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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.AATAAAACAACCAAAAAAAGAGGAAGGAAATCAGCAATCTCAACAGATTTTTCGCGTCATTGTCTTGCCTTCATATTCTCCGGTGCTCCCTCTATTCCCTCCATTCAAAATTCTCTCTTTCTCCAAATTCTTCTCGAAAAACCCTAAATCCCCAATTTCTCTCTCCACCAATTTCGCCATGCAAACATTGATTAATCCAGGCCACATTTCTACCTCATCTTCGATCAACACCTCCTTCAAATCCCTGATTCCCCGAAGATTTCCCGCCCAATCTTCATCATTGAAGTTTTCAGTCGACAATGGAGGTGGTGGTTTTAAGGGTGGTTTGAAGGCTGTTGCAGCGGATACTAAGGCGGTGGATTCTCGCCCTTTTGTTGTCATTGATAATTATGATAGCTTCACCTATAATCTCTGCCAGGTTTGTATTTTTGTTTTTATGTTTTTGGATTTTATTATTGATTGAGATAATTTATTGTTGCATTTTGCATGTGTTCTTTTGAATTAATTATGCTCATTTTTTGAATTAATTGTGTATTTTTGAGTGGATTTTTTTAATTCGGTTTTGTGAATTGAGTTTTGGTGAAATTGAACTTAGCGGGACAAATTGAATAATTTGATTTTAGAAGTTTGGATATATATATATATATATATATATATATATATTTTTAGTTATTTTTCTTGAATTTTTTTGTTGACTGAGATTATTGATTGTTGCATGTGATATTGTGAATTGATTCTGAGTTTATTAAATTGAAGATTTTTCCCCTTTTTGGCGAATACTTTTTTTGCTTCTGACATGAAGTGATGATTGGAAGTGGAAATTAGGTGGATTGTTCAATTTGGTTATGTGAATTGAACGTAGCTGGACAAATTGAAATTATTGAATAATTTGATTTTAGAGGTTTAATATTATCTATTTACCTCACTGCGAAAAACTGATTATTGTTTATTTTGGAGAGAAGGGTCAGGATTAATATTTTGGGTTGGAGGTGGAGGGGCGGATGAGGGTGGAAGAATAATCAATGGGGGGAGAGAATTGTATATTCTAAGGGACTAATGTAGGAATTTGAGATTCAGTTATTGGACCACTTCTGATGGTCATTCAATAAGTTTAGATAATCTGAAGATATCTAGTCCGTTGTGCAATGTAGAATTTGGAAGTTGTTTGATACCAAATGGTTGTGTTTATAAATGATAACGACAAATGCGGATGTTCGTATAACTAGATTGAGTCGAGAAGCTACAGAACTCTTGGAGTTCAGTAAATAACAAACAGTTGTAGTATGTAGAACATATTGCCGCGTGGAATTTTAGAAATTGGTTGATAGGATAGGGTGGCAGGTTATAAATAGTAACAAACTAACGACAAAAGCAGTTAAATTGGTTGATACAAAATTGTGGCTTGTAATAGTTGTAACAACAATTGTGATTAAATTTCTTTGACGAGCTTCCAACTAAATATAGCCGAAAAGCAACTAAAAGTTTATGAAGCCCCTGTCATTGTCTGAAGAAGTTTTTACTGTACTCACAACATGCCACCCTCAAGTGAATTGTCGTATTCATGTTTGTGTGTCTTTTCGAGCTCGTGTATTCGATTGCTAATGGACTTTACTTCTCTGATACAGTTAGGTGATGTATGTATCCTGATTTCATGATTTTCGGGTTGGTAGAGTGTTGCTGGGAACAAGAGGGTAAGGCTTGGGGAAATGGTTATTGTCAAGAGGTGTTGTATTGAATCAACGGAATAGGACACTAGGAATCTTCTTTATAGGAAAACGGGAATTGCATGGAACTTTGGGTTTCAACTATAATTTTGATATTCACTTGAGATAACTCATCGAAAGATGACGATTGGGAAGTTTTCGACTACTAGCCTCATGCGGAGTTAAAGTGATAAATAAGCTTTTACTGATATTTTGAAAATAGATACCGAGACCAATCTAACACGTTCTTAAATGATAACGTTTTGATTTATATAATAGTGAGAATTTATGGTCAAATATTTTCATACTTAGAGATATTCTACAGCGTAAAGAACTTTATGCATGGTATTAGGCATGCAATTTTTGTTTGCTTTTTTCTTAGAGCTTTATGCTCGATATGATAGTTAGCTTTAGTTGAGGGAGCTGTTATCCCTTCATCTCCTAGCTTAACGGTCATGGATTTGGTGCTCATCCTACCCTTGTGGGGATGCCCCTCTTTTTCCCTCTTGGCGAGGGCACCTTACTTGTCCAAAATGGCTCTTCATGAATAAGGCTGCTATTTTGCGATTTTAATCAGAAGTAAGATGTGCAAACTCTAAAATTTTTCACCAATGCAGAAGAGATCCAACATTTGAAATCTGTTATTCCAATTGCCGGATATTGTGAGACATACTCCAAGTCTTTTTCTCTGTGTTCTTATCCAAACTGGATAGGGGATTTAAGTACCCTCTGATATTGTCGCTTTATCTGAAATTATTACCGGGTTTAAGTTCGAAACTTGGATGAATATTTGTTCACTTTTGATTTAAAATTTATTTTATTAAATGTCATTTAAGTTTTGGTCTCTAGAAAGCTGTTATCTTACACTTAAACATTATGTTGTTTCCATTTTCAAGTATGTGGGAGAATTGGGCACAAACTTTGAGGTATACAGAAATGACGAGATCTCCGTGGAAGAATTGAAAAGGTAAGGCGGAAGATTAGTGGTTGTGTTTATTTTATTTATTTATTTCATGGTATTTGGTGCTTGCAAATGTGTTTGAAACTTTGACATTGTATCCATATTTTTTGGATCTTCAATCGTAGATTAATGTTAATTAATGTTTTTAAAACTGTCATACCAGGAAAAATCCAAAGGGAATCCTTATATCTCCAGGTCCAGGTGAGAGCTTTTGCTTATTTTCTTTCAGAAACTTAATGTACTATCTACTCCTTTCTTTATAGTTGCATCAATTGGGTTGTGCATAAGATTTAAGAAAGTGAGTAAAGGGCGGGAGAGAGTAAAAGGTGGAGATACCAAAAATGTCCATGTCTTAACGAACAAAGGAGATAGATAGATGCAATAGATATGAAAACTTTTGAAAGAGGAAATTGACACAATTAATAAAGATCGGAAGAAGTATAAGTATATCCTTTGATGGGAATCATAGGATCATGGGAGTCAAAGATTAATAATTCTTTGCGTTTTGACTTTAAATGGACTACTTCAAATGGCTCATAAAATTGAGTAACTCCTTATTATCATCCTCGTATCAGATCTTGAAAGAATTTCTCATGAGTCTCATCTAAGGTTACATATATTTCACCCACCCACCAAAATCTCTGCCAAGGATTGGAGCATTTTTAGAGGCGTTGGAGTAACGTTGGTGTGGACTTTATAGCGTCCTGGTAGAAGATCCGCCCTATTCATGTTTTCTAGAATGTTGAAAGTTTGGCACAATGTGCAGCTTTGCACGTTCAGCTTTGTACGTAGATCTACGAAAGAAAAAAGAAAGGGAGAAAAATAAGAAAGAGAGAAAGTGACAATAAAGCTATAGAGTTCATAAGATGAGGCATAGCCTTAAGCTTTTACTCAAATCATATATCCATATGTGGGTATCTTTTTGGCTAGCGCTCAGGATAGTATTAGGTTAGGTGAACAGCAAAATATCTTGTTCTAACGTAGCTTATGACTGATGGGTAATTGGGTTCGTTTGTTCTACTCTTGTGTAGTTCTCCTAGTATATGGCTTCAAAGTTCAGAGACATCTCCAGTTGTTGTACTACTATATTTTCCTTTTTGAATTAAGTGATACACTGATAGGGCTGATGTTTAGGACCTCAAATTTGACATTGTTTTGAGGATCCAATGATTATTAAGGAGATCCGTGTGCGTACACTGTAAAAAATATGTCCCATTTTTTCTGAGTTCTGGACAACTCTTGTTTGAGGATTTGAATTGTACATGCATGTAGTATTGTAATACTTCCAACAATTTATACTTGTTTCTGTTAACTGAAACCCATAATTTCTGTATCACATACTTCGCATATGTATGTCCCTGTACAATTGCTGTTGTAATTTGATATTGCCCTTGCTAACCACACCCGCTCATGCGTTTCCGTTAAAAGGTACACCACAAGACTCGGGAATCTCTTTAGCTCTTGTGTTAGAATTGGGTGCCACTGTACCGATATTTGGTGTTTGTATGGGCCTCCAGTGCATTGGAGAGGCTTTCGGAGGTGAGAATTCACTCTGTTTCTCATTTTACCTGGGGACTCTTTTATACATCAGATTGACGTGATGCTGCTTCACATTCTGTTTTAACTTCTCTGTCTACTCATGATGCTGTTAGTATTGCTGTTTTTCCTTGGGCATATTCATATTAAGTTGTTATTTCTTTGGAGGGATTATTTTCTTAGTTTATGGCAATAAGTACCTGTTGGCCTAGCTTGTGGGCAAGCTTCTGAGCCCAAGGAGCTGAAACTTGGCCAAACGGGTGTATAAATAAAGTAACTTCTACTTTTGGAGAAGCCCACTGCACAAGCAATTACTCGAGAGAAGCAGAAGCTACAAAATCAAGCTTCTCGTTCTAGCTTCTTGGGGAGCTGTTCCTACCTTTAATGAACTTTTCACAGAGACCAATATACCCCCAGGCAGCAAAAGTCATAAAGACTAGATACCCTCAAATAAAAAAGAATCACAGAACCCTCCGTTTCTTCCATACCAGATTGCCTGCACATTTGCTGGATCTAGAAACCTGTAGGCATGTGTAGTAGCAATTGTCCTCCCTCATTTTTCTTCCAGTTTTTCTACAAAACTAATCAAGAATAGACGATGAAGGACTTTTGTGCGGTTGATGCGCTACTGGCGTCGATGCGCTGGTGGAGAGAGAAAATGACAGTTAGGGGTAATTTTGGGCTGTTAATTGGCAGCCCATCAAAGTCGATTGTAGTTTCCAGTGACAGTGAGCTTGATTATGAGATACGATATAAGGGTGGCAGCCATTGGGGAGACCTGAATCAAAGAAAAATCTAACCCTTTGATCTAGTGGTCCTCTCTTCGTGTTGGATGTTCTCTTGCATACCATTAAATGACTGTATTATAGTAAATCAAACCCTTTATTTAATCAAACGACTTTGCTCTAGTGATTTCAAAGTAAAGATTCATTGTTCAACTAATTGGGGCTTTAGGGGTGTTGGAATTGAAATAACTCAATAAGAGTGTGAGTATACAATCAAACACAAGTATATGGATTTTTTGATGCAAAGCCACAAGTAAATTCAGTCGGAATTCGGAAGCGTTAAAAAAAAACCAAGTATAAAGAAAAATATATTTTTCACTTTAAATGTTCATAATCTTCCTATGAAGTATATATTGTAATTGAAGTGTCTATCAACTTTGAAAGAAAAAACAAACAAAAAAATATGGGCTAAACAACATAAAAGTGTTTCTGCCGCTAAGAAGTGCTTCTAAATTGATTAGGCCAAACAACTCAAAATTTCTCTAGAAACAGTTTCTAAAAAACTACTTCCAAGAAACAGAAACAGTTTCCTAGAAGCTTGGCCAAACAGGCCCTAAGTATAAAATACTGGAATAGATTTTTGGTTTTGTCTAAGCTCTAAACATTAACAAGCAGGAGAAGGGTAGATGACACACCAAAATAGTTCTTGTACTTGCAAAATTGTGAGTTGCAAATCCTAAAGTATGATCATGTACTAAGGTCAAAAGGCACTACACAGGATTACAGGAGTCCTGAGCTTATAATGTGAAGTTGCGAACCATAAATGCTGTTCTACTTGCGATGTTAAAAATAGTTAACTGGAGCTGTTTCAGTGCAAGACATAGCTGTTATTGAAAGTCAGGGGGAGGGGGAGGATATCTGTAATTCTCTCCAGTGTTTCAGTTATTCTATGATTCTATGAAGTATGAACTGCATAGAAAAATAACTTCTGTATTTTTACTGTAAGATTTCTTCATTCATGAGCGCATTGAAAGGAATTTAACTAAATTAGTGGGGAAAATTTACGGAGGGGGGAAATTAAATTTCTGTGGGTGAGTGGGGGATACAGGAAGAGGGAGGGAAAGAAATATATGTAAATAAATTGATTCAGCAATCACGGTTTTAATTTACTTTCTAGTCTCAAATAGAGCTATAGGAAATCTTTAGCTTTCTTACAGCTTTCATTTTATTTCAAAACTTTTAATCAATATTTCCTTGTTCAGTATAAGTACGGAGTATAATTATCAAACCTCAACAAATGAGGAATTTGTATTGTCTTTTACAACTTTTCTACAACATAGCCTGAGTTAAGTCTACCCATTGAATTGTGATCATAGCCCTCCTTTCCTAAAAAAGCCCTTATCAGGCTCACTCTTGAGGAGTTGGGGGATGATTTGGATGTCCAGAGATTTTTGTTCTTCCAAATGGGAATGGCTTAATTAATTTTTTTGAAGGACGACAGAGCGGTTAGCAGGCCCTATCAGTTAATACTCCCTCCGTATTTAATTAAAAGATACACTTTAACCGGCACATAGTTTTAGGAGAGTGAGTTGAATTTATTAAATAAGATGAAAATGGGATAGTAGGTGAACCATTTATTTTAGTAAAAAGATGATGTGAGTAAGTGTTGGGACACAAGAAGGAGAGAAATATTAATATAATTAGAAGTGGGGACCATGACATGTCAAAAAAAGGAAACTGTATATTTTGATTAAATACGGCCGATTAAAGAAAGTGTATCTTTTAATTAAATACGGAGGGAGTAGATTTTTGCAATCTACTTAATCTGGAAGAATATGGAAGTCTTATTATAGTATAGCTAGCACCAGTTGCGCCTTCTTTTTTCTTAGTCGTAATTCTTGCTTGTTTTCTGCATGTGAGGCTTCTTAATTCCTTGAAGAGGATATTTCCATGGTATGGAGAAACTTGGGGAGAGATGGAGCGGGAGATGTGTTCATTTTAGATACAGAGGGTCTATAACTACTCTTATTCTGATAATCTGATGTAGAGTTTTTTCCGGTTTACTTTTGTCTTTATCAATACCCACTGTTGAAGCAATGTTATTTTTATGCCTTGCTATCATAGTGATAGCCTTGTTGAGGATTCCACCTGTGGTGATTTCTTTCATGGCCTGGAGTGCCATGTGTCACTCATGTTCTGCCATTCAAATTTCTTCAATAAACCATATTCATGGAATCAATAAAGAAGTTCCCTTGTAATTCCTAGAAATACAGAATGTCAAAATAAGCTAAACTACTTGTAAGGGCGTACGCTCCATTTTTTATTTATATTAATGCATTATGTGATTACTGCAGTTTTTTTTATTTTGCTGATGAATCCTATTCCAAGTGTGCGTTTGTCACATGTACAGGCTTTTTCTCTTCTGATATATCATGTTACCATGAATGATTTTACAGGGAAGGTTGTGCGTTCCCCATATGGGGTTATGCATGGGAAAAGCTCACCTGTATACTATGATGAGAAGGGGAGCAATGGCTTGTTTTCAGGTTTACCCAAGTAAGTGTTTTGTTGTGTATAGTGTTCATACGTTTAATGGTCTAGATCATAGAGTCATGCATCAGAACTACAAAGTGCTATAAGTGAACCAATTTTGCAAGTGTTTCATAACAAGGTTAAGAGGCAGTAAATTTGTTTAAATGGACGCTTCTTTTATTTAGATCTACAGCTATGCTTTTTAGGAAATAGCAAAAGGTGTTGGTTGTATCATTTAAACTGTTTCATTAGTTCTTACATGCAGAAGAGGACCTTGGTTCCATTCTTCGTTGAACTTAAGCTATGTTGTACTAGATTTCTGGGTTGCCTTCAATTTGAATGAATATTGTGGCACAGAAATATAGTGGTTTTTGGTAGGGCATGAGACACACAGTCTCATGATGGGACTCCCATCTATCAGGACTAAGTGCCTGATGCCTCTGTTCACAGCTGTCTTCTCTCTTTGTTAAATGTCATTGTTTTCTGAAGAAGCTAGCTTTTGCTTCTCTTAGGCTCTGTTTGGTAGGGTGTAAAACGTTTTCATGGAAAACGATTTTCTTCTTTACAACCATCTTACGTTGTTCGGTTTGGCAAGGGATGGAAAACAATTTTCCACAACTCCCTTGAAGGTGGAGAAACATTTTTCATTTGAAAGGTTGGGAAACCACCTTTCCTCCTTACCTCCCTCTCCCTTCTTCCCCTCAATCTTCATCATTTTCTCCCATTTTCTTTTAAGGAACCAAATAAAGGAAAACTAGTTTGGAATTGTGTTTTCCCTTGGAAAATGTTTTCAATGGAAAATCATTTTGCACTGAAAACGTTTTACACCAAACCAAACGGAGCCTTAATGTTTTTCCCCCTGATTTTGATGTAAACATTTCTAGATATGATGTACCTTCTATTTCCAGACTATAACAATGGTAGTTGTTCAATGTTATCAGCCCCTTCACTGCTGCAAGATATCATAGCCTCGTGGTTAGAAGGGATGGCTTTCCTGAGGAGCTTGAAATTACCGCATGGACCGAAGATGGGCTTGTCATGGCTGCTCACCATAAAAAATACAAATATTTACAGGTAAAAGCAGTTGTCTACAGCTTTATGATCTGTTTGAACCTCATGCCCCCCTCCCCCCTCGGCAAATAAAAAGAATGAGCAAAAAGGAAAAGAGAAAAGAAAAGTCTGTGCTCAACTGCCCATATAGATCTGTGACTTTCGCTTCAGTTTGAGACATGAATGTTTGAGCAAGTCTTTCCTTGCATTTTGTAGTTTGAGGATGTTGATATCTTTCCTTTTTAAGCAATATTTTCTTGGGCTTCCCTTGTCATATTAGTTCTAAATGATCCATACGTTATCCCCTTCTGTCGCTTTGTTCATCTATTATAATTGATTATGGTATATTCTAAAGTGAGGAGACTGAAGAGCGTCGAGAGACTCGAGACAGGAGATACATGTGGAATTTATAATCACTTATGTAATGTTTTTGTTTATTTGAAAGAAACAGCAAACAGGAGTGGGTTTGTCATGTTATTCTGAAGTCTTAAATACTGCACTTTTTGTATTTTCTGTGGTATTTATAAGGGGGGCTCATTCCGTGTTGGGAGATAGTTCTTCTAATTGTGCATGCCGTCTTTCGGAAATCAGACATTGTTAACACTAATTTCATCGATGACTTGATTTGCAGGGAGTCCAGTTTCATCCTGAAAGTGTTCTCACTCCAGAAGGAAAGGGAATTATTAAGAATTTCATCAAAATGATCGAGTGATTGAAACAAAGATTTTTACCTTAGAAGCTCTTAAAATGGTAAATGTTGTTGTAGAAGCTGTTCAAGGAATTAGGTCTTTTGGCATCAAGAATCAAGATGAATGTAATCGTTATTGAAACAGTAGATCCAAATCTTGTTATAGTTGATTAAAAAAGCGGAGTTCCTAAGATAGTGTAATTATTGTAATAAGTCTATAGGGTATTCCATGAAGAAACACCTTTTAAAAGTCCTCCATTATGTGAACAAGTATCTTTTCATGCTTCGTATTTCCTACTGAGGGGAAACATCATTTCAGACTAGAAGTCTGAAAACTTCCTCTTTTCTTTTAGTCCGACTATTCGCTTAGTGGTTGATGTAACCCGAAAAAAGAAAAAAGGTCGAGGTCACCTTATCGTCCCGTCCCTATATCGCTTCAATTTGTCCCTTCCCCACCTAATCCCAATAAAACAACCAAAAAAAGAGGAAGGAAATCAGCAATCTCAACAGATTTTTCGCGTCATTGTCTTGCCTTCATATTCTCCGGTGCTCCCTCTATTCCCTCCATTCAAAATTCTCTCTTTCTCCAAATTCTTCTCGAAAAACCCTAAATCCCCAATTTCTCTCTCCACCAATTTCGCCATGCAAACATTGATTAATCCAGGCCACATTTCTACCTCATCTTCGATCAACACCTCCTTCAAATCCCTGATTCCCCGAAGATTTCCCGCCCAATCTTCATCATTGAAGTTTTCAGTCGACAATGGAGGTGGTGGTTTTAAGGGTGGTTTGAAGGCTGTTGCAGCGGATACTAAGGCGGTGGATTCTCGCCCTTTTGTTGTCATTGATAATTATGATAGCTTCACCTATAATCTCTGCCAGTATGTGGGAGAATTGGGCACAAACTTTGAGGTATACAGAAATGACGAGATCTCCGTGGAAGAATTGAAAAGGAAAAATCCAAAGGGAATCCTTATATCTCCAGGTCCAGGTACACCACAAGACTCGGGAATCTCTTTAGCTCTTGTGTTAGAATTGGGTGCCACTGTACCGATATTTGGTGTTTGTATGGGCCTCCAGTGCATTGGAGAGGCTTTCGGAGGGAAGGTTGTGCGTTCCCCATATGGGGTTATGCATGGGAAAAGCTCACCTGTATACTATGATGAGAAGGGGAGCAATGGCTTGTTTTCAGGTTTACCCAACCCCTTCACTGCTGCAAGATATCATAGCCTCGTGGTTAGAAGGGATGGCTTTCCTGAGGAGCTTGAAATTACCGCATGGACCGAAGATGGGCTTGTCATGGCTGCTCACCATAAAAAATACAAATATTTACAGGGAGTCCAGTTTCATCCTGAAAGTGTTCTCACTCCAGAAGGAAAGGGAATTATTAAGAATTTCATCAAAATGATCGAGTGATTGAAACAAAGATTTTTACCTTAGAAGCTCTTAAAATGGTAAATGTTGTTGTAGAAGCTGTTCAAGGAATTAGGTCTTTTGGCATCAAGAATCAAGATGAATGTAATCGTTATTGAAACAGTAGATCCAAATCTTGTTATAGTTGATTAAAAAAGCGGAGTTCCTAAGATAGTGTAATTATTGTAATAAGTCTATAGGGTATTCCATGAAGAAACACCTTTTAAAAGTCCTCCATTATGTGAACAAGTATCTTTTCATGCTTCGTATTTCCTACTGAGGGGAAACATCATTTCAGACTAGAAGTCTGAAAACTTCCTCTTTTCTTTTAGTCCGACTATTCGCTTAGTGGTTGATGTAACCCGAAAAAAGAAAAAAGGTCGAGGTCACCTTATCGTCCCGTCCCTATATCGCTTCAATTTGTCCCTTCCCCACCTAATCCC