMDFEDKYATVMLSIEEAVEHGKSGELCSEKYLW*
Ga0138393_1141437Ga0138393_11414371F028703LEPKTGQPCTVAEQPKKSKTGKHGSAKITCKLKMGYSAKTAQLMAPGHQQLEGCVIEKLEYTYSYMEGDPEDKDTDIVTLACLDEANQEVELKLSKARAKIWEKVINVINEGEAAGDEICLVVQEGPKRNKNAAQGYDILQLIIDAKTVKID*
Ga0138393_1141788Ga0138393_11417881F042722VKNSFSGLLQIVPGLNLDLLKMDTYQMDMEKDPLFRGEFSVVKELLEKYPAMNTAKNQCDKLIDLNGPKSTGGTGIKQLRENIAESKLSYEIMDDAAQAFLKSKIQDNITKYYMLIVFTGYLNDIEPPKPNTAEEDIKLSKTFTDFMKDNNEISIMIQKGKGKLKWERDVPADIQDKLEKMAATDFYGNLGKIIHDILGAANKIYRDMADVGDHKKRAKYRFSSKTLMSL
Ga0138393_1141825Ga0138393_11418251F000798LKPHIEFLDGIMLSSTRDIAPSCVENVDELIERQEKSLTQLDSKRGIVVDLIAKGKVILEHPDKPKFLEGNVKRIQDGWEDTKNKAQERLKLLNDTKEAWVGYANNNETIASEFEVAEEEIKKVKKRYALDDALSDLKKRQELYNKSNKTITDLFNAINANFTCMSITLPEDKKKTVDKEIKAVEAKLEVVGRFKATVGAIEEFCTALVNFDNSLKAINEWMEKATAELKDIKEASGSMLPEDRVARTMDLQEDIASKIEVLKKNAETEKALLPQASVPADAQAHKDELARITK
Ga0138393_1143725Ga0138393_11437251F058168AVVQSEECMEKIACEVGALAGDVGLTRNPALKLAEGFMPSKYKTYYKQFVAGKDCHKIKCGTFA*
Ga0138393_1147873Ga0138393_11478731F015433FYCLIHFYKRMNFCFGAAVLGSLALVQADESWSGSGTFACYGDMTVTMDKINSKTDGPIDGEGSIDCTPAWGSAAAPPQGIIIDGEDGSHWVSVDDKGYGDCAGTFWFESGDLGLGYCDRIVTLDDGEQTRKFCGYASCNGYINFHCSMLSGCHG*
Ga0138393_1149314Ga0138393_11493141F004380MTQKQITNEITNSQLQLTLQVERGTFIVPSFDEIWPQAGKGRPGDARRKRMGMEYILEAMQHHGLGHLPQPDNFTTCGRLGIEINQYNNPVECYHDDTIEEMRDEKIILDHPELADKIKGNTQKHKEQINPMAAQKMKANNYDPRRSAVLMAINAQ*
Ga0138393_1150004Ga0138393_11500041F033300THYVNTPLFYEAWKLLKADGRWAAMSWTVKVDAPTVFMPDHLRTILATKKDDQTGVYFQNCKEVLEGFFGNLEVVSAEGFKRFLEQMDTSYTSGCWRQDTEVCKKGWKYGTWGEDLFMQRTMDDAEVSKISDFSLTSSGTCPGDRPKDKKKDTKFVPTCTAGDAKAAIHPFRDVKSWF
Ga0138393_1150858Ga0138393_11508581F039934AQKQEAGCVIEWKETTEIEFKDVITTVCTTEFKHACKEKTIQECKYDIIKEPLTETVDQCTTENVKSCKKTWACNDEGWVEGTSTCENEVYNDTDECTYLPQTVCNKKDVTIYVEKKERVCEDIKYKDCTEKAAVETCEEDHTRIPETYKQKVPFKKCSSD*
Ga0138393_1151243Ga0138393_11512432F003348VKTTGQTKNDLMKNKRGKVISKKAHAHGKRIYKKNGINKWTKAFMQARKNLGIKGFMPCKKGTKLYKETMRLYK*
Ga0138393_1152142Ga0138393_11521421F031753KSLNMLASWLLAVLALSSTCHGAALDRVRREAIAGKLDRSFDMFGVHVGLKYKDPSDRMKGGQLRVAIDDMKALFPRAQSKRIDVNLNFDGGASKTDGLFNLNLKYLLEHGDGDGDETGTLSLFRSKQGNVYVSQLKTQTTGSHKGRSIIPAAITNAQIDVKSDRKTMFNLKYVNPTKGRDVEIDFNRVPGKQANLKITKSGDALVDLTFTAEDLNLRQPDGNFKVTVSGTVTGERIEGSVEGKKSAQGYRVKTDLSKGGKKALQVDSKVKADPSQKSYSTKTVYSVMGGIIQGTIVLKYEGGVLTFSNVDKNTKDKIEFKFDLKIGKSLYIEGKKNGDTMWTYKTLRNTVDNADKFEVTLETDLTLNSKSILWTMMDKYYPYGAFNVRRNEIRIFVDKKNRNLLLPKFTVDVKLYKEGNQVVTLDIDTTVKPYKFLFVAPNVFKRWNVKYDKIEGTMDHVIGKSINIKTNIGGGIEIDGNRGDNSKGGRDINIVTKKGGKQMMKIAISTEKNVNDNEIRLTLRDSVEIDPDSLLYRKIVNNYRLLTPFTKRTGEFEIYVNKKERNVLLPKFSFKGEVKKDSETVMKALLTTNEKPYKMTLFLPVVLNRIYSDMDEYKVTVTHNPGQLLQVDTNGKKFKGFKIARTGSGNEREIVINGKKLGSGDYTLTDNSFSTKVTIADGNWIQPKITWRGKLPKTQAEAETFFLANRLDVEATGSKRSFNGDLTWKMDKPDFDFSTPWNAKLDLNLAGEGPNWGTYSITRHMTAAVADKIIKFAVTGDASFTKGVFARISPVETDVNLKYVMADRDLIGKFSKVMNGKEYSVDFPVGSGVIPKIVWGQ*
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Bioinformatics & Integrated Biology Lab
Institute for Fundamental Biomedical Research
Biomedical Sciences Research Center "Alexander Fleming"
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