GB0666.A10G002642.mRNA1

Transcript Overview
NameGB0666.A10G002642.mRNA1
Unique NameGB0666.A10G002642.mRNA1_HAU-GB660
TypemRNA
OrganismGossypium barbadense (Sea Island cotton)
Sequence length564
Alignments
The following features are aligned
Feature Name Type LocationAnalysisReference
A10chromosomeA10:110686426..110708206 +Gossypium barbadense (AD2) 'GB-0660' genome HAU_v1n/a
Orthologs

Syntenic blocks
Syntentic blockAssemblySpecies
a3zg6bL0124Gossypium barbadense (AD2) 'AZB339' genome HAU_v1Gossypium barbadense
a3zg6bL0632Gossypium barbadense (AD2) 'AZB339' genome HAU_v1Gossypium barbadense
a3zg6bL1150Gossypium barbadense (AD2) 'AZB339' genome HAU_v1Gossypium barbadense
a3zg6bL1152Gossypium barbadense (AD2) 'AZB339' genome HAU_v1Gossypium barbadense
a3zg6bL1457Gossypium barbadense (AD2) 'AZB339' genome HAU_v1Gossypium barbadense
a3zg6bL2118Gossypium barbadense (AD2) 'AZB339' genome HAU_v1Gossypium barbadense
a3zg6bL2613Gossypium barbadense (AD2) 'AZB339' genome HAU_v1Gossypium barbadense
a3zg6bL2975Gossypium barbadense (AD2) 'AZB339' genome HAU_v1Gossypium barbadense
awg6bL0154Gossypium arboreum (A2) 'SXY1' genome WHU-updated v1Gossypium arboreum
g6bhgsR0097Gossypium barbadense (AD2) '3-79' genome HGS_v1.1Gossypium barbadense
g6bhgsR0115Gossypium barbadense (AD2) '3-79' genome HGS_v1.1Gossypium barbadense
g6bhgsR0135Gossypium barbadense (AD2) '3-79' genome HGS_v1.1Gossypium barbadense
azbg6bL0129Gossypium barbadense (AD2) 'AZB375' genome HAU_v1Gossypium barbadense
g6bhgsR0163Gossypium barbadense (AD2) '3-79' genome HGS_v1.1Gossypium barbadense
g6bhgsR0188Gossypium barbadense (AD2) '3-79' genome HGS_v1.1Gossypium barbadense
g6bhgsR0203Gossypium barbadense (AD2) '3-79' genome HGS_v1.1Gossypium barbadense
g6bhnR0144Gossypium hirsutum (AD1) 'TM-1' genome NAU-NBI_v1.1Gossypium hirsutum
g6bhnR0165Gossypium hirsutum (AD1) 'TM-1' genome NAU-NBI_v1.1Gossypium hirsutum
awg6bL0678Gossypium arboreum (A2) 'SXY1' genome WHU-updated v1Gossypium arboreum
g6bhnR0196Gossypium hirsutum (AD1) 'TM-1' genome NAU-NBI_v1.1Gossypium hirsutum
g6bhnR0225Gossypium hirsutum (AD1) 'TM-1' genome NAU-NBI_v1.1Gossypium hirsutum
g6bhnR0239Gossypium hirsutum (AD1) 'TM-1' genome NAU-NBI_v1.1Gossypium hirsutum
g6bhnR0256Gossypium hirsutum (AD1) 'TM-1' genome NAU-NBI_v1.1Gossypium hirsutum
g6bhnR0271Gossypium hirsutum (AD1) 'TM-1' genome NAU-NBI_v1.1Gossypium hirsutum
azbg6bL0648Gossypium barbadense (AD2) 'AZB375' genome HAU_v1Gossypium barbadense
awg6bL1097Gossypium arboreum (A2) 'SXY1' genome WHU-updated v1Gossypium arboreum
awg6bL1098Gossypium arboreum (A2) 'SXY1' genome WHU-updated v1Gossypium arboreum
awg6bL1417Gossypium arboreum (A2) 'SXY1' genome WHU-updated v1Gossypium arboreum
azbg6bL1174Gossypium barbadense (AD2) 'AZB375' genome HAU_v1Gossypium barbadense
azbg6bL1175Gossypium barbadense (AD2) 'AZB375' genome HAU_v1Gossypium barbadense
azbg6bL1491Gossypium barbadense (AD2) 'AZB375' genome HAU_v1Gossypium barbadense
azbg6bL2175Gossypium barbadense (AD2) 'AZB375' genome HAU_v1Gossypium barbadense
azbg6bL2666Gossypium barbadense (AD2) 'AZB375' genome HAU_v1Gossypium barbadense
azbg6bL3030Gossypium barbadense (AD2) 'AZB375' genome HAU_v1Gossypium barbadense
g6buhR0096Gossypium hirsutum (AD1) 'TM-1' genome UTX_v2.1Gossypium hirsutum
g6buhR0112Gossypium hirsutum (AD1) 'TM-1' genome UTX_v2.1Gossypium hirsutum
g6buhR0135Gossypium hirsutum (AD1) 'TM-1' genome UTX_v2.1Gossypium hirsutum
g6buhR0156Gossypium hirsutum (AD1) 'TM-1' genome UTX_v2.1Gossypium hirsutum
g6buhR0180Gossypium hirsutum (AD1) 'TM-1' genome UTX_v2.1Gossypium hirsutum
g6bpimR0138Gossypium barbadense (AD2) 'Pima90' genome HEAU_v1Gossypium barbadense
g6byumR0131Gossypium barbadense (AD2) 'Yuma' genome HAU_v1Gossypium barbadense
bzg6bL0134Gossypium barbadense (AD2) 'H7124' genome ZJU_v1.1_a1Gossypium barbadense
g6bpimR0158Gossypium barbadense (AD2) 'Pima90' genome HEAU_v1Gossypium barbadense
g6byumR0136Gossypium barbadense (AD2) 'Yuma' genome HAU_v1Gossypium barbadense
g6bpimR0179Gossypium barbadense (AD2) 'Pima90' genome HEAU_v1Gossypium barbadense
g6byumR0153Gossypium barbadense (AD2) 'Yuma' genome HAU_v1Gossypium barbadense
g6bpimR0212Gossypium barbadense (AD2) 'Pima90' genome HEAU_v1Gossypium barbadense
g6byumR0174Gossypium barbadense (AD2) 'Yuma' genome HAU_v1Gossypium barbadense
g6byumR0206Gossypium barbadense (AD2) 'Yuma' genome HAU_v1Gossypium barbadense
g6bpimR0235Gossypium barbadense (AD2) 'Pima90' genome HEAU_v1Gossypium barbadense
g6bpimR0253Gossypium barbadense (AD2) 'Pima90' genome HEAU_v1Gossypium barbadense
g6byumR0222Gossypium barbadense (AD2) 'Yuma' genome HAU_v1Gossypium barbadense
g6byumR0231Gossypium barbadense (AD2) 'Yuma' genome HAU_v1Gossypium barbadense
g6byumR0246Gossypium barbadense (AD2) 'Yuma' genome HAU_v1Gossypium barbadense
bzg6bL0641Gossypium barbadense (AD2) 'H7124' genome ZJU_v1.1_a1Gossypium barbadense
bzg6bL1173Gossypium barbadense (AD2) 'H7124' genome ZJU_v1.1_a1Gossypium barbadense
bzg6bL1176Gossypium barbadense (AD2) 'H7124' genome ZJU_v1.1_a1Gossypium barbadense
bzg6bL1489Gossypium barbadense (AD2) 'H7124' genome ZJU_v1.1_a1Gossypium barbadense
bzg6bL2161Gossypium barbadense (AD2) 'H7124' genome ZJU_v1.1_a1Gossypium barbadense
bzg6bL3020Gossypium barbadense (AD2) 'H7124' genome ZJU_v1.1_a1Gossypium barbadense
g6bg6bR0160Gossypium barbadense (AD2) 'GB-0660' genome HAU_v1Gossypium barbadense
g6bgauR0085Gossypium australe (G2) genome CRI_v1.1Gossypium australe
g6bg6bR0179Gossypium barbadense (AD2) 'GB-0660' genome HAU_v1Gossypium barbadense
g6bg6bR0185Gossypium barbadense (AD2) 'GB-0660' genome HAU_v1Gossypium barbadense
g6bg6bR0207Gossypium barbadense (AD2) 'GB-0660' genome HAU_v1Gossypium barbadense
g6bgauR0131Gossypium australe (G2) genome CRI_v1.1Gossypium australe
g6bgauR0143Gossypium australe (G2) genome CRI_v1.1Gossypium australe
g6bg6bR0241Gossypium barbadense (AD2) 'GB-0660' genome HAU_v1Gossypium barbadense
g6bg6bR0259Gossypium barbadense (AD2) 'GB-0660' genome HAU_v1Gossypium barbadense
g6bg6bR0268Gossypium barbadense (AD2) 'GB-0660' genome HAU_v1Gossypium barbadense
g6bg6bR0287Gossypium barbadense (AD2) 'GB-0660' genome HAU_v1Gossypium barbadense
g6bgbR0087Gossypium barbadense (AD2) '3-79' genome HAU_v2_a1Gossypium barbadense
g6bgbR0101Gossypium barbadense (AD2) '3-79' genome HAU_v2_a1Gossypium barbadense
g6bgbR0119Gossypium barbadense (AD2) '3-79' genome HAU_v2_a1Gossypium barbadense
g6bgbR0135Gossypium barbadense (AD2) '3-79' genome HAU_v2_a1Gossypium barbadense
g6bgdR0110Gossypium darwinii (AD5) genome HGS_v1.1Gossypium darwinii
g6bgbR0167Gossypium barbadense (AD2) '3-79' genome HAU_v2_a1Gossypium barbadense
g6bgdR0116Gossypium darwinii (AD5) genome HGS_v1.1Gossypium darwinii
g6bgdR0131Gossypium darwinii (AD5) genome HGS_v1.1Gossypium darwinii
g6bgdR0154Gossypium darwinii (AD5) genome HGS_v1.1Gossypium darwinii
g6bgdR0181Gossypium darwinii (AD5) genome HGS_v1.1Gossypium darwinii
g6bg7iR0143Gossypium barbadense (AD2) 'Giza7' genome HAU_v1Gossypium barbadense
g6bgdR0208Gossypium darwinii (AD5) genome HGS_v1.1Gossypium darwinii
g6bg7iR0147Gossypium barbadense (AD2) 'Giza7' genome HAU_v1Gossypium barbadense
g6bgbmR0133Gossypium barbadense (AD2) 'Gb_M210936' genome HAU_v1Gossypium barbadense
g6bg7iR0164Gossypium barbadense (AD2) 'Giza7' genome HAU_v1Gossypium barbadense
g6bg7iR0186Gossypium barbadense (AD2) 'Giza7' genome HAU_v1Gossypium barbadense
g6bgbmR0137Gossypium barbadense (AD2) 'Gb_M210936' genome HAU_v1Gossypium barbadense
g6bg7iR0216Gossypium barbadense (AD2) 'Giza7' genome HAU_v1Gossypium barbadense
g6bgbmR0156Gossypium barbadense (AD2) 'Gb_M210936' genome HAU_v1Gossypium barbadense
g6bgbmR0175Gossypium barbadense (AD2) 'Gb_M210936' genome HAU_v1Gossypium barbadense
g6bg7iR0242Gossypium barbadense (AD2) 'Giza7' genome HAU_v1Gossypium barbadense
g6bgbmR0208Gossypium barbadense (AD2) 'Gb_M210936' genome HAU_v1Gossypium barbadense
g6bg7iR0259Gossypium barbadense (AD2) 'Giza7' genome HAU_v1Gossypium barbadense
g6bgbmR0231Gossypium barbadense (AD2) 'Gb_M210936' genome HAU_v1Gossypium barbadense
g6bgbmR0246Gossypium barbadense (AD2) 'Gb_M210936' genome HAU_v1Gossypium barbadense
fng6bL0139Gossypium longicalyx (F1) genome NSF_v1Gossypium longicalyx
g6bgkR0097Gossypioides kirkii genome ISU_v3Gossypioides kirkii
g6bgkR0103Gossypioides kirkii genome ISU_v3Gossypioides kirkii
g6bgkR0124Gossypioides kirkii genome ISU_v3Gossypioides kirkii
g6bgkR0133Gossypioides kirkii genome ISU_v3Gossypioides kirkii
g6bgkR0142Gossypioides kirkii genome ISU_v3Gossypioides kirkii
g6bgkR0173Gossypioides kirkii genome ISU_v3Gossypioides kirkii
g6bgbiR0151Gossypium bickii (G1) genome JZU_v1Gossypium bickii
g6bgbiR0208Gossypium bickii (G1) genome JZU_v1Gossypium bickii
g6bgbiR0209Gossypium bickii (G1) genome JZU_v1Gossypium bickii
g6bgbiR0217Gossypium bickii (G1) genome JZU_v1Gossypium bickii
fng6bL0662Gossypium longicalyx (F1) genome NSF_v1Gossypium longicalyx
fng6bL1077Gossypium longicalyx (F1) genome NSF_v1Gossypium longicalyx
fng6bL1379Gossypium longicalyx (F1) genome NSF_v1Gossypium longicalyx
g6bgtiR0141Gossypium thurberi (D1-5) genome CRI_v1Gossypium thurberi
g6bgtiR0152Gossypium thurberi (D1-5) genome CRI_v1Gossypium thurberi
g6bgosR0126Gossypium stocksii (E1) genome NSF_v1Gossypium stocksii
g6bgrbR0118Gossypium raimondii (D5) 'D5-4' genome NSF_v1Gossypium raimondii
g6bgtiR0167Gossypium thurberi (D1-5) genome CRI_v1Gossypium thurberi
g6bgtiR0170Gossypium thurberi (D1-5) genome CRI_v1Gossypium thurberi
g6bgtiR0174Gossypium thurberi (D1-5) genome CRI_v1Gossypium thurberi
g6bgroR0127Gossypium rotundifolium (K2) 'Grot K201' genome HAU_v1Gossypium rotundifolium
g6bgrbR0133Gossypium raimondii (D5) 'D5-4' genome NSF_v1Gossypium raimondii
g6bgosR0145Gossypium stocksii (E1) genome NSF_v1Gossypium stocksii
g6bgrbR0151Gossypium raimondii (D5) 'D5-4' genome NSF_v1Gossypium raimondii
g6bgrbR0155Gossypium raimondii (D5) 'D5-4' genome NSF_v1Gossypium raimondii
g6bgosR0166Gossypium stocksii (E1) genome NSF_v1Gossypium stocksii
g6bgrhR0122Gossypium raimondii (D5) 'Grai D502' genome HAU_v1Gossypium raimondii
g6bgosR0188Gossypium stocksii (E1) genome NSF_v1Gossypium stocksii
g6bgrbR0179Gossypium raimondii (D5) 'D5-4' genome NSF_v1Gossypium raimondii
g6bgtbR0125Gossypium turneri (D10) genome NSF_v1_a2Gossypium turneri
g6bgroR0186Gossypium rotundifolium (K2) 'Grot K201' genome HAU_v1Gossypium rotundifolium
g6bgroR0191Gossypium rotundifolium (K2) 'Grot K201' genome HAU_v1Gossypium rotundifolium
g6bgrhR0141Gossypium raimondii (D5) 'Grai D502' genome HAU_v1Gossypium raimondii
g6bgroR0199Gossypium rotundifolium (K2) 'Grot K201' genome HAU_v1Gossypium rotundifolium
g6bgrhR0164Gossypium raimondii (D5) 'Grai D502' genome HAU_v1Gossypium raimondii
g6bgrhR0168Gossypium raimondii (D5) 'Grai D502' genome HAU_v1Gossypium raimondii
g6bgtbR0159Gossypium turneri (D10) genome NSF_v1_a2Gossypium turneri
g6bgtbR0163Gossypium turneri (D10) genome NSF_v1_a2Gossypium turneri
g6bgrhR0193Gossypium raimondii (D5) 'Grai D502' genome HAU_v1Gossypium raimondii
g6bgtbR0184Gossypium turneri (D10) genome NSF_v1_a2Gossypium turneri
g6bg7bR0137Gossypium barbadense (AD2) 'GB-0776' genome HAU_v1Gossypium barbadense
g6bg7bR0141Gossypium barbadense (AD2) 'GB-0776' genome HAU_v1Gossypium barbadense
g6bg7bR0158Gossypium barbadense (AD2) 'GB-0776' genome HAU_v1Gossypium barbadense
g6bg7bR0180Gossypium barbadense (AD2) 'GB-0776' genome HAU_v1Gossypium barbadense
g6bg7bR0211Gossypium barbadense (AD2) 'GB-0776' genome HAU_v1Gossypium barbadense
g6bg7bR0236Gossypium barbadense (AD2) 'GB-0776' genome HAU_v1Gossypium barbadense
g6bg7bR0251Gossypium barbadense (AD2) 'GB-0776' genome HAU_v1Gossypium barbadense
g6bj1hR0131Gossypium barbadense (AD2) 'Junhai-1' genome HAU_v1Gossypium barbadense
g6bj1hR0136Gossypium barbadense (AD2) 'Junhai-1' genome HAU_v1Gossypium barbadense
g6bj1hR0153Gossypium barbadense (AD2) 'Junhai-1' genome HAU_v1Gossypium barbadense
g6bj1hR0175Gossypium barbadense (AD2) 'Junhai-1' genome HAU_v1Gossypium barbadense
g6bj1hR0203Gossypium barbadense (AD2) 'Junhai-1' genome HAU_v1Gossypium barbadense
g6bj1hR0219Gossypium barbadense (AD2) 'Junhai-1' genome HAU_v1Gossypium barbadense
g6bj1hR0228Gossypium barbadense (AD2) 'Junhai-1' genome HAU_v1Gossypium barbadense
g6bj1hR0243Gossypium barbadense (AD2) 'Junhai-1' genome HAU_v1Gossypium barbadense

