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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GCAATAGATTTTGCCACAAAAATTGCAAAATTTGAAAATCACATTCTTTGTATTCAACTATTAATTGCGTGGCTACATATACTCCCATCAAATACTTGGTTACCAAATCCACCACTATAAAAAAACCAAACTACCCACCTCTAGAATAAAATAACGTCATTTTTCTAATCATCTTTCAATTAAAATTTGTCAGTAGTGATCGTGCATTTCTTCTTTCAAAAGTAATCAAATACGGAGTAATTTGTAATTCAATTAGGAAAATAAATTGCTAAAATAATGTCGATAATCTCGCAATTTTGCCTACTGCCGGTAAAATCCCACACTTCACCTTCACAAACCCAACAGTTTACCACCAAATCCCGGCTCCTTTCTCCAACCCCACTAAACTCGACCCTTTTGAGCTCAGGGGCAAAAAGGGAAATCTCAACCATCACTGTGAAAGCAGCAGCGTCATCAGAGTCATTTGAGTGGGGATCAGAAAAACCCACCACCAGCAGCAACGGCGGTGCAGCGATTGCAGTTGCGGATGAGGAGACGGCAGTGGATGTGGATGAGAATTCTAGGTTGAAGCAACAACTGGTGGATTCGTTTTACGGGACAGATAGAGGGTTGAAAGCAAGCAGTGACACGAGGGCGGAGGTTGTAGAGTTGATTACGCAATTAGAAGCGAAGAATCCAACACCTTCTCCTACTGATGCTCTTTCTCTTCTCAATGGCAAGTGGATTTTAGCGTGAGTTTTCTTCTTACTCTCTCCTTATTTTTTGTTTTTAACTGTTTCATAAATTATTTACGTATTGTGAAATATTGAAAACAGTTGATACTCCCTCCGTCCCGGAATACTCGATCCGGTTTGATCGGCACAGAGTTTAAGGGACTTGAATTGACTTATTTAATTTAATGGGTAGTAGTTGATAGTGGGATATTATTTTAATGTAGTTAGTGGGAAATGTGTTAAGAGGTGGGGTTGAGAGAGAGTAGGGGTTGAATTTTTAATTATTTTTTGTATGGAGTAGGGGTAGGTGGATTAATAGGGGTGGAGTGAGAAATAATATAATATTGTTAGAATATTTCCATTTTTAGAAACAGGTCAAGTATTAAGGGACGACCCGATAAGGAAAACAGGTCAAGTATTCCGGGACGGAGAGAGTATTTGAAATGAATCAAACAAGATCGTATTTGGTCCTCATCACATGAATTCTTTGTATGATTTTTGTTTGTATTTGAATTTGAACCTGATGTGGTATCAATTATCAATTTATCATGGTATGGTTTATAAGTTTGATTAGCTAAATTAGTTGGTAATGGTAAAATGTTAGGGTTGTATATTATATGCATCCAAGAGGCCAAGACAAGACCCAGGATCAAATCCCTTTTACTGTTTTACATCATTGTGCTGCTTTGGGGCTCTTTACATGGTGTTGGCAAGAAATATACCAAATATGTCAAGTTTGGTATAGTGCATTCATTAACTAATGTTTGGTATGAGACTTAATAACTTCCATATTTCTGTGCCTGTGGTAACAGAACACGTTAAGTGCATGCTTGGTATGGAAAAATTGAAGCTGAGAAACGGAATAAAGTAACCCAATCTGTTTTCAGGTGTTTGTTAAAATTAAAATGTAATCCATTCCGTTATCCGACGGTAATAGACTCCTCCAGAATGTTACCCTTCCCTTCTGCGTGGTAACGCAATCCGGTAACCTCCTCTAACAAAGAAATTAGAAGTTGAGCCTCCATTTATCGGAGACTCATCTCATCTCAACCTCCCTTCCCATATCTTATTATCTCTAACAAATTTGGAAATTATGAATTTGTTTAACTGTGCTTCATGCTCTTACCTGAATGGCTGAATCTCAGTAGTATTGATTTTTCTTTCCTCCTGATTGTGGTTTTGATTACTTTGAAAACAAATATCAAAATTTGAGAATCTGGAAAAGAATCTAAAATTTTAAAACTGGAAGAAAAAGTTCCAAAAGATTTGGTTTTGAAATTTTGAATCATTATGATTATCGTGATGGTAAGATAGGGAACAGGTTATTTTTTTGATAAAAAAAGGGAACAGGCAGATGATGTTGGAAAGGGGATTTTATGTTTTTTTGGTTTTTCCAAATATGTCTTATGAAATACTGTGATTCCATTCCTTTTGTAAAACCAAACAACTTTTAACGGTAACACTTATTATTACCTTTTCTCTCATCACTGATTCCATTCCTTTTTCTTTCATGTGATCGTAGTCATCGTACCATACACGCCCCAATACGTGACCCTCCCTCAATCTCCAATCTGATACAAGTACAGTGGACTATTTTCCTTAGTTTATGTATCTAGCACATAATTTTACCCTTTAACATTACCCTTTAACTTTCTAATGTGTTTCCCATTTGGCTATTCCATTTCCTGGATTCATACCCATCATGCACATAATTTCTTTCAATCAGGAAAGAAGTAAAACTATTGGCAAGGATGGATTAGTAAGATTTGCCACTACATTGTTTAAGATAAATATAGGAAGAATATTCATGTTAATGACTCTCTGGAAAAACCTAAGGTTACTCTAAAATGTCGTACTCTCAAGGTCGCAAATATCTTGACCGTTTGCATATTATGAATTATCAAATGTTCACGATGATTCACAAGGAAGCTAGATGTGGAGTCCTAGTACCTAGAGGAGATTTGAGTTTAGGTTTCAAATACAACCTTTTAAAGGCTTTACTAGTTGACTTAATTAACTGTGTGATTGTTGTTGTTTAAAAATGTACATGTGGGTCCTGAGGATATGAAAGCGTTTACATGGATCAAAAGGTCTTGCACACACTAGGGGTACAATACTTCCTCCGTCTTTTAATACTCGCAACGTTTGGACTTTTGCCACTATTCATATAATCTACTTTGACTATTCTTAGTGCTTTTTATATAAGATAAAACATAGTCATGTGGGATCTTGTTAGTGTCGTCTCAATGTGTATTTTCAAAATATCAACTTTTTATAATTTTTGCATAAAGAGAATTTAAGATATAAATGATCAAAGTTGTGCATAGGCATGCGTGAAACTAACAAACGTTGCGAGTATTAAAAGACGGAGGAAGTATATCATTGTACCCTGATTTTTAACATGTTTTGATTAACTTTTATATTATATTTTTTTTAATGGATAAGCATTTTAAAGGGTTACATAGTTAACTTTATATATTATTAGTGACTTTGAAGGGATAATTTTTATTAAAGCGATTTTTTTTATTACTACAATATAATAACTTTTATATTATACCGGAGTAACTTTTAAACATTTTGACTTAACTTTTACTCCGATGTACAATATTTATTGTACACCACCTTTAAATAAGAATTTGTGTACGTGGATAGACTGGTTCATCACTACGAAGAGCTCCTTATGATTTACATTGCTGTTTCTGCAAAAAGTTTCCAGAGCATTTCAATCGATATTACTGTGCTCAGTTTGTCTCAAACTAAATAGGTGATCATCAGTATTTTGAGCTGTTTAGATACCTTAACACTTTGTTCGGTTAACTGGAAATGGAGAGAAATAGAGGGAAGGGAGGGATACAAGCTCCCTTCTTTGGATAAAAGGTTAGGGGAAGGAAGGGAGGGATCCATTTCCCCCCTCTTTAATAAACACCACCCCTCTAAAATAGGAGAGGTTTGGAGGGAAAATGGAGCTCACCTCCCCCCCCTCCCCCCTCCCTCCCTTTCTTTCCCTTCTCCCTTCCTCCTTTTTTCCTCCCCTCCCCTTCCCTTCTATCTTCCTATTGAAACACACCGTAAACTTGATTATGTAATAGCCGCAGTCCAATGCGTGTCACTACTCGAAACACCTTTCTGTTTTGTCTCAAACTAAATAGGTGATCATCAGTTTATGGAGCTGTTTTGGTACCTTAAATCTGATTCTGTAATGGCCGCAGTTCAATGCATGTCATTTGATCTAAACACCTTTCTGTTTTGTCCTGATAAACTCTTTTATAATTGTGTGACCTTTACACTTAGTTTGGATAAGCGGAATTGGAAAGAAAGAGAGGGAAGGGAAATGGAGGGGAACTAGTTGTCTTGTTTGGATAAGGGGTTGGGGGAAGGAAGGGGAGGGGAGGGGTCCTTTCCTTATTAATAAACACCATCCCTCCAAAATTGGAGATATTTGTAGGGAAAATGGAGCTCCACCTTCGCTCTCCCTCCCTTTCTTTCTTTCTCCTCTCCTCTCTCTTCTCTCACCCTCCCCCCCTCCCCCCCTCCATTTCAATTTTATCTTGCTATCCAAATACAGTACGTGTTAATTTCATTCCTTGGTGCAAACAACTGAGTCTAGAACTGACATTCTTCTCTTGCTAGGTGTGCATTCTTATTTTGGAATGATTGATCAGTAAATCATGTGTCTATGGAGTCTATGAAAAGGGTGATTGCTTGTGAAGTTGTGAGTCAAATACCTCTTATTACTGGAATGATTTATCCTCTATTTTTCATTTTGCAGATACACATCATTTTCTGGCTTGTTCCCACTGCTTTCCCAGGGGAAATTACCACTTGTCAAAGTGGACGAAATCTCACAGACTATTGATTCTCAAAATTTAACTGTCCAGAACTCGGTGCAGTTTTCAGGTCCCCTGGCTACCACTTCTCTCAGTACCAATGCCAAGTTTGAAGTCCGCAGCCCCAAACGTGTTCAGGTATCTTTCTAAATGCTTCTTTTGGTAATTTGAGAAGTCTTGATGTTAGACCTAGATTTTTCGGATAATTGTACGCTTTTAGCCCAAATTCAAGTCCTAAGTGTTCATACTCATGCTTGACTGTCATTGTGAGTAGTATCGAAGAGTCTGATAACATTGGGATGTAACTGTTGATGGAGAAAAAATGAGACTAGATGGATGATCACCTATCTGAGCTATTGTTGTTTGAATTGGGACACAGTGGAGATGCATGCATTAGGCGTTATTTGGAATCTAGATTGTGCTTGGTTAAGATATGTTTTCACGAGCCTGTTTCCCTTCAATGAATACTTAGCAGTATATAATTTCTGCAGATATTCATTAACCTTGAGTCCTTGATTTAGCTTATACTTGGTTAGAGATTAGTGTTGACCATTTACTTTTAAATTGCAAATTTAGTAAGCCTATTTTGTAGACGATAATACACTGAGGTTGTGGTAATGAGTTTATGTCATTTTGTAAAGAAAATCTCTTACCAATGTCAATGGCGGTGGTTGTCTATTTCCAAGTATCCCTTTTTCTTTGTTAATTTCTATCACCACTCAATTCTACCTCTAAAAATTGCAATGGAAATTCATGAAGAAAAAGACTTTTAAATAGAACTGATCTTACAAAGTTATATTTCAATCTACCATTAGGTATACGGAGCTATTCTCCAATCTCGATGTAATCCTTAATTTTCTGCATTTGATTTTGTTTATAATTATAAACCGCTTGCAGATCAAGTTTGTTGAAGGAATCATTGGCACTCCCCAGATAACCGACAGCGTAGTTTTACCTGAGAATGTAGAGTTTCTGGGGCAAAAAATTGATCTTACACCTTTGAAGGGCTTGTTTAACTCAGTACAGGACACTGCTTCATCAGTTGCAAGGTCAATTTCCAGTCAACCACCGTTGAAATTCAACATTAATCAAAATGAAGGGTCGTGGTTGCTTACTACCTACCTCGATCAAGAGCTTCGAATCTCAAGGGGTGACGGAGGCAGTGTGTTTGTTTTCGTAAAGGAAGGAAGTGCTCTTTTGTCTCCCTAAACAAAGCTTAATGCCTCTTAATTAATTAGTATACACTGCAATCTAGACTGGGTTACATACTATATATGTAGTCGCAATAAAGCCACCCGTATTTGGTTCAAATGATTATACAGAATGGTAACTAGCTTGAACTGCTACTTGTATATGTTGAACTGCTACTTGTATATGTATATAGTTCAAAGAGATGCTGTAATATGCTTTCAGTGATTATATACAGTAAATTTCAGTCAGTCAAATACAAGAAAGATGAGGTTTTTATTTATTCCCATCCGTCCGACGTTTGGAATTGATAATCACACTTATTTTGCAATTTGAACTAGTAATGTGACAACTAAATCCAGATGGATAGTGTAAAAATCAAGTTATACTTGGTACACAGGTTCATTTTTCTCTCTGTTTGTAAGTGTCATGTTCCCCTTTCAAGGATTTATTTTGTTGTGAATTGCGAGTTAATAATGCCTCATATGTATGTAGGAGAGTAATAAACATCAAGCCGAGCATTATTTGATCAAGGATGTGGTATGCTTCATCATAATACATGGTTGAATCAGGTACGCCGTATGCTGGCTAGCTACTTGCTGTAGTGACTTTCATGGAAGCATTTTAAAGCTTTCCTTTGCACTATAACAGTTCCTACTTCCTACTTACAGTTTTGGTAACTTTAAAACCTTCTCTGTAGTATAAACGTCAGTTCTATTTAACTGGCTTGGAAGTTGGACCTCCTAGCACATTAATAAAATCTCCTGATTTCACTTTGAATAATATATAATACAGGTACTTCTAATCTCCTAATCTCACTTTGAATTATAAATGAAGTAACAAAATCGTCTAAGTTAGTGTTACTCATGTACTATACTGTAGTATAAAAAACATCAATACGTAGTACATCAAATTCTATGATCTTTTATTTTATTCCCTCCGTTTTTAATTAGCAGTCACGTATGCAGGAATCCTGTATTAAACCTCTCTGTTTGTATGGACTGCTTCACGGTGCTTCCATTACAGGAAATACTACACTGCAAATCCTACTACAGGATGACGTTAACACTTAACAGTATATTAAGAAATACAGTTCTTCATTTAGAAATACAGTTTTTCAGATTTTACATAATTTAGGTGGCTGAAATGAAAAATTATTAATGTGTACAATATCATCTCATCAGTGGCATTTACAGCAAAAGAAAATATCAGTGCAAACCTGGTAGAAAACCTCAAGTATAATCCCTCTATACTCAACAGAATTCATTGAAGTGTAACACTTCAATATATACCGGAGGTCCTTTGGATCTTTTATACGGTTTGCTAGTATCACCTCCACCATGGACCGCCTAAAATCTTCCCTTGGATTATGAGAAGATGTCTCCATAGCAAGCATCAGATGTAACCTTCTATTGTTGTTGTTGTTGTTGCTGTTGCTGCTACTACTAGTAGTGGCTTTTTTTACTACCTGCTTTTGCTTCCTTTTTCTTGCCTCAGTTAAATTTCTTGCTTGATCTTCCTCGCTTTCCTTAATCATTTGATTCAATCTCTCTTGGACCATGAAATGTGAGATGGTTGAGATTGATGCGTAACGGTCTGACGACCTAGAGCTTTCACCACCTTCTATTGATGTTCTGCAGTCAGTGCAACATAAGGCTCTGCACCCTCCTGTACCCTTAGACCTGTTGCTCCTACCTTGCATTTTATTGTGAGACATTACTCCTAAGTTTCTTAAAGAGTATGATGTTTATTACATAATTATAATTAGTGGCTTAATTAGCGAAATAAGGCAAGTGGGGTCTGGTTAGTGATGATTGTGTTCTGATTCTGAGAATATTGAGGAATATCAGGAGGGCATGCAGGAAACATTGAGTATATTGATTTGCATTATTATAGTATTAGACATATGGGTGTTATTAAATGATTTGATTATGAGCAATAGATTTTGCCACAAAAATTGCAAAATTTGAAAATCACATTCTTTGTATTCAACTATTAATTGCGTGGCTACATATACTCCCATCAAATACTTGGTTACCAAATCCACCACTATAAAAAAACCAAACTACCCACCTCTAGAATAAAATAACGTCATTTTTCTAATCATCTTTCAATTAAAATTTGTCAGTAGTGATCGTGCATTTCTTCTTTCAAAAGTAATCAAATACGGAGTAATTTGTAATTCAATTAGGAAAATAAATTGCTAAAATAATGTCGATAATCTCGCAATTTTGCCTACTGCCGGTAAAATCCCACACTTCACCTTCACAAACCCAACAGTTTACCACCAAATCCCGGCTCCTTTCTCCAACCCCACTAAACTCGACCCTTTTGAGCTCAGGGGCAAAAAGGGAAATCTCAACCATCACTGTGAAAGCAGCAGCGTCATCAGAGTCATTTGAGTGGGGATCAGAAAAACCCACCACCAGCAGCAACGGCGGTGCAGCGATTGCAGTTGCGGATGAGGAGACGGCAGTGGATGTGGATGAGAATTCTAGGTTGAAGCAACAACTGGTGGATTCGTTTTACGGGACAGATAGAGGGTTGAAAGCAAGCAGTGACACGAGGGCGGAGGTTGTAGAGTTGATTACGCAATTAGAAGCGAAGAATCCAACACCTTCTCCTACTGATGCTCTTTCTCTTCTCAATGGCAAGTGGATTTTAGCATACACATCATTTTCTGGCTTGTTCCCACTGCTTTCCCAGGGGAAATTACCACTTGTCAAAGTGGACGAAATCTCACAGACTATTGATTCTCAAAATTTAACTGTCCAGAACTCGGTGCAGTTTTCAGGTCCCCTGGCTACCACTTCTCTCAGTACCAATGCCAAGTTTGAAGTCCGCAGCCCCAAACGTGTTCAGATCAAGTTTGTTGAAGGAATCATTGGCACTCCCCAGATAACCGACAGCGTAGTTTTACCTGAGAATGTAGAGTTTCTGGGGCAAAAAATTGATCTTACACCTTTGAAGGGCTTGTTTAACTCAGTACAGGACACTGCTTCATCAGTTGCAAGGTCAATTTCCAGTCAACCACCGTTGAAATTCAACATTAATCAAAATGAAGGGTCGTGGTTGCTTACTACCTACCTCGATCAAGAGCTTCGAATCTCAAGGGGTGACGGAGGCAGTGTGTTTGTTTTCGTAAAGGAAGGAAGTGCTCTTTTGTCTCCCTAAACAAAGCTTAATGCCTCTTAATTAATTAGTATACACTGCAATCTAGACTGGGTTACATACTATATATGTAGTCGCAATAAAGCCACCCGTATTTGGTTCAAATGATTATACAGAATGGTAACTAGCTTGAACTGCTACTTGTATATGTTGAACTGCTACTTGTATATGTATATAGTTCAAAGAGATGCTGTAATATGCTTTCAGTGATTATATACAGTAAATTTCAGTCAGTCAAATACAAGAAAGATGAGGTTTTTATTTATTCCCATCCGTCCGACGTTTGGAATTGATAATCACACTTATTTTGCAATTTGAACTAGTAATGTGACAACTAAATCCAGATGGATAGTGTAAAAATCAAGTTATACTTGGTACACAGGTTCATTTTTCTCTCTGTTTGTAAGTGTCATGTTCCCCTTTCAAGGATTTATTTTGTTGTGAATTGCGAGTTAATAATGCCTCATATGTATGTAGGAGAGTAATAAACATCAAGCCGAGCATTATTTGATCAAGGATGTGGTATGCTTCATCATAATACATGGTTGAATCAGGTACGCCGTATGCTGGCTAGCTACTTGCTGTAGTGACTTTCATGGAAGCATTTTAAAGCTTTCCTTTGCACTATAACAGTTCCTACTTCCTACTTACAGTTTTGGTAACTTTAAAACCTTCTCTGTAGTATAAACGTCAGTTCTATTTAACTGGCTTGGAAGTTGGACCTCCTAGCACATTAATAAAATCTCCTGATTTCACTTTGAATAATATATAATACAGGTACTTCTAATCTCCTAATCTCACTTTGAATTATAAATGAAGTAACAAAATCGTCTAAGTTAGTGTTACTCATGTACTATACTGTAGTATAAAAAACATCAATACGTAGTACATCAAATTCTATGATCTTTTATTTTATTCCCTCCGTTTTTAATTAGCAGTCACGTATGCAGGAATCCTGTATTAAACCTCTCTGTTTGTATGGACTGCTTCACGGTGCTTCCATTACAGGAAATACTACACTGCAAATCCTACTACAGGATGACGTTAACACTTAACAGTATATTAAGAAATACAGTTCTTCATTTAGAAATACAGTTTTTCAGATTTTACATAATTTAGGTGGCTGAAATGAAAAATTATTAATGTGTACAATATCATCTCATCAGTGGCATTTACAGCAAAAGAAAATATCAGTGCAAACCTGGTAGAAAACCTCAAGTATAATCCCTCTATACTCAACAGAATTCATTGAAGTGTAACACTTCAATATATACCGGAGGTCCTTTGGATCTTTTATACGGTTTGCTAGTATCACCTCCACCATGGACCGCCTAAAATCTTCCCTTGGATTATGAGAAGATGTCTCCATAGCAAGCATCAGATGTAACCTTCTATTGTTGTTGTTGTTGTTGCTGTTGCTGCTACTACTAGTAGTGGCTTTTTTTACTACCTGCTTTTGCTTCCTTTTTCTTGCCTCAGTTAAATTTCTTGCTTGATCTTCCTCGCTTTCCTTAATCATTTGATTCAATCTCTCTTGGACCATGAAATGTGAGATGGTTGAGATTGATGCGTAACGGTCTGACGACCTAGAGCTTTCACCACCTTCTATTGATGTTCTGCAGTCAGTGCAACATAAGGCTCTGCACCCTCCTGTACCCTTAGACCTGTTGCTCCTACCTTGCATTTTATTGTGAGACATTACTCCTAAGTTTCTTAAAGAGTATGATGTTTATTACATAATTATAATTAGTGGCTTAATTAGCGAAATAAGGCAAGTGGGGTCTGGTTAGTGATGATTGTGTTCTGATTCTGAGAATATTGAGGAATATCAGGAGGGCATGCAGGAAACATTGAGTATATTGATTTGCATTATTATAGTATTAGACATATGGGTGTTATTAAATGATTTGATTATGA ATGTCGATAATCTCGCAATTTTGCCTACTGCCGGTAAAATCCCACACTTCACCTTCACAAACCCAACAGTTTACCACCAAATCCCGGCTCCTTTCTCCAACCCCACTAAACTCGACCCTTTTGAGCTCAGGGGCAAAAAGGGAAATCTCAACCATCACTGTGAAAGCAGCAGCGTCATCAGAGTCATTTGAGTGGGGATCAGAAAAACCCACCACCAGCAGCAACGGCGGTGCAGCGATTGCAGTTGCGGATGAGGAGACGGCAGTGGATGTGGATGAGAATTCTAGGTTGAAGCAACAACTGGTGGATTCGTTTTACGGGACAGATAGAGGGTTGAAAGCAAGCAGTGACACGAGGGCGGAGGTTGTAGAGTTGATTACGCAATTAGAAGCGAAGAATCCAACACCTTCTCCTACTGATGCTCTTTCTCTTCTCAATGGCAAGTGGATTTTAGCATACACATCATTTTCTGGCTTGTTCCCACTGCTTTCCCAGGGGAAATTACCACTTGTCAAAGTGGACGAAATCTCACAGACTATTGATTCTCAAAATTTAACTGTCCAGAACTCGGTGCAGTTTTCAGGTCCCCTGGCTACCACTTCTCTCAGTACCAATGCCAAGTTTGAAGTCCGCAGCCCCAAACGTGTTCAGATCAAGTTTGTTGAAGGAATCATTGGCACTCCCCAGATAACCGACAGCGTAGTTTTACCTGAGAATGTAGAGTTTCTGGGGCAAAAAATTGATCTTACACCTTTGAAGGGCTTGTTTAACTCAGTACAGGACACTGCTTCATCAGTTGCAAGGTCAATTTCCAGTCAACCACCGTTGAAATTCAACATTAATCAAAATGAAGGGTCGTGGTTGCTTACTACCTACCTCGATCAAGAGCTTCGAATCTCAAGGGGTGACGGAGGCAGTGTGTTTGTTTTCGTAAAGGAAGGAAGTGCTCTTTTGTCTCCCTAA MSIISQFCLLPVKSHTSPSQTQQFTTKSRLLSPTPLNSTLLSSGAKREISTITVKAAASSESFEWGSEKPTTSSNGGAAIAVADEETAVDVDENSRLKQQLVDSFYGTDRGLKASSDTRAEVVELITQLEAKNPTPSPTDALSLLNGKWILAYTSFSGLFPLLSQGKLPLVKVDEISQTIDSQNLTVQNSVQFSGPLATTSLSTNAKFEVRSPKRVQIKFVEGIIGTPQITDSVVLPENVEFLGQKIDLTPLKGLFNSVQDTASSVARSISSQPPLKFNINQNEGSWLLTTYLDQELRISRGDGGSVFVFVKEGSALLSP Relationships
The following mRNA feature(s) are a part of this gene:
Homology
BLAST of Spo20112.1 vs. NCBI nr
Match: gi|902118927|gb|KNA03961.1| (hypothetical protein SOVF_204200 [Spinacia oleracea]) HSP 1 Score: 607.4 bits (1565), Expect = 1.400e-170 Identity = 320/320 (100.00%), Postives = 320/320 (100.00%), Query Frame = 1
BLAST of Spo20112.1 vs. NCBI nr
Match: gi|731350932|ref|XP_010686767.1| (PREDICTED: plastid-lipid-associated protein, chloroplastic [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 461.8 bits (1187), Expect = 9.500e-127 Identity = 244/320 (76.25%), Postives = 282/320 (88.12%), Query Frame = 1
BLAST of Spo20112.1 vs. NCBI nr
Match: gi|567915009|ref|XP_006449818.1| (hypothetical protein CICLE_v10015934mg [Citrus clementina]) HSP 1 Score: 394.4 bits (1012), Expect = 1.900e-106 Identity = 217/329 (65.96%), Postives = 258/329 (78.42%), Query Frame = 1
BLAST of Spo20112.1 vs. NCBI nr
Match: gi|985433661|ref|XP_006467367.2| (PREDICTED: plastid-lipid-associated protein, chloroplastic [Citrus sinensis]) HSP 1 Score: 389.4 bits (999), Expect = 6.000e-105 Identity = 215/329 (65.35%), Postives = 257/329 (78.12%), Query Frame = 1
BLAST of Spo20112.1 vs. NCBI nr
Match: gi|823226130|ref|XP_012445880.1| (PREDICTED: plastid-lipid-associated protein, chloroplastic [Gossypium raimondii]) HSP 1 Score: 385.2 bits (988), Expect = 1.100e-103 Identity = 213/329 (64.74%), Postives = 251/329 (76.29%), Query Frame = 1
