CsGy1G013820 (gene) Cucumber (Gy14) v2
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDS Hold the cursor over a type above to highlight its positions in the sequence below.TTTTACCCTCACAATAATCCCTTGGCAATCTTTGTCTCTCTCTTTATATACATATTTAGTGGCACTCTGTATTTTAAGCTTTTCTAACTTTCCTTCTGATGAAATCATTCCAAATTTTCTGAAAACCACAAAGGTCTTCAATTGTTGGGCCGAGAGATTAATCTTCCCCTTCGTTTTCGGAGGAGGAACTGGAGAAAATCTAGCCCTTGTTTAGTGGCTATGTGATTTCTGGTGTGTGTCTGTTGTGTTTTTGTTCAGGTTGGCATTTCTGATTTTAGCTTGTTTTTAGTTTCGAGGTGGTTTTGCATGGAACAAAGTGGTTTAAGCCTTAAAGAGATGTTTAATTCATGACTTTATGAACGTGTGTGGAGATTGTCTCATAAAACAATTTACGTCTGCTTGAAATGTTGTTTCTAGCTCAGTTTCTTAATTTTTAAGAGATTATGTAAAGGATTTGACAACCCTATATGTGTTTCTGTTGCCCCGTTCTCTAGTCAATACACAATCGATTTTGCTGTGAATAGTCTTTTCCATTTCTTTTTTTAACCTTGTGTCTCTTTTTTCTTTTTATTTTTTAATCCAGTGGTTGAAGGTGTGAGATGCATGGATCCTACTATCAAGTTAATTTTGCTTCTGATATTCTTCAGCATAGGTTGGTGCCTACCCACCCCTGCCTTATTTGTTTAGATTTCTGTGTACAACCTTTTGTTTTTCTTAAATCATTTTTACCTCTATATATATTCCTTGTCTCTAGTAAAATAATGCGAATCTATAAATTTAAATTTGAAGCTCAATCAGATCAGGTCATATTCATCGTTGTATAAATTGGAGCCTTAAAATTTGTAGTATTTTTTAAGATCATGTTTATTGTCGTTTTTCTTCTATTACTGAACGCATTGATGAACTAAGTTCTTTCCGTTACATGCCAGCATGTGCTTCAACCACTGAAAAAAATTTGAACACTGTGAAAGGGTTGTAAAGGATTGGGCCTTATCTTCTCTTCATCAAGGTATCAACAATGATAAACATACACTAAAAGATTTACTGTTCTTTCTACATGTTCCAAGAACTGGAGGGCGTTCGTACTATCACTGGTAACTTTCAAATCATAAAATTCGGTGGGTATTAATCACTCAAGTGTCGGAGTCTTAAGTGTTTTTTGGTTCTGTTCTGTAACTATGCAGTTTCTTGACAAAGTTGTACCCAAGCTCTCAAAACTGTCCCCTTTCTTATGATAAGCTACGGTTTGATCCCAGGTATAATTTTATGATCCCAAGTATAATTTCATTTTTCCAAGATGATTATCATTTTATTTTATAAATTGTTTCATATGACATTCATTCAACTTTTGAAATGTTATGTCTTACTCGCTTTACTGCCGCCTTGATGTAAAATAATTACCAACCCTTAGTTGCAAACTGAAGTTATGTTTGATGATTGTTAAAACTGTGACATGCAACCTTTGCATGAACCTGATAAATTGGTAATTGAATTAAAATAACTAGGATGTGGACGCATGAGCGGTTTACAAAAAAATTTAGTTTAGTTATCGCAGAAGGTTAGCTTATATAGATAAACAATGAAAAAATGAAACCTGAATAAGAAAGTTCTGGAGGTCTAATTGTATTCTTAAGAGAACTGAGAATGGCATTAGGAAGGATGGTGGAAGAACATTGTTTAAAAAAAGTTTTCCTCTTTTTTAGTATTATATTTTTTTGTATTGTTTTTTGTTGGTGGGGAGTAAGGGAAGGGTCCTCCAAAGTATATTGGGAAACAAATGGAAAATCAGAACCTTGAAATTTTCTTCTTTTTTTTTAAATTTTTTATTCAAGACCGACTCTTTGATAGTTTTGACTAATTTTGTGCGTTTGTATGGTATTTGAATCTGAATTGCAGCAAGACGAACTGCAGATTGTTAGCTACTCATGATGATTATAGCATGATGGAAAAACTACAGAAGGAGAGGACTTCGGTGGTGACAATTGTCAGGAATCCAGTTGACCGGGTTCTTGGTTCATATGAATTTTCAGTTGAGGTAGCAGCTAGATCTTTGGTACATCCTGACCTAGCTTCTGCAACCAAAATGTCCAAACATGTGCGTGCAAAGACAAATGGAGTGTCCGCACTGGATGTTTGGCCGTGGAAGTATTTGGTTCCATGGATGAGGGGAGACCTATTTAGTCGAGTACGTGTCCTGTTGGCTGATCTTGTGCTTCTTAATGATTATTTTCTTTTAACTCAAGCGGAGTGAAGATAAATATAATTAGATCTTGTGCATTTTAATGATCGTTTTGTACTTTCTTGTTTGGTCGGGGAGCTCTATTTCTTTCTCGTTTGGTTTTCATCGATAGTTGATTAATAGGGAAACAACGGAGGTTGCCAGTTCTCTGTCTTTAATTGCAGAGTTCAGGTTTTTAGGCTTGGGAGAAGGGATATTGATTTTGGAGTCTCGACTCCTTAGTGGGTTTCTCTTGTAAGTCTTTTGGCATTTGCTGGATCCCTCTCTCGTTTGTAAGTCTGTCTTGGATTCTTTGTGGAGAAGATTTTGAAGAAAGTCAACTTCTTTTCTTGACAAGTTTTTCTCAGTTGTGTGAATTGTATGGACTGATTTTTGAGGAAGTTAACCTTTGGGTATCGGTTTTGAAGACCTTTTGTGGTTGCTCTTTAGGCAACATTGTACACAGTTGGACCCCTTTTCTTTAATGGGGGGTTTTGTGGGTTTGGTTTTTGAATTATTCCATTTTTTCTCCCTAAAAGTAGTTGTTTCTTTAAATATAAAGCTTTGGGGCTGTTTTAGTATGAATCTGATAGAACACTGATGTAGTGTTTCTATTTATTGATATTTGCAACGGAATTACAATCTCAAAGCAGTAAAAGAAAATATAAAGAACCCTAACCCCTTGCCCTTCCTCTCTTTCAAGGAATATTGCAGCCTTAATTCTTCACCCTTCTCCCTCCCAACAGACTCCTATTTATATTCCATACCCAACTCCTATTTATACTCTAACTAACTTTCTCTCTCCATACAAACTCCTACTTATGCTCTATATATATGAGATCTATAATTTAACTAGGATCCTAGCACGTGCGGTTAACCTTCTTCTTTTTCCTTCTACTGTACTGGTGTATAACTGGGGGTCTATCATTACATTCCCTTTCCAAATGCACCTTGTCCTCAAGGTGAAAATTCGGAAATTTCCTCTGAAAGTCTTCATACTCCTCAATAACTGGAATGAGAAACTTATCGGGTATAGTCACGCTGTTTAAGACTCTATAATCCACGCAGAATCTCCAGCTTCCATCCTTCTTCCGTACTAACAGAACCGGGCTGGAATATGGGCTATTACTTGGGCGAATAACTCCTGAACTCAGCATCTCTTCCACCAATCTCTCCATCTCCGCCTTTTGTTGGTATCCATAGCGATACGGCCTCACATTTACCGGGTCAGTTCCTTGTTTCAAATAGATATGATGCTCAATACTTCTTCGTGGAGGTAGAGTCTCCGGCCATGTAAAAACATCTTCGAATTTCTTTAGGACAACTGAAACTGCCTCGTCCACCGTTAGTATTTCCTCAATTCCATTATCTTCTGAGGGCTCGTACATTGTCTCCATTGCTCGGCACTCAATTAAAAATCCTTGGTCAGAATCCTTCCATGACTTAATCATATTCTTGAGGCCAACCATGGCTTTGGTTAAGCTGGGGTCTCCTTTGATTTTCACTTTCTTCCCGTTGTGTAGAAAAGTCATGGTCAAGTTTTTCCAATCCACTTCCGTCACGCCCAATGAATACAACCACTGCATTCCTAGTACTCCATCTACTCCTCCCAACTCAAGTGGTAAGAAGTTCGCTTCCACTTTCCATCCCTCCAGTTCTAGCTCGATGCCTTCACAAATTCCTTTCCCCTTCACCGCTGCACCCGAGCCCAAAATCACTCCATAGTGTGAGGTAGTCTTCGTCGGTAAACTCAGTTCCTGCACCACCTTGTCCGAGATGAAGTTATGGGTTGCTCCACAATCTATTAGGATAATTACTTCTCTATCCTTAATCTTTCCTCTCACCTTCATCGTTCGGGATTCGTCAGCCCCACCACTGAATTTATGGAAAGTTCAACGATAGCCTGATCTTCTGGATTTATCTCGACACAGTTCAATTCTGTCTCATCCCATTCCGCTTCCTCCACAATTTCATATTCCTCATCCTCCTTTACCACATACATTCTTAGTTCCCTTTGCTCCCTTCCTCTACATCGATGTCCATGAAAGTACTTTTCATTACAGCGAAAGCAAAGTCCCTTCTCTTTTCGGGCTTGAAATTCTGCATCGGGTAGTCTCTTCGTTGGGCCTTCTTTCTTAACTTCTCCAGCCGTTGTTCTTAATGTCACCGTCCTCATTGGAAATATGGTATTTCCCTGGTTCTCACTGTTATTCATCGCTGCACTACTCTTGATGATTGAAGAGTTTGGAGGGGGGTATTTACCCGTGGCATAACCGTTTAGGTTCGCCTCCTTGCGAATGATCTCCCGGTTCTCCACGAGTTGAGCTGCGTGCATCATCTCGGCCAAACCAACCGGTTTACAAAAAACTACCTCAGCTTTGATCCACGGAAACAGTCCATTCATAAACGTCTCCTCTACCACACGATCTTGCAAGTCGGCGAGTGGTGCCATCAACCTATCGAACTCATTGCGATATTCTTCCACTGTGGTCTGCTGTTTAATCCTTAAGAATTGCCCACAGATGGATCCTTCTCTCGACGATCGAAACCGCACCAGCAATCTCTCCTTAAGATTGTGCCATCCTGTAAACTTATTGCGTTCTTCTTGTGCTCGGTACCAGTTTAACTCTGGGCCTTCAAAACTGATGGTCGCCACCAAAACCTTCTCTGCATCACTCAGTTTGTGAATTTGGAAATACCGGTCGGCGCAGAACAACCACGAATCCGGATCCTCGCCATTGAATACTGGCATTTCGACCTTCTTAAATTTGTCTCTCTCATTCGCACCCTCTTCGTCCTCAGTCCTCCTCTCCTTTGTTTCATTCTCACCTCTCCTACTTGTCGAACTTTCTCCTTCATTACTTTTTCTGCATCCAGTTTCTTGTGCGCTGTAGTCTGCCAACTTCTCACTGGTTATCGTCCGTTCTTTCGCAATGGAATCCATGAGTATCATCAGCATTTGATGCGTCTTTTCAGTTTGATGACTGATCGCTGTTAAGCTTTCTTCGATCGCTGGAATTTTACTCACTTCTTTCTTCATCAGCAACATTTCCTGATCGTAAGCTTCCATTCTCTCTTCCGATCGCGTGTTAACCATGGTTTTCTCCTTGCCCAGATTCGACAGGCTCTGATACCAATTTGATAGAACACTGATGTAGTGTTTCTATTTATTGATATTTGCAACGGAATTACAATCTCAAAGCAGTAAAAGAAAATATAAAGAACCCTAACCCCTTGCCCTTCCTCTCTTTCAAGGAATATTGCAGCCTTAATTCTTCACCCTTCTCCCTCCCAACAGACTCCTATTTATATTCCATACCCAACTCCTATTTATACTCTAACTAACTTTCTCTCTCCATAACAAACTCCTACTTATGCTCTATTATTTTATTATGGAGCATCTACTAACAATATTAAAACTAAGGCTATTCTCCTAGCACGTGCGGTTAACCTTCTTCTTTTTCCTTCTACTGTACTGGTGTATAACTGGGGGTCTATCAGAATCAGAATTCGATAAGTTAAGCAAGTTGTATTCGTAGTTTGAAGCCAAACCCGTCTGGAACTTTGTTTTTTGGCTTGCTTTAATGGATGATCTTTTCATTTCACTTTTTTTCTGGAACAACTGAAGCTATTTTTCATTAGCTTGTCAATAATGGTTTTCAAGTGCTCAAACTAATAGGGAAAATAGTTCCTGCCACAAACTAATTTGGAGTTGTGCGTAGCTTTGGATGGAGATGTTAGAATCTAACAAGTAATTTTTGTTTTGGCTCTGTTAGCCTATGTTTGTGATCAGGTAATCTTGACAATGTCTCTCTTATTTACTACAATCTTATAAAGAGATTACTGTTTGCCCACTGTAATGAACAGAGAGATGTTAGAAGACAGAAAGGTTCAAGTGAAGCTAAAAGCGACAGTCCATATGACATGGAGGACATGCTTATGCCACTAAAGGAGTTTGTTGATGACCCCATTGTTCATGATCTTGTTCATAATGGGGCTACTTTCCAGGTAATTCCGAATTAATTTTTGTATTGGCGTGAATAAGACAAACAGTTAACAGTTTTAACTGTTGGTTCTCTACATGTAAATATTTGTTTGTATTTGATGGAATCTCGAGTTTCATTTCACATAAACATTACGTGCATCCTTTGTTCAAGGGTAGGAGGTGGGGAAGTGAAGTTGCTAATTCTCTCTTTGTTGGGCCCAAGGAGTTAAGCTCATGACTGAAAAACATTAATTCCATGACTTATTAACTTTTTACATGTGCACTCCACTCCTTACCCCAAATGCCCTTATGTGATATGTAAGGTACAACAGTGATATAATTAAACCTTTTTTTTTCTTTTTTTTTTTTTTGTAATTTTCCTAGGAATGGTTTTGGTTTTCTCAATATACTCTAAATTCAATGACCTGGAAAGTCGGCCAGTTAATTTGATCCTTCATCTGGTTGAGTGTCTGATACCAAATGAATGCTATCTTGTGGGGCCTTCAAGTAAACGTATTTAGTTATTATACACTTGTTGATGTTTTTTGTACTTTTGGACACCATCAGCTACATCAAGTTTTTAAAATTTTACCAATTCAGAATTTTGTTTTCTTGGGGGGTACCCTGTTGTCATGCACTTTTTCATTCTTTTCAAAATGTGATTGACTGATTAAAAGTTCTCAGATAGCAGGACTGACAAACAACTCCTACCTAGCTGAAGGACATGAAATACGTCACTGTGTACAGAAACACAAGAGTCTTGGTCAACATGTTCTTCATGTGGCAAAGGTAACAACCGAAGGTTTCTTAAATTAGAACAGTGGATATATGGACAACTATCTTTCTGATACTTGGCCTCCTTATGGTTGCAATTATGGTAGATGCTTGTAAATCTTGCAGAAGAGGTTGGATGCTATGTTATATGTTGGTCTAACTGCGGAACAGAAGGAATCTGCGACGATGTTTGCAAATGTGGTTGGTGCACAGGTGATTTCACAGCTAAGAGACGCCAAATTTAGCATGGACACTTCAGCTGACAATCAATCAGGTTTATGTTTTGTTCTGTAGCTTTTCATTCAAAGAGGACAACTTTAATGTAATAGAGACTTATTAATGATTACATAAAAGATGGAGAGACCTCTAGCAAGGATCAGTAGATAGTAGTGCACGTAACAAGAAAATCATCAAGTAATTGAAGCTTTTTCTCTGTCAGACCAAAGAATTTGCTTGTTGTGCTTTACAGGTATTATAATGGCACTCAGTGAAGCTGTATATATATTCTGGAGCTTGAATTGAAATGAATTTTTGTTAGATGCGAATTGTTTATACCGTTGGAGGGAATTGAAATCTTTCGAGATTCAAATTTTCCACTTGGGTTCTTATTTTTTTAATCCTTTTCCATTCCTAAAAAAATAGTTTCCTTTATTTTTGTTACACTTGTTTTGATAGTTCCAACAACCATGTGTAGATGGAATTAGCTTTCAAAACCTGTTCTGGCATCCATCTTTGTAGTTATTTCTTATTTGTAACCTTGGCTTATTCCTTTTCTGGATCACGATGGTCAAGATCTTTTATTCAAGATTACTTTTCTTTCCAAAAAAGATAAAAGAAAAAACAAGGAAATGGGAAAAGTGACCCATGAGAATCTAAACAAAATGTTTTAAATGAAAAATATATATATTCTACTTGGGTACTATTTTTCCTAATCGTTTATGGCCCATAATAGACGAGTAGTGGTTATTAAATTGTACTTAGTTGCTTAAGAATCTGCTGGTTGCTAATTTACACTGATTGACAGTTCAAAGTTTACTTATCTGGCACATGTTTGTGGATCGATTTAGCAAGTGCATTATCTAAACAGACTCCATCCATTTTCATCATTTGGGATGTTTTGCCAATTGGATCTGATTTTCGGGTGAAAAACATTAGTCTGATTTGTATTCACTTGAAAATCCCATGCTATTCTAAATTCATAGGATTTCTGAAGAGTTATTATTTATTTATTTTTTCACTTCAATCTAATGGTTGTCTGAACTTCTAATTTGGATGCTGTGTAGCTTATTTTTCAAGAGAAATGTAGGCCTGCGGTTTGACCAACATCTCTTTTTAATTACAGATTATATCAGCTCTTGGCGTTTAGATTCTGAGCTTGAGAGCAATATTGATCAGGCAAGCTTCTCTCATTGTCTAATCATATTCATATACATAATCCAGGATCTCCATTAATCCATTTTCTTTTACAGAGTAACAGTACCGTATTATATGAAATGACTACTGTCCAAGATGAAAGCAAAACAAAGAGAGAAAATGTACGTCACCTCAGAAAAATCACATTTCGGCGATTCATATATGGTCAATTAATGATTTTATTAAGCAAAAAATTTATGTTCCTTTATTTCAACATGCCAGATGACTGTTGCAGAACTAATTGAAGTTTATGAAGGGTGCAGTTCAAGTATGCTAAAGTATCAATCACGTCGTCGATTTGCTTCTTTAAAGAGGATTTCTCCTGCAAATTTCTCAAAGGAGGTATTCAGTTGAGTTGTTGTCACCGAAAATATTGAAGCCTGACTAGAAAATAAAAAGCTTACCCTTAGGGGATCCTTACTCTAAAAGCTTTGCTCAACCATTCGATTTTAAATCATGGTCCTTTGTGTTAAATTGAATGGGGTTTCTCAGAGGTTTGTATTTGGCATTTGAGAAACATATGCAGACTTTAGAGAGTTTTTTCTAATTGTACACTGTTTTTGAAGAAAAAGGGTGATCTTGCTTTTCCAATGAAAAAGAATAGATAAGAAACAATTACCAGTGACATTTTTTTTTCTTTCTTAAAATAATATTTTCGTATACAGATTTTAGTAAAAGAAAATTAATAATTTGGTTTCTTACTGTATGTTCCAAGGGTTTCAATTTCCTTTCCATTGAAAAAGAATGAAACAAGAAACTAATAACATTCCTTATGCCTTTTATCTCTTTAAAAGATTGGAACAGAAATTGTTCCTTACGTTTCTGATTTTCTTTTTCTTATTCCTCAATAATACTATATTGCATTCCTTATGCCTTTTATCTCTTTAAGAGATTGGAACAGAAATTGTTCCTTGCGTTTCTGATTTTCTTTTTCTTATTCCTCAATAATACTATATTGCAGGCACGGCGTTCCATTTCTGATGAAGTTCTGCAGCAGATTAGAACGCTCAATTACTTGGATATGGAACTTTTTGAGCATGCTCAAGAAATCTTTGCAATGAGACGTTTACTGATGGGGAATATCGATATGAAAGTGAGTCTTTTTTACTTCTCAATTCCTTTTAGATTTCTCTTCCAACTTGAAACGTTGTCTTCCTGCTCATCATCTAGGAATAGACAATTCTGATGAACACAGGCGTGTTCACACTAAAAAATAACCTCTATTCTAAGAAACACGAGCACTTTTTGTTTGGCTAGCTTGTCCATGTCTGACATGCATCAAACATTTGGATACACTTGTTGGACATGTATTGGACATTCATTAGTTCAACAAATGTGTTAAGACACTAGTTGTGCAAAGTCAAAATAGGATCAACATTTGGTGGACTTCCATCAAACACTCACACAGTAAGTCAATACGCATGATAAACCTTAGAGAACAAAACACATCAAACTAATTTTTACCATAGAAACGAATAAACTCGTTGACTTTGAATTTCCTCCTTGTTCCATACTATACACAGGCTTTAAAAAGTGTTATCTTTATCATGCCCATGTCCTAAATTTTAGAAAATGACACATCGTGCCGATATCTCATATCCATATCCGTGCTCCTCAGCATATAACAAATAGTTATACATTCCAGATAATACAAAAACTCACCATATAAGAATAGTTATACATTCCAGATAATACAAAAACTCACCATATAAGAAACTAGAGTGTAAGTTGTCTCATGATTTCTCATGCAAATACAACAAAATTTGCAGGATGGATCAGAAGGCAAGTTTAACCGTCTACATGTGTTCGAGCTATGGAAAAATTCTTCCTTAGTAATACTTTTTATCTTACTCCTTGTTCTCTTTGTATTTGCGAAGGCTCGAAGAAGAGTATCTAAAGTTAAGGTATAA TTTTACCCTCACAATAATCCCTTGGCAATCTTTGTCTCTCTCTTTATATACATATTTAGTGGCACTCTGTATTTTAAGCTTTTCTAACTTTCCTTCTGATGAAATCATTCCAAATTTTCTGAAAACCACAAAGGTCTTCAATTGTTGGGCCGAGAGATTAATCTTCCCCTTCGTTTTCGGAGGAGGAACTGGAGAAAATCTAGCCCTTGTTTAGTGGCTATGTGATTTCTGGTGTGTGTCTGTTGTGTTTTTGTTCAGTGGTTGAAGGTGTGAGATGCATGGATCCTACTATCAAGTTAATTTTGCTTCTGATATTCTTCAGCATAGGTATCAACAATGATAAACATACACTAAAAGATTTACTGTTCTTTCTACATGTTCCAAGAACTGGAGGGCGTTCGTACTATCACTGTTTCTTGACAAAGTTGTACCCAAGCTCTCAAAACTGTCCCCTTTCTTATGATAAGCTACGGTTTGATCCCAGCAAGACGAACTGCAGATTGTTAGCTACTCATGATGATTATAGCATGATGGAAAAACTACAGAAGGAGAGGACTTCGGTGGTGACAATTGTCAGGAATCCAGTTGACCGGGTTCTTGGTTCATATGAATTTTCAGTTGAGGTAGCAGCTAGATCTTTGGTACATCCTGACCTAGCTTCTGCAACCAAAATGTCCAAACATGTGCGTGCAAAGACAAATGGAGTGTCCGCACTGGATGTTTGGCCGTGGAAGTATTTGGTTCCATGGATGAGGGGAGACCTATTTAGTCGAAGAGATGTTAGAAGACAGAAAGGTTCAAGTGAAGCTAAAAGCGACAGTCCATATGACATGGAGGACATGCTTATGCCACTAAAGGAGTTTGTTGATGACCCCATTGTTCATGATCTTGTTCATAATGGGGCTACTTTCCAGATAGCAGGACTGACAAACAACTCCTACCTAGCTGAAGGACATGAAATACGTCACTGTGTACAGAAACACAAGAGTCTTGGTCAACATGTTCTTCATGTGGCAAAGAAGAGGTTGGATGCTATGTTATATGTTGGTCTAACTGCGGAACAGAAGGAATCTGCGACGATGTTTGCAAATGTGGTTGGTGCACAGGTGATTTCACAGCTAAGAGACGCCAAATTTAGCATGGACACTTCAGCTGACAATCAATCAGGTATTATAATGGCACTCAGTGAAGCTAGTAACAGTACCGTATTATATGAAATGACTACTGTCCAAGATGAAAGCAAAACAAAGAGAGAAAATATGACTGTTGCAGAACTAATTGAAGTTTATGAAGGGTGCAGTTCAAGTATGCTAAAGTATCAATCACGTCGTCGATTTGCTTCTTTAAAGAGGATTTCTCCTGCAAATTTCTCAAAGGAGGCACGGCGTTCCATTTCTGATGAAGTTCTGCAGCAGATTAGAACGCTCAATTACTTGGATATGGAACTTTTTGAGCATGCTCAAGAAATCTTTGCAATGAGACGTTTACTGATGGGGAATATCGATATGAAAGATGGATCAGAAGGCAAGTTTAACCGTCTACATGTGTTCGAGCTATGGAAAAATTCTTCCTTAGTAATACTTTTTATCTTACTCCTTGTTCTCTTTGTATTTGCGAAGGCTCGAAGAAGAGTATCTAAAGTTAAGGTATAA ATGGATCCTACTATCAAGTTAATTTTGCTTCTGATATTCTTCAGCATAGGTATCAACAATGATAAACATACACTAAAAGATTTACTGTTCTTTCTACATGTTCCAAGAACTGGAGGGCGTTCGTACTATCACTGTTTCTTGACAAAGTTGTACCCAAGCTCTCAAAACTGTCCCCTTTCTTATGATAAGCTACGGTTTGATCCCAGCAAGACGAACTGCAGATTGTTAGCTACTCATGATGATTATAGCATGATGGAAAAACTACAGAAGGAGAGGACTTCGGTGGTGACAATTGTCAGGAATCCAGTTGACCGGGTTCTTGGTTCATATGAATTTTCAGTTGAGGTAGCAGCTAGATCTTTGGTACATCCTGACCTAGCTTCTGCAACCAAAATGTCCAAACATGTGCGTGCAAAGACAAATGGAGTGTCCGCACTGGATGTTTGGCCGTGGAAGTATTTGGTTCCATGGATGAGGGGAGACCTATTTAGTCGAAGAGATGTTAGAAGACAGAAAGGTTCAAGTGAAGCTAAAAGCGACAGTCCATATGACATGGAGGACATGCTTATGCCACTAAAGGAGTTTGTTGATGACCCCATTGTTCATGATCTTGTTCATAATGGGGCTACTTTCCAGATAGCAGGACTGACAAACAACTCCTACCTAGCTGAAGGACATGAAATACGTCACTGTGTACAGAAACACAAGAGTCTTGGTCAACATGTTCTTCATGTGGCAAAGAAGAGGTTGGATGCTATGTTATATGTTGGTCTAACTGCGGAACAGAAGGAATCTGCGACGATGTTTGCAAATGTGGTTGGTGCACAGGTGATTTCACAGCTAAGAGACGCCAAATTTAGCATGGACACTTCAGCTGACAATCAATCAGGTATTATAATGGCACTCAGTGAAGCTAGTAACAGTACCGTATTATATGAAATGACTACTGTCCAAGATGAAAGCAAAACAAAGAGAGAAAATATGACTGTTGCAGAACTAATTGAAGTTTATGAAGGGTGCAGTTCAAGTATGCTAAAGTATCAATCACGTCGTCGATTTGCTTCTTTAAAGAGGATTTCTCCTGCAAATTTCTCAAAGGAGGCACGGCGTTCCATTTCTGATGAAGTTCTGCAGCAGATTAGAACGCTCAATTACTTGGATATGGAACTTTTTGAGCATGCTCAAGAAATCTTTGCAATGAGACGTTTACTGATGGGGAATATCGATATGAAAGATGGATCAGAAGGCAAGTTTAACCGTCTACATGTGTTCGAGCTATGGAAAAATTCTTCCTTAGTAATACTTTTTATCTTACTCCTTGTTCTCTTTGTATTTGCGAAGGCTCGAAGAAGAGTATCTAAAGTTAAGGTATAA