Csor.00g178230 (gene) Silver-seed gourd (wild; sororia) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDSinitialstart_codonintroninternalterminalstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.ATGAGCAGGCGTCCTGAGCTTCTTGACTTGATTTCTGGGGACAGGGAATGGGAGTTGAATAGAATTGGTGTTGGGAGTTCTGTTAGTGAGAACAATAAACTTGAGCTTAGACTTGGATTGCCTGGAGAAGACAGGCTTGCAGAAGGAAGTAGCTGCTTGAATTTTAGCCATGAAAGTGATGAATCCCATCTCTCTTCTGCTAAGCTCTTTCCTTCTTGTTTGAACATTAGAAGCAACAAAAGGGCGCTTTGTGATGAATTCCGACCCCACAAGCTGGTTTTTTCTGAGAAAACAGCTGAGAAGGTGGCTCCTCTCATTCATTGTCTTCGTGCTTCCTTACCATCTTCAGCTTTTCAGAGGGAAGCCCAGAAGCTATCTCAGCCATCACAGTCGTTATATTTAGAACATTTGTTGATGTCTCAGAGATTGGACTTGGTGTCAGAGGAGCCATCAAAGACATGCAGCTTGAAAACAGCTGAGTTTCCTTACTCAACTGGGAAATCATGTCTCAATAATGGGTCAGTTCCTGCAGAATCATCTGAACCTAAACACCATGACAAAAGGTTAGTCAGCTTATCTTCTCTTATATCCTGTTTTCTAGTCATTCATATTAAACTCTACTTTTTTAAGCGATGGATATCATGTCACTGATATGGTCTATCTCCCGACTATTATTACTTCGTTCTACGTGAGATCCCACGTTGGATAGAGAGGAGAACGAAACATTCCTTTAAAGGTGTGAAAATCTCTCCCTAGTAGACACTTTTAAAAACCGTGAGGCTGATGGCAATGCATAACGGGTCAAAACAGACAATATCTGTTAATAGTAGGCTTGAGTTGTTACAAATAGTATCAGAGCCAGACACTAAACGGTGTGCCAGCGAGGACGCTGGGTCCTGAGGGGGTGGATTGTGAGATCCCACATCGGTTGGAGAGGAGAACGAAACATTCCTTAAAAGGGTGTGGAAACCTCTCTCTAAAAGACATGTTTTAAAACTGTGAGGCTGACGGTAATATATAACGAGCCAGAGTAGACAATATCTACCCGTGGTGGACTTAGGCCGTTACATATTTGCTTTTACTTATAATTGGGCCTTTTTCTCATTCAGAACTAGTTTTAATTTCAAAACGTCTATGTCTTGAAGTTTTTCAAGGAAACAAGTAATGCTAAGTTGCTAATTGCAAGGAATTCAACATCTTGTCAGCAGGGCTTCAGTTGCATCAGCCGTTGGTTGGCCTCCCATTCGTTCTTTCAGGAAGAACTTTGCTGGCCCCCGCTCTTCAAAGCCTAACTCTCTTGTGTTGTCAAAAGAGGCTCTGCAGGATGAGAATGGCTCAAAATTATCTCACTGTTCCAACGGACAAATGTTTGTAAAAGTTTGTATGGATGGAATTCCCATCGGAAGAAAACTGAATCTCCAAGCCTATAATGGTTATGATCAACTGTCTGCTGGCATAGACGAACTCTTCCACTGTCTTCTTGCAGGTAATCCTTCAATGCCCTGCATTCAATCGATATTTTGTCCTTTACTGCATATTTCTTTTGTAAATGATAACTAGTAAGTCCACTTGATAATGATTTCGTTTTTAGTCTTTTAGCTTTTGAAATTTACGCTTGTTACTATAGTTTTTTCGTTTACTAAGGAAACATTTGAAGTCGAATTTCAAAAACAAAAACAAGTTTTTAAATAGTTTTCAAAACTTGGCTTCGTTTTCGTTTTTTGAAATATGGGATAGAAAGTGGATAATAGATGTGAGATCTCACATCAGTTAGAGAGGAGAACGAAACATTATTTATAAGGGTGTGGAAACTTCACCCTAGCAGACGTATTTTAAAACTTTGAGGAGAAGCCCGAAAGGAAAAGCCCAAATAGGACAATATCTACTAACAGTGGGCTTAAGCCGTTACAAATGGTATCAGAGCTAGACATTGAGCGGTGTGCTTGTAGAGACGCTGGCTTTGAAGGAGGGTGGATTGTGAGATCCCACATCGGTTGGAGAGGACAACGAAACATTCTTTATAAGGGAGTGGAAACCTCTCCCAGGAAAGCCCAAAGAGGACAACAACTATTAGCGATGGGCTTGGGGTGTGACAATAAAACAAATGAACCTATACCTGAAAGTTGTGTTTATAAGCTTAGTTTTCAAAATCCAAAAACAAAAAACCGAATGCTAATCAAACTAAGACTAAGTTTCAAATTAAGTTGTTATGCTGAAATTACTGCTCACTTGTTCTTATGTTCTTATGTTCTTCCTCCTAATTAACTACAGCACAGAGAAACTATCTAGCAGCTGAAGATGGGAGAAAGGTGGAGGAAACGACCTCGTTATCTGATTCCAAACACGAAAACGGGCTGTACACTCTAGTTTACTATGATAATGAAGGGGACAGGATGCTTGTTGGTGATGTCCCATGGAAGTAAGCATTTCCCACCACTGATCTTGTAGCCCATGTCACTATCATTTTCCTGACCAAATCCAATACAATCTTAGGAAAGGGGGTCTTTTTAGTATTACTTTCTTGTTTAGAATGATTGTGAGATCCCACGTCAGTTAGAGAGGGGAGCGAAACATTCCTTATAAGGGTGTGGAGCCCTCTCCCTAGTAGACACGTTTTAAAATCGTGAGGCTGACAGAGATACGTAATGGGTCAAAACAGACAATAACTGCTAGCTGTGGGTTTAGACGGTTACAATGCTTCCTTGCTTGCTGTTCAGTTTATGAAACAGGAACCTTTTTTAAGTCATAACTTTCGCTTTCTTTGTATGGTGGGCTTATGGGGCTTCATTTTCATGCAGCATGTTTGTTTCCACTGTGAAGAGGCTACGTGTGTTAAGGAATGCTGTTGTTGCCACTGAAATGAAGTGAAACTCCTTTCAAAATTCTGAAAGGTACTGGAAATGTTCTTGTCAAATCTTTCCAAGTCTTGGCTCAGAATAGCAGCAATTTTGAGCAGCAATGGCGACAGTTTATGCCAAAGAGTGATACCAAGTTAGGATTTTCCCATATAAGTTTTCATTTTACTAGCTGCAACCTGTAAGCGCAGCCTTGGGTTTCAAGGTTGAGGCAACTGCTACCGTGTGTGTACATGTTTATATTCTGTATATTCTGAAATACGAGTTCTGGTTGTGAATTCTTCTTGGGAATTTACTGCATCCCTCTAAGTTGATTGGAAGAGAAGAATGATTGGAAGACGCAGTTTTAACGTGGTGGACTCACAACGATTGTGTGATACTTGTTCTAACACAGTGAACAAATCAGTTATGTGAAGTTTGGACTTCATGGATAATGTCGGCGTGTGCTCGAGTCTCAAGTCATGTTTTGAGAGAAGCATTTTGGAAAACGTGTGTGAGAAAATACGTTTAAAATAATTGTAAAGAAAACAATGTTATAAGCTAAAAGCGAGTAGGCGACAACGATTTTGATAGCATATAACTCAGTTAGGAAAAATTGACAACTAGTCATATCCCCTTTTAGTACATTTGGGGTATTTTAGCATTTGTACGTGCAGACATGATTTTGGTGACCGATCATACACCCCATATTGACATAGAATGAAACAGTAAAAACCTATGCAAGATGAAAACATGTAAAAGGGGTTTAGAACAGGCATACGACCATGAACAACACGTTTTGGACAAGTATGACCGGAATATTTGACATGTGGCTATAGGTAACACGCCTTGGACAAGCATGACCGCGACATCTAGTACCGTTGGATATTTGGGAAAGAATCACAAAAGTATTTAAAATCCATATGTTATGGTTATTAGAGCGATTCTCGAATGTTCGTCCAATAGTTAGAAAAAGATAGCCCTCGTTCAATAATTTTTCTAAACAAGAATACTAACAATTTAGCGTTGAAGCACCAATACCTTCGTTTAAAGATGAAGGTTCAAATCTCCACAATAACGTATACGAAACAAGGGTATTAGTGTCAATTAACACATAGGAAACAAGGGAACTAATGATAATTTTCCAAAACAAGAGACAAAGCTCCAAAAGTGTGGGCTTGTGGAGGCGTTATTTACATAGAAGTGATAAAAGAGGGCTAAATATCAAAAGAAAAGGAAAGCCCTGATTCATTAAGATCCCTTCTTCAATTTCAGGCTTGGGTGGGCGCAATCACATTCTTCCAACATCCTCGCAAACAAAGCAGGCAATACCCAAAGCCGGCACGACAGCGCCACTCTGTATCTCTTATCCTACATGCTTCTCCGAGCGTCCCCTCTTCTTCGCGCCTCCCACCGTCCATTCTCCTCTGGGGTTCACATGGCGCTAGCTGCCCATCTCCCTGTCTCTCCCAACCGTCAAAGTTTCCATTCATGGCGATCTTCTTCGCACTTGCCGCCTGTTTGTCAAGCGAATGGCTACGACCGCATTTCGCCCAAATTAACATTTTCACAATTTGTTCGGAGTTTCTACGTCTTGTCGGGGACATACAATAAGGTACAAAGGCCTTGTGGAAGGATTTTCTGTGGGCAAAGAGAGTATAGAAAGGTGAGGAGACGAGTCCCCAAAACCAAGAAAAAGGAATTAGAGCTCAACGTCAGTATCTGTATTGAAGAAAAGTTGCCGGACGACCCTGAACTTTTGGTATCCATTTCTTCACGTACATTTTACACTGTCCTTTTTTCGGTATTTTTTTGTTGTTGATTATACGTTCATAAAAGAATTTATTTCATGATGATGGTGGGAAGAGTAATAATGAGAGGGATCGAGAATGCTTGTTTTGGGCAATCCTGTTGCATTCTATGTTGTAATTGTGCATGATATCCTAGCATTCGTCTAGGAGTCTATAGGTTGAATTAATTTTCAATGACATTGTTCTCAATCTCCACCCTCCTTTTGTTTAGACTCAAGAAAACGAGCAGCACGTTACTAAGTGGACTTGCTACTTGACACATTCCTCTCTCTTATATTTAATTTTGGTATTGCATTAATCTAGGAATCATATTGTACTTTCTTTATGTTAAATGTAACCGCCTAAGCCAACCGCTAGCAGATTTCGTCCTCTCTGGGCTTTCCCTCAAGATTTTTAAAACACGTATGCTAGGGAGAGGTTTTAGACACCGGGCGATGTGCGAGTGAGGATGTTGGACCACTAAGGAGGGTGGATTGTGAGATCTCACGTCGGTTGGAGAGGGGAATGAAACATTCTTATAAGGGTGTGAAAACCTCTCCCTAACAGACGCGTTTTAAAAACCTTGAGGGGAAGCCTGAAAGGAAAAGCCCAAAGGGGACAATATCTGCTAGTGGTTTGGGCTGTTAGAAAAGAAATCTCAGGGAAATGAGAGCGAGAAAAGCAGTTAAGCTATGAAATTCAGTTGTGTCATCAACTTCTCCCAACAGTTAAGAACATAGCTTCTCCCAGCTGCTTAACGTGCAATGCACCAAATGCATCTAGACGACAATAATTTCATATGTGGATACGAATTTCTACTTCTTGATTACAAGTGCTTTGACGTTAGAATATTTGAGAGATTGATGCTTTAAGATATCAAAGTTGGATCAGTAGAATATGTCAAGAATTAGGAGTAGAATAAGTTTTTCATGTCTGATCTCTTCTGCATTGTTGCAAGGTTCGTTTTTTATTGATCATTTAATACTGATAGCTTTCCTTTTTTTGAATGCTTCAGAGTATTGCAGAAATGCTTCGTTTGAATGTTCCCAAGGCTCTGAAGTTAGCTTTCAACAATTTAAAGGATTCACAATACAAAACTCGAGATAGTTCAATAAACGATGTTGGTTTATTTGAAAGTGTTGAGATGTCCGTGCTACTTTGTAACGACGAGTTTATTTGTAAACTTAACAAAGAATGGAGGGACGAGGATCATGCCACTGATGTCCTGTCCATGTCACAGCATGTCCCAGAACTGAAGCTTCCAATTGTAAGAACTTGAGTAGAAGTGAATACGGACTAATGTCTTTGAGAATGATAAATGATTGACTGATTTTTGTATCTTCAGCTTATGTTAGGTGATATTGTCATTTCTGTTGAGACTGCTGCGAGGCAGGCGGAGGAACGGGGACACACACTCCTTGATGAGATTCGGATACTCCTGGTTCGTCATTTGATCGCCCTTTTTGTTTTAAGATAGAAGCTAATAATTTTGCCCCTGCATCCGTATGTTTGAGAACTAGTAACATTGCTACTATTCACATAGCATACGTGCCTTTAGGGGAGCGTGTAAGACGAAGATGGCGTTTAGTATGCGGGCATGATGGGTTCATGGGATTTGGTTACAAAATTAAAAGTTCTTGCACAATCTATACACAAACATTTTATTCCCAAGCTTCACATTCCCATGCAACACATAAAATAGGCCCAATATCACAATCATTAGCACATTTCTCACACTGCATCCTTCATTTTCAAGCATTTGAAACTCATTAATGTGTATTCTAAACTGGACCATGCAAAACCTGCTAAACAAAGAACTTGACCTTCTTGGAAATTTTCGCCATCCACCTTGAGGAGAAATCACTAGGCTTTCAATTTTCAAATCCTGTTTTTTCAAGGCGATGGGAATTAAACTGTCGAAGGATTCATTTCCTAAAACTGGAAAGTTGAGTGATTTACTTATCCATTTTCTTTTGATTTAGGAATGCCAAAACTATGTGAAAGGAAAGAAAGGCAGTCGGTATAAAAGTATGCCCAAAATCTAGTTTAAAGAAAGGCAACCAAACTGAAACAACCATCTTTTTTCTTTTCTAACCTCCTGAGAAATTTTTACTATCAAGAATTCAACTAAGCAAAGGAAATTCATCATTGCATGGGGTTTGTACAGGTGCACGGATTGTTGCATCTTTTGGGATTTGATCATGAGATTAGTGAAGAGGCTGAAGTAGAAATGGAAAAGGAGGAGGAACTACTTTTGAAGAGTTTAGAGTGGAAAGGGAAAGGGCTGATTCAGAGTGCAATTGATGCTGAAACTAATTCAAACTCAGTTGCAGAAGTTTCAGATGGTAATTATAGTAGTCTGCTTTATTGTTCTACTAATGACTGCACCAATGCACCAAAAAACCTTTGTGATTATAATTAAGCTGTGTTATGTTCTGTACATTTGTTACTGTTCTTATGTTGTAAGACCATGTTCTTACTATTCACATGTTAAAGACAGGAAAAAAGAAGGCAGTCTCCGATTTTACCGCCCAAGGTTCAGCTATATTTTCTGTGATATGGATGGTAAGAGCCCTCTTGAGATGAATCCAAATTATTCCACGACCTGTGGTGTCGACTTGTATTAAGTATATGAATTATATGTAGGTACATTGCTCAACAGTAAAAGTCAAATTACTCCAACAACTGTCAAGGCCCTGAAGGAGGCCTTGTCAAGAGGTGTGAAAGTTGTTATAGCTACTGGAAAGGTATGACATTTTGCTTGATTGTTAGGATATTGTGACCTTAAGCTTGTTTTCCAACTGTTTTTCCATGTTCTGTTCTTAACTCTTCACTGAATGTCTGGGTGTTTTTGTAGTTTTTTTTCTTGTAACTTTCATCTGCTATTGCTTTATTTTCACAATTTAAGGAATAATGGTTAGATTTAATGCATGGACTAGGCCCGCCCAGCAGTAATAAGCATTTTGGAGAAGGCAGGTTTAGCTGGAAAAGATGGTGCCGTGTCTGAATTTTCTCCAGGAGTTTTCTTACAGGTTTCTATTTTTCCTCCGCTTTCTCTCTTCGGTTAGGTAATCACGGCTCTCCAGAATAGTATGATATTGTCCACTTTGAGCATAATCTCTCATGGCTTTGCTTTGGGATTCCCCAAAAGGCCTCATACCAATGGAGATGTATTCCTTACTTATAAACCCATGATTATCCTCTAAATTAGCCAATGTGGGACTCCCGCCCAACAATCCTCCCCTCGAACAAAGTACACCATAGTGCCTCCCCTGAGGTCTATGTAGCCCTCAAACAGGCTCCCTTTAATCGAGACTTGACTCCTTTCTCTAGAGCCCTCGAACTAAGTACACCGTTTGTTCGACACATGAGTCACTTTTGACTACACCTGTGAGGTTCACAACTTCTTTGTTTGACATTTAAGGATTCTATTGACATGGCTAAATTAAGGGACGATACCATGTTAGGAATCACGACTCTCCACAATAGTGTGATATTGTCCACTTTAAGTATAAGGTCTCATGGCTTTGCTTTGGGCTTCCCCAGAAGACCTCATACCAATGGAGATGTATTCCTTACTTATAACTCATGATCATCCTCTAAATTAGCCAATGTGGGACTCCCTCCCAACAATCCTCAACATCTTCATGTTCTTTCTAAAGTTGATACATGGCTACTTTTGCCTTGTCTTGTAATGGTGATCTTTGTGTCATCAAGCGATGGAAGATCTGGACTATACGTTGGGAGACTGGCTTTAACTTTCAGTTTACTTTTATGTTTTCTCCAACTTTAATCTTATGCATTATATATTCTATTTCCTTCCTTGGTGATAGGGACTACTTGTTTATGGTAGACAAGGCAAGGAAATTTATAGGCGGAACTTAGATCAAGATATCTGCAGAGAGGTACGTCTCGTGCTGTTTGCTGTGTGTACTATTCAGCAGTTTCAATGACGATTAAGTAAACTTTTTTAAAGATGAGTCTTGGGGATTAAAGCCATGCGAGCACAAAACATTCTACAATAGATGTATCCACGTAGTTTATGCTTGCCAAAGAAAATGACTCAGCTAGCGGCCCTCTCTTTTAAGTACAGTTTGAAACTAAAAACCGTAAGAATCACCGAAAATAATGATAGTTTTATGAACGGTTAACTAACAAACCTAATAAAGGAAAAGGCTTTTTAACACAAGATGCTTGTCAATGATATCTAAATTTGTGTTTGTTGAAGTGCAGGCATGCCTTTATTCTTTAGAGAAGAATGTTCCTCTGATTGCATTTGGTGAAGGCCGTTGCTTAACTCTATTTGATCATCCACTTACTGATGCATTGCACACTATATACCATGAGCCTAAGGTACTTGAACATATTTTTGTCATGGTTCTAAGTCTTATATGTAGTAAATGTGATATTTGTACCTGTAAAGGTGGAGATTCGTGTGGGAACATACACTCTTAATTTAAAAGAGAGGGTCCGAAAACATATTTATTCTGACCTAGAGGGAGAAATGCATTAGAGTACTGATGTGTACCATGGACCCGAATTTACATATAGTAATGTCCATCTCTTACCAAAAACAAGTCATTTATGGATATTATCAAGAGGTTTGTGCGGATGCAGTGTAGTCCCTTTTTCACTTCACAAGGATCAAGATCAAATTAACGTTCATTCTCTTTCTGTCGAAAGGAGATATATTTCTATCTTTTCAGTAGATAATGACAAAGTGAGACAAAAATTTTATGGTCCGAATTTCTTTGGTAAAAACGAAAGCGGAATCCCTGATTATTCAGTTTACATGGCTAACTACTGAGAACTGAATTGTTTAGCCAATTCGATTTGAATGTTGATTGGTTGTGTATTACAGGCAGAGGTCATGTCCTCGGTTGATAATCTTTTGGCTGCAGCTGAAATACAGGTAAGCTCTCGGCTGAGATGCCTCCCTCTCATTTGTGTATTAGTAAAGAAAGAAATGAGGAACGATTCAGCATCAAAGCATACTTTCTATCAAAATGTGTGAATAAGCCCAGCATTGGTTCCCATAGCAATCATATGACTTATTTTAACATGTGAACTCATACAGAAACTTCTTTTCTTGGACACTGCCGAGGGAGTTTCACGCATCCTTCGGCCATACTGGTCAGAAGCATCAGGGGAACACGCCTCAGTTGTTCAGGCTGTACCAGATATGCTCGAGATCGTCCCCTGTGGAACCTCAAAAGGTAGCGGAGTAAAATTGTTGCTCGATCATTTGGGAGTTTCTTCCGAGGAGGTAAGCTAAAATTCTTCCCTAAAGCGCCTCGTCCAAAGTGTGTTTCTTGGACCTTAACCTGCTTGAATTCTGTAGGTAATGGCTATTGGAGATGGGGAAAATGACATTGAGATGCTGGAATTGGCATCTCTTGGAATTGCTATGAGCAATGGAGCAGAGAAAACAAAGGCTGTTGCTAACTTAATTGGTCCCAGCAATGATGAAGATGGTGTTGCAGAGGTCATATACAGATATGCATTCTAG ATGAGCAGGCGTCCTGAGCTTCTTGACTTGATTTCTGGGGACAGGGAATGGGAGTTGAATAGAATTGGTGTTGGGAGTTCTGTTAGTGAGAACAATAAACTTGAGCTTAGACTTGGATTGCCTGGAGAAGACAGGCTTGCAGAAGGAAGTAGCTGCTTGAATTTTAGCCATGAAAGTGATGAATCCCATCTCTCTTCTGCTAAGCTCTTTCCTTCTTGTTTGAACATTAGAAGCAACAAAAGGGCGCTTTGTGATGAATTCCGACCCCACAAGCTGGTTTTTTCTGAGAAAACAGCTGAGAAGGTGGCTCCTCTCATTCATTGTCTTCGTGCTTCCTTACCATCTTCAGCTTTTCAGAGGGAAGCCCAGAAGCTATCTCAGCCATCACAGTCGTTATATTTAGAACATTTGTTGATGTCTCAGAGATTGGACTTGGTGTCAGAGGAGCCATCAAAGACATGCAGCTTGAAAACAGCTGAGTTTCCTTACTCAACTGGGAAATCATGTCTCAATAATGGGTCAGTTCCTGCAGAATCATCTGAACCTAAACACCATGACAAAAGGGCTTCAGTTGCATCAGCCGTTGGTTGGCCTCCCATTCGTTCTTTCAGGAAGAACTTTGCTGGCCCCCGCTCTTCAAAGCCTAACTCTCTTGTGTTGTCAAAAGAGGCTCTGCAGGATGAGAATGGCTCAAAATTATCTCACTGTTCCAACGGACAAATGTTTGTAAAAGTTTGTATGGATGGAATTCCCATCGGAAGAAAACTGAATCTCCAAGCCTATAATGGTTATGATCAACTGTCTGCTGGCATAGACGAACTCTTCCACTGTCTTCTTGCAGCACAGAGAAACTATCTAGCAGCTGAAGATGGGAGAAAGGTGGAGGAAACGACCTCGTTATCTGATTCCAAACACGAAAACGGGCTGTACACTCTAGTTTACTATGATAATGAAGGGGACAGGATGCTTGTTGGTGATGTCCCATGGAACATGTTTGTTTCCACTGTGAAGAGGCTACGTGTGTTAAGGAATGCTGTTGTTGCCACTGAAATGAAGCTTGGGTGGGCGCAATCACATTCTTCCAACATCCTCGCAAACAAAGCAGGCAATACCCAAAGCCGGCACGACAGCGCCACTCTGTATCTCTTATCCTACATGCTTCTCCGAGCGTCCCCTCTTCTTCGCGCCTCCCACCGTCCATTCTCCTCTGGGGTTCACATGGCGCTAGCTGCCCATCTCCCTGTCTCTCCCAACCGTCAAAGTTTCCATTCATGGCGATCTTCTTCGCACTTGCCGCCTGTTTGTCAAGCGAATGGCTACGACCGCATTTCGCCCAAATTAACATTTTCACAATTTGTTCGGAGTTTCTACGTCTTGTCGGGGACATACAATAAGGTACAAAGGCCTTGTGGAAGGATTTTCTGTGGGCAAAGAGAGTATAGAAAGGTGAGGAGACGAGTCCCCAAAACCAAGAAAAAGGAATTAGAGCTCAACGTCAGTATCTGTATTGAAGAAAAGTTGCCGGACGACCCTGAACTTTTGAGTATTGCAGAAATGCTTCGTTTGAATGTTCCCAAGGCTCTGAAGTTAGCTTTCAACAATTTAAAGGATTCACAATACAAAACTCGAGATAGTTCAATAAACGATGTTGGTTTATTTGAAAGTGTTGAGATGTCCGTGCTACTTTGTAACGACGAGTTTATTTGTAAACTTAACAAAGAATGGAGGGACGAGGATCATGCCACTGATGTCCTGTCCATGTCACAGCATGTCCCAGAACTGAAGCTTCCAATTCTTATGTTAGGTGATATTGTCATTTCTGTTGAGACTGCTGCGAGGCAGGCGGAGGAACGGGGACACACACTCCTTGATGAGATTCGGATACTCCTGGTGCACGGATTGTTGCATCTTTTGGGATTTGATCATGAGATTAGTGAAGAGGCTGAAGTAGAAATGGAAAAGGAGGAGGAACTACTTTTGAAGAGTTTAGAGTGGAAAGGGAAAGGGCTGATTCAGAGTGCAATTGATGCTGAAACTAATTCAAACTCAGTTGCAGAAGTTTCAGATGACAGGAAAAAAGAAGGCAGTCTCCGATTTTACCGCCCAAGGTTCAGCTATATTTTCTGTGATATGGATGGTACATTGCTCAACAGTAAAAGTCAAATTACTCCAACAACTGTCAAGGCCCTGAAGGAGGCCTTGTCAAGAGGTGTGAAAGTTGTTATAGCTACTGGAAAGGCCCGCCCAGCAGTAATAAGCATTTTGGAGAAGGCAGGTTTAGCTGGAAAAGATGGTGCCGTGTCTGAATTTTCTCCAGGAGTTTTCTTACAGGGACTACTTGTTTATGGTAGACAAGGCAAGGAAATTTATAGGCGGAACTTAGATCAAGATATCTGCAGAGAGGCATGCCTTTATTCTTTAGAGAAGAATGTTCCTCTGATTGCATTTGGTGAAGGCCGTTGCTTAACTCTATTTGATCATCCACTTACTGATGCATTGCACACTATATACCATGAGCCTAAGGCAGAGGTCATGTCCTCGGTTGATAATCTTTTGGCTGCAGCTGAAATACAGAAACTTCTTTTCTTGGACACTGCCGAGGGAGTTTCACGCATCCTTCGGCCATACTGGTCAGAAGCATCAGGGGAACACGCCTCAGTTGTTCAGGCTGTACCAGATATGCTCGAGATCGTCCCCTGTGGAACCTCAAAAGGTAGCGGAGTAAAATTGTTGCTCGATCATTTGGGAGTTTCTTCCGAGGAGGTAATGGCTATTGGAGATGGGGAAAATGACATTGAGATGCTGGAATTGGCATCTCTTGGAATTGCTATGAGCAATGGAGCAGAGAAAACAAAGGCTGTTGCTAACTTAATTGGTCCCAGCAATGATGAAGATGGTGTTGCAGAGGTCATATACAGATATGCATTCTAG ATGAGCAGGCGTCCTGAGCTTCTTGACTTGATTTCTGGGGACAGGGAATGGGAGTTGAATAGAATTGGTGTTGGGAGTTCTGTTAGTGAGAACAATAAACTTGAGCTTAGACTTGGATTGCCTGGAGAAGACAGGCTTGCAGAAGGAAGTAGCTGCTTGAATTTTAGCCATGAAAGTGATGAATCCCATCTCTCTTCTGCTAAGCTCTTTCCTTCTTGTTTGAACATTAGAAGCAACAAAAGGGCGCTTTGTGATGAATTCCGACCCCACAAGCTGGTTTTTTCTGAGAAAACAGCTGAGAAGGTGGCTCCTCTCATTCATTGTCTTCGTGCTTCCTTACCATCTTCAGCTTTTCAGAGGGAAGCCCAGAAGCTATCTCAGCCATCACAGTCGTTATATTTAGAACATTTGTTGATGTCTCAGAGATTGGACTTGGTGTCAGAGGAGCCATCAAAGACATGCAGCTTGAAAACAGCTGAGTTTCCTTACTCAACTGGGAAATCATGTCTCAATAATGGGTCAGTTCCTGCAGAATCATCTGAACCTAAACACCATGACAAAAGGGCTTCAGTTGCATCAGCCGTTGGTTGGCCTCCCATTCGTTCTTTCAGGAAGAACTTTGCTGGCCCCCGCTCTTCAAAGCCTAACTCTCTTGTGTTGTCAAAAGAGGCTCTGCAGGATGAGAATGGCTCAAAATTATCTCACTGTTCCAACGGACAAATGTTTGTAAAAGTTTGTATGGATGGAATTCCCATCGGAAGAAAACTGAATCTCCAAGCCTATAATGGTTATGATCAACTGTCTGCTGGCATAGACGAACTCTTCCACTGTCTTCTTGCAGCACAGAGAAACTATCTAGCAGCTGAAGATGGGAGAAAGGTGGAGGAAACGACCTCGTTATCTGATTCCAAACACGAAAACGGGCTGTACACTCTAGTTTACTATGATAATGAAGGGGACAGGATGCTTGTTGGTGATGTCCCATGGAACATGTTTGTTTCCACTGTGAAGAGGCTACGTGTGTTAAGGAATGCTGTTGTTGCCACTGAAATGAAGCTTGGGTGGGCGCAATCACATTCTTCCAACATCCTCGCAAACAAAGCAGGCAATACCCAAAGCCGGCACGACAGCGCCACTCTGTATCTCTTATCCTACATGCTTCTCCGAGCGTCCCCTCTTCTTCGCGCCTCCCACCGTCCATTCTCCTCTGGGGTTCACATGGCGCTAGCTGCCCATCTCCCTGTCTCTCCCAACCGTCAAAGTTTCCATTCATGGCGATCTTCTTCGCACTTGCCGCCTGTTTGTCAAGCGAATGGCTACGACCGCATTTCGCCCAAATTAACATTTTCACAATTTGTTCGGAGTTTCTACGTCTTGTCGGGGACATACAATAAGGTACAAAGGCCTTGTGGAAGGATTTTCTGTGGGCAAAGAGAGTATAGAAAGGTGAGGAGACGAGTCCCCAAAACCAAGAAAAAGGAATTAGAGCTCAACGTCAGTATCTGTATTGAAGAAAAGTTGCCGGACGACCCTGAACTTTTGAGTATTGCAGAAATGCTTCGTTTGAATGTTCCCAAGGCTCTGAAGTTAGCTTTCAACAATTTAAAGGATTCACAATACAAAACTCGAGATAGTTCAATAAACGATGTTGGTTTATTTGAAAGTGTTGAGATGTCCGTGCTACTTTGTAACGACGAGTTTATTTGTAAACTTAACAAAGAATGGAGGGACGAGGATCATGCCACTGATGTCCTGTCCATGTCACAGCATGTCCCAGAACTGAAGCTTCCAATTCTTATGTTAGGTGATATTGTCATTTCTGTTGAGACTGCTGCGAGGCAGGCGGAGGAACGGGGACACACACTCCTTGATGAGATTCGGATACTCCTGGTGCACGGATTGTTGCATCTTTTGGGATTTGATCATGAGATTAGTGAAGAGGCTGAAGTAGAAATGGAAAAGGAGGAGGAACTACTTTTGAAGAGTTTAGAGTGGAAAGGGAAAGGGCTGATTCAGAGTGCAATTGATGCTGAAACTAATTCAAACTCAGTTGCAGAAGTTTCAGATGACAGGAAAAAAGAAGGCAGTCTCCGATTTTACCGCCCAAGGTTCAGCTATATTTTCTGTGATATGGATGGTACATTGCTCAACAGTAAAAGTCAAATTACTCCAACAACTGTCAAGGCCCTGAAGGAGGCCTTGTCAAGAGGTGTGAAAGTTGTTATAGCTACTGGAAAGGCCCGCCCAGCAGTAATAAGCATTTTGGAGAAGGCAGGTTTAGCTGGAAAAGATGGTGCCGTGTCTGAATTTTCTCCAGGAGTTTTCTTACAGGGACTACTTGTTTATGGTAGACAAGGCAAGGAAATTTATAGGCGGAACTTAGATCAAGATATCTGCAGAGAGGCATGCCTTTATTCTTTAGAGAAGAATGTTCCTCTGATTGCATTTGGTGAAGGCCGTTGCTTAACTCTATTTGATCATCCACTTACTGATGCATTGCACACTATATACCATGAGCCTAAGGCAGAGGTCATGTCCTCGGTTGATAATCTTTTGGCTGCAGCTGAAATACAGAAACTTCTTTTCTTGGACACTGCCGAGGGAGTTTCACGCATCCTTCGGCCATACTGGTCAGAAGCATCAGGGGAACACGCCTCAGTTGTTCAGGCTGTACCAGATATGCTCGAGATCGTCCCCTGTGGAACCTCAAAAGGTAGCGGAGTAAAATTGTTGCTCGATCATTTGGGAGTTTCTTCCGAGGAGGTAATGGCTATTGGAGATGGGGAAAATGACATTGAGATGCTGGAATTGGCATCTCTTGGAATTGCTATGAGCAATGGAGCAGAGAAAACAAAGGCTGTTGCTAACTTAATTGGTCCCAGCAATGATGAAGATGGTGTTGCAGAGGTCATATACAGATATGCATTCTAG MSRRPELLDLISGDREWELNRIGVGSSVSENNKLELRLGLPGEDRLAEGSSCLNFSHESDESHLSSAKLFPSCLNIRSNKRALCDEFRPHKLVFSEKTAEKVAPLIHCLRASLPSSAFQREAQKLSQPSQSLYLEHLLMSQRLDLVSEEPSKTCSLKTAEFPYSTGKSCLNNGSVPAESSEPKHHDKRASVASAVGWPPIRSFRKNFAGPRSSKPNSLVLSKEALQDENGSKLSHCSNGQMFVKVCMDGIPIGRKLNLQAYNGYDQLSAGIDELFHCLLAAQRNYLAAEDGRKVEETTSLSDSKHENGLYTLVYYDNEGDRMLVGDVPWNMFVSTVKRLRVLRNAVVATEMKLGWAQSHSSNILANKAGNTQSRHDSATLYLLSYMLLRASPLLRASHRPFSSGVHMALAAHLPVSPNRQSFHSWRSSSHLPPVCQANGYDRISPKLTFSQFVRSFYVLSGTYNKVQRPCGRIFCGQREYRKVRRRVPKTKKKELELNVSICIEEKLPDDPELLSIAEMLRLNVPKALKLAFNNLKDSQYKTRDSSINDVGLFESVEMSVLLCNDEFICKLNKEWRDEDHATDVLSMSQHVPELKLPILMLGDIVISVETAARQAEERGHTLLDEIRILLVHGLLHLLGFDHEISEEAEVEMEKEEELLLKSLEWKGKGLIQSAIDAETNSNSVAEVSDDRKKEGSLRFYRPRFSYIFCDMDGTLLNSKSQITPTTVKALKEALSRGVKVVIATGKARPAVISILEKAGLAGKDGAVSEFSPGVFLQGLLVYGRQGKEIYRRNLDQDICREACLYSLEKNVPLIAFGEGRCLTLFDHPLTDALHTIYHEPKAEVMSSVDNLLAAAEIQKLLFLDTAEGVSRILRPYWSEASGEHASVVQAVPDMLEIVPCGTSKGSGVKLLLDHLGVSSEEVMAIGDGENDIEMLELASLGIAMSNGAEKTKAVANLIGPSNDEDGVAEVIYRYAF Homology
BLAST of Csor.00g178230 vs. ExPASy Swiss-Prot
Match: Q8L5Z4 (Endoribonuclease YBEY, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=YBEY PE=1 SV=1) HSP 1 Score: 783.5 bits (2022), Expect = 2.8e-225 Identity = 403/594 (67.85%), Postives = 481/594 (80.98%), Query Frame = 0
BLAST of Csor.00g178230 vs. ExPASy Swiss-Prot
Match: Q8LQ74 (Auxin-responsive protein IAA6 OS=Oryza sativa subsp. japonica OX=39947 GN=IAA6 PE=2 SV=1) HSP 1 Score: 156.8 bits (395), Expect = 1.3e-36 Identity = 119/351 (33.90%), Postives = 164/351 (46.72%), Query Frame = 0
BLAST of Csor.00g178230 vs. ExPASy Swiss-Prot
Match: Q8LAL2 (Auxin-responsive protein IAA26 OS=Arabidopsis thaliana OX=3702 GN=IAA26 PE=1 SV=2) HSP 1 Score: 152.1 bits (383), Expect = 3.2e-35 Identity = 85/178 (47.75%), Postives = 113/178 (63.48%), Query Frame = 0
BLAST of Csor.00g178230 vs. ExPASy Swiss-Prot
Match: Q5W670 (Auxin-responsive protein IAA18 OS=Oryza sativa subsp. japonica OX=39947 GN=IAA18 PE=2 SV=1) HSP 1 Score: 148.3 bits (373), Expect = 4.6e-34 Identity = 87/207 (42.03%), Postives = 114/207 (55.07%), Query Frame = 0
BLAST of Csor.00g178230 vs. ExPASy Swiss-Prot
Match: O24408 (Auxin-responsive protein IAA18 OS=Arabidopsis thaliana OX=3702 GN=IAA18 PE=1 SV=2) HSP 1 Score: 146.7 bits (369), Expect = 1.3e-33 Identity = 85/188 (45.21%), Postives = 112/188 (59.57%), Query Frame = 0
BLAST of Csor.00g178230 vs. NCBI nr
Match: KAG6591726.1 (Endoribonuclease YBEY, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1924 bits (4983), Expect = 0.0 Identity = 976/976 (100.00%), Postives = 976/976 (100.00%), Query Frame = 0
BLAST of Csor.00g178230 vs. NCBI nr
Match: XP_022936578.1 (endoribonuclease YBEY, chloroplastic [Cucurbita moschata]) HSP 1 Score: 1148 bits (2970), Expect = 0.0 Identity = 586/591 (99.15%), Postives = 589/591 (99.66%), Query Frame = 0
BLAST of Csor.00g178230 vs. NCBI nr
Match: XP_023534861.1 (endoribonuclease YBEY, chloroplastic [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1141 bits (2952), Expect = 0.0 Identity = 585/591 (98.98%), Postives = 587/591 (99.32%), Query Frame = 0
BLAST of Csor.00g178230 vs. NCBI nr
Match: XP_022975664.1 (endoribonuclease YBEY, chloroplastic [Cucurbita maxima]) HSP 1 Score: 1135 bits (2936), Expect = 0.0 Identity = 584/591 (98.82%), Postives = 585/591 (98.98%), Query Frame = 0
BLAST of Csor.00g178230 vs. NCBI nr
