CsGy6G003610 (gene) Cucumber (Gy14) v2
The following sequences are available for this feature:
Legend: exonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGAGTGGGCTAATCCTCAACATAATGACTAATGAACCACAATTCTGCAAATGCTATAGTAAACTAAAATATTTCTTGATTCTACCAAAAGAACCTCAGCCGGTAAGCCAATAGACAGAAGCAAGTGCTGTGCAGCCTGTGTACCTTCCATGAAAAAAGGGTTACAAGAAGAAACTTGAATGGTTATTTCATATGAATTCAAGTGCATTTTATGTATATTAATTTTTTCTTTTGTTTTTTTTTAAATGTAGACAAATTTCTTTATCAATAACAAAACTCATAGTACAAGAGAGATATACATTGCGAGTAATAAAGAAGCGGATTTCTTTTTCTCTTCTTATTTCTTTATGTCAGCTGATTGTGATTTTCTACTTATTGTGCAAGGCTGTCCGTTCTCATACAGCTAGCACTTCTCAACTGCTTCCAGAAAAGACAACTTCAAATGAGAAGAAAGGACCTTATGTTTATGGCTATATAGACCTCTTCAGTGGTTCTGGGGAGTTGTGGAGCTGGAGCTTTGACATGGACGAGAAGCTCAACTCCCTAGCACAACCTCTTGTAGCAGATAGCTTGAAACTAGGAGCAGTTCAAGAAAAAAAGCTTGATAAAGTTCAAAACTTATTAGCTCGACAAAATTCAAAACGAGGTGAATTATTGTCTCCTTCCTCTAACCTAGGTACCCTCGAAGAAGAAACTGAAGGTGACAGTCAGAGCAAAAGTTCTTCAAATTCAAGAAGATCATTAATTGTACAGAGGAATGAAGATGGTAATGAAGGTGAGATGCAGGTAAGCACTATTGGACATGGTTACTATACTTGATCTTGGTTGTTTGACTTGCTAAAATTGTATACTTTACTGGCGTCTTTAACAAAATTTTATTTTTCCTTCATTAATTATTATTATATTTTTTTTGTTTCGTCCATCTTCAGGTTGTTCATGACATTCTTATGCTGGATAACCACTTCACTAATATTGAGATTATGTCCTTTTATTTTCATGGTTTTTCCTTTTGTTTTTTGTTCTATTGACCTGATTTTGTGTTAGGAAAAGCTTTTGCTTCGTAGATGGAAAAGTAGGAAATTTTTGTATAATAGATCGTGCCTACAGATTTTGGAAAAGAACTCGTGATGGTGACAGTTTGAGATCGCTACAATATGATCTCAAGAGTTTGTCATCTAAGTTAGGTGGCATGTGGTATGACCACTTAAATATATGCATTTATCAAATTTATTATTGTTAGAAATAGTGGGCTTGGGCCTTGATGAAATCCCATGGATAGTTAAGATTTACTTTGTCCTATTTTTTTTATTCTTTTAATTAGGCTCATGTTGCCTGTAAATTTTTCCCTTTTTGTACCTTTATGATTATCAGAAAATAACAAGAAACATATATATTGTGGTTTTTCTTCATGTACTAGGGTTCCACGTATATCTTGTGTTCTTTCTTCGTCTTTATTTTTCAATATGGATCAGAGCGGGATATCGATGAAACCCTAGATGACTTGACACTTGATGGATGTCAAACGGGGGAGACAACTATCGGGATTAGTGTCGCCGTCGATGCTGGATCGCAACTGCAATGGAGGAGCTGTTTCGTTGCCTACATAACCCACCGACCAACCCTTCCCTTCAGTCGCAACTTTCAACCAGCTCCCTTCCTCAGCCGCACAGTCTACATGTGCTGCTGCCAATCCCCACATGCCGTTGCTACCTCTGCACGCACCACCAATCAGTGACCTCCAGTTGCAAACCCATGTCCAGCTGCCACCCACTGTTTCTGCTGCTCACATTCATTCAACCTTTGAGGGTGGTGAGTCTTCAACACAATCAAATCCTCACGTCCTCACATATAGGTTTCCTTTCTTGGAATAGCCTAGCAACAATCGGACATGCTTCGACAACTAATTGCAGATCATTAGGATTGCACTCAATCCAAATGGGTCAGTTTCAGATCATTAGGACTCTTCTACCAGCTTTTGGTCCATTTATTTCAGAAGATTGCTTAATGATGAGAAAATATTGGACTTTCGGTCCTTGTTAATTCAGATCTCCTCTTGACAGCCAGTCTCCTTTTCAAATTGAAGGTTTTGGTCCCTTGAAACCTCAGATGTCTTCTTGGTAAAATCATTGGTTAACATCTTTCAACATCTTCTCCTTTGAATAGTTCTTTGTACAATAGGCTTTGGCAATTTGTCCAAGAAGGGTAAATATCTCCGTATGGATTATGCTGTTTGGAAAATTAAACTGTGTTTCAGTACTTCAAAGAAAGCTTCCCTCCCATGTCCTCTCACCTCATGTCTGCCCCCTTTGTGTTGATAACATGAAAAATATCCAGCACCTTTTAATTAACAGTGTCTTTGCATCTAAATGTTTGGTTCCGCCTTCTTTAAGCATTCGATATTTGTTGGGATTTTTATCATGATTTTAAGAACAATGTGACTTAAATTCTTGCCGGTCCAGCCTTGAAGAAGAAGACAACTGATTTGTTTTGGGTAAACACAGTAAAAGCCTTCCTATTTAGAATCTAGTTTGAAAGAAACCAAAATGTTTTCCATGATAAACCATCGACTTGGATGGAGTGTTATGATTCTGCTCATTTGAACACATCTTCACGGTGTTTATTATCCAAATATTTTCAGGATTACTTTTCGCAGGAAATTGTGTTAAATTGGCCAACCTTTATAGCCTCCCCACCTTGAAGTCCTAGATCATCATGCCTTATGGATCAACCCTTTGCTTCAACTAGTTTTTTGCTCAATCAAGGATTATTTTTCTCTGTTCTCGGCCTGCTTCCTATGATTTATGATTTTGTTTTGGACAGATTATTTTATCATTTTGTTTGGCCTTTTATTTGTGGCATTTTGATTTGATCTTGTATTGAAATTAGGAACCTATTGCTCTTTGTATAACCCTCATGTACATTGATCTTTGTCTCTCTATTTTTCAATATTAATAATTGTGACTTGTATACTTAAAAAAAAAGACAACAAATTGCAAATATTAAAGCAACATTGGGGGCCACTTCCTCCTGTTTTAGCCCCGACATTCATAAAGTCCCACCAGTGTATTCTAAGAGTCCGGTAGCATCATTCCCTTCTTTATCCTCACCCCCTATGTGTCTAATACAGTGGCACAATCTACATAATATTTTTAAGAGGAAAAGCTGAATGGCCAAAATTATTTTTTCATGGTCCAAATCTATCAAAATGATTCTTGAAGGGCACCACAAGTTTGGCTTTTTGACAGGTATATCTCGTCCTCCATTGGTAGACCCTTAGGAATGGTACTAAAAGGGGGATGATTCTCTTATCCGGTCCTCATTGATTAATAGTATGGAACCACAGACCGACAAGCCCTTGCTGTATGCTGCAATTGCCAAGGATATTTGGGACATGACTAAAAAATTGCATTCCAAGTGTCATAATGCCTCTCGTTTATACACGGCAAAAATAGGTTCACGAATGCAAATACGGACAATGGATGTGACATCATTTTTTAGCAGACTTTCCCTTATCTGGTAGGAAATGAACCTATGGAGAGAAGTTGTTTGTTATTGTCTTAGTGATGTCATACAACACTCCAGGATGTAGGAGGTTGACAAGATTTATGCTTTCCTTACTGGTCTCAACCCTAAGTTTGATATTGTCCGCGGGCGTATACTGGGCCAGAGACCTATACCCTCCTTGATCTGAGGTTTGCCTTGAGAAGGATCGTACTAGTGCTACGGATAGTCTGACGACCCCTGCTATTGATTCCGCTGCCTTCTGTGCAAAGTCCCCTAGTCATGACAGTGAGAGACACAACGGGAAACCAATCCCTATCTGTGAGCATTGCAAGAAACAGTGGCATACAAGGAGTAGTGTTGGAAGTTACATGGTTGTCTCCCTGGAGGTAAGAGACGCTCTAACAATGACAAACAGAACCTGAGGCAGGCTTATGTCAGTAAGTCTGCCAGCCCCTCTCAAGCATCTGGGGATCTTTAGTTTCAGTCTGCTTAGTTGTCGTTATTGTTTTACAACATTGTATTTTGTTTTGCTTGGATTTGGTTTTTGCTGCCCCTTGCTCGTTTTTCTGATTTTGTATTTTTGGGCCTTTTTATTTGGTGTGGTCAATCTCTTGTATCTTTCTTTGATGGTTTTATTTTTGTTTTTTGGCAAATATGATGAGTTGGGGTGTCAACTTTGTTGAGATATTCGAGTGTGCTTTCTGTTCCTTAGTCTCTTCTTTGTTTTGGTGCTCTATGTATATCTCTCTTGACTTTAAGCATTAGTCTTGATTTCTTAATAATAATTTAGAAAAAAGTATATTTCTTATTCATGTAGAATCAAAGTAAAGTTACATGTATATAATATATATAGATAACAAATAATCTAAGTGTTGTCTCCAAATTGTAAAATAGAAAAAATTCTTTGGAGAGGCCTTTAGCGTGAAGTCTTGCTTTTAAAGAGCTCAATACGTCACTAACAAGAAGGAACGAAAAGGGTGAGAGGGGATCCCCTTGACGAATTGCCCCCCTTTTTATCTTTTTCATGAAATGGAAACGAAAAATTTCATTGATTATGAAAAAAGCTCGGCCTTGGAGGCCTCAAAATTCATAATTCTGCCTTGCTAGCAAAATGGGACTGGAGATTTGCTATGGAAGATTCTGCCTTTTGGAGAAAAATTATTTGTAGCATCCACAGTAAAAAGCCTTTTGATTTGTTCACAATGGAAAAGTCTAGAAATAGTTTAAGGAGCCCATGGATTAGCATCTCAAAGGTGTGGAGGTTGGTGGAATCTCTAGCATTAACTGAACTTGGTAATGGTAGTAGAACAAGTTTTTGGTCAGACACCTGGGTTGGAACCTCACCACTGAAAGGCCTTTTTCCCAACTTTACAGAATAGCCTTACTTCCCCAAGGCTCGGTTGCCGATCATTGGAATTTTGCTACCCTCTCTTGGTCCCTACCATTTAGAAGAAGTTTAAAAGATGCTGAAATTGTCGAATTTGAATAATTACTCCCTCTTCTCTTAGATGAACAAGTTCTTGATTTCGAAGATCACAAGGTTTGGTCTATTGACCCCATGGCTGGTTTACGGTTAAAGCCTTATGGAAGTCCTCAAGCCCCCGGAGAGTTAATGTTCTGATTTGGGTCCCTCAACAGTGCTGATATACTTCAAAAGAAGGCCTCCAACAAGTGCTTTCTTCCCTCAGTTTGCCCCCTCTATTTGAAAGCTAATGAGACTTCACTCATTTGTTCTTATTTTGCCCTTTCGCCTCTTTTTGCTGGAACAGATTTTTCTCCATCTTCAACATTGTTTGGGTTTTTGATGGCTCTATTTGCTCCTCGATTCTTCAGTTTCTAGAGGGCCCTCCATTCTCCAAGAAGCCAAGACTATTATGGTTCAATTTGCTAAAAGCTATCGTCTCCAAATTGTGGTTTGAAAGAAATCAGAGGATATTCCACGACAAAGAAAAACCATGTTCATAAATCCTCTCTGCAAAAAGAAGTGCAGCAGCTTGGGTTTTCTTGAACAATGAGTTCGTGGCTTACTCTATTCAAGATATTTATCTCAACTGGGCAGTTTTCCTATCCCATCCAGCCACTTAATTTTCATCCAGCATTGTTTCCAGCCCCATTTTTGTATCTCTCAGTAGCTGTATTTTTGCTTCTGTCTTTACATCATCTTGTTACTCTTTTTTTCTAGTCTTGGCCTATGTTAATTTGCTGGACTTTCAAATTTTATTTTCTGTGCTTAGTTCATGCTTAGTTATGGGAAATGATGTTTTGGTGCTAAGGAGGTGTCAACCTAGTTGAGATGTCTGGGTGCACCTTCTGATCCCCTGGGGCTTTTTGGTTTATGCTTCTTTATTTTTCTCATTGTATATACCTCTTGTACTTTGTGATTTTATCATTAATAAAAAAGTTCGTCTCCTTTTCAAAAAAAATGAAAAAAGTGTACAAAGTACAACAATAATATTAGGATCGACAAGTGCATCCAGACATCTCAACTAGGTTGACACCCACTGTAGCTTGAATCTGGCCCCTTGGTCTTCCATTGATGAAGATGGAGAATTTTGGATGGGTGACACACCCATCATCTATGCTATCCAATTTTGGATCAAAGTTTTTGTCGATCAGGAGTTTTTAATGATAGTCCAATCTGCTCGATCAAACGACTTTTACATGCTAATTTGAGGATCCATCATTTTTTCCTTTTGGACCTATAATCCTCATCTACTTTATTTGCTATAAGAATGGGATCTAAAATTTGTCTTCCTTCTATGAATGCACTTTGGGTGGGGGTTATAATGGTATTCATAATCTTCTTGAGACGATGTTGGTTTGCTTTTTTCTCCCTTTGTTATAGCTCGTTCTCTTGGTTTCATTGTTTTTGTTTTGGCCTTTTTGTTCGTTATTATCTCGTTGTGTTTCATCTCTTTTCTTTGTACTTTGAGCTTTAGTTTAACTCATTATATCCATGAAAATACTTGTTTCCGTCTAAAAAAAAGAGAGAAGTAAATTTGCTAGACATATATGAAGGAAGAGAATGGAAGTATGATATAAAAACCCTGTTATAAAAGTAACAAATAGCCTTGTAATAGATAAATAATTGACTTCTCACGTACACATTTTTTGGTTGATGTAAGGTTGATAGTTTCTTTATGCTTGATTCAATGGTTGGTAGTTACTTTATGCACCTTGACTGCTCAGTTGTTGAGCAACGCTATTCGTTTACTTGAAAGAATTTTTTTTCCTGCAGCATGAAGTTCTTATACCCGGACTAGATTCTATTCTCACATCTGATGTTGCTGAAGGTGATGATCATGGATCTGAAAGTGAGGCTTCAGAGTGGTCTTTTGCTTCTTTTAGTAATGAACAGGAGTCCCAAACCACTGATAGGGATATAATGATGGTAATTCTTTTGTCACTTTCTAAATTCTTCTGTGTCTATACCCTAGAAGTTAATTTTAAAAAAACTTAATCCCATGTGTGAACGGGCTTGATTTTTTTATCATTAGGTTCATCTGCTCCATCTTGCATGTGCCCCTAAAGGACCATTGGCTGATGCTCTGCCAAAATTGGCATCTGAACTTTGCAATCTGGGGGTATGCTCAATAATTATTCCTTACCCATGTCCTTTCCCAATTCTTATCTTTATCTATTTGGCTGTCAGGTCCTGTCAAAAGCGGCTTTGGATTTAGCTTCTAAGCCATCTTCCACGTTTCATAAAAAATTTAAGACTGCTTTCCAGGAACAGATGGTGCTTCGTAATTCTTTCTATTTAAATTAGTTTCATACTCCTGCCTCTATTATTTCTTGTAGTTCAATTCTTACATTTTATTTCTTCCACATTTTGTTTTACCTAGAATGCTACTAGTTTCTCCCAGTTTTGGACTTCTGATTTTGGTGGCTCAGCATCTTCTCAACTGAGTTCTCGCTATCTCAACGATTTTGAGGAGCTAAAGCCCCTTGGTAATGTGTTCTGGCGTTTTGCATGTGCATGTGTTATTAATGTTCAATTTGTAATAATGTTGATGGTTTCTCTCGCTCTACATATGATTTTGATAAGAGACTATATAATTAGTGATTTTTTTTGCAGTCCCATTGGACGGGTCTTTTATTATGTGATTTCATTTTAGCAAGAAATTTATTTCTTGTCCAAAAAGTTAAAAAGTTGATAAAAGATTCATTCAGAAGGAAAACCATGTACTCTAGTGGGTGAAGGCACAGGGAGTCCTTCCCCCAACAAAATTACAAAACGACCTCTTCCATTTTTTAAATTAAATTAAATTTAATTTTCTTAATAAGAAATGGAACTTTTCATTGAATAAATGAAAAGAAAAAAGGAAGGTGTAATGGTTACAAAAAAGCTTGTGTTGTGTACTCCAATGAGGCACAAACTTTACAAGGTTAAAAAATAATCAAAAGAATTGTACTTTACAAGGTTAAATGGGGTTTGGGACCTTAAAATTCCCCCTTTGGACTCGTTCGGAACCATCCCATCAAGCACTCTATTTCTGCCAATAACCCGGATCTTCTGAAAGTGTACGGCTCCACACTCTAGGAACCTGAATGCTTCATTAGGTCAGTAAATGTTAATTCTTCATCGGAGTGTCTCAAATTTTCTAAATCCTCCATCTCTAATTCGAAGGCATCGTTTCTGCGAGGTTCCCCCGGCAAAGATGATATTTCTTTCAAGAATCAGCTTGAAATTTCCTCTCCTATTAGTGTCAGTTGTGAAGATTCAGCTGAAATCACCAGCGAGGTTGACCTTAAATTAGACTCAGAAATTGAAAAGATGGACCTTAATGTTTTGTTTAATGATGAGAACTTCCCTCCAAATAGAATTCCTCTGGATCTGCCAAAAGATTTATTGTCTATAGTCGATGATTGCAGAATTATTTTGGCTTAATTTAGAAATGCAGCCATCCCATTTTTTCTCCCAGCTATCATGAAGATTTTTCTCCTGTAACACTAGGGGTTTGAATGATTCCTCCAAACGTGCAGCCCTAAAAAATTCATCAAAAATTGCAGCCCGGATGTAGTCATGACTCAAGAGTCCAAGAAGGAATTCTTATATGTGATTTTGGGACTACTGGTTTTTTTCAGCCTCTTCTGGTTTTTGGACTATTTTGGCATGACAACTTCGTGGTTGCCAGTTGCATCTTCTTGCAAGTCTCTAGATTCGAATGGATTCCTTACGGGAGAGATATTTTGTTATGCTTTGTATTCAGTTTCTCCTCATTTTGGTTCTGCTTAGCTTAATTTTTCTGTTGGATTTTACCTTTTGTATTGCCCCAGTTCTTATTTGTTTAGTTTGTTTGAATGTTCTTGTCTTTTCCTCTTTTTGCTCCTAGTATAATACTCTTGTACTTTGAGCGTTAGTCTTATTTATTATTATTAATGAAGAGGCTTCTCTCCATTTGAAAAAAAATAAAAATAAAACAGAAAGACTTCTAAAGTTACGGTTTGTTAAACTGATCAACATGAGGTGAATACTGAGTATCTCTTTTTTTTTTAAAATAGTATCTACTTGTATTTGTTGTATTATGTTTGCTAGAAGATTTTATTTTTATTTATATTTGTCATCTTTTTGTTTGTTTTTTCATTTAACTAAGCTAATTTTCTCATTGTGAATAAGACCAAAATTATTATTCCTAATAATTCTAGAGTAAATTTTTTTAAATTTAATTTAAAAAAATAATTTAATCTCTGTTTTAAGGTTTTGTTAGATTTTAGTGAATGAACTTATTATTTTTTTTATGGTGAATCACAGCAGTCAATTTTCTTTTTCTTTTTCTTCTTTACATAAAAAGTTCTTTTATTGTTGTTATTATGATTATTATTTTTATTTTCTTTCATTCTATTGACATAGCGAGATATTTTTCTTGACTCTATTATGAGTTACAGGTCATGGTGGTTTTGGACATGTGGTATTGTGCAAGAATAAATTAGATGGTCGACATTATGCTGTGAAAAAAATTCGCCTCAAGGACAAAATATTACCTGTCAATGATCGCATCTTAAGGTATAATTATTTCAAGATATATAGTCATGATAGTTTATAAGTAGGGATGTTTTTTTCCCTACGAGCCCCGGGAATCCTCATGTAGGCAGGGAACAAGTGAGGGTTGTGGAGAACAAATCTCTGTGAGCTAATTGGAGATGGGACGAGGAATATATTCCTTGTCACTGCTCCTACCCCACTTCATTTAGCTTTTTATTTATTTCTACTACGACTAGTACTATATATAATTAATTAATTAACTAATTAAAATTTAAATTTAAAGACATATTGCTTAATTGACTTAGATAACTTGGTTAAATATTTAAATTATATGTATTTATGTAATTATGGATAATTAGGTAACTTGATAGATAATATTATCTTGTTTGTATAAGGTTGAAGAAAGTTCTTTTTAAATTTGGATTCTCTGTAGGGAATTAACCATATGAATGATAAATTTTAGGAAGAAATTAACTGTTTGATTAACAAATTTTCAAAACAATTAATTTAATTTATTAGTTTTAAAAGGAAAAACCAAAAGGTGAACCAGGAAACCAGATCCCTCAAAATTTAGGAGGGAATTTTACGGAAATGGGCAATTAAATGGGGACGTGTAGGGAGATGGGGAATCCATTCTTGCTCTACCTGGTGGACATCTCCTATTTATACAATCAGATGAAAACTCTATTTTACTGGATTCATATGACGGCTAAACACAAGGCAAAAGAAACCTGAAACTATACTTGGAAGTCAATTGGTACTAATTAGAATTACCAAAGTCGGGAATTTAGATGCAATCTTGTTAATGCCTAAAGTCTTGACAATGAAGTCCATTCTTACGTTCATCAGGGCATTCACTCTTTATTGTGTATAGTGAATTTATCACAGAATGCAGAAACCAACCAAAAAAATTCACAGTTCACAATTTAGATTTAAAGCTTGTCAGTTAACTGTAAACTCAGACTGGAGGAGATTTAGAGAATATACCTTGAATGATATATAATTAAATTTACCTTCACCCATTAGCTTAAGCTTTTGGATCAATTGGTGATTTAGGATGGTATTAGAGCAGGTGATTTAGGGAGGTCTTGTGCTTCAAGCTCTTGCATTGTTGTTTCCTCCCCAATTAAAATTAATTTCAACTTGTTGGGCCTTCTTCGCACACAACACAAGTAAGAGGGAGTGTTGAATGATATATAATTAATATTTTACCTTCACCACTACCTTAAGTTTTTGGATGAATCAGTGATTTAAGACTTTCTAAGTATAGACTTTTTGTTGCATTTTTTATTTTCCCTTTTATTGTCAAAAAAGAAAGAAAAGAGTAAACTAACCCATTTGATAAGATGTTCAGATTGTTTGATAGCTTGACGATATTGTATCTTCTCTTATAAAACTCTTGAAGTGCCAGCTTCTTCTTGGTTGCAAGTTGTAACTGTTGTATTGGCCACTGGAAACCTGGTGCTTTTCACATATCAATCGTTAGTAGATCCACTTTCTTGGAAATCCAACTGTCGGGATCCACTAGTTTTTTGTACTTATGA ATGAGTGGGCTAATCCTCAACATAATGACTAATGAACCACAATTCTGCAAATGCTATAGTAAACTAAAATATTTCTTGATTCTACCAAAAGAACCTCAGCCGGCTGTCCGTTCTCATACAGCTAGCACTTCTCAACTGCTTCCAGAAAAGACAACTTCAAATGAGAAGAAAGGACCTTATGTTTATGGCTATATAGACCTCTTCAGTGGTTCTGGGGAGTTGTGGAGCTGGAGCTTTGACATGGACGAGAAGCTCAACTCCCTAGCACAACCTCTTGTAGCAGATAGCTTGAAACTAGGAGCAGTTCAAGAAAAAAAGCTTGATAAAGTTCAAAACTTATTAGCTCGACAAAATTCAAAACGAGGTGAATTATTGTCTCCTTCCTCTAACCTAGGTACCCTCGAAGAAGAAACTGAAGGTGACAGTCAGAGCAAAAGTTCTTCAAATTCAAGAAGATCATTAATTGTACAGAGGAATGAAGATGGTAATGAAGGTGAGATGCAGCATGAAGTTCTTATACCCGGACTAGATTCTATTCTCACATCTGATGTTGCTGAAGGTGATGATCATGGATCTGAAAGTGAGGCTTCAGAGTGGTCTTTTGCTTCTTTTAGTAATGAACAGGAGTCCCAAACCACTGATAGGGATATAATGATGGTTCATCTGCTCCATCTTGCATGTGCCCCTAAAGGACCATTGGCTGATGCTCTGCCAAAATTGGCATCTGAACTTTGCAATCTGGGGAATGCTACTAGTTTCTCCCAGTTTTGGACTTCTGATTTTGGTGGCTCAGCATCTTCTCAACTGAGTTCTCGCTATCTCAACGATTTTGAGGAGCTAAAGCCCCTTGGTCATGGTGGTTTTGGACATGTGGTATTGTGCAAGAATAAATTAGATGGTCGACATTATGCTGTGAAAAAAATTCGCCTCAAGGACAAAATATTACCTGTCAATGATCGCATCTTAAGTGCCAGCTTCTTCTTGGTTGCAAGTTGTAACTGTTGTATTGGCCACTGGAAACCTGGTGCTTTTCACATATCAATCGTTAGTAGATCCACTTTCTTGGAAATCCAACTGTCGGGATCCACTAGTTTTTTGTACTTATGA ATGAGTGGGCTAATCCTCAACATAATGACTAATGAACCACAATTCTGCAAATGCTATAGTAAACTAAAATATTTCTTGATTCTACCAAAAGAACCTCAGCCGGCTGTCCGTTCTCATACAGCTAGCACTTCTCAACTGCTTCCAGAAAAGACAACTTCAAATGAGAAGAAAGGACCTTATGTTTATGGCTATATAGACCTCTTCAGTGGTTCTGGGGAGTTGTGGAGCTGGAGCTTTGACATGGACGAGAAGCTCAACTCCCTAGCACAACCTCTTGTAGCAGATAGCTTGAAACTAGGAGCAGTTCAAGAAAAAAAGCTTGATAAAGTTCAAAACTTATTAGCTCGACAAAATTCAAAACGAGGTGAATTATTGTCTCCTTCCTCTAACCTAGGTACCCTCGAAGAAGAAACTGAAGGTGACAGTCAGAGCAAAAGTTCTTCAAATTCAAGAAGATCATTAATTGTACAGAGGAATGAAGATGGTAATGAAGGTGAGATGCAGCATGAAGTTCTTATACCCGGACTAGATTCTATTCTCACATCTGATGTTGCTGAAGGTGATGATCATGGATCTGAAAGTGAGGCTTCAGAGTGGTCTTTTGCTTCTTTTAGTAATGAACAGGAGTCCCAAACCACTGATAGGGATATAATGATGGTTCATCTGCTCCATCTTGCATGTGCCCCTAAAGGACCATTGGCTGATGCTCTGCCAAAATTGGCATCTGAACTTTGCAATCTGGGGAATGCTACTAGTTTCTCCCAGTTTTGGACTTCTGATTTTGGTGGCTCAGCATCTTCTCAACTGAGTTCTCGCTATCTCAACGATTTTGAGGAGCTAAAGCCCCTTGGTCATGGTGGTTTTGGACATGTGGTATTGTGCAAGAATAAATTAGATGGTCGACATTATGCTGTGAAAAAAATTCGCCTCAAGGACAAAATATTACCTGTCAATGATCGCATCTTAAGTGCCAGCTTCTTCTTGGTTGCAAGTTGTAACTGTTGTATTGGCCACTGGAAACCTGGTGCTTTTCACATATCAATCGTTAGTAGATCCACTTTCTTGGAAATCCAACTGTCGGGATCCACTAGTTTTTTGTACTTATGA MSGLILNIMTNEPQFCKCYSKLKYFLILPKEPQPAVRSHTASTSQLLPEKTTSNEKKGPYVYGYIDLFSGSGELWSWSFDMDEKLNSLAQPLVADSLKLGAVQEKKLDKVQNLLARQNSKRGELLSPSSNLGTLEEETEGDSQSKSSSNSRRSLIVQRNEDGNEGEMQHEVLIPGLDSILTSDVAEGDDHGSESEASEWSFASFSNEQESQTTDRDIMMVHLLHLACAPKGPLADALPKLASELCNLGNATSFSQFWTSDFGGSASSQLSSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRHYAVKKIRLKDKILPVNDRILSASFFLVASCNCCIGHWKPGAFHISIVSRSTFLEIQLSGSTSFLYL
BLAST of CsGy6G003610 vs. NCBI nr