Orthologs
Gene/TranscriptAssemblySpecies
Gh_D06G1753Gossypium hirsutum (AD1) 'TM-1' genome NAU-NBI_v1.1Gossypium hirsutum

Gene/transcripts from the same species that appear to represent the same gene
Gene/TranscriptAssemblySpecies
JH1.A10G002674.mRNA1Gossypium barbadense (AD2) 'Junhai-1' genome HAU_v1Gossypium barbadense
Giza7.A10G002840.mRNA1Gossypium barbadense (AD2) 'Giza7' genome HAU_v1Gossypium barbadense
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameSpeciesType
GB0666.A10G002642GB0666.A10G002642_HAU-GB660Gossypium barbadensegene


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
GB0666.A10G002642.cds1GB0666.A10G002642.cds1_HAU-GB660Gossypium barbadenseCDS
GB0666.A10G002642.cds2GB0666.A10G002642.cds2_HAU-GB660Gossypium barbadenseCDS
GB0666.A10G002642.cds3GB0666.A10G002642.cds3_HAU-GB660Gossypium barbadenseCDS
GB0666.A10G002642.cds4GB0666.A10G002642.cds4_HAU-GB660Gossypium barbadenseCDS


The following exon feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
GB0666.A10G002642.exon1GB0666.A10G002642.exon1_HAU-GB660Gossypium barbadenseexon
GB0666.A10G002642.exon2GB0666.A10G002642.exon2_HAU-GB660Gossypium barbadenseexon
GB0666.A10G002642.exon3GB0666.A10G002642.exon3_HAU-GB660Gossypium barbadenseexon
GB0666.A10G002642.exon4GB0666.A10G002642.exon4_HAU-GB660Gossypium barbadenseexon


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesType
GB0666.A10G002642.mRNA1_HAU-GB660GB0666.A10G002642.mRNA1_HAU-GB660Gossypium barbadensepolypeptide
GB0666.A10G002642.mRNA1_HAU-GB660GB0666.A10G002642.mRNA1_HAU-GB660-proteinGossypium barbadensepolypeptide


Homology
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy TrEMBL
Match: A0A2P5X0G8_GOSBA (Uncharacterized protein OS=Gossypium barbadense OX=3634 GN=GOBAR_AA23817 PE=4 SV=1)

HSP 1 Score: 218.779 bits (556), Expect = 1.383e-69
Identity = 103/112 (91.96%), Postives = 105/112 (93.75%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVE 112
            MGNALRFLYGKCCK STSGDSD V  PYTTTAPGVSALA+DHFNFETTSQEMIIFVPEDLSEHVVSSR AQVKWYGKLLQAWKE KP PKTP+EVARLIVETLSRHQKADVE
Sbjct:    1 MGNALRFLYGKCCKPSTSGDSDSVGPPYTTTAPGVSALAYDHFNFETTSQEMIIFVPEDLSEHVVSSRKAQVKWYGKLLQAWKEVKPPPKTPKEVARLIVETLSRHQKADVE 112
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy TrEMBL
Match: A0A5D2NX17_GOSTO (Uncharacterized protein OS=Gossypium tomentosum OX=34277 GN=ES332_A10G292200v1 PE=4 SV=1)

HSP 1 Score: 197.978 bits (502), Expect = 2.297e-62
Identity = 97/104 (93.27%), Postives = 97/104 (93.27%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLS 104
            MGNALRFLYGKCCKASTSGDSDLVRTP TTTAPGVSALAHDHFNFETTSQ     VPEDLSEHVVSSR AQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLS
Sbjct:    1 MGNALRFLYGKCCKASTSGDSDLVRTPCTTTAPGVSALAHDHFNFETTSQ-----VPEDLSEHVVSSRKAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLS 99
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy TrEMBL
Match: A0A0D2VK91_GOSRA (Uncharacterized protein OS=Gossypium raimondii OX=29730 GN=B456_N022700 PE=4 SV=1)

HSP 1 Score: 188.734 bits (478), Expect = 5.211e-58
Identity = 92/113 (81.42%), Postives = 96/113 (84.96%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            MGNA R LYG CCK ST+GDSD V  PYTTTAPGVSALAHD FNFE TSQ     VPEDLS+HVVSSR AQVKWYGKLLQAWKEAKP PKTPEEVARLIVETLS H++ADVEG
Sbjct:    1 MGNAFRLLYGICCKPSTTGDSDSVGPPYTTTAPGVSALAHDLFNFEITSQ-----VPEDLSQHVVSSRKAQVKWYGKLLQAWKEAKPPPKTPEEVARLIVETLSGHRRADVEG 108
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy TrEMBL
Match: A0A0D2VLX1_GOSRA (Uncharacterized protein OS=Gossypium raimondii OX=29730 GN=B456_N022700 PE=4 SV=1)

HSP 1 Score: 188.734 bits (478), Expect = 7.676e-58
Identity = 94/120 (78.33%), Postives = 100/120 (83.33%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEGPHRKYYD 120
            MGNA R LYG CCK ST+GDSD V  PYTTTAPGVSALAHD FNFE TSQ     VPEDLS+HVVSSR AQVKWYGKLLQAWKEAKP PKTPEEVARLIVETLS H++ADVEG   ++YD
Sbjct:    1 MGNAFRLLYGICCKPSTTGDSDSVGPPYTTTAPGVSALAHDLFNFEITSQ-----VPEDLSQHVVSSRKAQVKWYGKLLQAWKEAKPPPKTPEEVARLIVETLSGHRRADVEG-LLEFYD 114
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy TrEMBL
Match: A0A0B0NYE5_GOSAR (Uncharacterized protein 38 OS=Gossypium arboreum OX=29729 GN=F383_20765 PE=4 SV=1)

