Chy11G197280 (gene) Cucumber (hystrix) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGTGTCAACTTTAAGGGCCTTTGCCCCCACATTCAATCGCTATCCGTCTCGCGCCTTTTCAATCAAAACCCAGATGGATTCCATCACTAGAAACCCCGACGGCTACACCTCCACCTGCGCTTCCACCTCTAAACCAACCGAAAATCGGATCACCTTGCAGGAATGGCAGGGTTGGGGCTCCACCTCTCCTGTTCCCACCATGGTTACGGAAATTATCGACGAATTGAAGGTCTTGGAGAAAAGTGTTGATGCCCAAATGAGTTTTGGTGGTAATGGCGGCAAACTTCAGGTGTGCCACAAACCCATTGGATATGTTTTTCGCCTCTTCTTTTACTTTGTTTCGTTTTGGTTGATACTGCAACAGATTTTGTTAAATCCTATACTCAATTATTGTTTCTATATCACTTGCAATCAATCAACTTATCTAGATATTGTTAATGGAGTAAACAGCAACTTGGAATTTTAGATTGATTCATGTCTTCTCTTTCAAAAGGGTTGTGGAAATTCTTAAACGAAGTGAATGTCATATGGAGACTTATTAGAAGTAGAGTTTAGATACTCTCAGTTCGTCCACCAAACAGCAGCTGGTAGTAATTTCCCTGATCCTTGGGATCGATTGACATTTCTAAAAGTAAAACCAGGTCTTTCATGGAAAAAGGATCACTTTTTAATTTAGCATTGGCAGGAGACTTGGGTAGTCGGAAGATATATGGTTGGATTCTAACCCATCTTGCAACTCGTTCCCTAAATAAAGTTTATGGATTGTCCAACACAAAAGGCAAGTTGGATTGAGATGCTCAGCTCAGTTTTTCCTCAAGCTGGGAGCTTGTCTTTGTAAGTCAGAATGATTATTAATGTTCCTGAAATTTTGAAAATTGAGGAAATTATCATGTAAATTACCTAATCTTCAACTTGACCCACAGATAAAGTAAGTTAAACCTGAATTTAGCCAAGCAGATATGTGATGGAAACTTCCCTAAAAATCTTAAGTTCTTCCATTAGACCGTGCCTTCTAGGAGTCTTAATGCGCAGAAAATTTTTAAAAGACATTTTGTATCTATCTATATCTCCATGAGTTTGCAAAAAATGATGCTCTGGTGAGGAAACCGTAGACCGCATTTTATCCACCCTATTTATTTTTACTACAAAAAGTTGGAAACTTCTTTGCAAACTTTTTGTTGATTAAGCCAACCTTAAGACATCAGAAGCTGGCTTCTAAATCTCATGAGGTCCTTTTTTATGTAGCAAAACCAGGATTCTTTGGTTAAGGCCCTCAAGGGATTATTTGCGAAGATTTCAAAATTTTCGTTCATTTTGTGAACATGTATTAACATTTTTAAGTGCGCTGCATAGGATTTTTTTGTAACTACTGCATAGTCTCCATCATTATAGATTGGAAGGTCTTTTTGTAATCCTTCTCTTGGGCAAAGTGATGCCTCATCACTTTGTCCCCTAGATTGTTCCATTTGGCTCCTGTTTTTTAATGAAGTTATCTCTTATCACAAAAAAAAAAAAAAAAAAAAAAACAAACAAACAAAAAAACAAAATTACTTGGTAATTCTCCTTGTTTCTGAGATGGCAGAACTATTCCTGCAGTATCTTTTTTGGTTATTAAACATGTGGAACACGAATCAAGTTTAGATAACCATTCCATGAACCATGAGACTGATAGACCTCCGATACTATATCATTATAGTAGGAGAGGGAAGAAGAGCAGCGGCACGTGTGTAGAGTGACACGTGTGAGATAGTTGAGTATAAATAAAGAGGAAAGTTTAGGCGGGAGAGTTAGGTAGAATTTCAGTTAAGAAAAAGTTCTGTTCTTCCTTGAGAGATAGGTTAACAGAGGAGAGTTTGATTTTTCAATTGCTTTCTTATTAGAGTTGTACCTCAGATTCCTTGTTGAATCTGCTATCAATAAAAGTAAGATTTCTTGTAAGTTTCTGGTTTCCATCAAATTGGTATCAGAGCACGATTTTGGGGCAAGAAGAAGGATGGTGCAGACGAGATTTGAAGAAAAGATCGAAACGATAGATCAAGAGATCCTTGGCATCAAGAAGGAGATCGGGAAGCTGCCGGCGATTGAGAAGACGTTGATCGAAATCTCGCAGAACTTGGAGAGGCAAAAACAAGTAATGCTGAGAATTATGGAATCATCCGCACAGGAGAGATCAACGATGAACGAAAAGATAACCGAATTAGCGATGCGAACTGTGTCGACGAAGGTGAATGAAGAGAACGAAGGAACATCGAGGCGAAGAAACGAAACAAAGAACGAAGAGAAGAAGTCGAATGATGAAGGGAACAACGATCGAAACAAATTCAAGAAGGTGGAGATGCCTATATTCAACGGAGATGATCCCGACTCATGGTTATTCCGCGCTGAGAGGTACTTTCTTATCCATAAATTGACTGAATTCGAGAAGATGACTGTATCTACGATAAGTTTCGAAGGACCAGCATTGAACTGGTATCGTTCTCAAGAGGAACGGGAGAAGTTTATTGATTGGGCGAATATGAAGGAAAGGTTGTTAGTGAGATTCCGTTCATCGAGGGAAGGATCGCTGTACGGGCGATTTTTACGGATTCAACAAACTACAACTGTGGATGAATATCGAAATTTATTCGATAAGTTTGTAGCACCACTAACAGATTTACCCGAAAAAGTAGTAGAAGAAACTTTTGTTTCGGGATTAAAACCGTGGATTCAAGCAGAGATGGATTTCTGCGAACCGAAAGGATTAGCTCATATGATGAAAATAGCGCAAAAGATTGAAAACAGAGAAGATATTCGGCGTGAGGCCAATCTTTCTGGTTATTCCGGAGGAAGAACGGGTAATCCACAAAACAATATCAAGACGAATACGAATGCGAATGCTGGAGAGAATAAGGGGGGAACGAACTGGCCAATGAGGACCATTACTTTACGTGGAACAGCAAAGGAGGGAGTTCCGAAGGAGGGACCATCAAAACGGCTATCTGATGCGGAATTCCAAGCTCGAAAGGAGAAGGGATTGTGTTTTCGGTGTAATGAGAAATACTCTCATGACCATAAATGCAAAGCTAAGGAGACGCGAGAACTACGAATGTTGCTAGTAACGGGGGATAATGAAGAGTACGAAATCATAGAGGAAGGAGAGGAATCATGGAAGGAGTTGAAAACTATAGAAATCAAGGAAGATAATCAAGCGATAGTAGAATTGTCTATCAACTCGGTGGTTGGACTATCCAGCCCAGGAACGATGAAGGTGAAAGGAAGGATACAAGGAAGAGATGTTGTGGTGTTAATCGACTGTGGAGGAACACACAATTTTATTTCTGAGGATCTGGTGAAGGAACTGCAGCTGGAAGTAAAAGAAACCTCAAATTATGGGGTAATTTTGGGTTCCGGTACTGCTGTAAAAGGAAAAGGCATATGTGGAACTGTGGAACTGATGCTAGGGGAGTAAGTAATTGATGAATTTTTACCCTTGGAGTTAGGAGGAGTAGATGCTATTTTGGGAATGCAGTGGCTTTATTCTTTGGGAACAACGGAGGTAGATTGGAAGAGTTTGAAATTGTCCTTCATGAATCAAGGGAAGAAGATTATAATACGAGGGGATCCTAGTCTGACTAAGGCGAGAGTTAGCCTGAAAAACTTAGTCAAGACATGGGGAGAAGAGGATCAAGGCTATTTAGTTGAATACAGAGCCTTGGAAAGATGTGAAGTAATTGATGAAGAAGATGATCCAAGCGAGGAAGTATTAACTGAAGAAGAGCTGGAAACTGCCGTACTGAAGAAATTTGAAGATGTTTTTGAGTGGCCAGAAACGTTACCTCCTCAGCGGGTAATAGAACATCATATTCATTTGAAAGAGGGTGTGAATCCGATTAATGTGAGACCATATCGGTATGCGTACCAACAAAAGAATGAGATGGAGAAGTTAGTTGAAGAAATGTTAACGTCAGGACTGATAAGACCAAGCACGAGCCCTTATTCGAGTCCGGTATTACTGGTAAAAAAAAAAGATGGCAGTTGGAGGTTTTGTGTAGATTACAGGGCATTAAACAATGTAACTGTGCCTGATAAATTTCCAATACCAGTAATCGAGGAATTATTTGATGAACTAAATGGAGCTGAGATATTCACTAAACTGGATTTGAAGGCCGGTTACCACCAGATTAGAATGAGTGCAGAAGACATTGAAAAAACCGCATTCAGGACTCATGAAGGTCATTATGAATTCATGGTGATGCCATTTGGACTAACAAATGCACCATCAACTTTTCAATCACTAATGAATGCTGTATTCAAACCGCACCTCAGGAAGTTTGTGTTGGTATTTTTTGACGATATATTGATCTATAGCAAGAATGTGACGGCTCATTTGGACCACATCAAAACAGTGTTAGAAATACTGCGAAGGAATGAATTATATGTGAACAAAAAAAAATGCAGTTTTGCTAAGGGAAGAGTAGAATACTTGGGGCATATCATTTCTGGAGAAGGAGTAGAGGTGGATCCAAAGAAGATTAAGGCTATCAAAGAATGGCCTAATCCAACTAATGTGAGAGAAGTCCGAGGATTCTTGGGCTTAACGGGATATTATCGCAAGTTTGTTGAACATTATGGAACGATTGCAGCACCTCTGACTCAATTGCTGAAGAAAGGGGTTTATAGATGGACTGAAGAAGCGCAGGAAGCTTTCGTCAAGTTGCAAAGTGCCATGATGTCATTGTCGGTATTAGCACTGCCAGATTTTAGCATTCCTTTTGAAATCGAAACATATGCTTCTGGATTCGGCTTAGGAGCTGTGTTAATACAGAATCAAAGACCTATTGCCTTTTATAGCCATACGCTAGCAATAAGGGATAGAAGTAAACCGGTATATGAAAGGGAACTGATGGCGGTAGTAATGGCAGTACAGAGGTGGCGTCCCTATTTATTTGGGAAGAGATTCAAGGTGAAAACTGACCAAAGGTCACTAAAATTTTTATTGGAACAATGGGTGATTCAACTCCAATACCAAAAATGGATATCTAAGTTATTGGGATATTCATTTGAGGTGATATATAAGCCGGGATTAGAGAATAAGGCAGCTGATGTGCTATCGAGAATACCACCTGCTATTCATTTGAATCAATTGACAGCTCCAAATATAATTGATGTGGCAGTGATTAAAGAGGAGGTTAATCAAGATGAGAAGCTTTTGAAGATCCAAGAGGAATTAGAAGAAAAAGGTGAGGAGCAGTCCAGTGAATACTCTATGAAGCAAGGGATGTTGATGTATAAGAATCGAATGGTAATTTCCAAATCTTCCAAACTGATTCCAAAGATTTTACATACATTTCATGATTCAGTTTTTGGAGGACATTCAGGTTTTCTGAGAACCTATAAGAGATTGACTGGAGAGTTATATTGGAAAAACATGAAACAAGATGTGAAGAAATATTGTGAAGAATGCATGATTTGCCAAAGAAATAAAACATTGGCTTTATCGCCAGCCGGGTTGCTAACACCCTTGGAAGTTCCTCATAGAGTGTGGGAAGGGATTTCCATGGATTTGTGGAAGGATTACCAAAATCAAATGGATACGAGGTAATACTGGTAGTGGTAGATCGTTTCAGTAAATACGGTCACTTCTTACCACTGAAACATCCGTATAATGCGAAGTCTGTGGGGGAGTTATTTGTTAAAGAAGTGGTGAGGCTACATGGTTTTCCAAAGTCCATAGTGTCAGATAGAGATAAAGTATTTCTGAGTTCATTCTGGAGGGAGTTGTTCAGGATTGCTGGTACGAGATTAAATCACAGCACAGCATACCATCCTCAGACGGATGGGCAAACGGAAGTAGTGAATCGAGGAGTAGAAATTTATTTACGATGCTTCTGTGGAGAAAAACCAAAGGAGTGGGTGAAATGGATACCATGGGCTGAATATTGGTATAATACCACATATCAGCGTTCATTAGGTGTCACGACATTTCAGGCAGTATATGGTAGATTGCCCTCCCCTTTGATATTGTATGGAGACAGAAATACATCTAATTCCACGTTGGATGAGCAGTTGAAAGAGAGAGATATAGCGTTGGGAGCTTTGAGGGAACACCTGCAAGTGGCGGCCCAGGATAAGATGAAAAAATATGCAGACTTGAAGAGGAGGGATGTGCAATTTCAAGTAGGGGATTTGGTTTTATTAAAAATAAGACCTTATCGTCAGGTGTCGCTGAGAAGGAAGAGAAATGAGAAGCTCTCTGCTAAATATTTCGGACCTTATAAAGTGATAGAAAAAGTTGGTCCAGTGGCATATAAACTGGAGTTACCTGAGGAAGCAGTCTTTCATCCAATTTTTCATGTGTCTCAGCTGAAGAAAGTGTTTGGAACACATGAGGAGAATTGTGATGATATTCCATACTTATCAGAGAATCACGAATGGAGAGCAGTACCAGAAGAAGTGCACGGGTACTCGAAAAATAAAGCAGGAAATTGGGATGTGCTAGTAAGATGGAAGGGGCTACCAAAACACGAAGCAACCTGGGAATTATATGAAGATTTGCAACGACGATTTCCAGATTTTCACCTTGAGGACAAGGTGAAATTGGAGAGGGAGAGTAATGATAGACCTCCGATACTATATCATTATAGTAGGAGAGGGAAGAAGAGCAGCGGCACGTGTGTAGAGTGACACGTGTGAGATAGTTGAGTATAAATAAAGAGGAAAGTTTAGGCGGGAGAGTTAGGTAGAATTTCAGTTAAGAAAAAGTTCTGTTCTTCCTTGAGAGATAGGTTAACAGAGGAGAGTTTGATTTTTCAATTGCTTTCTTATTAGAGTTGTACCTCAGATTCCTTGTTGAATCTGCTATCAATAAAAGTAAGATTTCTTGTAAGTTTCTGGTTTCCATCAGAGACTGTGGTGCTATATATTTTGCTACCTATTTTATTCATTGTGCAAATGATTGCCTTGTTAATATTAATCTTTGGCGTTATTTCAGGGATATTTTAAAACTCAGGAGGACAAAAAACACCGAGCTACATATCAGGCTCTAGGTAGTTCTGAGCAGAAACTGCAATTCTTTTCTGCTCGACAAATTGCATGTCGTTTACTTGGGAGCAGGGATTATCTTTGTCAAAAGGTATAATCAATCTTAAATGATTCTGTATTTCTTGGGGTTCTATTCATATTAACACGACCAGTTTGTTGAATGTGTTTTTCCAATGCATTTATTAGGAATTGATAGGTTTTTTAGTATCTACAGACCCTTATTGTTACTTTATATAACATATCTGCCTTTGCTGTGTTCTTTTGAATCTGTTTAGTGCTGGCTGCCTTTTGAGGATTGTATGTGTTCAAGAGTCAAGCATTGTTCTCTATGGGATAGAGCACGGTTTTGGCTATATATGCATCCAAAGGTCTGTACTGCTGGTCGATTCTTTATACTTCTCATCTACTAAACTTGACATGAAGATTATCTAGAGTTATTGTTCAGGATTTTCTACGGCAGAACAACACAGGGAAGTTGTTATTGCAAGTATTTGGTAAAGAAGCCACAACTTTGTCCCTCTATGGTATCTCCGAACATGAAGAAATTATGTGGAATGCATTCAAGTCAGCAGGTAACTGTATTCCTTGTGTGACCTTTAACAAGCCTATAGCTTTATTTACTATAGCAAGAGCTAAATTTATCTTATTCTAGGTCTAAGAAGATAAGTATTTCTTTAAGACATTTATGATATTACACTGAAATTTTGAATCCATGAGAACTATGACTTATTAGGATATTGAGTGTCTATAAAGTGGGGAAGGAAGGAGTTAGACATTTTGTGAGTTAACTAGAGCTTGGGAGAGATATCAAGAGGAAAGGGTGCAAGTATCTCAAATTTCTTGTTTATGTAATTTCTTCATTAAATTGCAATATAGTTTTCTTCAGCATTTCCGTATATTTTGTGTTTGGATATCTAACAGATGTATATGGATAGTGGCTATCATCCATAAACTGTTGTCTGGTTTCCACACTGTAATAACTCATTAGGAAAGTTGTTATGGCATGTAGACTATTTTCTTCTTTTGTTTACTGTGATTTTCCAAATATTACTCAGGTAGAAGCAAAGTTTGTTGCCTTTATCCCAACAAGAATGCAACTTCTAAAGGTGTTCAGGAGGCCTTCGGCTCTGAACTCTCAACTAAGCAAGAAAACACACAGCAAATGGTACATACCTTCTGAAGCAGTGTAGTTAATGTTCCTTCGTGATTATATTCATTACTCACTGTGAAGCTAGAATTTTACTTTAGACATATTATTAAATGGTAATGATGAAAGTATAGACTACATGGTGGTTGGATATACACATTATGAAAGTATATACTCATCACTCAATGTTAGCTAGAATTAACACTCCCACAATGTGTGACCTTTATGGTTGGATATACCTGTGGAACATTATTTATGGAAGAATTCTGTTAGGCCACCTGTTATATGGCAGTACAGTAGGAGAAGAAGCAAAGGAAGCGCATGTGTAATGGAAGTATAGTTGCTATGGCTGGGACCCACAGTTAGTTAGAAAGAGGGGAAGGTTTAAACAGCAGGGAGGCGGGGAGTCAGGGAGTGAAGTTATGAAAATTGTGTGAGGCGGTTGTCTATTCCTTGAGAGATAGAAAAGGCAGAGAGAGGTGGTTAGGGTTACACATTGGAAGTAGTATATAAACCGGGGTTGGAGAATAAAGTTGCTGATGCATTATCTCAGCTACCTCCGTTGGTGCACTTAACTCATTTGTCAGACCCTGCTCTGTTGGATATGCCAGTGATTAGGGAAGAGGTGGAGAAGGATTTGCGATTGAGGAAATCATCAATAAGCTGAAGAAGGATGAAGAGAGTGGCTGATTTCTCTCTACGTCATGGAGTGTTGAAGTACAAAGGTAAAGTGGTGATGTCCAAATCTTGAGCTTTACTGCCTACTCTGTTACATACATATCATGATCTGGTATTTGGTGGACATTCGGGTTATTTGAGAACTTATAAACGTTTGACGGGGGAGCTGTACTGGGAGGGAATGAAGGGAGATGTAAAGAAATATTGTGAAGAATGTGTAGTTTGTCAATGTTACAAGAGTTTGGCTTTATCTCCGGTAGGTTTGTTGATGCCATTGGAAATTCTGGATGCCATATGGAGTGACGTTACGTTGGATTGATGGGTTACTAAAGGCTAGAGGATTTGATGTTATACTGTTGGTGGTGGATAGACTTAGTAAATATGCTCATTTTTTGACTTTGAAGCATCCTTATACGGCAAAATTTGTGGCTGAAGTGTTTGTCAAGGAAGTGGTTCAGTTTCATGGATTTCCAAAATCCATAGTATCTCATTGTGACAAGGTCTTTGTTAGAAATTTTTGGTGTGAAATGTTTAGATTGTTCGGTACGCGACTGAATCGTAGATCAGCCTATCACCGACAATCAGATAGCCAGATTGAAGTGGTGAACTGGAGCGTCGAGGCATACCTTCGTTGCTTTTGTGGAGAAAGACCAAAGGAGAGGTTATCATGGTTGCATTGGGATGAGTACTGGTACAATACCAACTACCAAATTTCTATGGCCTAACCCCATTCCAAGCAGTGTATGGATGATTACCTCCTCCGTTGATTTATTATGGAGATTTAATACTCTTAATTCTACCCTTGATCAACCACTCAGGGAAAGGGATGTGACCTTTGTATTGAAGGAACATTTACGGGTAGCTCAGGAAAAAATGAAGAAATCTGCAGATAAAAAACAGCGGTATGTGGAGTTTCAGGTGGGAGATTTGGTATTTTTGAAGATTTGCCCCTACCGACAAGTGTCATTGCAGAAGTGGAGGAACGAAAAACTGTCTCCAAAATTTGTTGGGCCATATCGAGGGCTGGAAATACTTGGACCAGTGACATAGAAATTGGAATTACCTCCATCACCTTCTACACATCCAGTCTTTCATGTCTCGCAGCTGAAGGGAGTGTTAGGAGAGCATCTGGAGGTGCAGCACACATGGTGCCTTACTTGTCTGAAACTCATGAGTGGGTGACCAAACCAGAGGAGGTTTATGGATACCGGAAGAATCCTACAATGGGAGTGTGGGAAGTACTGATTAGTTGGAAAGGATTACCTCCTCATGAAGCTACCTGGGAGGTTTGTGATGATTTTCAGCAGCAATTTCCACATTTTCACCTTGAGGACAAGGTGATTTGGAGAATGAGAGAAATGTTAGGCCACTATTATATGGGCAGTACAGTAGGAGAGGAAGCAAAGGAAGCGCATGTGTAATGGGAAGTATAGTTGCTAAGGCTGGGACCCACAGTTGGTTAGAAGGAGGGGAAGGTTTAAATAGAGAGGGAGTTGGGGGGAGTGAAGGTGTGAAAATTGTGTGGGACGGTTGTCTATTCCTCGAGAGATAGGAAAGGCAGAGAGGGGTTCATGTTTCCATTTTGTTCTTTGCTATTTGTCTTTGTTCTTGTTTGAGACTTGGTGATAAACCAATTCCTTGCAATAGCTCTTGGCATTTTCACTAAATAAGAATCATCCAAAGTTGGTGTTCTATCAACTTCTAGGCTCAGATATTCAATCCGTACAGTTTCAAATAACATACTTCGTATTCTGGATGATGTTTTGTTTTTTTGGCCATGCTTCTGTTTTTGTAAAATTTTCTGTTCTTCCAGTTGATCAAGGTCATAATGTTCTTGTTGATTCTGCTCATAGACTGATGGAGATGGAATTCTGAATTTTATTTTGATTGACGGTACTTGGAGCAACTCTGCTGCAATGTTCAACCGACTTAAGGTAATGTTATGTAGCATTTTTGTTTTGTCTTCTAAGCCAATGTTTTTCCCATGACAAAATGACTGATTAGTATAAGCCACATGACATACAAGGACAGGATTTTGAATTTTAGGATTATGTCTTAATTTTTACCATTTCATTTTATTTTAACAGAAACATGGTCAGATAGGAAATCCACCCCAAGGAAATGTGAAACCAAAATTTACCAATTTTTAACAATATAAACCACATGACATACAAGGACAAAATTTTCGAGTACTCCAGAACGAGGCCGGCCATCTAGCTCCCCCATCTGTCAGCAATATTAAGAAGGAATCTCAAATTTCTTTTATTCCATGATTCCTGAAAGAGTGATCTTATGGAGTTGGACCACCATAGGATCTTGGTTTCTGGAGATTTTGCCCATGAAAGCAATTACAAATTTAAACTCCGTACTTTTAGATGGCACTACCCAACAGAAATGGGCCTCAATCAGTTCATTTCCCGTAGTTGATGGACTGCTACCACATATGCTTTTGTTGGCTCTTATATTCAAATATCCCCCATCGCTACAATGAAATGAACATCCCAACAATAGGTCCTTGTTCCAAGTATCGTGGTCCTTTAGGAGGTTGTGAAATCAACAAAAGAAAAACGTCAATTCAGTTTGAACCTTCATAATGTTCTTTTGGTTCCTTTTTCAGATTGGATGCTTGATTGATAGCTTAGGTTCACTGTGTGGTTGATATTCAGACTGAGATGGACCAAACTTTTGGAAACTACTCTACAAGAAGTATATTCTAATGTGTTGATTGTTGCAATTATGTAGGAGCAAGCTATATTGGTTTGGGGGGAGGATATTCCATGCATATCATTGTCTACGGGCTCCTCTGCAATGCATAAACTCAGGTAAGAATTTGAGTAAGTTATCCAATATATAGCTGGGTTTTCACGAGTCCTGGGGGGAAAAGCATGATTCTTTTATATAATATTGACTTATAAGAGCTTGTCTGAATGTGAAGGCCTCAACCATCATGGGACCGTACCTGCACTGCGGCAGCGGCAGCTAGCCTACTCTTTGAGCTTCAACTCGTTCCAAAGTTCAGCTCTGTTGAATTCGAAAAACAGGGTGATGCATTGGAAGATGCTCTGGAAGTATTGTTAGAAGCTCTCACTGCTCGACGTATTCGGATGGGGCGGTCCATCACCCGTAAAGTAAGACATGCAAGTAGTTTTTGCTAATCGAAGACGATGTTACTTGAAATACATGAGGTGCATGAAATTTTTTTATGCTTTTATTGGTAGAACTATGCTAACATGATGCCTTCTGAAGCGGCTTGA ATGGTGTCAACTTTAAGGGCCTTTGCCCCCACATTCAATCGCTATCCGTCTCGCGCCTTTTCAATCAAAACCCAGATGGATTCCATCACTAGAAACCCCGACGGCTACACCTCCACCTGCGCTTCCACCTCTAAACCAACCGAAAATCGGATCACCTTGCAGGAATGGCAGGGTTGGGGCTCCACCTCTCCTGTTCCCACCATGGTTACGGAAATTATCGACGAATTGAAGGTCTTGGAGAAAAGTGTTGATGCCCAAATGAGTTTTGGTGGTAATGGCGGCAAACTTCAGGGATATTTTAAAACTCAGGAGGACAAAAAACACCGAGCTACATATCAGGCTCTAGGTAGTTCTGAGCAGAAACTGCAATTCTTTTCTGCTCGACAAATTGCATGTCGTTTACTTGGGAGCAGGGATTATCTTTGTCAAAAGTGCTGGCTGCCTTTTGAGGATTGTATGTGTTCAAGAGTCAAGCATTGTTCTCTATGGGATAGAGCACGGTTTTGGCTATATATGCATCCAAAGGATTTTCTACGGCAGAACAACACAGGGAAGTTGTTATTGCAAGTATTTGGTAAAGAAGCCACAACTTTGTCCCTCTATGGTATCTCCGAACATGAAGAAATTATGTGGAATGCATTCAAGTCAGCAGGTAGAAGCAAAGTTTGTTGCCTTTATCCCAACAAGAATGCAACTTCTAAAGGTGTTCAGGAGGCCTTCGGCTCTGAACTCTCAACTAAGCAAGAAAACACACAGCAAATGACTGATGGAGATGGAATTCTGAATTTTATTTTGATTGACGGTACTTGGAGCAACTCTGCTGCAATGTTCAACCGACTTAAGGAGCAAGCTATATTGGTTTGGGGGGAGGATATTCCATGCATATCATTGTCTACGGGCTCCTCTGCAATGCATAAACTCAGGCCTCAACCATCATGGGACCGTACCTGCACTGCGGCAGCGGCAGCTAGCCTACTCTTTGAGCTTCAACTCGTTCCAAAGTTCAGCTCTGTTGAATTCGAAAAACAGGGTGATGCATTGGAAGATGCTCTGGAAGTATTGTTAGAAGCTCTCACTGCTCGACGTATTCGGATGGGGCGGTCCATCACCCGTAAAAACTATGCTAACATGATGCCTTCTGAAGCGGCTTGA