ATGCAAACATTGATTAATCCAGGCCACATTTCTACCTCATCTTCGATCAACACCTCCTTCAAATCCCTGATTCCCCGAAGATTTCCCGCCCAATCTTCATCATTGAAGTTTTCAGTCGACAATGGAGGTGGTGGTTTTAAGGGTGGTTTGAAGGCTGTTGCAGCGGATACTAAGGCGGTGGATTCTCGCCCTTTTGTTGTCATTGATAATTATGATAGCTTCACCTATAATCTCTGCCAGTATGTGGGAGAATTGGGCACAAACTTTGAGGTATACAGAAATGACGAGATCTCCGTGGAAGAATTGAAAAGGAAAAATCCAAAGGGAATCCTTATATCTCCAGGTCCAGGTACACCACAAGACTCGGGAATCTCTTTAGCTCTTGTGTTAGAATTGGGTGCCACTGTACCGATATTTGGTGTTTGTATGGGCCTCCAGTGCATTGGAGAGGCTTTCGGAGGGAAGGTTGTGCGTTCCCCATATGGGGTTATGCATGGGAAAAGCTCACCTGTATACTATGATGAGAAGGGGAGCAATGGCTTGTTTTCAGGTTTACCCAACCCCTTCACTGCTGCAAGATATCATAGCCTCGTGGTTAGAAGGGATGGCTTTCCTGAGGAGCTTGAAATTACCGCATGGACCGAAGATGGGCTTGTCATGGCTGCTCACCATAAAAAATACAAATATTTACAGGGAGTCCAGTTTCATCCTGAAAGTGTTCTCACTCCAGAAGGAAAGGGAATTATTAAGAATTTCATCAAAATGATCGAGTGA MQTLINPGHISTSSSINTSFKSLIPRRFPAQSSSLKFSVDNGGGGFKGGLKAVAADTKAVDSRPFVVIDNYDSFTYNLCQYVGELGTNFEVYRNDEISVEELKRKNPKGILISPGPGTPQDSGISLALVLELGATVPIFGVCMGLQCIGEAFGGKVVRSPYGVMHGKSSPVYYDEKGSNGLFSGLPNPFTAARYHSLVVRRDGFPEELEITAWTEDGLVMAAHHKKYKYLQGVQFHPESVLTPEGKGIIKNFIKMIE Relationships
The following mRNA feature(s) are a part of this gene:
Homology
BLAST of Spo19218.1 vs. NCBI nr
Match: gi|902176701|gb|KNA08825.1| (hypothetical protein SOVF_159330 [Spinacia oleracea]) HSP 1 Score: 525.0 bits (1351), Expect = 7.300e-146 Identity = 257/257 (100.00%), Postives = 257/257 (100.00%), Query Frame = 1
BLAST of Spo19218.1 vs. NCBI nr
Match: gi|731325189|ref|XP_010673380.1| (PREDICTED: anthranilate synthase beta subunit 1, chloroplastic-like [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 441.8 bits (1135), Expect = 8.100e-121 Identity = 218/257 (84.82%), Postives = 233/257 (90.66%), Query Frame = 1
BLAST of Spo19218.1 vs. NCBI nr
Match: gi|703134069|ref|XP_010105546.1| (hypothetical protein L484_019289 [Morus notabilis]) HSP 1 Score: 355.1 bits (910), Expect = 1.000e-94 Identity = 180/259 (69.50%), Postives = 203/259 (78.38%), Query Frame = 1
BLAST of Spo19218.1 vs. NCBI nr
Match: gi|731369031|ref|XP_010648529.1| (PREDICTED: anthranilate synthase beta subunit 1, chloroplastic-like isoform X1 [Vitis vinifera]) HSP 1 Score: 351.7 bits (901), Expect = 1.100e-93 Identity = 160/195 (82.05%), Postives = 180/195 (92.31%), Query Frame = 1
BLAST of Spo19218.1 vs. NCBI nr