HSP 1 Score: 194.126 bits (492), Expect = 1.623e-57
Identity = 95/113 (84.07%), Postives = 98/113 (86.73%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            MGNALR LYGKCCK ST+GDSD V  PYTTTAPGVSALAHD  NFE TSQ     VPEDLS+HVVSSR +QVKWYGKLLQAWKEAKP PKTPEEVARLIVETLSRHQKADVEG
Sbjct:    1 MGNALRLLYGKCCKPSTTGDSDSVGPPYTTTAPGVSALAHDLLNFEITSQ-----VPEDLSQHVVSSRKSQVKWYGKLLQAWKEAKPPPKTPEEVARLIVETLSRHQKADVEG 108
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy TrEMBL
Match: A0A0D2WAP9_GOSRA (Uncharacterized protein (Fragment) OS=Gossypium raimondii OX=29730 GN=B456_N022700 PE=4 SV=1)

HSP 1 Score: 189.119 bits (479), Expect = 2.032e-57
Identity = 92/113 (81.42%), Postives = 96/113 (84.96%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            MGNA R LYG CCK ST+GDSD V  PYTTTAPGVSALAHD FNFE TSQ     VPEDLS+HVVSSR AQVKWYGKLLQAWKEAKP PKTPEEVARLIVETLS H++ADVEG
Sbjct:    1 MGNAFRLLYGICCKPSTTGDSDSVGPPYTTTAPGVSALAHDLFNFEITSQ-----VPEDLSQHVVSSRKAQVKWYGKLLQAWKEAKPPPKTPEEVARLIVETLSGHRRADVEG 108
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy TrEMBL
Match: A0A5D2JB02_GOSTO (TNase-like domain-containing protein OS=Gossypium tomentosum OX=34277 GN=ES332_D10G319100v1 PE=4 SV=1)

HSP 1 Score: 191.43 bits (485), Expect = 9.034e-57
Identity = 94/113 (83.19%), Postives = 97/113 (85.84%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            MGNA R LYGKCCK ST+GDSD V  PYTTTAPGVSALAHD FNFE TSQ     VPEDLS+HVVSSR AQVKWYGKLLQAWKEAKP PKTPEEVARLIVETLS H+KADVEG
Sbjct:    1 MGNAFRLLYGKCCKPSTTGDSDSVGPPYTTTAPGVSALAHDLFNFEITSQ-----VPEDLSQHVVSSRKAQVKWYGKLLQAWKEAKPPPKTPEEVARLIVETLSGHRKADVEG 108
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy TrEMBL
Match: A0A5D2TCW8_GOSMU (TNase-like domain-containing protein OS=Gossypium mustelinum OX=34275 GN=E1A91_D10G299000v1 PE=4 SV=1)

HSP 1 Score: 191.045 bits (484), Expect = 1.319e-56
Identity = 94/113 (83.19%), Postives = 96/113 (84.96%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            MGNA R LYGKCCK ST+GDSD V  PYTTTAPGVSALAHD FNFE TSQ     VPEDLS+HVVSSR A VKWYGKLLQAWKEAKP PKTPEEVARLIVETLS HQKADVEG
Sbjct:    1 MGNAFRLLYGKCCKPSTTGDSDSVGPPYTTTAPGVSALAHDLFNFEITSQ-----VPEDLSQHVVSSRKAHVKWYGKLLQAWKEAKPPPKTPEEVARLIVETLSGHQKADVEG 108
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy TrEMBL
Match: A0A1U8M0T2_GOSHI (Staphylococcal-like nuclease CAN2 OS=Gossypium hirsutum OX=3635 GN=LOC107931820 PE=4 SV=1)

HSP 1 Score: 191.045 bits (484), Expect = 1.319e-56
Identity = 94/113 (83.19%), Postives = 96/113 (84.96%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            MGNA R LYGKCCK ST+GDSD V  PYTTTAPGVSALAHD FNFE TSQ     VPEDLS+HVVSSR A VKWYGKLLQAWKEAKP PKTPEEVARLIVETLS HQKADVEG
Sbjct:    1 MGNAFRLLYGKCCKPSTTGDSDSVGPPYTTTAPGVSALAHDLFNFEITSQ-----VPEDLSQHVVSSRKAHVKWYGKLLQAWKEAKPPPKTPEEVARLIVETLSGHQKADVEG 108
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy TrEMBL
Match: A0A6A3CC46_HIBSY (Putative staphylococcal-like nuclease CAN1 OS=Hibiscus syriacus OX=106335 GN=F3Y22_tig00006230pilonHSYRG00007 PE=4 SV=1)

HSP 1 Score: 188.348 bits (477), Expect = 1.544e-55
Identity = 93/112 (83.04%), Postives = 96/112 (85.71%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVE 112
            MGNALRFLYGKCCK +T+GDSD V  PYTTTAPGVSALAH  FNFE TSQ     VPEDLS+HVVSSR AQVKWY KLLQAWKEAKP PKTPEEVA LIVETLSRHQKADVE
Sbjct:    1 MGNALRFLYGKCCKPTTTGDSDSVGPPYTTTAPGVSALAHYLFNFEITSQ-----VPEDLSQHVVSSRKAQVKWYAKLLQAWKEAKPPPKTPEEVAMLIVETLSRHQKADVE 107
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy Swiss-Prot
Match: CAN2_ARATH (Staphylococcal-like nuclease CAN2 OS=Arabidopsis thaliana OX=3702 GN=CAN2 PE=1 SV=1)

HSP 1 Score: 131.724 bits (330), Expect = 3.525e-36
Identity = 68/115 (59.13%), Postives = 81/115 (70.43%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAP--GVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            MGNAL FLYGKCCK +T+ DS     P+  +A   GVSALAHD FNFE TSQ     VPE L  +V SSR AQ  WY K+L+AWK+AKP P+T EE +RL+ + L R+QKADVEG
Sbjct:    1 MGNALTFLYGKCCKPTTTDDS---LGPHGVSAATVGVSALAHDLFNFEITSQ-----VPEGLGRYVQSSRKAQANWYRKILEAWKQAKPPPQTAEEASRLVTDILKRNQKADVEG 107
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy Swiss-Prot
Match: Y38K_CAPSE (Uncharacterized 38.1 kDa protein OS=Capnoides sempervirens OX=3464 PE=2 SV=1)

HSP 1 Score: 127.872 bits (320), Expect = 1.231e-34
Identity = 68/122 (55.74%), Postives = 83/122 (68.03%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPY----TTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEGPHRKY 118
            MGNALRFLYG CCK +     D  + P+    +T   GVSALAHD F+FE TSQ     +PE L+++VVSS+ AQ  WY KL QAW+EAKP P+T E+  RLI+ TL RHQKADV+G  R Y
Sbjct:    1 MGNALRFLYGHCCKPTVE---DHYQPPHGYGVSTATVGVSALAHDLFHFENTSQ-----IPEGLTKYVVSSKKAQTNWYKKLSQAWREAKPPPQTAEQATRLIILTLKRHQKADVKGLLRFY 114
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy Swiss-Prot
Match: CAN1_ARATH (Staphylococcal-like nuclease CAN1 OS=Arabidopsis thaliana OX=3702 GN=CAN1 PE=1 SV=1)

HSP 1 Score: 109.383 bits (272), Expect = 9.776e-28
Identity = 58/113 (51.33%), Postives = 72/113 (63.72%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            MGNA+R L  KC  +             + ++ GVSAL+ D  NFETTSQ     VPE L  +VVSS+ AQ  WY K+L+AWK+AKP PKTPEE +RL++  L  HQKADVEG
Sbjct:    1 MGNAIRLLR-KCLNSHG----------VSASSGGVSALSRDLLNFETTSQ-----VPEKLGSYVVSSQKAQANWYRKILEAWKQAKPRPKTPEEASRLVIAALKNHQKADVEG 97
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy Swiss-Prot
Match: CAN1_ORYSJ (Probable staphylococcal-like nuclease CAN1 OS=Oryza sativa subsp. japonica OX=39947 GN=Os01g0166100 PE=2 SV=1)

HSP 1 Score: 100.908 bits (250), Expect = 1.514e-24
Identity = 57/114 (50.00%), Postives = 70/114 (61.40%), Query Frame = 0 
Query:    1 MGNAL-RFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            MGN++ RFL G C  +           P+    P V+AL  D   FE TSQ     VP+ LS HVVSS+ AQ  WY KL+  WK+A+P+P+TPEE ARL+V TL  HQKADVEG
Sbjct:    1 MGNSIYRFLCGLCSPSPEY-------QPHGAH-PAVAALGRDIQQFEATSQ-----VPDGLSRHVVSSKKAQANWYKKLIVTWKKARPTPRTPEEAARLVVTTLKNHQKADVEG 101
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy Swiss-Prot
Match: CAN2_ORYSJ (Probable staphylococcal-like nuclease CAN2 OS=Oryza sativa subsp. japonica OX=39947 GN=Os11g0109500 PE=2 SV=1)

HSP 1 Score: 92.8189 bits (229), Expect = 2.492e-21
Identity = 48/85 (56.47%), Postives = 59/85 (69.41%), Query Frame = 0 
Query:   29 TTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            T +  GV+ALAHD  NFE+TS      VP+ LS+HVVSSR AQVKWY KLL+A+K   P PKTP   A+LI   L+  Q+AD+EG
Sbjct:   56 TPSTVGVAALAHDLLNFESTS-----MVPDGLSQHVVSSRKAQVKWYQKLLEAYKNTTPPPKTPANAAQLIARALNMIQRADLEG 135
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy Swiss-Prot
Match: CAN3_ORYSJ (Probable staphylococcal-like nuclease CAN3 OS=Oryza sativa subsp. japonica OX=39947 GN=Os12g0109200 PE=2 SV=2)

HSP 1 Score: 91.2781 bits (225), Expect = 1.048e-20
Identity = 47/84 (55.95%), Postives = 59/84 (70.24%), Query Frame = 0 
Query:   29 TTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVE 112
            T +  GV+ALAHD  NFE+TS      VP+ LS+HVVSSR AQVKWY KLL+A+K   P PKTP + A+LI   L+  Q+AD+E
Sbjct:   56 TPSTVGVAALAHDLLNFESTS-----MVPDGLSQHVVSSRKAQVKWYQKLLEAYKNTTPPPKTPADAAQLIARALNMIQRADLE 134
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy Swiss-Prot
Match: CAN4_ORYSJ (Probable staphylococcal-like nuclease CAN4 OS=Oryza sativa subsp. japonica OX=39947 GN=Os12g0255200 PE=2 SV=2)

HSP 1 Score: 59.6918 bits (143), Expect = 1.290e-9
Identity = 39/101 (38.61%), Postives = 54/101 (53.47%), Query Frame = 0 
Query:   17 TSGDSDLVRTPYTTTAP----GVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            T    + V TP T  +P    GV+AL  D  +F  T +     VPE L++HV S   AQV WY KLL A+K+ K  PK   + A L+  TL   ++ ++EG
Sbjct:  169 TKNKDNHVVTPQTKRSPRPPSGVAALERDLVDFTRTFE-----VPEGLAQHVTSPMQAQVTWYRKLLAAYKDIKYPPKESADAAVLVAATLRGIERTNLEG 264
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. Araport11
Match: AT2G40410.1 (| Symbols: AtCaN2, CAN2 | Ca2+-dependent nuclease, calcium dependent nuclease 2 | chr2:16873509-16874620 FORWARD LENGTH=225)