Match: XP_038899849.1 (endoribonuclease YBEY, chloroplastic [Benincasa hispida]) HSP 1 Score: 1074 bits (2778), Expect = 0.0 Identity = 548/591 (92.72%), Postives = 572/591 (96.79%), Query Frame = 0
BLAST of Csor.00g178230 vs. ExPASy TrEMBL
Match: A0A6J1FDM0 (endoribonuclease YBEY, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111443143 PE=3 SV=1) HSP 1 Score: 1148 bits (2970), Expect = 0.0 Identity = 586/591 (99.15%), Postives = 589/591 (99.66%), Query Frame = 0
BLAST of Csor.00g178230 vs. ExPASy TrEMBL
Match: A0A6J1IL90 (endoribonuclease YBEY, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111475505 PE=3 SV=1) HSP 1 Score: 1135 bits (2936), Expect = 0.0 Identity = 584/591 (98.82%), Postives = 585/591 (98.98%), Query Frame = 0
BLAST of Csor.00g178230 vs. ExPASy TrEMBL
Match: A0A1S3CQE9 (uncharacterized protein LOC103503611 OS=Cucumis melo OX=3656 GN=LOC103503611 PE=3 SV=1) HSP 1 Score: 1051 bits (2717), Expect = 0.0 Identity = 538/592 (90.88%), Postives = 563/592 (95.10%), Query Frame = 0
BLAST of Csor.00g178230 vs. ExPASy TrEMBL
Match: A0A0A0LJV1 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G895080 PE=3 SV=1) HSP 1 Score: 1045 bits (2701), Expect = 0.0 Identity = 532/591 (90.02%), Postives = 563/591 (95.26%), Query Frame = 0
BLAST of Csor.00g178230 vs. ExPASy TrEMBL
Match: A0A6J1CCA3 (uncharacterized protein LOC111009890 OS=Momordica charantia OX=3673 GN=LOC111009890 PE=3 SV=1) HSP 1 Score: 1012 bits (2616), Expect = 0.0 Identity = 520/591 (87.99%), Postives = 549/591 (92.89%), Query Frame = 0
BLAST of Csor.00g178230 vs. TAIR 10
Match: AT2G25870.1 (haloacid dehalogenase-like hydrolase family protein ) HSP 1 Score: 783.5 bits (2022), Expect = 2.0e-226 Identity = 403/594 (67.85%), Postives = 481/594 (80.98%), Query Frame = 0
BLAST of Csor.00g178230 vs. TAIR 10
Match: AT3G16500.1 (phytochrome-associated protein 1 ) HSP 1 Score: 152.1 bits (383), Expect = 2.2e-36 Identity = 85/178 (47.75%), Postives = 113/178 (63.48%), Query Frame = 0
BLAST of Csor.00g178230 vs. TAIR 10
Match: AT1G51950.1 (indole-3-acetic acid inducible 18 ) HSP 1 Score: 146.7 bits (369), Expect = 9.4e-35 Identity = 85/188 (45.21%), Postives = 112/188 (59.57%), Query Frame = 0
BLAST of Csor.00g178230 vs. TAIR 10
Match: AT5G25890.1 (indole-3-acetic acid inducible 28 ) HSP 1 Score: 117.5 bits (293), Expect = 6.1e-26 Identity = 72/176 (40.91%), Postives = 92/176 (52.27%), Query Frame = 0
BLAST of Csor.00g178230 vs. TAIR 10
Match: AT2G22670.1 (indoleacetic acid-induced protein 8 ) HSP 1 Score: 108.2 bits (269), Expect = 3.7e-23 Identity = 64/174 (36.78%), Postives = 91/174 (52.30%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Silver-seed gourd (sororia) 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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