Match: gi|731369035|ref|XP_010648574.1| (PREDICTED: anthranilate synthase beta subunit 1, chloroplastic-like isoform X2 [Vitis vinifera]) HSP 1 Score: 351.7 bits (901), Expect = 1.100e-93 Identity = 160/195 (82.05%), Postives = 180/195 (92.31%), Query Frame = 1
BLAST of Spo19218.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QNL2_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_159330 PE=4 SV=1) HSP 1 Score: 525.0 bits (1351), Expect = 5.100e-146 Identity = 257/257 (100.00%), Postives = 257/257 (100.00%), Query Frame = 1
BLAST of Spo19218.1 vs. UniProtKB/TrEMBL
Match: A0A0J8FG67_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_3g065460 PE=4 SV=1) HSP 1 Score: 441.8 bits (1135), Expect = 5.700e-121 Identity = 218/257 (84.82%), Postives = 233/257 (90.66%), Query Frame = 1
BLAST of Spo19218.1 vs. UniProtKB/TrEMBL
Match: W9RRJ0_9ROSA (Uncharacterized protein OS=Morus notabilis GN=L484_019289 PE=4 SV=1) HSP 1 Score: 355.1 bits (910), Expect = 7.000e-95 Identity = 180/259 (69.50%), Postives = 203/259 (78.38%), Query Frame = 1
BLAST of Spo19218.1 vs. UniProtKB/TrEMBL
Match: A0A067L260_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_04812 PE=4 SV=1) HSP 1 Score: 350.9 bits (899), Expect = 1.300e-93 Identity = 177/256 (69.14%), Postives = 205/256 (80.08%), Query Frame = 1
BLAST of Spo19218.1 vs. UniProtKB/TrEMBL
Match: B9HJK0_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0008s13820g PE=4 SV=2) HSP 1 Score: 345.5 bits (885), Expect = 5.500e-92 Identity = 159/208 (76.44%), Postives = 184/208 (88.46%), Query Frame = 1
BLAST of Spo19218.1 vs. ExPASy Swiss-Prot
Match: ASB2_ARATH (Anthranilate synthase beta subunit 2, chloroplastic OS=Arabidopsis thaliana GN=ASB2 PE=2 SV=1) HSP 1 Score: 335.5 bits (859), Expect = 5.100e-91 Identity = 152/197 (77.16%), Postives = 176/197 (89.34%), Query Frame = 1
BLAST of Spo19218.1 vs. ExPASy Swiss-Prot
Match: ASB1_ARATH (Anthranilate synthase beta subunit 1, chloroplastic OS=Arabidopsis thaliana GN=ASB1 PE=1 SV=1) HSP 1 Score: 334.7 bits (857), Expect = 8.800e-91 Identity = 151/195 (77.44%), Postives = 176/195 (90.26%), Query Frame = 1
BLAST of Spo19218.1 vs. ExPASy Swiss-Prot
Match: ASB1_ORYSJ (Anthranilate synthase beta subunit 1, chloroplastic OS=Oryza sativa subsp. japonica GN=ASB1 PE=1 SV=1) HSP 1 Score: 332.8 bits (852), Expect = 3.300e-90 Identity = 149/203 (73.40%), Postives = 179/203 (88.18%), Query Frame = 1
BLAST of Spo19218.1 vs. ExPASy Swiss-Prot
Match: ASB2_ORYSJ (Anthranilate synthase beta subunit 2, chloroplastic OS=Oryza sativa subsp. japonica GN=ASB2 PE=2 SV=1) HSP 1 Score: 322.0 bits (824), Expect = 5.900e-87 Identity = 147/205 (71.71%), Postives = 177/205 (86.34%), Query Frame = 1
BLAST of Spo19218.1 vs. ExPASy Swiss-Prot
Match: TRPG_CYAPA (Anthranilate synthase component 2 OS=Cyanophora paradoxa GN=trpG PE=3 SV=1) HSP 1 Score: 231.5 bits (589), Expect = 1.000e-59 Identity = 106/191 (55.50%), Postives = 142/191 (74.35%), Query Frame = 1
BLAST of Spo19218.1 vs. TAIR (Arabidopsis)
Match: AT5G57890.1 (Glutamine amidotransferase type 1 family protein) HSP 1 Score: 335.5 bits (859), Expect = 2.900e-92 Identity = 152/197 (77.16%), Postives = 176/197 (89.34%), Query Frame = 1
BLAST of Spo19218.1 vs. TAIR (Arabidopsis)
Match: AT1G25083.1 (Glutamine amidotransferase type 1 family protein) HSP 1 Score: 332.8 bits (852), Expect = 1.900e-91 Identity = 151/195 (77.44%), Postives = 175/195 (89.74%), Query Frame = 1
BLAST of Spo19218.1 vs. TAIR (Arabidopsis)
Match: AT1G24909.1 (Glutamine amidotransferase type 1 family protein) HSP 1 Score: 332.8 bits (852), Expect = 1.900e-91 Identity = 151/195 (77.44%), Postives = 175/195 (89.74%), Query Frame = 1
BLAST of Spo19218.1 vs. TAIR (Arabidopsis)
Match: AT1G25155.1 (Glutamine amidotransferase type 1 family protein) HSP 1 Score: 332.8 bits (852), Expect = 1.900e-91 Identity = 151/195 (77.44%), Postives = 175/195 (89.74%), Query Frame = 1
BLAST of Spo19218.1 vs. TAIR (Arabidopsis)
Match: AT1G25220.2 (anthranilate synthase beta subunit 1) HSP 1 Score: 325.5 bits (833), Expect = 3.000e-89 Identity = 151/208 (72.60%), Postives = 176/208 (84.62%), Query Frame = 1
The following BLAST results are available for this feature:
BLAST of Spo19218.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr) Total hits: 5
BLAST of Spo19218.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL) Total hits: 5
BLAST of Spo19218.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt) Total hits: 5
BLAST of Spo19218.1 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
Co-expression
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