HSP 1 Score: 132.88 bits (333), Expect = 1.013e-38
Identity = 68/115 (59.13%), Postives = 81/115 (70.43%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAP--GVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            MGNAL FLYGKCCK +T+ DS     P+  +A   GVSALAHD FNFE TSQ     VPE L  +V SSR AQ  WY K+L+AWK+AKP P+T EE +RL+ + L R+QKADVEG
Sbjct:    1 MGNALTFLYGKCCKPTTTDDS---LGPHGVSAATVGVSALAHDLFNFEITSQ-----VPEGLGRYVQSSRKAQANWYRKILEAWKQAKPPPQTAEEASRLVTDILKRNQKADVEG 107
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. Araport11
Match: AT2G40410.2 (| Symbols: AtCaN2, CAN2 | Ca2+-dependent nuclease, calcium dependent nuclease 2 | chr2:16873509-16875215 FORWARD LENGTH=332)

HSP 1 Score: 131.724 bits (330), Expect = 3.648e-37
Identity = 68/115 (59.13%), Postives = 81/115 (70.43%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAP--GVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            MGNAL FLYGKCCK +T+ DS     P+  +A   GVSALAHD FNFE TSQ     VPE L  +V SSR AQ  WY K+L+AWK+AKP P+T EE +RL+ + L R+QKADVEG
Sbjct:    1 MGNALTFLYGKCCKPTTTDDS---LGPHGVSAATVGVSALAHDLFNFEITSQ-----VPEGLGRYVQSSRKAQANWYRKILEAWKQAKPPPQTAEEASRLVTDILKRNQKADVEG 107
[Close]
BLAST of GB0666.A10G002642.mRNA1 vs. Araport11
Match: AT3G56170.1 (| Symbols: CAN, CAN1 | calcium dependent nuclease 1, Ca-2+ dependent nuclease | chr3:20842614-20844319 FORWARD LENGTH=323)

HSP 1 Score: 109.383 bits (272), Expect = 1.008e-28
Identity = 58/113 (51.33%), Postives = 72/113 (63.72%), Query Frame = 0 
Query:    1 MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQEMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIVETLSRHQKADVEG 113
            MGNA+R L  KC  +             + ++ GVSAL+ D  NFETTSQ     VPE L  +VVSS+ AQ  WY K+L+AWK+AKP PKTPEE +RL++  L  HQKADVEG
Sbjct:    1 MGNAIRLLR-KCLNSHG----------VSASSGGVSALSRDLLNFETTSQ-----VPEKLGSYVVSSQKAQANWYRKILEAWKQAKPRPKTPEEASRLVIAALKNHQKADVEG 97
The following BLAST results are available for this feature:
BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy TrEMBL
Analysis Date: 2024-04-16 (BLASTP of HAU v1.0 G. barbadense (AD2) 'GB660' proteins vs UniProt TrEMBL)
Total hits: 10
Match NameE-valueIdentityDescription
A0A2P5X0G8_GOSBA1.383e-6991.96Uncharacterized protein OS=Gossypium barbadense OX... [more]
A0A5D2NX17_GOSTO2.297e-6293.27Uncharacterized protein OS=Gossypium tomentosum OX... [more]
A0A0D2VK91_GOSRA5.211e-5881.42Uncharacterized protein OS=Gossypium raimondii OX=... [more]
A0A0D2VLX1_GOSRA7.676e-5878.33Uncharacterized protein OS=Gossypium raimondii OX=... [more]
A0A0B0NYE5_GOSAR1.623e-5784.07Uncharacterized protein 38 OS=Gossypium arboreum O... [more]
A0A0D2WAP9_GOSRA2.032e-5781.42Uncharacterized protein (Fragment) OS=Gossypium ra... [more]
A0A5D2JB02_GOSTO9.034e-5783.19TNase-like domain-containing protein OS=Gossypium ... [more]
A0A5D2TCW8_GOSMU1.319e-5683.19TNase-like domain-containing protein OS=Gossypium ... [more]
A0A1U8M0T2_GOSHI1.319e-5683.19Staphylococcal-like nuclease CAN2 OS=Gossypium hir... [more]
A0A6A3CC46_HIBSY1.544e-5583.04Putative staphylococcal-like nuclease CAN1 OS=Hibi... [more]
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BLAST of GB0666.A10G002642.mRNA1 vs. ExPASy Swiss-Prot
Analysis Date: 2024-04-16 (BLASTP of HAU v1.0 G. barbadense (AD2) 'GB660' proteins vs UniProt Swissprot )
Total hits: 7
Match NameE-valueIdentityDescription
CAN2_ARATH3.525e-3659.13Staphylococcal-like nuclease CAN2 OS=Arabidopsis t... [more]
Y38K_CAPSE1.231e-3455.74Uncharacterized 38.1 kDa protein OS=Capnoides semp... [more]
CAN1_ARATH9.776e-2851.33Staphylococcal-like nuclease CAN1 OS=Arabidopsis t... [more]
CAN1_ORYSJ1.514e-2450.00Probable staphylococcal-like nuclease CAN1 OS=Oryz... [more]
CAN2_ORYSJ2.492e-2156.47Probable staphylococcal-like nuclease CAN2 OS=Oryz... [more]
CAN3_ORYSJ1.048e-2055.95Probable staphylococcal-like nuclease CAN3 OS=Oryz... [more]
CAN4_ORYSJ1.290e-938.61Probable staphylococcal-like nuclease CAN4 OS=Oryz... [more]
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BLAST of GB0666.A10G002642.mRNA1 vs. Araport11
Analysis Date: 2024-04-16 (BLASTP of HAU v1.0 G. barbadense (AD2) 'GB660' proteins vs arabidopsis Araport11)
Total hits: 3
Match NameE-valueIdentityDescription
AT2G40410.11.013e-3859.13| Symbols: AtCaN2, CAN2 | Ca2+-dependent nuclease,... [more]
AT2G40410.23.648e-3759.13| Symbols: AtCaN2, CAN2 | Ca2+-dependent nuclease,... [more]
AT3G56170.11.008e-2851.33| Symbols: CAN, CAN1 | calcium dependent nuclease ... [more]
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Sequences
The following sequences are available for this feature:

mRNA sequence

>GB0666.A10G002642.mRNA1_HAU-GB660 ID=GB0666.A10G002642.mRNA1_HAU-GB660; Name=GB0666.A10G002642.mRNA1; organism=Gossypium barbadense; type=mRNA; length=564bp
ATGGGAAATGCTCTTAGGTTCCTATATGGGAAATGTTGCAAAGCCTCCAC
CAGTGGGGATTCTGATTTAGTAAGGACACCTTATACCACTACAGCTCCTG
GGGTTTCAGCTCTTGCCCATGATCACTTCAACTTTGAAACCACATCCCAG
GAAATGATTATTTTTGTCCCTGAAGATCTCAGTGAGCATGTTGTATCATC
AAGGAATGCTCAAGTCAAATGGTATGGGAAGCTATTGCAAGCATGGAAAG
AAGCAAAACCTTCACCAAAAACACCTGAAGAGGTTGCTAGGCTTATTGTT
GAGACCTTGAGCAGACATCAAAAGGCAGATGTTGAGGGACCTCATCGCAA
ATATTATGATAATGCACTTCTATATGTTTTGTTCTTGCATGAAAGATCGG
ATTCTTTGCTAGACGTAAGACTGATAAATTATTGTAGAGAAGCCTTACTT
GATAGTCTGTTGGCTAATAAAGATCTTCCATCAGTTGTTTCAGCCAAATA
CTCCTTTGTGTCACTGATGTTGCCGACCAATATTCCACTTCGGTGCTTGA
TAATGACGCTATTG
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protein sequence of GB0666.A10G002642.mRNA1_HAU-GB660

>GB0666.A10G002642.mRNA1_HAU-GB660 ID=GB0666.A10G002642.mRNA1_HAU-GB660; Name=GB0666.A10G002642.mRNA1_HAU-GB660; organism=Gossypium barbadense; type=polypeptide; length=188bp
MGNALRFLYGKCCKASTSGDSDLVRTPYTTTAPGVSALAHDHFNFETTSQ
EMIIFVPEDLSEHVVSSRNAQVKWYGKLLQAWKEAKPSPKTPEEVARLIV
ETLSRHQKADVEGPHRKYYDNALLYVLFLHERSDSLLDVRLINYCREALL
DSLLANKDLPSVVSAKYSFVSLMLPTNIPLRCLIMTLL
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mRNA from alignment at A10:110686426..110708206+