MDPTIKLILLLIFFSIGINNDKHTLKDLLFFLHVPRTGGRSYYHCFLTKLYPSSQNCPLSYDKLRFDPSKTNCRLLATHDDYSMMEKLQKERTSVVTIVRNPVDRVLGSYEFSVEVAARSLVHPDLASATKMSKHVRAKTNGVSALDVWPWKYLVPWMRGDLFSRRDVRRQKGSSEAKSDSPYDMEDMLMPLKEFVDDPIVHDLVHNGATFQIAGLTNNSYLAEGHEIRHCVQKHKSLGQHVLHVAKKRLDAMLYVGLTAEQKESATMFANVVGAQVISQLRDAKFSMDTSADNQSGIIMALSEASNSTVLYEMTTVQDESKTKRENMTVAELIEVYEGCSSSMLKYQSRRRFASLKRISPANFSKEARRSISDEVLQQIRTLNYLDMELFEHAQEIFAMRRLLMGNIDMKDGSEGKFNRLHVFELWKNSSLVILFILLLVLFVFAKARRRVSKVKV
BLAST of CsGy1G013820 vs. NCBI nr
Match: XP_008462681.1 (PREDICTED: protein-tyrosine sulfotransferase isoform X1 [Cucumis melo]) HSP 1 Score: 759.2 bits (1959), Expect = 8.0e-216 Identity = 405/493 (82.15%), Postives = 423/493 (85.80%), Query Frame = 0
BLAST of CsGy1G013820 vs. NCBI nr
Match: XP_008462687.1 (PREDICTED: protein-tyrosine sulfotransferase isoform X3 [Cucumis melo] >XP_016903191.1 PREDICTED: protein-tyrosine sulfotransferase isoform X3 [Cucumis melo]) HSP 1 Score: 759.2 bits (1959), Expect = 8.0e-216 Identity = 405/493 (82.15%), Postives = 423/493 (85.80%), Query Frame = 0
BLAST of CsGy1G013820 vs. NCBI nr
Match: XP_016903190.1 (PREDICTED: protein-tyrosine sulfotransferase isoform X2 [Cucumis melo]) HSP 1 Score: 759.2 bits (1959), Expect = 8.0e-216 Identity = 405/493 (82.15%), Postives = 423/493 (85.80%), Query Frame = 0
BLAST of CsGy1G013820 vs. NCBI nr
Match: XP_022964820.1 (protein-tyrosine sulfotransferase-like isoform X1 [Cucurbita moschata] >XP_022964821.1 protein-tyrosine sulfotransferase-like isoform X1 [Cucurbita moschata]) HSP 1 Score: 677.2 bits (1746), Expect = 4.0e-191 Identity = 362/494 (73.28%), Postives = 397/494 (80.36%), Query Frame = 0
BLAST of CsGy1G013820 vs. NCBI nr
Match: XP_023520112.1 (protein-tyrosine sulfotransferase-like isoform X1 [Cucurbita pepo subsp. pepo] >XP_023520113.1 protein-tyrosine sulfotransferase-like isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 674.9 bits (1740), Expect = 2.0e-190 Identity = 361/494 (73.08%), Postives = 397/494 (80.36%), Query Frame = 0