ATGGTGTCAACTTTAAGGGCCTTTGCCCCCACATTCAATCGCTATCCGTCTCGCGCCTTTTCAATCAAAACCCAGATGGATTCCATCACTAGAAACCCCGACGGCTACACCTCCACCTGCGCTTCCACCTCTAAACCAACCGAAAATCGGATCACCTTGCAGGAATGGCAGGGTTGGGGCTCCACCTCTCCTGTTCCCACCATGGTTACGGAAATTATCGACGAATTGAAGGTCTTGGAGAAAAGTGTTGATGCCCAAATGAGTTTTGGTGGTAATGGCGGCAAACTTCAGGGATATTTTAAAACTCAGGAGGACAAAAAACACCGAGCTACATATCAGGCTCTAGGTAGTTCTGAGCAGAAACTGCAATTCTTTTCTGCTCGACAAATTGCATGTCGTTTACTTGGGAGCAGGGATTATCTTTGTCAAAAGTGCTGGCTGCCTTTTGAGGATTGTATGTGTTCAAGAGTCAAGCATTGTTCTCTATGGGATAGAGCACGGTTTTGGCTATATATGCATCCAAAGGATTTTCTACGGCAGAACAACACAGGGAAGTTGTTATTGCAAGTATTTGGTAAAGAAGCCACAACTTTGTCCCTCTATGGTATCTCCGAACATGAAGAAATTATGTGGAATGCATTCAAGTCAGCAGGTAGAAGCAAAGTTTGTTGCCTTTATCCCAACAAGAATGCAACTTCTAAAGGTGTTCAGGAGGCCTTCGGCTCTGAACTCTCAACTAAGCAAGAAAACACACAGCAAATGACTGATGGAGATGGAATTCTGAATTTTATTTTGATTGACGGTACTTGGAGCAACTCTGCTGCAATGTTCAACCGACTTAAGGAGCAAGCTATATTGGTTTGGGGGGAGGATATTCCATGCATATCATTGTCTACGGGCTCCTCTGCAATGCATAAACTCAGGCCTCAACCATCATGGGACCGTACCTGCACTGCGGCAGCGGCAGCTAGCCTACTCTTTGAGCTTCAACTCGTTCCAAAGTTCAGCTCTGTTGAATTCGAAAAACAGGGTGATGCATTGGAAGATGCTCTGGAAGTATTGTTAGAAGCTCTCACTGCTCGACGTATTCGGATGGGGCGGTCCATCACCCGTAAAAACTATGCTAACATGATGCCTTCTGAAGCGGCTTGA MVSTLRAFAPTFNRYPSRAFSIKTQMDSITRNPDGYTSTCASTSKPTENRITLQEWQGWGSTSPVPTMVTEIIDELKVLEKSVDAQMSFGGNGGKLQGYFKTQEDKKHRATYQALGSSEQKLQFFSARQIACRLLGSRDYLCQKCWLPFEDCMCSRVKHCSLWDRARFWLYMHPKDFLRQNNTGKLLLQVFGKEATTLSLYGISEHEEIMWNAFKSAGRSKVCCLYPNKNATSKGVQEAFGSELSTKQENTQQMTDGDGILNFILIDGTWSNSAAMFNRLKEQAILVWGEDIPCISLSTGSSAMHKLRPQPSWDRTCTAAAAASLLFELQLVPKFSSVEFEKQGDALEDALEVLLEALTARRIRMGRSITRKNYANMMPSEAA* Homology
BLAST of Chy11G197280 vs. ExPASy TrEMBL
Match: A0A0A0KD21 (tRNA-uridine aminocarboxypropyltransferase OS=Cucumis sativus OX=3659 GN=Csa_6G128540 PE=4 SV=1) HSP 1 Score: 746.1 bits (1925), Expect = 7.2e-212 Identity = 367/372 (98.66%), Postives = 369/372 (99.19%), Query Frame = 0
BLAST of Chy11G197280 vs. ExPASy TrEMBL
Match: A0A6J1CGP4 (tRNA-uridine aminocarboxypropyltransferase OS=Momordica charantia OX=3673 GN=LOC111011257 PE=4 SV=1) HSP 1 Score: 672.2 bits (1733), Expect = 1.3e-189 Identity = 329/379 (86.81%), Postives = 349/379 (92.08%), Query Frame = 0
BLAST of Chy11G197280 vs. ExPASy TrEMBL
Match: A0A6J1I3N8 (tRNA-uridine aminocarboxypropyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111469615 PE=4 SV=1) HSP 1 Score: 662.1 bits (1707), Expect = 1.4e-186 Identity = 326/379 (86.02%), Postives = 346/379 (91.29%), Query Frame = 0
BLAST of Chy11G197280 vs. ExPASy TrEMBL
Match: A0A6J1G763 (tRNA-uridine aminocarboxypropyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111451439 PE=4 SV=1) HSP 1 Score: 662.1 bits (1707), Expect = 1.4e-186 Identity = 326/379 (86.02%), Postives = 346/379 (91.29%), Query Frame = 0