Match: XP_011656554.1 (PREDICTED: probable serine/threonine-protein kinase GCN2 isoform X1 [Cucumis sativus] >XP_011656555.1 PREDICTED: probable serine/threonine-protein kinase GCN2 isoform X1 [Cucumis sativus]) HSP 1 Score: 548.9 bits (1413), Expect = 1.3e-152 Identity = 289/330 (87.58%), Postives = 293/330 (88.79%), Query Frame = 0
BLAST of CsGy6G003610 vs. NCBI nr
Match: XP_011656557.1 (PREDICTED: probable serine/threonine-protein kinase GCN2 isoform X3 [Cucumis sativus]) HSP 1 Score: 548.9 bits (1413), Expect = 1.3e-152 Identity = 289/330 (87.58%), Postives = 293/330 (88.79%), Query Frame = 0
BLAST of CsGy6G003610 vs. NCBI nr
Match: XP_011656558.1 (PREDICTED: probable serine/threonine-protein kinase GCN2 isoform X4 [Cucumis sativus]) HSP 1 Score: 548.9 bits (1413), Expect = 1.3e-152 Identity = 289/330 (87.58%), Postives = 293/330 (88.79%), Query Frame = 0
BLAST of CsGy6G003610 vs. NCBI nr
Match: XP_008445738.1 (PREDICTED: eIF-2-alpha kinase GCN2 isoform X1 [Cucumis melo]) HSP 1 Score: 503.8 bits (1296), Expect = 4.9e-139 Identity = 271/315 (86.03%), Postives = 274/315 (86.98%), Query Frame = 0
BLAST of CsGy6G003610 vs. NCBI nr
Match: XP_008445742.1 (PREDICTED: eIF-2-alpha kinase GCN2 isoform X3 [Cucumis melo]) HSP 1 Score: 503.8 bits (1296), Expect = 4.9e-139 Identity = 271/315 (86.03%), Postives = 274/315 (86.98%), Query Frame = 0
BLAST of CsGy6G003610 vs. TAIR10
Match: AT3G59410.2 (protein kinase family protein) HSP 1 Score: 153.7 bits (387), Expect = 2.2e-37 Identity = 117/328 (35.67%), Postives = 156/328 (47.56%), Query Frame = 0
BLAST of CsGy6G003610 vs. TAIR10
Match: AT4G09012.1 (Mitochondrial ribosomal protein L27) HSP 1 Score: 42.0 bits (97), Expect = 9.5e-04 Identity = 21/38 (55.26%), Postives = 25/38 (65.79%), Query Frame = 0
BLAST of CsGy6G003610 vs. Swiss-Prot
Match: sp|Q9LX30|GCN2_ARATH (eIF-2-alpha kinase GCN2 OS=Arabidopsis thaliana OX=3702 GN=GCN2 PE=2 SV=2) HSP 1 Score: 153.7 bits (387), Expect = 4.0e-36 Identity = 117/328 (35.67%), Postives = 156/328 (47.56%), Query Frame = 0
BLAST of CsGy6G003610 vs. Swiss-Prot
Match: sp|Q75JN1|IFKC_DICDI (Probable serine/threonine-protein kinase ifkC OS=Dictyostelium discoideum OX=44689 GN=ifkC PE=3 SV=1) HSP 1 Score: 64.3 bits (155), Expect = 3.2e-09 Identity = 32/52 (61.54%), Postives = 40/52 (76.92%), Query Frame = 0
BLAST of CsGy6G003610 vs. Swiss-Prot