Legend: CDSexonpolypeptide
Hold the cursor over a type above to highlight its positions in the sequence below.
>GB0666.A10G002642.mRNA1_HAU-GB660 ID=GB0666.A10G002642.mRNA1_HAU-GB660; Name=GB0666.A10G002642.mRNA1; organism=Gossypium barbadense; type=mRNA; length=21781bp; location=Sequence derived from: A10:110686426..110708206+ (Gossypium barbadense
ATGGGAAATGCTCTTAGGTTCCTATATGGGAAATGTTGCAAAGCCTCCAC
CAGTGGGGATTCTGATTTAGTAAGGACACCTTATACCACTACAGCTCCTG
GGGTTTCAGCTCTTGCCCATGATCACTTCAACTTTGAAACCACATCCCAG
GAAATGATTATTTTTGTTTGTTCTCTTTGTTGATCTTTTTGAGCTGAAAA
AAGCTTATCTGTTTATTTAAAATTGGAAATTGGTTTCTTCTAGGTCCCTG
AAGATCTCAGTGAGCATGTTGTATCATCAAGGAATGCTCAAGTCAAATGG
TAACTAACATATGTGATGATAATGATGATTATCAACACCATCAGGTTGAC
TATTTTTGGTCTGTTTTACATTAAGGTATGGGAAGCTATTGCAAGCATGG
AAAGAAGCAAAACCTTCACCAAAAACACCTGAAGAGGTTGCTAGGCTTAT
TGTTGAGACCTTGAGCAGACATCAAAAGGCAGATGTTGAGGTATAAAAAA
GGCCCATAACATCAAAAAGATTAGTTATGTACTGATGTTAATGGTATTGC
AGTGATTTTTTTTTTTGTGTTCTAATGTACTACTGTGATTCGAGATTGTT
AACTATTGTGTATCTGCAGGGTCATACATATTGCTTTTGAAACATAGATC
TGCTCCTAAAATTGATCTCTAAGGGGAGCATTGTACCATAATTCGGCATG
CTCAACCCAAACATATGAACACCATTTAACAAACAAAGACGTAACATCGT
ATTCATGTCAGCCGAATCGAAACATCTTCATGTAGGGCCAGAGCTCCATT
CAAATTTTCTGAGCATAGATTTGCATAAAGATCTGTTCAGCATGCAAAAT
CCCCATCGATACAATCCATAAACTACCAAAATCCATTAAAAAGAAAATAT
AACTATATACAAATTGTACAAACCCAATTTCTGCCCGGCCCACTAACAAA
AGAACCCAATACCCACAAACCCAATAATCCACCTAAACACTAACCCATAC
CAGCAGACCCAATTACAATGCCCCCATCACCTACCCTCTGCCACCGCCAC
CAACTCCGCCGTTCACCTGCTTTCTGCCACCGTCCCATCACCCTACTTGC
CTGCAAAGAAGAAAATCACGCAAAGAAGGACAAAACAGTAGTAGAGACAA
TAGAAAAATTGTAAAATGGCTATTTAAAAGCCATTCAAACAGAAGAATAG
GGGGATTTTTCATTTTTCGGTACAAAACCGATTGAAAAACCATTGTAGAG
ATTTTTTTTTGTAACGTTTTTCACAGAAATAAGAAACAAGAAAATCAAAG
GTGATTTCCGACCCTTTTTGTTTTTACATATTTACCATTTTTTATTTTAC
TTTTCTTTTTTTTTGTTCATCTATTTATATACATATAATATAAATAATAA
TAAAAAGAGAGGGAAACTCACCGAGGAGAGGCGATTCGGCGAAAAGGGGA
AACTTTTGGTCTCCCTACCGCCGTGCACGGCGGCGCCGGCGCCGGCGATC
GGCGGCCGGTACGGTGGTTCTCGGCCGGACCCTTGGCCGGCGCTCAGAGA
GAAAAGGGGAGGAAGAGAGAGCATTTTTGGGCTTTTTTTTGAAAAGAGGG
GGAGAAAAATGAAATTTTTTGGAAATTTTTTGAATATATAGGCGTGTGAA
ACGACGCCGTTTTGGCCCAGCTCCATAACGCCCAAAACGACGTCGTGTTG
CTTTGGATCGGATCGACCCGACCCGTTACCAGGAGGATCCGCGTGTTTTC
TTTGCGAAGGGGCTAATTACTCGTTTAGCCCCTCCGCAGTTTTAATTATT
TTTAATTTAATCCTTTTTTAATTTTTGCAAATTGGCCCATTAATTTAGTT
TGTTTTTCGATTTGGTCCTTCGACCATCTGCGCCCTCCTCCCTGGAACGG
TGTCGTTTTGACATTGAGGGTTTAATTACCCTTTCGGTCTCTCCTTTTTA
CGCGCGCTTGCAATTAGGTCCCTCCGCCTTTTTTTATTTTTAAATTGGCC
CAGAAACTTTGTTTTATTTCAATTTAAGTCCCTTTTAAGCATATTTTTCC
TTTTTGCTCATTTATTTATTTATTATTATTATATTTTTATTTATATATAT
GTGCTTATACTATAATATATATGTCTAAAATTATTACGAATCTATATATT
TACAAACTTTAATATATATCTAATAATAATATTATATTATATATTCAATA
TTTTTTATATCTATCCTGCTTTTTATTTATTTAATATCTATATATTTATA
TATATATACTATATAATATTTATACCTACAATATAATACACGTGCATATG
AATATTTTTATTTTTTATTTTAAGAGCATTTCTATCTCCTTATTTATGTA
TATACATGCATTTTATAATTATATATATACTTCTTTTTTGTATTTAACTT
TATGTTTTTACCCCATATAATTTGTTTCTAACATACATACATATATATAT
CACCATTTTATTCATTATTATAATTATCATTTCATGTTGATTTATTTATT
TATCTACATGTTCGTTATTATTTGATTAAATGTCTTTATTCTTGTTTGTT
TATTTTTTATTTTTGTTAACTTTTTATTATTTACCATGCATAAAAATGTA
ATTTGCTTTCACTATGATTTTGTGTTTTATCTTACTTGATGTAACAATTT
TTAAAATGGCATTTCGTGTTTGGATTCGAGAAAATCGTGCCCTAACTTAC
TGGGTTTCGATTTTCTCGATGAATCTAAATACACGAATCTTTTCAAAATC
AAGTTTTAAATGATCTCGAATTTTAAAAAAAGAGGTCGCATCCTAACTTA
CTGGTTATGATCTCATTTTTAAATTCGAGATGGCTAAAATTTCTTAAATA
AACTTTTTCATTCGCGTATCGAGAATTTGAGATATTGTATTCTAACTTAC
TGAATATGATTCTTTTTCTCGAATAACGTGAAATATCCTCCTTTTCTTGA
AAATTTTTAACATTTTAATACAAGGGTCGTATTTTTAAAATTCTTTTAAA
TTCTCAATTTTCGACATTAAGACATTAAGTAATCAACTAGGTACCAATTT
TGGACGTATCGAGGGTGCTAATCCTTCCTCGTGCGTAACCGACTCCCGAA
CCCGTTTTCTAAATTTCGTGGACCAAAACCGTTGTTTTAATAAAATCAAA
CCGTTTATTAAAAACAACCATTTTTCGAGGTAATCCAATCACACCTCATA
AAAAAAAGGATTGGTGGCGACTCCCATTTTTGTTTTCATTTTCCAAAACC
CAAGTTGACCCCGTTTTCATCCAAAAAATGGCGCCAACAGCTTGGCGACT
CCGCTGGGGACGTATAAGTGAGTCGAGCCACGAGTTGATTATTTTTTGTC
TTTTTGTCGAAAATCAAAAACTTGGTTTAAATATACGATCCTTTCATCGC
ATTTCATTGCTCTTTATTACAATTTTCATCGTTGTGGTTTATAATTGCTG
TGTTAGTTTAAGTTTTTGTATCTTTCTGCACATTGCATTGCATGACCGTT
GGTCACACCCTTTTAAGTGGGAGTGAGAAACTACGCCTTCGTGAGGTTTT
CACCTCCGCATGGGATAGTGAATCGCTTTCGGGATACATCCGTACCTATG
TCTTCGTGAGATTTTCATCTCCGCATGGCCATAGGGAAATGTATTCCCCT
GAACCGAACTCGGTCTGTATGAGCCTATAATGGGTAAAGATCGAGGAATC
TGCTGGTTCAGGTACCTTATCTCTAGAGCCATACCACATGTAGTGAACCT
TAGGAACCGACCTAGGTAGAGCTACTCCAAATTTTAGTGCTTACCTAAAT
GAATGTTGTATTTATTTGTCGCTTATTTTAAATCTTATTCTGTGTTTAAT
GCTAATTTACTTTGTTTGTGATTGCATGGCATCTTCATTCTAAAAGAGGT
GTCGATTTACGTTCAGTTTCTTGGTAGAAAGCTTATCATGGAAAAGGAGT
TTGTTGATAAAGTAGAGGATAATGCGGCTGTGCGAATATGGGCTGAAACG
ACACAACGGGAGAAAGGCGATAGTCTTACCGAAGGGTACGTGTCAGAATT
GTGGGATTTTACCCGTATCAGTGTAATCCAGAATGACCTTCGAGAAATGA
AAGAAGTCTGGGATCAACGGGATGTCGAGGCCAAGCAGCTGTTCTATTGT
AACTACGGTGACCTACCTTATCTGCTTAGTGTCAAAGTGGACAAGTATTT
ATTCCGAGCCCTTGCTCAGTTTTGGAATCCTGCCTACAGTTGTTTCACTT
TTGGGAAGGTAGATTTGACGCCTACTGTGGAGGAGTATACGACCTTGCTT
CGGTGCCCAAAGATTCAAGTCGACAAGGCTTATTCCAGAGCTGCTTGTGT
CCCTCCGTTGTTAAAGAAATTAATGCACATCACTGGGATGAGCGAGCAGT
GGGTCACTGCCCGGATCCAACAGAAGGGCGACAGTAAATGTGTTCCTTGG
AAAAGTTTGCGAGATTTGGTGCTTGTACATCCTGATTTAAAGAAAAGGGT
CGATGTCTTCGCTTTAGGTATCTATGGACTAGTGGTTTTCCCCAAAGCTT
TAGGATACATAGACGAGGCTGTATCTGATTTGTTTGATCGGCTTAGTAAA
GGGGTTACACCTGTTCCGGCAATACTCGCTGAAAATTTTAGATCCTTGAA
TGCGTGTCGAAAAGCAGGGGAGGGAAGGTTTATTGGATGCGCGCAGCTTT
TATTGGCCTGGTTCCATAGCCACTTCTGGAAAGTCAAAAAGGTCTCTTAT
CGGGTATTCTCTGATAGCTACTCCCCTCTAGGAGAATTGGTGGCCACGCC
AAGACGGGATGATATTTCAGAAGAAAAATGGATAGAGATACTCCAGAATC
TCCAGGATGAAGGTATTGAATGGAGGGCTCCTTGGTTAATTCCTGATGAG
ATATTGTACCGATGTGGAGATTTTGACTGGGTTCCGCTGCTCGAGATATG
GGGAGCTATCGGATATGCTCCTCTACTCGTATCAAGACAGTATAGATCAC
GACAATTCATACCAGTAACCCAGGGGTTGGCTTATAGTGATTTTTCCTAT
AGGGAGGACAATTACAAGAAGAAGGTTCGAGAAATATCTAGTGCCTGGAA
CCAGACTCGTCGAATGAAGATCTTAGCCGTGGGTCCGACAATTACCCCCG
AGTATGGTCAGTGGCGTGATCAAAGGATCAACGACAACATCCCGGCGTCA
AATTCAGAAACTGCTCGATCTTTAGAGGAACACTTACAAGTTTTGCCTTC
TGAGATAGAAATCATCAAACAAGAATTCGAAAAAAGGAGTTCAGAATTGG
GGAAGAAGATAGAACAACTAGAGGAAGAAAAAATGCAGTTAGGACTGGAT
GTGGACATTCAAAGATTAGAGGCCAACAAATTGAGAAAAGGAAAGAACAA
AGTAGAAGAAGATTTGGACAGCCTGAAGACAGATTACAAGAAGTTGCGTA
GGTCGGTAAGAGCTGCTGGCTTGGGTAAAACACCAGAACAATGGCGACAA
GAAATTCAGGAGGAAAAGACGAAAGCTAATCAATGGGAAAAGAAATTCCA
GGATACTCGGGCTCGAGAAGTCACCTTGGGAAAGAGTCTACTAGTTTGCC
AAGACAAGAAGACGGAGTTGAAGGTCCAGATAACTGAACTAGAAAGATCA
CTTCACCAGTACTGTAATCGTGATGCTACGGTTGAATTAAGGGCGAGCTT
AGACAAAATTGAAGAATTAAAAAGACAAATAGGAGGGCTAGAGAATGCAT
TGCAAAATAGTGAAATCCGGATAGAGCTTCTGGAAGAAAATAATGAGCAG
TGGCAAAGACAATTCCGTCGGTCTCAAGAGCAGATTAGAAAAAGAGATTA
TATTATGGGAGAGGCGGTGACTCAAGTGCGCGAGGTAGCTGATCATCTGC
AAACTCTAGCGGTTCAGGCTGATCTATTAAGTTTGAAGTATGAGTTAGAG
TCGGACAGGGGCCGAGAGTTAGCTTGGCTTCTTAGAAAGGTTAAGGCTTT
GAGTGTAAGGGCAAAGCCATATATGTAGTCTATTTTATGTAAAGAAACTC
TTTATCTAGTAAAGTTTTCTAATGAAGTTGAATTAGAATCAGTGCCTCTT
TTTCTTTGCATGCATTGCATCACATCACATGCATTAATGACCATTAAAAA
CCTAATCGAATAAAATCATTTCAGTTAACCTGGAAAACCAACAAAGTTAC
GGCACCCGAGCTAAGACAAAAATTATGGACCAAAGGTTGGAGAAGCTAGA
GCGACTTCAAAGAGAAATGCAAGACCAGTTGCAGGCGCAAATGAAAGAGC
AAATAGAAAAGATTCAGCGTGACATGGTGCAAAAGATGGAGGAGTCCCAA
AATGATCTGGTGGCTAAGATGACGCAATTATTGAAGGGAGTAGATAAGGG
TAAAGGTCCTGTGATTGTTAGTGAAGAAGAAAACAATGGTGAACCACTTT
ATCCTCCAGGTTTCACGCCTCCGCATGCTCAAGTACAGACTGAGCTGCAT
CTGCGGAAACCCTCTGTGTCGGTTAGGCCCCAGCAGTTCCAGGGCGATGC
TTCAATCCCAATGAATTTTCAACCCGGAGCGGGCTTTAATCCCGGTGATA
GCCCGAATAATATTGCTGTCCCAGATCTTGACGAGATGGTTGAAAAGGAC
AAGGCGAAGGAGGAATTGCCAAAACAATTTGAGGAGAAATGGAAATGGAT
AGAAGAGAAGTTTAGGGCAATAGAAAGCATCGAAAGCTATGGAATAGATG
CAAATGATCTGAGCTTGGTTCTGGACTTGGTGCTCCCTTACAAATTTAAG
ATGCCGGAATTTGAGAAATACAACGGGACTAGTTGCCCAGGATCCCATAT
TACTATGTTTTGTAGAAGAATGACGGGGCATATTAATAATGATCAATTAT
TAATACATTGCTTTCAGGAAAGTCTTACGGGAGCGGCGTCAAAGTGGTAC
AATCAGCTGAGCCGAGCTAAAATTGCTACTTGGAGGGATTTAGCACAGGC
TTTCCTAAGACAATACAATCATGTCTCAGAAATGATGCCTGACAGGATAA
CTCTGCAAAATTTAGAGAAGAAATCGAACGAAAGCTTCAGACAATATGCG
CAGAGGTGGCAAGAGGTGGCGGTTCAGGTGCAACCACAGCTTTTGGAAAA
AGAGATGACGACGCTTTTTATCAATACTTTGAAAGCCCCGTTCATCACTC
ACATGTTGGGAAGCGCTTCAAAAAATTTCTCGGATATAATCATGAATGGT
GAAATGATTGAGCATGCCATTAAAAGTGGAAAAATAAATGGAGGAGAAAA
TAATAGGAGGGCACCCCTGAGGAAAAGAGAAAATGAAGTGAGTAATGTAA
ATGCTTATGGTAGGTCAATTACCGTGAATCAACCAAAGAAAGTGGTTGCT
AATCAACAGGGATCATCAAGACAAGAGTCAGGAGCTAGGCAAACTACTGA
AAAGCCCCAATTCACGCCAATCCCGATGTCATACAAGGAGTTGTATCAGA
CTTTATTCGATGCACATGTTGTTGCTCCTCGATACTTGAGTCCTCTACAA
CCCCCGTATCCAAAATGGTATGATATGAACGCGCAATGTGATTATCATGC
GGGAATTTTTGGGCACTCGATAGAAAATTATACTGCCTTCAAGAAGGTAG
TAGAAGGACTTATCAATTTAGGTGTCGTCAAACTTGACGACTCACCTAAC
GCAAAGAATCCGTTACCTAATCACGCAGATAAAGGGGTGAATATGGTTAG
CGAAGGTACGGGAGAAGAAGCCAAGACTGACATTGCTGAAGTAAAAACTC
CATTGAAACGGGTCTAGAAAGAAATGGCGAAAAGAGGTTTGGTTATTTCA
GATTCTGAGGAAGGGCATGAGATGGGAAATTATTGTGAATTTCACCATAA
AACAGGGCACGAAATCCAAGAATGTGAAGGATTTAAGGCTTTGGTTCAAA
GCATGATGGATAACAAGGAGATGAGGTTTTACGAAGATGCGAAAGAAATG
AGGAGCATATGCGCGACAGAGTTGGGAACAAAGGCTCCAAATCATCCTGT
GGTCATTATCTCACGCCCTAAGGGTAATGAGGTTAGGGCTCAGGTAACAC
CGAAAATTGTAATCTAGAAACCATCAAATTTCTCTTATAGGGATAACAAA
ATGGTGCCGTAGAATTACGGGTGTAATGTGACCATTTTGGGAAAAGAAGC
AGAAAGAAATCAGGAAATAGGTTCTTACACACGCAATGGAAAAAGATATG
ACGCTCAAGCAGAGTCGTCCAGGGAAGAGAATTGGAAGAAAGAACAGAGG
AAAGGGAAAGCAGTAGAAGTTGAACCATTGGTAAATGAACCAATAAAAGA
AGAGGAGGCAAATGAGTTTTTGAAGTTTTTGAAACACAGTGAATACAGTG
TTGTGGAGCAACTACACAAACAGCCAGCCCGCATTTCTGTATTAGCTTTA
CTCTTAAACTCGGAAGTACATCGGAATGCACTATTAAAGGTGCTAAACGA
AACATATGTGGCTGACGATATTTCGGTAAACAAGCTGGATCGGCTGATCA
ACAATATTGGTGCTGACAATTTTATCTTCTTCAGTGATGATGAAATACCA
TCCGGAGGAAGAGGTTCTACTAAAGCCCTGCATGTTACTGTCCGATGCAA
AGGGTACACACTCCCGGGGGCCTTGGTTGATAATGGATCTGCACTAAATG
TATTGCCTTTGTCCACTCTTAGTCGATTACCAATAGACAGTTCGCACATG
AAAGCATGCCAGAACATAGTAAGGGCATTTGATGGAACAAAAAAGGAGGT
TATGGGGAGAATTGAGGTACCATTAAGGATTGGCCCAGTCACTTATGAGG
TGGATTTCTTGGTAATGGATATTAAACCCTCCTACAACTGTCTATTGGGG
AGACCGTGGATACACTCAGCAGGGGCAGTACCTTCATCATTACATCAGAA
GGTGAAGTTGGTATCGGAGGATCGGTTGGTAACAATAGATGCAGAGGAGG
ATATTATCGCAATGATGACTAGCGATGCACCTTATGTGGACATCAACGAT
GAGGCACTAGAATGTTCTTTTCGGTCGTTAGAATTTGTGAACGCGATGTT
TATTGCGGAGGGAAATAGAATTCCAGTACCGAAAATATCCAGGACCACTG
AGATGGGATTGCGATTGATGGTAGGAAGAGGAGCCTTACCCGGGAAAGGA
TTGGGAAAATATCTTCAGAGAAGGATTGAGGCACCAATGCCGAAGGAAAA
GTTTGATAGATTTGGTTTATGGTACAAGCCAGACATGAAGCAAAAGAAGA
AAGAAGTAGAGAAGAGACAAGAGAGAAGAAGGGCGCGTTTGAATGGACAT
GAAGCTAAGTGTGAGCCTTTAACTTTTCCCCACATATCTACATCTTTTGT
GTCGGGAGGATTTATTCATTCTGAATGTGGAGTGTCCGGTAGCGGCATGG
GAGGAATGTTGGAAAACATTTATACCAACGCCATAGAAGCAACGGAAAGG
AGGGCTTTGTTGGAGATCTGCCCTTATGAGCCTGGAAGCGAGCTAAACAA
TTGGACTGCTGAAGAAATCCCTGTAGTCTTTAGGGCTTATTCAGAGTAAT
GCTCAAAACATTCCTGTTGTTTGTGGGCCTAGAAACGATATGAAATCTTT
TGTGAAATAGGCATTGGGCCTAAATATCATTATTTTAATGAAATACGTGT
CTACGTTCATCTCGATCAGTCACTTTTTTTTCCTTTCATATTTTTCATTT
GGTTGATTGTCTTACAAATAATTCTTTCATTTGTAATTCTTTTGCACAAA
CATATTCATAAATTTATATTCTTGGTATATTCGTTGATGCGCCCTCATAG
GTCTTCAGATATCAATGACATGAGTGACGCTGCCTCAAACACGGAGCCTA
TTTTTGAGCAAGAAGTGTGTTCAGAGGGATCCCACGACTTTGAAAATGAC
GAAGATTATGATGCATCTCCGGACTTGTTAAGAACGATGGAACAAGAGGA
TAAGCATATCCTACCTCATAGGGAATCGTTAGAAATAGTGAGCCTAGAGG
ATGGAAAGGAGGTGAAAATTGGAACTGAAATCACCGCAAAGACAAGGCAA
GACCTCATTAATTTGCTCCGAGAGTTCAAGGATGTTTTCGCGTGGTCGTA
CCAAGATATGCCTGGGCTAAGTACTAACATTGTGGTGCATCGTCTGCCCA
TAAAAGAGGATTGTAAACCCGTTCAACAGAAGCTTAGGAGAATGAGACCT
GACATTGTGTTGAAAATAAGAGAAGAAGTCAAAAGACAATTCGACGCTGG
TTTCTTACAAGAGGTCAAGTATTCGGATTGGGTAGCCAACATCGTCCCTG
TTCCCAAAAAAGATGGAAAGGTACGAATGTGTGTGGATTATAGGGATTTA
AACAAGGCTAGTCCAAAGGACAACTTTCCACTGCCTCACATTGATACTTT
GGTAGATAACACGGCGGACTATTCATTGTTTTCTTTCATGGACGGTTTCT
CTGGATACAATCAAATAAAGATGCATCCTGGAGACATGAGAAAAACCACA
TTCATTACCTTATGGGGAACATTCTGTTACAAGGTAATGCCCTTCGGATT
GAAGAATGCGGGAGCAACGTATCAAAGAGCTATGGTGACTTTGTTTCACG
ACATGATGCACAAGGAGATCGAAGTCTATGTTGACGATATGATCGCGAAG
TCTAGAACGGAAGAAGAGCATGTTCAGGTCTTGAAAAGGTTATTTTTGAG
ATTAAAGAAATTTCAGCTCAAGCTTAACCCGGCCAAATGCATGTTTGGAG
CCAGATCAGGGAAGTTATTAGGCTTCATAGTTAGCAAAAAGGGGATCGAG
GTTGACCCAGACAAAGTAAAGGCAATACGAGATTTACCTCCCCCACACAC
TCAGAAGGAGGTTCGAGGTTTCCTAGGGAGGCTGAATTACATTGCTCGGT
TCATCTCACAACTGACAGAGAAATGTGATCCAGTATTCCGGCTCTTAAAG
AAACATAATCCGGTCGAATGGGTTGAAAAGTGTCAGAGGGCTTTCGATAA
GATAAAGCAGTACTTAGCTAATACTCCAGTCTTATCACGTCCAAGTCCAG
ATAGGCCATTGATATTGTATCTAACAGTGTTGGAGAATTCCATGGGATGC
GTATTGGGCCAACATGATGAGACGGGAAAGAAAGAAAGGGCAATATACTA
TCTCAGTAAGAAATTTACCGATTGCGAAATGAAGTACTCATCAATTGAGA
AGTTGTGTTGTGCTCTAATCTGGGCAACCAGAAGACTGAGGCAGTATATG
TTGTATCACACGACTTGGTTGATTTCAAAGTTAGATCCTTTAAAATATAT
GATGGAATCGACTGCTTTGAACGGGAGAATGGCTAGATGGCAGATCTTGC
TCTCAGAATTTGATATAGTATATGTCAGTCAGAAGGCCATAAAGGGAAGT
GCAATAGCCGATTTCCTAGCTAGTAGAGCCTTGGAGGACTATGAATCTTT
GAATTTCGATTTTCCAAACGAGGACTTGATGTATGTGGCGAATACTGAAG
AAAATCCTCAAATGGATCGCGTATGGAAGTTAAATTTTGATGGAACTTCA
AATGCTACGGGTAATGGAGTTGGGGCAGTCTTGGTATCCCCAAGTGGAGA
TCATTATCCTGTTGCTAGCAAGTTGGACTTCGATTGTACAAATAACATGG
CAGAATATGAAGCATGTATTATGGGCATTCGTGCAGCCATTGAACGGAAC
ATCAAAGTACTGAGAGTATACGGGGATTCAGCGTTGGTGATATACCAACT
CAAAGGGGAGTGGGAGACTAGAGATCCTAAGCTAATCGGTTATAGAAAAC
TAGTTCTTGAATTGGCTGAGGAGTTTGACGATATCACCTTCTATTACCTC
CCACGGGAGGAAAACCAAATGGCTGATGCATTAGCTACTCTAGCTTCGAT
GATTCAGGTGAATAGACTTGAGGCAATGAGGCCTGTTCAGATGAGTATCT
CTGAGACCCCGGCTAATTGCTGCAATATTGAGGAGGAGGGAAAAGATGAT
TGTCCTTGGTATCAGAGTATCTTACAATATGTGAAGAATCGGGAATACCC
TGATCAAGCGACAGAGAATGACAAAAGAACTCTGAGAAAGATAGCCATTG
AATATGTCTTAGATGGAGAAGTGTTATATAAAAGAAGGAAGGATCAAGTA
CTGTTAAGATGTGTGGATGCTGTGGAAGCCAAGAAAATTTTGGAAGAAGT
CCATGAGGGTATTTGTGGGACGCACGCCAGTGGTTTCACGATGGCCAGAC
AGATCATGAGATTTGGGTACTATTGGCCCACCATGAAAGGAGATTGTATT
GATCATGCCAGGAAGTGCCACAAATGCCAAATTTACGGAGACAAAATACA
CGCGCCTCCTTCACCTCTTCACGTCATGACCTCTCCTTGGCCGTTTTCCA
TGTGGGGTATGGATGTTATTGGGCCAATATCACCAAAGGCTTCTAATGGG
CATCGCTTCATCTTCGTAGTCATTGATTACTTTACCAAGTGGGTGGAAGC
TGCTTCATATGCAAATGTCACGAAAGCAGTAGTCAGCAAATTCTTGAAGA
AGGAGATCATTTGTCGATATGGAATGCCTGAGAGGATCATATCCGACAAT
GCGATGAACTTGAATAATAGCACAATAGCTGAAGTTTGTAGCAAATTTAA
AATTAAGCATCATAACTCATCGCCGTATCGTCCCAAAATGAATGGTGCAG
TGGAGGCGGCCAATAAAAACTTTAAAAGGATTGTGGGGAAAATGACTGAA
ACCTACAAAGATTGGCATGAGAAATTATCATTTGCTCTCCTTGCCTACCG
AACATCTGTTAGAACTTCTACTGGGGCAACGGCTTTTTCTCTGGTTTATG
GAATGGAGGCAGTATTACCCATTGAAGTTGAAATCCCTTCTCTACGGGTG
TTATCTGAGCTATAGTTGGATGAAGCCGATTGGATCCAATCTCGGTACGA
TCAGTTGAACCTAATAGAAGAAAAGAGGCTAAGAGCTATTCACCATGGGC
AAATGTACCAGAAACGAATGATGCGAGCCTATAATAAAAAGGTTCGCCCC
CGAGAATTTCGTAAAGGGGACTTGGTACTAAAAAAGATTCTTCCTATGCA
AAAAGATTTTAGAGGAAAATGGATGCCAAATTGGGAAGGCCCTTATGTTG
TAAAGAAGGCCTTTTCCGGTGGAGCTTTGATCCTATGCGAGATGGATGTC
AAAATTTTACCAAATCCTGTAAACGCAGACTCCGTCAAGAAATACTTCAC
TTGAAAGAAAGGGGAACCAAAGTGAAGACCCGTAAAGGGCGCTTTGCTTC
CTAAAAAAAAAAAAAGGGACTTTGGAGAGGCTAAGGTGAAAACCCGTAAA
GGGCACTTTGAGACCAAAGAGGGCTTGAGTCGAAAACCCGAAAAGGGCGA
CTCAAGTATTGGGCAGGATTGGAACATCAGGACTTGAGCGGATCAAATTT
TGATCGGGGGGATATGATGATCTTCCTTTACTTGAACCAATAAGAAAGGA
TATGCAACGTCTTGGAACATTGACAGAGTATTGCAGATCTCCTGAACACA
TGTCAAACTTAGAAGGGTCTTCGGAAAGTTTGTACAGAGAAACTCAAGCG
GCGATAACTGGGGCACCTAGTTCTTATGTGTATTCTTGAAAATACATTTC
TTTTATTTTCTTTCTTTCTTCCTTTCCTTTTGTGAAAACGCACATTCTCA
ATCCACTTCTTTGTTACCTTTCTTTCGCCATCTTCGATGTTTTATTTGAG
TTATGATCAGAAACGAGCTTTATTCTTATCCATTGTTATGGTCTTTTTGC
AAACATGTTACATAGGAATAATGATTAACGAACTAATAAAACTTTCAGGA
AAGAAGTTTTGCATATTACTCTGAAAATTTCTAAATAATATAGGGACCTG
AAACATGACTATTGTTTAGAAAATACCAAGTTTAAAGGGTGAAATAGCTA
GGAAAGAAGAGTCTAAGTTAAAGACTATCCTTTCAGATTTCGTTGTCTAA
ACATTGATTGAACAAAATGACAAGCTGTCGTGTTAATTACAAAGCTTAAA
TGAACAAGCAAGCAATGATCATCAAGCAATAGGAAGAGGTTACCTCGGAG
AAGAGAGCCTTCACTTGCGCATAAGATTTTGGTACGACACCTTGAGAATG
GTGTAGGAAACCAGAACGGTTCAGATCCTATATCCCCGAATTGTGATAAA
AGAGGACAGAGGAAAAGCCACATATTTCTACCCTTAGATTACTGTGAGAG
AATGATGGTACAAATTTTGGCGTCCCAGTGGATATAACTTTGAGGTTTAC
AATGGGGACAGTCTGGCTAAATGTTTCTTCAGAAAAATCAGTCAAGCGAG
AAGGCGTTGTAGCACATCAGTCACAAAACCTTGATAAACTTCGAGTAGTG
ATAACCTAAGCGAGATCATTCTCGGAAAAATAAAATTCTGCATTCATGCA