BLAST of Chy11G197280 vs. ExPASy TrEMBL
Match: A0A5A7V8P4 (tRNA-uridine aminocarboxypropyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold89G004010 PE=4 SV=1) HSP 1 Score: 612.5 bits (1578), Expect = 1.2e-171 Identity = 345/584 (59.08%), Postives = 357/584 (61.13%), Query Frame = 0
BLAST of Chy11G197280 vs. NCBI nr
Match: XP_004139941.1 (uncharacterized protein LOC101203963 isoform X1 [Cucumis sativus] >KGN46744.1 hypothetical protein Csa_021008 [Cucumis sativus]) HSP 1 Score: 745 bits (1923), Expect = 6.27e-271 Identity = 367/372 (98.66%), Postives = 369/372 (99.19%), Query Frame = 0
BLAST of Chy11G197280 vs. NCBI nr
Match: XP_038901524.1 (uncharacterized protein LOC120088365 [Benincasa hispida]) HSP 1 Score: 698 bits (1801), Expect = 2.45e-252 Identity = 342/372 (91.94%), Postives = 355/372 (95.43%), Query Frame = 0
BLAST of Chy11G197280 vs. NCBI nr
Match: XP_031743227.1 (uncharacterized protein LOC101203963 isoform X2 [Cucumis sativus]) HSP 1 Score: 675 bits (1741), Expect = 1.24e-243 Identity = 340/372 (91.40%), Postives = 342/372 (91.94%), Query Frame = 0
BLAST of Chy11G197280 vs. NCBI nr
Match: XP_022140651.1 (uncharacterized protein LOC111011257 [Momordica charantia]) HSP 1 Score: 671 bits (1731), Expect = 1.47e-241 Identity = 329/379 (86.81%), Postives = 349/379 (92.08%), Query Frame = 0
BLAST of Chy11G197280 vs. NCBI nr
Match: KAG6604796.1 (hypothetical protein SDJN03_02113, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 666 bits (1718), Expect = 1.41e-239 Identity = 328/379 (86.54%), Postives = 346/379 (91.29%), Query Frame = 0
BLAST of Chy11G197280 vs. TAIR 10
Match: AT1G03687.1 (DTW domain-containing protein ) HSP 1 Score: 440.7 bits (1132), Expect = 1.2e-123 Identity = 212/327 (64.83%), Postives = 258/327 (78.90%), Query Frame = 0
BLAST of Chy11G197280 vs. TAIR 10
Match: AT1G03687.2 (DTW domain-containing protein ) HSP 1 Score: 351.7 bits (901), Expect = 7.6e-97 Identity = 167/263 (63.50%), Postives = 204/263 (77.57%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (hystrix) v1
Date Performed: 2021-10-25
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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