Match: sp|Q9Z2R9|E2AK1_MOUSE (Eukaryotic translation initiation factor 2-alpha kinase 1 OS=Mus musculus OX=10090 GN=Eif2ak1 PE=1 SV=2) HSP 1 Score: 61.6 bits (148), Expect = 2.1e-08 Identity = 27/42 (64.29%), Postives = 34/42 (80.95%), Query Frame = 0
BLAST of CsGy6G003610 vs. Swiss-Prot
Match: sp|Q63185|E2AK1_RAT (Eukaryotic translation initiation factor 2-alpha kinase 1 OS=Rattus norvegicus OX=10116 GN=Eif2ak1 PE=1 SV=2) HSP 1 Score: 61.6 bits (148), Expect = 2.1e-08 Identity = 27/42 (64.29%), Postives = 34/42 (80.95%), Query Frame = 0
BLAST of CsGy6G003610 vs. Swiss-Prot
Match: sp|Q9BQI3|E2AK1_HUMAN (Eukaryotic translation initiation factor 2-alpha kinase 1 OS=Homo sapiens OX=9606 GN=EIF2AK1 PE=1 SV=2) HSP 1 Score: 60.1 bits (144), Expect = 6.1e-08 Identity = 28/53 (52.83%), Postives = 38/53 (71.70%), Query Frame = 0
BLAST of CsGy6G003610 vs. TrEMBL
Match: tr|A0A1S3BDF8|A0A1S3BDF8_CUCME (eIF-2-alpha kinase GCN2 isoform X3 OS=Cucumis melo OX=3656 GN=LOC103488674 PE=4 SV=1) HSP 1 Score: 503.8 bits (1296), Expect = 3.2e-139 Identity = 271/315 (86.03%), Postives = 274/315 (86.98%), Query Frame = 0
BLAST of CsGy6G003610 vs. TrEMBL
Match: tr|A0A1S3BE48|A0A1S3BE48_CUCME (eIF-2-alpha kinase GCN2 isoform X4 OS=Cucumis melo OX=3656 GN=LOC103488674 PE=4 SV=1) HSP 1 Score: 503.8 bits (1296), Expect = 3.2e-139 Identity = 271/315 (86.03%), Postives = 274/315 (86.98%), Query Frame = 0
BLAST of CsGy6G003610 vs. TrEMBL
Match: tr|A0A1S3BE99|A0A1S3BE99_CUCME (eIF-2-alpha kinase GCN2 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103488674 PE=4 SV=1) HSP 1 Score: 503.8 bits (1296), Expect = 3.2e-139 Identity = 271/315 (86.03%), Postives = 274/315 (86.98%), Query Frame = 0
BLAST of CsGy6G003610 vs. TrEMBL
Match: tr|A0A1S3BCY3|A0A1S3BCY3_CUCME (eIF-2-alpha kinase GCN2 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103488674 PE=4 SV=1) HSP 1 Score: 381.3 bits (978), Expect = 2.4e-102 Identity = 221/315 (70.16%), Postives = 224/315 (71.11%), Query Frame = 0
BLAST of CsGy6G003610 vs. TrEMBL
Match: tr|A0A0A0KE42|A0A0A0KE42_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G042400 PE=4 SV=1) HSP 1 Score: 300.1 bits (767), Expect = 7.0e-78 Identity = 155/185 (83.78%), Postives = 156/185 (84.32%), 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:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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