AACACCATTCACATATGTCTAGTTAGGAGCATTTGTTTCATTTTGATCAT
GTCATCCTAATCATTAGGCATAATTAGGTTTATTATACAGGTCTTATCTC
CCTGAGAATACAGTGGAACAGACCAAAGAATTTCAGATCTTATCTCCTTG
AGATTACAGCGGAGCAGATCAAAGATAGTAATCCTATCTCCTTGAGATTA
CAATGGAGCGGATTAAAGGATCTTATCTCTCTGAAGTTACAGTAGAGAAG
ATCACATCAGGTCTTATCTCCCTGAGATTACAGTGGAATAGACCAAAGAA
TTTCGGATCTTATCTCCCTGAGGTTACAGTGGAGCAGATTGAAGCCAGAG
ATCTTATCTCCCTGAGATTACAGCGGAGCAGATCGAAGACACTATCCTAT
CTCCCTGAAGTTACAGTGGAGCGGATTAAAATAAAGGATCTTATCTCTCT
GAGGTTACAGCAGAGTAGATCGCATCAAGTCTTATTTCCCTGAAGATGCA
GTGGAACAGACTGAAAACAATAAGGCGTGTCTCCCTAAAGTTGTAGCGGA
GCGGACAGAAGATAGTGATTCTTATCATGTCTAATCTTATTCCCCTAAAG
TTGTAGTAGAATAGATGGAAGCGAAGTCACAAACCTTGTCTCTCTGAAGT
TGCAGTAAAGCAGGTTGAAGTCACGAATCTTATCCCCCTGAGGTTGTAGT
GGGGCAAGTTGAGGATATGAGTCCGATCTCCCCGAAGTTGCAGTGGAGCG
GGTCAAAATGATGGACCTTACCCCCTGAAGCTACAATAGAGTGGATTGAA
GCTACAAGTTTTGTCTTTTGGAAGTTACAGTGGAGTGGGTCGACGCAACA
AGACACAGTGGACTAGAATAAAGTTACTTGAAAAGAAGCGTCAAGAGAAG
TCAATACTCGGCAAAGACTGGGCAAAAATTGGTCTTTCTTAGTCTTTGCT
CTGTTATCGTGACGCGACAACGAGCAAAGAGGGGCAGCTGTACAAACCCA
ATTTCTGCCCGGCCCACTAACAAAAAAACCCAATACCCACAAACCCAATA
ACCCACCTAAACACTAACCCATACCAGCAGACCCAATTACAATGCCCCCA
TCACCTACCCTCTGCCACCGCCACCAACTCCGCCGTTCACCTGCTTTCTG
CCACCGTCCCATCACCCCACTTGCCTGCAAAGAAGAAAATCACGCAAAGA
AGGACAAAACAGTAGTAGAGACAATAGAAAAATTGTAAAATGGCTATTTA
AAAGCCATTCAAACAGAAGAATAGGGGGATTTTTCATTTTTCGGTACAAA
ACCGATTGAAAAACCATTGTAGAGATTTTTTTTTGTAACGTTTTTCACAG
AAATAAGAAACAAGAAAATCAAAGGTGATTTTCGACCCTTTTTGTTTTTA
CATATTTACCATTTTTTATTTTACTTTTCTTTTTTTTTTGTTCATCTATT
TATATACATATAATATAAATAATAATAAAAAGAGAGGGAAACTCACCGAG
GAGAGGCGATTCGGCGAAAAGGGGAAACTTTTGGTCTCCCCACCGCCGTG
CACGGTGGCGCCGGCGCCGGCGACCGGCGGCCGGTACGGTGGTTCTCGGC
CGGACCCTTGGCCGGCGCTCAGAGAGAAAAGGGGAGGAAGAGAGAGCATT
TTTGGGCTTTTTTTTGAAAAGAGGGGGAGAAAAATGAAATTTTTTGGAAA
TTTTTTGAATATATAGGCGTGTGAAACGACGCCGTTTTGGCCCAGCTCCA
TAACGCCCAAAACGACGTCGTGTTGCTTTGGATCGGATCGACCCGACCCG
TTACCAGGAGGATCCGCGTGTTTTCTTTGCGAATGGGCTAATTGCTCGTT
TAGCCCCTCCGCAGTTTTAATTATTTTTAATTTAATCCTTTTTTAATTTT
TGCAAATTGGCCCATTAATTTAGTTTGTTTTTCGATTTGGTCCTTCGACC
ATCTGCGCCCTCCTCCCTGGAACGGTGTCGTTTTGACATTGAGGGTTTAA
TTACCCTTTCGGTCTCTCCTTTTTACGCGCGCTTGCAATTAGGTCCCTCC
GCCTTTTTTTTATTTTTAAATTGGCCCAGAAACTTTGTTTTATTTCGATT
TAAGTCCCTTTTAAGCATGTTTTTCCTTTTTGCTCATTTATTTATTTATT
ATTATTATATTATTATTTATATATATGTGCTTATACTATAATATATATGT
CTAAAATTATTACGAATCTATATATTTACAAACTTTAATATATATCTAAT
AATAATATTATATTATATATTCAATATTTTTTTATATCTATCCTGCTTTT
TATTTATTTAATATCTATATATTTATATATATATACTATATAATATTTAT
ACCTACAATATAATACACGTGCATATGAATATTTTTATTTTTTATTTTAA
GAGCATTTCTATCTCCTTATTTATGTATATACATGCATTTTATAATTATA
TATATACTTCTTTTTTGTATTTAACTTTATGTTTTTACCCCGTATAATTT
GTTTCTAACATACATACATATATATATATCACCATTTTATTCATTATTAT
AATTATCATTTCATGTTGATTTATTTATTTATCTACATGTTCGTTATTAT
TTGCTTAAATGTCTTTATTCTTGTTTGTTTATTTTTTATTTTTGTTAACT
TTTTATTATTTACCATGCATAAAAATGTAATTTGCTTTCACTATGATTTT
GTGTTTTATCTTACTTGATGTAACAATTTTTAAAATGGCATTTCGTGTTT
GGATTCGAGAAAATCGTGCCCTAACTTACTGGGTTTCGATTTTCTCGATG
AATCTAAATACACGAATCTTTTCAAAATCAAGTTTTAAATGATCTCGAAT
TTTAAAAAAAGAGGTCGCATCCTAACTTACTGGTTATGATCTCATTTTTA
AATTCGAAATGGCTAAAATTTCTTAAATAAACTTTTTCATTCGCGTATCG
AGAATTTGAGATATTGTATTCTAACTTACTGAATATGATTCTTTTTCTCG
AATAACGTGAAATATCCTCCTTTTCTTGAAAATTTTTAACATTTTAATAC
AAGGGTCGTATTTTTAAAATTCTTTTAAATTCTCAATTTTCGACATTAAG
ACATTAAGTAATCAACTAGGTACCAATTTTGGACGTATCGAGGGTGCTAA
TCCTTCCTCGTGCGTAACCGACTCCCGAACCCGTTTTCTAAATTTCGTGG
ACCAAAACCGTTGTTTTAATAAAATCAAACCGTTTATTAAAAACAACCAT
TTTTCGAGGTAATCCAATCACACCTCATAAAAAAAAGGATTGGTGGCGAC
TCCCATTTTTGTTTTCATTTTCCAAAACCCAAGTTGACCCCGTTTTCATC
CAAAAAATGGCGCCAACACAAATCAGTCATAATAATCTATTATCTCAATA
GCAAATACAGTAACAGTTGAAAGAACAAAAGATGATAAAACAAATGATCA
TCAAAGGATACACAAAGGGAACAAAAAATAAGCAAGTGGATCAAATTTAG
CTCTTTTTCAAAGCATCTAGAAGACAGCAGCTACATCAATTGAAAAGCTA
CAAAAATGAATCAATTTAGGCCTTTTAAAAGCATTTATAGCCATAAACAA
GCATGCATAAATGATAACCTTTCGGATATCTTTAGGAACACCAAAGCCAT
TGCAATTCATTTGTCCACCAAGTACTTGCATATTGGTATCACCAGCTTTA
GCTTCCTTAAGTGCATCATCGAACCATATTTTTACTAACCGGGAAACGAA
ATCCGATCCGGGTCAACCCGGTTATCCATTTCCTTCTGCTTCACTTGCTC
CGAACCTATTTTGATATATAATTTTTTTTTAAAATTTATTTCAGTAAAAA
ACCCTTAATGATATCAATAAAAGTTTCACTATTTTTAAATTTTAAAAACG
AAGTCGCCGACAAAACCAAAGGAAGGCAGGGCATTGACCCTATTAACCAA
ATGGTTAAATTGCTTTTTAGGCAATGGTGATTGAAAAGTACTTGGAATTT
TATTCTGTAATTTCAAAAAAGAAAAGAGTTACTGCAAGTACAATGGAGAA
GAATAAGAATAATGCTTATACCATGAGCTTCTTCTAAGCTCTTGCTGCTC
ATTTAGAATCAGTTTATGATCATTCACCATAGTCTCTCCTTTTTCCATTT
TTGTTGTTATTGTCGCTGTTGTTGTTGTTGTTACTGTTGCTATTGCCATT
GCTTTTGTTGTTGTTTCATGCTATGGTTGAAGATGAATACATCTAAATCT
ATGTATTATAAAAGCAATAAGCAGCCATAGAGTTGTAAGACATACAATGA
ATTCATTATGTCTTAAATTGATACAATAACCTGTAATGCCACCTCCAACA
TAGTATCTCTCATGGAAATATTGAAAATATCGAATCCCAATACCATAATG
ATACGAGAAAATATGGTGATTAGTGATATAAAGCCGTAACAATAGTTAAC
TTTCTTAAAATAGAAATTGGAGATTATAGCAAAAAAGCATAAACCACTCA
TTTCCATTGAAAACTTTTTTATTGGCTTTAATTGATTAACACTCACACAC
GGTATTCCATAGTCATATAATTTCAATGAAAAATATGAAGTGACTGACAT
GAATGTCATCAAGAGCCACGGTTTTGCATCTTACTTGTCCATACCGATCA
TCTTCCAAAATTTCCACTCATACAAATTCAAGAAATTTGAGATGTCTGTG
GTTAGGATAACAAAGAAAAAAAAAGTCTAAGCCGATGCGATAGTACGTGC
AAATGTCCAAATAAGCTGCACAAATTCTGTATAAAATTACGAGTCAATAC
TTAATAATGACAAACAAGTTTCATAATTCATTCTAAAAAGGAAAAATCAA
AGATGCAATTTAATAAAATAAAGGAATACAAAACCAATAAATGTTGGGTG
TAGTGGTAAGTCACATCACACTCATAAGAAGAACAAGGTTCGAGCTTTAT
TAATAGAGACAATCATTAACCCGAACATGAACTATAAAATAGACATGAAA
AAAACAATAATAAAGAAAAAAACGAGAAAAAAAAGAAAGTGAATTAAAAG
TCGAAATGAAATGGAGATTTGAATCGAGATGCTGGTGGATTACTCATAGG
AATAGAACAAAATTAGAAGAATAATTCAAATCGGCAGATTATGAGCACAA
AATGAAATTATATAGTTTTGTGAATTAATAAAAACATAATTTTTAAAATA
AAGAAAGAAGGATGAACAATGAATTTTAATGAAAGAGTTTAAGAGTTTGA
AAGTGATATTGTTAACAAGATTTTCACTATTTTTAAATTTTAAAAGTGGT
ATTTTAAAGATAATTTCAACTAAATTTAATATAAGAATATTTTATTTGTC
CCATTATATTTATTTAATTATTGATATAATGATTTATTTAGTCTTTTAAT
TTTATAAAAAAATCATTTTAGTTATCTATTTAATTTAGTCTTTTTTAGTC
TTTAAACTTGTATTTTTTTGTTAAATTACTTTCAAAATGGATGAAAAAGT
TAACGGTTTTTTAACTTTATTAATGTGACATACACTTGGATTACCACATT
GATGACACGCCATCATTTAATTAGTTTTTTAAAATTTTAAAAATTCAAAA
AAAATTTTAAAAAAAATTTTAAAAAATTAACAATATTAAAAAATTATAAA
AACTTTTAAAAATTAATTAAATACTGACATGTCATCCATGTGGCAATTCA
CATGTATGACACAAACAAATTAATTTTTTATTTATTTGTTGTTGTTGTTG
TTGTTTCATGCTATGGTTGAAGATGAATACATCTAGCTCTTAGTACTAAA
TTTGCAACAGATACTATAAATTCATTATGTCTCAAATTGATGCCATCTTT
AACAAAGTCTTCAACCTTCAACCTTCAAGCTCCTCTTTTTTCTTTCAAGC
TCCTCCTTTCTTCATTCGACCTTTAAGTTCTCTACTTTCTGCACTCTTCT
TTCAAGCTCCCGATTACTTCAAGCTCCTGATTCCTTCAAGCTCACTACTT
TCTTCCTTCAACCCTTCTCATCTCATTTCTCATACTTTCCATTTTTTACT
TCTTTCGGCCAAAATGCCTGGAAAGGAAACTTTTGCATGGATAGCTCTTT
TAGTAATAGCTTATTTTGGGGTTCTCTTCTCTCTTGCACATTCTGCTTTA
GGAGAAAACCTGTTTAAAGTCTTTGTAAGTCCATGGTATTACGTTCCTGT
TCTGTTCCCTATTTGACACTTGATTCTTCTCTCTTGTTATGTTTTACCTG
CCAATGTTTACACGAAGTTGGAAAAATATGAGATTATAATTAAGACATGT
CTAGAGTTCGTTACCAGCTGGGGAGACTATTTTTTCCTATATAAAATAAC
TGCTTGAAATGATATGGACCAATATTTTGTATGGATTTGTTACTTTTTAG
GAGTAATGAATTTATCTTCATCTAGGTTTGCAATACCCGATTTTATGTTT
ACAAATACCATAATATTTATGGACCTCTCCTTTGCATCAACGTATTCTAT
CCGTCATAATTTAATTAATAGAATAGCAGCATTAGGAATTTTATCTTTTG
TATTATTGTTATTACGTAATTTCGTTAAGTACAGTGATAACGTTTTGCAT
AATGCAAATATTGTTCATCCACCGAGTGAAGGTTGCATCTCTATTGCACA
CACACACAAAATGAAAGCTCCTACCCCTATTTATAGAGTTTAGTGACCAT
TGAATTATTGGCACATGTCAACATCCTTACCATTAATATTACAAATATCT
AATAACTAGAATGTTCATGTATAATATCTAATCTTCTAGATAATATCTTC
TTTTTTATTTTTATTTTTTATTGTAGAATATTCTAAAGAAATTATCTTTT
AAAAGTTAACTTTAGTTTTTATCTAGAATTTGCATTGACTTTCAACACTC
CCTTTGAATGCAAACTTCTTTCTACAAATGATTTGCAAATCATATCGAGT
GCTTCTCTGAACTTCTCAAACTCTGGTTTACTTAGACTTTTCATAAATAT
GTCTGCAACTTGCTCATTTGTCTTTGTTGCCACCATATTGATCTCCTCTT
CAGGGACCTCATCGCAAATATTATGATAATGCACTTCTATATGTTTTGTT
CTTGCATGAAAGATCGGATTCTTTGCTAGACGTAAGACTGATAAATTATT
GTAGAGAAGCCTTACTTGATAGTCTGTTGGCTAATAAAGATCTTCCATCA
GTTGTTTCAGCCAAATACTCCTTTGTGTCACTGATGTTGCCGACCAATAT
TCCACTTCGGTGCTTGATAATGACGCTATTG
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Coding sequence (CDS) from alignment at A10:110686426..110708206+