BLAST of CsGy1G013820 vs. TAIR10
Match: AT1G08030.1 (tyrosylprotein sulfotransferase) HSP 1 Score: 461.8 bits (1187), Expect = 4.8e-130 Identity = 241/453 (53.20%), Postives = 319/453 (70.42%), Query Frame = 0
BLAST of CsGy1G013820 vs. Swiss-Prot
Match: sp|Q3EDG5|TPST_ARATH (Protein-tyrosine sulfotransferase OS=Arabidopsis thaliana OX=3702 GN=TPST PE=1 SV=3) HSP 1 Score: 461.8 bits (1187), Expect = 8.6e-129 Identity = 241/453 (53.20%), Postives = 319/453 (70.42%), Query Frame = 0
BLAST of CsGy1G013820 vs. TrEMBL
Match: tr|A0A1S4E4N1|A0A1S4E4N1_CUCME (protein-tyrosine sulfotransferase isoform X3 OS=Cucumis melo OX=3656 GN=LOC103500982 PE=4 SV=1) HSP 1 Score: 759.2 bits (1959), Expect = 5.3e-216 Identity = 405/493 (82.15%), Postives = 423/493 (85.80%), Query Frame = 0
BLAST of CsGy1G013820 vs. TrEMBL
Match: tr|A0A1S4E5E0|A0A1S4E5E0_CUCME (protein-tyrosine sulfotransferase isoform X2 OS=Cucumis melo OX=3656 GN=LOC103500982 PE=4 SV=1) HSP 1 Score: 759.2 bits (1959), Expect = 5.3e-216 Identity = 405/493 (82.15%), Postives = 423/493 (85.80%), Query Frame = 0
BLAST of CsGy1G013820 vs. TrEMBL
Match: tr|A0A1S3CHJ3|A0A1S3CHJ3_CUCME (protein-tyrosine sulfotransferase isoform X1 OS=Cucumis melo OX=3656 GN=LOC103500982 PE=4 SV=1) HSP 1 Score: 759.2 bits (1959), Expect = 5.3e-216 Identity = 405/493 (82.15%), Postives = 423/493 (85.80%), Query Frame = 0
BLAST of CsGy1G013820 vs. TrEMBL
Match: tr|A0A2K1Z0W9|A0A2K1Z0W9_POPTR (Uncharacterized protein OS=Populus trichocarpa OX=3694 GN=POPTR_009G011400v3 PE=4 SV=1) HSP 1 Score: 518.5 bits (1334), Expect = 1.6e-143 Identity = 279/493 (56.59%), Postives = 353/493 (71.60%), Query Frame = 0
BLAST of CsGy1G013820 vs. TrEMBL
Match: tr|A0A2I4EJF8|A0A2I4EJF8_9ROSI (Sulfotransferase OS=Juglans regia OX=51240 GN=LOC108990118 PE=3 SV=1) HSP 1 Score: 514.6 bits (1324), Expect = 2.3e-142 Identity = 270/450 (60.00%), Postives = 331/450 (73.56%), Query Frame = 0
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of cucumber Gy14 genome (v2)
Date Performed: 2018-09-25
The following gene(s) are orthologous to this gene: None The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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