BLAST of Spo20112.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QBN7_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_204200 PE=4 SV=1) HSP 1 Score: 607.4 bits (1565), Expect = 9.700e-171 Identity = 320/320 (100.00%), Postives = 320/320 (100.00%), Query Frame = 1
BLAST of Spo20112.1 vs. UniProtKB/TrEMBL
Match: A0A0J8EM79_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_8g185400 PE=4 SV=1) HSP 1 Score: 461.8 bits (1187), Expect = 6.600e-127 Identity = 244/320 (76.25%), Postives = 282/320 (88.12%), Query Frame = 1
BLAST of Spo20112.1 vs. UniProtKB/TrEMBL
Match: V4TR92_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10015934mg PE=4 SV=1) HSP 1 Score: 394.4 bits (1012), Expect = 1.300e-106 Identity = 217/329 (65.96%), Postives = 258/329 (78.42%), Query Frame = 1
BLAST of Spo20112.1 vs. UniProtKB/TrEMBL
Match: A0A067GF90_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g020639mg PE=4 SV=1) HSP 1 Score: 389.4 bits (999), Expect = 4.200e-105 Identity = 215/329 (65.35%), Postives = 257/329 (78.12%), Query Frame = 1
BLAST of Spo20112.1 vs. UniProtKB/TrEMBL
Match: A0A0B0MMK7_GOSAR (Plastid-lipid-associated, chloroplastic OS=Gossypium arboreum GN=F383_26283 PE=4 SV=1) HSP 1 Score: 385.2 bits (988), Expect = 7.800e-104 Identity = 213/329 (64.74%), Postives = 251/329 (76.29%), Query Frame = 1
BLAST of Spo20112.1 vs. ExPASy Swiss-Prot
Match: PAP_CITUN (Plastid-lipid-associated protein, chloroplastic OS=Citrus unshiu GN=PAP PE=2 SV=1) HSP 1 Score: 394.4 bits (1012), Expect = 1.200e-108 Identity = 217/329 (65.96%), Postives = 258/329 (78.42%), Query Frame = 1
BLAST of Spo20112.1 vs. ExPASy Swiss-Prot
Match: LIPC_SOLTU (Light-induced protein, chloroplastic OS=Solanum tuberosum PE=1 SV=2) HSP 1 Score: 374.0 bits (959), Expect = 1.600e-102 Identity = 212/332 (63.86%), Postives = 247/332 (74.40%), Query Frame = 1
BLAST of Spo20112.1 vs. ExPASy Swiss-Prot
Match: LIPC_SOLDE (Light-induced protein, chloroplastic OS=Solanum demissum PE=1 SV=1) HSP 1 Score: 369.4 bits (947), Expect = 4.000e-101 Identity = 209/332 (62.95%), Postives = 245/332 (73.80%), Query Frame = 1
BLAST of Spo20112.1 vs. ExPASy Swiss-Prot