>GB0666.A10G002642.mRNA1_HAU-GB660 ID=GB0666.A10G002642.mRNA1_HAU-GB660; Name=GB0666.A10G002642.mRNA1; organism=Gossypium barbadense; type=CDS; length=564bp; location=Sequence derived from: A10:110686426..110708206+ (Gossypium barbadense
ATGGGAAATGCTCTTAGGTTCCTATATGGGAAATGTTGCAAAGCCTCCAC
CAGTGGGGATTCTGATTTAGTAAGGACACCTTATACCACTACAGCTCCTG
GGGTTTCAGCTCTTGCCCATGATCACTTCAACTTTGAAACCACATCCCAG
GAAATGATTATTTTTGTCCCTGAAGATCTCAGTGAGCATGTTGTATCATC
AAGGAATGCTCAAGTCAAATGGTATGGGAAGCTATTGCAAGCATGGAAAG
AAGCAAAACCTTCACCAAAAACACCTGAAGAGGTTGCTAGGCTTATTGTT
GAGACCTTGAGCAGACATCAAAAGGCAGATGTTGAGGGACCTCATCGCAA
ATATTATGATAATGCACTTCTATATGTTTTGTTCTTGCATGAAAGATCGG
ATTCTTTGCTAGACGTAAGACTGATAAATTATTGTAGAGAAGCCTTACTT
GATAGTCTGTTGGCTAATAAAGATCTTCCATCAGTTGTTTCAGCCAAATA
CTCCTTTGTGTCACTGATGTTGCCGACCAATATTCCACTTCGGTGCTTGA
TAATGACGCTATTG
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