Match: CHRC_CUCSA (Chromoplast-specific carotenoid-associated protein, chromoplastic OS=Cucumis sativus GN=CHRC PE=1 SV=1) HSP 1 Score: 366.3 bits (939), Expect = 3.400e-100 Identity = 198/322 (61.49%), Postives = 246/322 (76.40%), Query Frame = 1
BLAST of Spo20112.1 vs. ExPASy Swiss-Prot
Match: PAP2_BRACM (Plastid lipid-associated protein 2, chloroplastic OS=Brassica campestris GN=PAP2 PE=1 SV=1) HSP 1 Score: 365.5 bits (937), Expect = 5.800e-100 Identity = 186/252 (73.81%), Postives = 218/252 (86.51%), Query Frame = 1
BLAST of Spo20112.1 vs. TAIR (Arabidopsis)
Match: AT4G22240.1 (Plastid-lipid associated protein PAP / fibrillin family protein) HSP 1 Score: 354.4 bits (908), Expect = 7.500e-98 Identity = 180/253 (71.15%), Postives = 214/253 (84.58%), Query Frame = 1
BLAST of Spo20112.1 vs. TAIR (Arabidopsis)
Match: AT4G04020.1 (fibrillin) HSP 1 Score: 352.4 bits (903), Expect = 2.800e-97 Identity = 192/321 (59.81%), Postives = 236/321 (73.52%), Query Frame = 1
BLAST of Spo20112.1 vs. TAIR (Arabidopsis)
Match: AT2G35490.1 (Plastid-lipid associated protein PAP / fibrillin family protein) HSP 1 Score: 239.6 bits (610), Expect = 2.700e-63 Identity = 133/256 (51.95%), Postives = 168/256 (65.62%), Query Frame = 1
BLAST of Spo20112.1 vs. TAIR (Arabidopsis)
Match: AT2G46910.1 (Plastid-lipid associated protein PAP / fibrillin family protein) HSP 1 Score: 55.5 bits (132), Expect = 7.200e-8 Identity = 68/251 (27.09%), Postives = 110/251 (43.82%), Query Frame = 1
BLAST of Spo20112.1 vs. TAIR (Arabidopsis)
Match: AT5G09820.2 (Plastid-lipid associated protein PAP / fibrillin family protein) HSP 1 Score: 52.4 bits (124), Expect = 6.100e-7 Identity = 44/167 (26.35%), Postives = 79/167 (47.31%), Query Frame = 1
The following BLAST results are available for this feature:
BLAST of Spo20112.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr) Total hits: 5
BLAST of Spo20112.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL) Total hits: 5
BLAST of Spo20112.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt) Total hits: 5
BLAST of Spo20112.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR) Total hits: 5
InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
RNA-Seq Expression
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