Bhi03G000143 (gene) Wax gourd
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATCGCCGCTCGGACACGCGGCAAAAAAGAAGAAAAGAAAAAGGGAGAGTTACAGAACGAAAACACAAATATGCTCTTATTGGATTCTGAGCTTCCTCTGTCCCCTCTTCTCAGACTAAGAAGAAATCAAGAAGGAGAAAGAAGAAAAGACGACGAATAAACTACAAGAAAGAAAGCGCGCGCACGCACGCACACTCCTCAGTTGCAGCAGAAGATAATAGGAATTTGGGGGTGATACTGATAATTTAACCGACCCCCTTTTCCGCAATTCCCACTCTCCAGGTGAACTTCGGATTTCCAAACCCTACTTTCCTCCCATCGCTTGTTTGTTCATGAATTTTGAAATCCTCGTACTTAATTTCATTTTTTTTTTGTCATATCTTTTCGAATTCTGAGGTTTTAGGTTTGATGGGGTTTCTTAATTAGCCTAACCCGATTTGGGTATTTGTATCTGGTCACGAGAATTGTTGTAGAACATTTCTATTAGATGAATTTTAGTGGGTTCTTATTTAAATTGGATGATAGTCTGTTTCGGTTGTGTCGATCGAATTGCTTGGATTTAGTTACCAGATTTTGATAGTACGGGCTGAAGTGACCGTTCTTCAGTCTAATGCTCATATCTGTATCCGGGTTTGTTGGGTAATCACCCACAAAGCAGAAGTTACTGGAGGACTGAGATGACTCTGTAATGTCTGGTAAAATGGGGACAAATTGAATTTAACATGTTATGTACGTCAATCTCATCCTACTGGTCTGCACTTACCTTGTCGACTTCTGAAAAGACTAAAGTTAATAAGTTTAGCTTGTGGACTAAATGCATGATTTTTGCCATTAGTTAGGTTGATCTCGGATTGGATAGATTACATATGCTCATATGCTCATATACTTTGCATCTAAATGCCATAAATTGCTAATCGTTCTTATTTGAAAAGGGAATATTCATATCCAGTTGGTTTTTGGCGTCTCTGGTCTTGCTGCCGTTTTGATACCATGGTGTCGTATGAAGATTACTGATTCTTGTCACCGTGCACACCTTTAGGGCTCCTCCTTTTCTCCTTTTTTTTTTTAAAAAAAATATATATATACACACACACGCACAACAAAATAATAAATTTAATTTATTATTTATTTATCTAAATTTTATTTTTAAATTTTTTAAAAAGTTAAAAATAAAAAAGAAAAAGAGATTAATTTTATCGCATAAATGAAATTATAAAAGAGTGGAGAGAAACTAGTTCTGAAGCTAACAAAAGGTTCTTCTATATGGTACAAGGATAACTTAAGTTGCAGGAGGTGAAGAAACGCAAATTTTACACCAGGTAAGGAAACAAGAGAATCCGAAAAGTTTTCTTTGTTGATAAAGCATCTATTGTTAAAGAAAAAGGTCCCCAAAGGATCTTCTTCTCTTTGTCAACGGGATGACATTCAAACTTGAAGTAGAGAAAGAAGTTGATGTTGAGAACGACGGTCAACTGCCAATTGAAAACGAGGAGTGTGGAAGACATGCCTTTGAGATTTGACTTCTTTCTTGACTTCATTATTGCATTTGGAGAACAAGCTTGGGGGCAGAGTTCAAGTTGGAAGCCTTCATTGAACATGAGCATTAATGCTTTCATGAGTAAGCTCCTGGAGGAGGAACTGAACTTTCTTGGGATATTTGGATTGTCATGTAGCTTTGTAAAGAAGGCCCTTAGTATTCTTTCAATCACCGGAAGTCAAAGAAAACTCTGATTTGTTAGCCATTCAAGTCGGTTTATCTAAAAGAGAGGTCAAGGAAAGTTAGGGAAAACAATGGAGAGAAGTCCATACAAGAACCTCCATGTTTGCAACAACAATCCAAATAAAACTCATATTTGCCTCATTTCAAAGAAGACTAGAATAGAAAAGTTAAATGATCCAAACCCATTAAGTGTAATTAGCTTTCTTTATAAGATAAGCGCCAAAGTTCTCAATGAGTGCCTAAAGAAGGTGGTGCCTATTCGCACTTCTCTTACATTTTGTGGAAGGAAGGAAGATTGTGGATGCCATTCTTACAGCTTATGAATTATGAAGAAATAGGAGAATGAAAAGCTTTGAAAAAGCTACGACAGGATGGCTTGGTCCTGTCTCAACTCAATTCTTGAGTTAAGTTGTTTGGACATTGGTAGTCTAGTAGATATAAGAACATCTCTTAACCGCAAATTTCTCTATTATTTTTAATGGAAAACTAAGAACCAGTCTTCGCTAGGAGAGGTTTTTGACAAGGCTCCTTTCCCTTACCATGTTTTTTGAGCAAAACCAAGCTTTTCATTAAGGAAAATGAGAAAATACCAAAGGATGCAAAAGAAGAACTCGTCGAAAGGAATCAACCGAAGCCTAAATTAAGAAAAGAAAAAAAAAGGGTTCCAATCCAAAGAGGCAGTGAAGATAATTAAATAAGTCCTTATAAAGACATGCCTAAAGTGAGGCATTAAAACATGGCACGAGACCAGATTTTTTTTCCCAAGGTCTCTCAACACTTAAAAATTATCTTCTCAGGTCAACAGGTCAAATTCCGTACAACACAGGCAGCATGACAAGGGACTTAATCCTTCACAAAAATGGAAGGTGAAGCAACGCCTTCCCCAACAAAAAGCAACAATTTTCTTTATGAACCAAACAAACATCAAAAGGCTCTAAAAAAAAGTCCTAGGTCAAATTAACATGCTTGGCAATGATATACTTCTTCCCCCTTTGTGCTTACGTTATCACATTTTTTAAATGAACCTAAGGATGGTTAGAACTTATGCAATAGTTTCTTACCGATTAGAGAGTTCCTCTTGGCTTGTAGGTTGTATCTTCTCTGGGTTTTTTTAATAATATCTTCCGTTTCTTATCACAAAAAGAAACCAAATAAAAAGATGGGCCTCTTGCCTTCTTTGCACTTGAAATACTCTGCTTTAGCCTTTATACAATTCTTTTCCATGTTGTTTCATTGTGGCTATTTTCTCAAATTTTATTTCTTTATTGAAGCCTAAACAGCTCGAGAATTTGGAAATTATTGCCCAGCATATCTTCATTTGCTTCACTGAATATCAAATATAAGGCGGTTAATGACAATTCAGTAGCTGCCCACACTAATCCTTCCAGAATACTACACTCCCTGGCCCAGCCTTAGTTAATAGCTTGCCGATCACATCTGCTAACCAGGATGAAGAGGAAGGGCCAGGGGGAAAGACCTTTTTAATCCCGTGGGTAAAATTAGTTTCTTGTTACGAGAAAACAGTTTGTAATGAAAGAAACAAACAATTTCTTTCTTTCTCTCTTCCTCTATTTATCTTTTATGTTTTTGTTTTTTTTAATAAGAAAAAGAGAATTTCATTGATGAAGGAAGTTCCCACCGTTGGTGGATTACAAAACCTTGTAATAAAGAGAAGATAGTGGCAAGATAATGTACCACAGACCTTGTGATCTAGGTGCCGGCAATAAACCTAAGCTAGTTCCAATGCTCTAGTCCCCCTCAAGTCATTATAGTCTGATGTCTCTCTGAAGGCATCTGATAAAATTTGAACTGTACTGAGTAGATTAGTTGGGCCCCTGGGCAATGATGACACACCCTAATCAAGTTAAGAAAAGGCTTTTGGGCTTTAATTGCTTGAATGATATTTTTGTTTCAGAAGTCCACCTTTTTTTTGGCTTTGTCATGAGTCACTCTACTTGGGATTAGGAGATTTCCACTTTTCACGATTACACATGATTGAATGTTCTATTGTGTTTTGGGGTTTCTTCTTCTATTAATATAACTTTTACGATTTACCGTCCTATCTTCTTTTAATGAATTTTTGTAAATTTTTTGTTCATTGTTTTGTTTCTTGTACGTGTACGGATGTATATAACCATGGGTTTTCATGTTGGTTAAAAGGACAAACTAGATGATGCCAAGGTCATGATTTTTTTAGATAAGAAGCAATTTTGTTGATGATATGAAATTACAGAAGTGGGGCTATTAAGGGAGTTAAAACCTCTCCAATTGGAAAAAGAGAGTTGTAGCTATAGTGATGAAAGGGTGGATAACGTTACTCCATGAAGCAACCAGAAAAACTATACCATAAAAAATTTGGAAATGAGAGCTCCTTATCTTGAATTCCTGCCAAACAGTCCAGCAGAAAGCTCTAATGAAGATCATCCGTATAAGCTTTTTCTCTCTTTTAAATCCCCCAGGTGTAAGAGAAAGGGAAAGATTAGGGTCATGAAATTAATAGCTAACTCAGAGTTCCGAGATATTTTTTTTCTTCTCTCACTTTTTTTTAATATGAAAATATTTTATGGTTAGATGGTTCACTTGTTAGATTAGTTAAGATTTGCATAAGTTGGCCTACACTCCCATTATTGGGAATGAAAATTCCTTTCACCAATAGTGAACTTACGAGTTTTTTAGAATATTAAACCTTGAAGGTTCTGAATTTCTTTTGGTTGTGGAGCCGTGCAATCATCCTGGCATTAGCTGGGGCTTTCTCTTGTGTATGCATCCTTTATTGGAGTTAGTTTCAAAATAAAACCACTATACCTTTGTCACATTGTTCCTTGCACCAATTCCATATCTATGTAAACCGTCCAAATGTCATTGAACTGACAGATCCCTTTTCTTTGATGTCAGGTTTCATTTGGTGTACACTACTACCCCATGACTTCTTCTGTCCACGATTATTCTGGTAACTAATCGGTCTCATGTTCCTATGTTATGGTGTTTAGTTTTATATCCTAGTTACGTTTGAGTGAGAGATGCTAGTTCTTTAAGTTCTCTAATCTTCTTTAGTTACTTCAATAATAAAGTGCTCTTTGCATCAGCTCAAAAGAGCATCTGTGCTGTAGTTTGCTTCTCGATCTTTTGGAAAGAGAAAATAATATGTTTGGCTTTCTTTCTTCCTGGATTTTCTACACTGAAGTAATGATTCCATCGGTTCATTTGGCTGATACTTCATGTGATTAGTTATTCATTTTGAATTATGTACCAAGTGTTATCTCTTTTAATAGCAAATAGAACTTTCGTGGAAAGATTAATAATACAAAAGAATGGGAGGGGAGATAGGTAATCTGCCTATTGGCAACTATTGAAGTGAATAGAGTAATTACAAACAGCTTTTGAGGGTACTCCAAAAGTAGGCAACAAATAAAATTAAGACCTGGAGTTCCACGTGGGTAAATTCTTGTACCTTTTTTTTTTTCCAACTCTCAACATTTCAAATTGTAGCAAAAAAAGGCATGATCCTCAAAATGCTATCCCTCTTGAAGAAAAAGGATGATTGCATGGCATCTAGATAAAGAACTCTTCAAATTTCTTGGGAGGACAATATAATGGTAAAGCAATTGAAAAGGCTCCACTAACCTTGAATCAAGATTCATGTGCTTGACATCTTCATTTGAACCCTTGCACATACTGCTTCACTTATTGAATGGAGAAGAATCAAATTCCTTTACTGAATGCTATCATTCGTGTTTACCATCGTAAAACAAAGACCACACTCCTTTTCAAAGTCTTGCACAATTTGAGGGATTAATCAGTAAGATCACAAAAAAATTCAAGAAGAAAAGTCACCTGATCTATCTATTTTCCACACTCGAGTTTCATTGGCTGAAGACAGTCAAACACCTTATAAGAAATGCATCAAGGCTGTTCACTCTAACATTTAAGTTTCTCTTCAAGTTCAACAGCTTGAAATATTCCTTTTCCGTCAGCTAGTGCATAAATTCTTGTAAAAGGATCAAGAGGCCTTCCCCAATCTTAGCATAGCTCTATTTGGAGTTGCATTTTGTAATTGAAACCCATGGACTTTCTTGGCTTTCTGTATTGTATCAAGGAGAAGTGGATCACCCAAAAGAAGACTTGCTATGTTTGCTTACATTAATGCTTTGCCATATAGCATCTTTTCTTCTTTTTTTTTCAGATCACAGTCCCTAAAGGATTTCTTTTGGGACATACCATGGGCTCCTTATGTGAGCGCCACTTTTCTATGTGATAATATTGTTTTTTTTACCCTCCATCTTTTAATGCTCCCCCCTTCCCCCCCTCCTCTAAATATACCTGATATTATTGGTTGCTTTTGATGGCCACTTCTGCGGCTGAATAGAGTTTACTGGGCTTGATCGATTACTTTGTGATATTACAATATTGTTTTTTTACTCCAACTGGGTTTAGATAAATTTTGGCTCTGAAACTGATTGTCCAGATAATGCTGAGGCTGATGAGCAGCAAAAGTACTCTGAATCTCAGAATCATTCTTCATCAGTCATAAATGGACTAAATCAACCCAGCATCGCGACCCCAAATCAGTATGTAACATCTACTCAAATTGGGGCAGGACATGCTATGGTACTATATTAAACTACTCTCTTTCTTTTCTTAATCTCTTTGTGAAACTTGGTTTTCAAATTCTCTGGTCAAGGGCTTTTATTTATTTATGGTTATGTACTATTTTCTGAAAAAGAAACAAGTAGGAAGAACAAAAGGAAGGAATAGAGAACCTTCAACCTACCATTATCAGCCAGGAATTTATTTTACCATTACCATATTATTAATTTTTTAATGGAACTGTCTGCTCTTTTGGTATCATGAACAATAGTCATGCATACAATATTAGTAACTATCACTATTATTAGTTATATAAGGATGGCTTGTTAATAGAAATTGTGTTTTGCTTTCAGTCCACCTGATTAACTTATAATCCGACCTTAAGTTTTAGCCACTTACCTCTGGACACAATGGCCTTTCATCTACCATATTTTGATATGTTTAGTTACAATGACCTTTCATTTTTGGTCTCCGTCCATGGGACAGGACTGATGAGATTGAGATATTGCCACGATAATGGTTTAGGTCAGTAGCTGATTTTAATTGGACATTTACAGTTATGATGGTGTTTGACTAAGTCATTGTTTCCTTTTTGTTAGAAAAAGAATCTAGTTTCTAGTTTTACTAATTTATTGGCACTGGCTTCTTTTAGAGCTTATTTGACTAATTTGGATTTCTGGGACTTCTCTGGTGAAGGCACCCGCTGCTTATCCATATCCAGATCCTTATTACAGAAGCATCTTTACTCCCTATGAGCCTCAACCATATCCTCCACAGCCCTATGGTGGGCAACCTATGGTAAGTAGTTTGTCCCTTTTTAATTATGTCAATAACTTTAGTCAACGTTTTCTATTGAGACATAAAGTAAATGGGTATGTTGACTAAATTGGCACTAGAGATAATTTTTTAGTGTCCAAGAGGTGCACACTAATTTATCCTTTATGTTCGGTGACTTCGTACTGGAAAACCTACTTCTTTGAGGAGAAAAACTAAAGGAAATTCACAATTTCAACTCTTAAGTTTACGGTAGACGAGTAAAAAACTGCACCCCCCCCCCCCCCCCCAACACACACACACACACACACAAAATCAAATGATAGAAGCAACATGCAGGTTGGAATGGTATAATTACTTCGTTTGAGCATGGAGGATTGGTTAACTCAGTATAGATACAACTATCCAAAGATCATGGCTTTCTTAAGCCATCAAAATGAACAGCATCACCATGAAAGGAAGCTTAATTTATCAGATTATCTTTTCAATATGATTTATGACTTAATGATTTTGATATGATGGTTTGCTTTACCTGTTCTAGTCGTTTGATTCCTAGTTTATTGCTCATTTTAGGTCCATCTTCAGTTAATGGGAATTCAGCAAGCTGGGGTTCCTTTGCCAACAGATGCAGTTGAGGAGCCTGTTTTTGTCAATGCTAAACAGTATCATGGCATTTTACGACGTCGACAGTCCCGTGCAAAAGCTGAATCAGAAAATAAAGCTCTAAAGTCTAGGAAGGTATGCAAGCACAAATATTATCTCGTTGTTAAATGCTGAGTGCATGATTGTGATAGGCCACCCACTGTATATACTTGCGGTTTTGATACAAGATTTCCTTTTCTTTCACGGTGCTTCATTCTCTATGGTAGCTGATATATAATTAAATCTACTTTCACCTATTAGCTTAATTTTTTGGGTCAATTAGTGATTTAAGATAGTTCAAGCCTTGATTGTTGATTCCTCTCCAATTAATATTCATTTCCATTTGTTGGGCATTCTCCATATTTCAAGCCCACAAGTGGGGGAGAGTATTAGATGATATGTAATTAAATCCACCTTTACCTATCAGCGTAAGCTTTTGGGTCAATTGGTGATTTAAGACTTTAGTTTTTAACCGCTTAGCTTCAATATGTTGTGCAGCCATACTTGCATGAATCTCGACATCTGCATGCATTGAGGAGAGCTAGAGGTTGTGGTGGGCGGTTTCTCAAATCAAATAAAAATGAGAATCATCAAAATGAAGTGGCATCAGGTGATAAATCACAGCCAAATATAAATCTGAATTCTGATAGAAGTGATCTTGCTTCTTCAGAGAACTGATGTCTGAGGCATTGTTGGGTGAATGGTGAACAGCGCATTTCAACAATTGTAAGGAAATTGAGGTCCCAATGCCAGCTTCAGTTGCCTTAGTATTACTTCATCCTTGGTCTATACTAGCAGCATTATAGCATATAGGTTTTGGTAGCATGTTACTTAGGGAGGGTCCAAAATGTAGCAGGCAAAAGTATGCAAGTTTTAATAACATCGTAAATACTGAAGTGAGTTAGCTGATTGTTCTGTTTGAGTGGCGGTTGCATTAGGTTTGCAAATATTAGATTCACTGTTTTGTAGTGTTAGTTGCTATTTACGTTGCTCCCCACCTCAAAAATAAGTTCAGTGGTTGAATTGAAATGATGGAACTCGTATTGTAACATATTGGTCCTTGCAGTACTTTCTTATTTTCTTTTATTTTCTTTTCTGGGTTTTTAAATGGCTTTGTGTACTATCTTTTGCTGAGAAAAAGGTAAACACTTTTCCTTGGCCATTTTAGTTTGTGATGATCCCCAAGACCATATTAGCTGAAAAAGACAACAAATTTGTGTTTAAAAGTAGTCGTCCACTTAAAGTCCCTGGTTTTTAGGCCTAATATTTGAATTAGCTTGAACGGATTGGCACAGTGCATATTAAAGCTGATGAAGCTGAAACTATTATGGGAAGTTTTGTAATGGAAGGAGATGAAGTCGACAAGAGGTCAGGTCTGGGTTCCTATTGAATGTACGAAAGGAGTATACATTCGTAGTGTTTGGTCTTGTTGTAGGAAGTAAAGGAGTGTAGGCAAGTTGATACAGCATCTCCATAGTTTGATATCAGTCTTCAAAATTGCAGCAGAAAATAATAGAATCAATCTTCTATGGCTGGATATTTTGAACTTGTAAATAACGAGACAATGTAGTGCAACTGTTCTCATAACTTCCCCAACATCTTTTGTTTATTAAACGCTGCAGGAAAAAACCTGAACATCTTTTGGTAATGGTGTGCTGACATTTTTTTTTCCATGTTTTGCTTTATTTTTCGTCTTGTATTGTATTGTATCCTATGTCAATAACTTCTATAATTCAGTTAAGTTGCTCCTACCATGTATCGTTCACTTGGGCTACACATCTTTAAGAGAACACAACTTGCAAAATCCCCATTCTTTGATTACATCAGACTTGTTATAATTTCCATCAAATACTCAATGTATTGTATTTATGGTTGATTATTGGATCAAGTAGTATTTTTGCTATGTTAGGCTCTGATATTGAGCTGTCTGAATTAGGAACTCTCAAATGAGAAGAAATCTAAGTATATATCTTATATATTACGAGATGTATCCATTGGCCCAACTCATTTGGTTGGGTTCCACGTTTTCTGATCAACATCCACTATCACATGTTTTACTAACAGGATCTCAGTGTTGACAGTTATCTCATATTTGCTTGTTCCTGCATTGCAGTAGCAGAAGAAGAAATGAGGTAAAATGGTAAAGATTTTGAATTTCTGTTGATATTAACCTCTTGTTGAACTTTCTTTTGTCGTTTTTAGAGTTTTTTTTTCACGATATGTGTTAACCAAGTAAGTCTTTGCAGTATAATTCTCAAAAGGGGAGGAAAAAGTCAGAATCTTTCATTTTATCCTGGCCATATTCATACTGGTTTCTGAAAAATAAAAAATAGAAATGAAAGTATATACATGTGGCTTCACGTGTACAAAGCAAAACCACATTTCACAGGCTTTACTATTGAAATCTGGGCCACTTTTCTTCCAAGAGTGTTAGATGGTGTCCTATACAGATTCCGTCGAGTCCCTATCAAAGGGCCATTCCTTGGAAATCAAACATTTTCTTTTGCTCATGGTCCTCTCCTGGTCAAGCCACTCTAATAATGTCTTTTCAAATTTCCACTACCTTTGTAATTTGGATCCTCCTCCATGTAGCTTTGAGTAGAATAAATTCCTTTTTGTCCTTTTAGTGGGTTTCATTTCATCTACCTTCAGGATTTACTTTATAGGTAGGTTTGTAAATTTGAACTTCCAATCTCGTAAGA ATCGCCGCTCGGACACGCGGCAAAAAAGAAGAAAAGAAAAAGGGAGAGTTACAGAACGAAAACACAAATATGCTCTTATTGGATTCTGAGCTTCCTCTGTCCCCTCTTCTCAGACTAAGAAGAAATCAAGAAGGAGAAAGAAGAAAAGACGACGAATAAACTACAAGAAAGAAAGCGCGCGCACGCACGCACACTCCTCAGTTGCAGCAGAAGATAATAGGAATTTGGGGGTGATACTGATAATTTAACCGACCCCCTTTTCCGCAATTCCCACTCTCCAGGTTTCATTTGGTGTACACTACTACCCCATGACTTCTTCTGTCCACGATTATTCTGATAATGCTGAGGCTGATGAGCAGCAAAAGTACTCTGAATCTCAGAATCATTCTTCATCAGTCATAAATGGACTAAATCAACCCAGCATCGCGACCCCAAATCAGTATGTAACATCTACTCAAATTGGGGCAGGACATGCTATGGCACCCGCTGCTTATCCATATCCAGATCCTTATTACAGAAGCATCTTTACTCCCTATGAGCCTCAACCATATCCTCCACAGCCCTATGGTGGGCAACCTATGGTCCATCTTCAGTTAATGGGAATTCAGCAAGCTGGGGTTCCTTTGCCAACAGATGCAGTTGAGGAGCCTGTTTTTGTCAATGCTAAACAGTATCATGGCATTTTACGACGTCGACAGTCCCGTGCAAAAGCTGAATCAGAAAATAAAGCTCTAAAGTCTAGGAAGCCATACTTGCATGAATCTCGACATCTGCATGCATTGAGGAGAGCTAGAGGTTGTGGTGGGCGGTTTCTCAAATCAAATAAAAATGAGAATCATCAAAATGAAGTGGCATCAGGTGATAAATCACAGCCAAATATAAATCTGAATTCTGATAGAAGTGATCTTGCTTCTTCAGAGAACTGATGTCTGAGGCATTGTTGGGTGAATGGTGAACAGCGCATTTCAACAATTGTAAGGAAATTGAGGTCCCAATGCCAGCTTCAGTTGCCTTAGTATTACTTCATCCTTGGTCTATACTAGCAGCATTATAGCATATAGGTTTTGGTAGCATGTTACTTAGGGAGGGTCCAAAATGTAGCAGGCAAAAGTATGCAAGTTTTAATAACATCGTAAATACTGAAGTGAGTTAGCTGATTGTTCTGTTTGAGTGGCGGTTGCATTAGGTTTGCAAATATTAGATTCACTGTTTTGTAGTGTTAGTTGCTATTTACGTTGCTCCCCACCTCAAAAATAAGTTCAGTGGTTGAATTGAAATGATGGAACTCGTATTGTAACATATTGGTCCTTGCAGTACTTTCTTATTTTCTTTTATTTTCTTTTCTGGGTTTTTAAATGGCTTTGTGTACTATCTTTTGCTGAGAAAAAGGTAAACACTTTTCCTTGGCCATTTTAGTTTGTGATGATCCCCAAGACCATATTAGCTGAAAAAGACAACAAATTTGTGTTTAAAAGTAGTCGTCCACTTAAAGTCCCTGGTTTTTAGGCCTAATATTTGAATTAGCTTGAACGGATTGGCACAGTGCATATTAAAGCTGATGAAGCTGAAACTATTATGGGAAGTTTTGTAATGGAAGGAGATGAAGTCGACAAGAGGTCAGGTCTGGGTTCCTATTGAATGTACGAAAGGAGTATACATTCGTAGTGTTTGGTCTTGTTGTAGGAAGTAAAGGAGTGTAGGCAAGTTGATACAGCATCTCCATAGTTTGATATCAGTCTTCAAAATTGCAGCAGAAAATAATAGAATCAATCTTCTATGGCTGGATATTTTGAACTTGTAAATAACGAGACAATGTAGTGCAACTGTTCTCATAACTTCCCCAACATCTTTTGTTTATTAAACGCTGCAGGAAAAAACCTGAACATCTTTTGGTAATGGTGTGCTGACATTTTTTTTTCCATGTTTTGCTTTATTTTTCGTCTTGTATTGTATTGTATCCTATGTCAATAACTTCTATAATTCAGTTAAGTTGCTCCTACCATGTATCGTTCACTTGGGCTACACATCTTTAAGAGAACACAACTTGCAAAATCCCCATTCTTTGATTACATCAGACTTGTTATAATTTCCATCAAATACTCAATGTATTGTATTTATGGTTGATTATTGGATCAAGTAGTATTTTTGCTATGTTAGGCTCTGATATTGAGCTGTCTGAATTAGGAACTCTCAAATGAGAAGAAATCTAAGTATATATCTTATATATTACGAGATGTATCCATTGGCCCAACTCATTTGGTTGGGTTCCACGTTTTCTGATCAACATCCACTATCACATGTTTTACTAACAGGATCTCAGTGTTGACAGTTATCTCATATTTGCTTGTTCCTGCATTGCAGTAGCAGAAGAAGAAATGAGGTAAAATGGTAAAGATTTTGAATTTCTGTTGATATTAACCTCTTGTTGAACTTTCTTTTGTCGTTTTTAGAGTTTTTTTTTCACGATATGTGTTAACCAAGTAAGTCTTTGCAGTATAATTCTCAAAAGGGGAGGAAAAAGTCAGAATCTTTCATTTTATCCTGGCCATATTCATACTGGTTTCTGAAAAATAAAAAATAGAAATGAAAGTATATACATGTGGCTTCACGTGTACAAAGCAAAACCACATTTCACAGGCTTTACTATTGAAATCTGGGCCACTTTTCTTCCAAGAGTGTTAGATGGTGTCCTATACAGATTCCGTCGAGTCCCTATCAAAGGGCCATTCCTTGGAAATCAAACATTTTCTTTTGCTCATGGTCCTCTCCTGGTCAAGCCACTCTAATAATGTCTTTTCAAATTTCCACTACCTTTGTAATTTGGATCCTCCTCCATGTAGCTTTGAGTAGAATAAATTCCTTTTTGTCCTTTTAGTGGGTTTCATTTCATCTACCTTCAGGATTTACTTTATAGGTAGGTTTGTAAATTTGAACTTCCAATCTCGTAAGA ATGACTTCTTCTGTCCACGATTATTCTGATAATGCTGAGGCTGATGAGCAGCAAAAGTACTCTGAATCTCAGAATCATTCTTCATCAGTCATAAATGGACTAAATCAACCCAGCATCGCGACCCCAAATCAGTATGTAACATCTACTCAAATTGGGGCAGGACATGCTATGGCACCCGCTGCTTATCCATATCCAGATCCTTATTACAGAAGCATCTTTACTCCCTATGAGCCTCAACCATATCCTCCACAGCCCTATGGTGGGCAACCTATGGTCCATCTTCAGTTAATGGGAATTCAGCAAGCTGGGGTTCCTTTGCCAACAGATGCAGTTGAGGAGCCTGTTTTTGTCAATGCTAAACAGTATCATGGCATTTTACGACGTCGACAGTCCCGTGCAAAAGCTGAATCAGAAAATAAAGCTCTAAAGTCTAGGAAGCCATACTTGCATGAATCTCGACATCTGCATGCATTGAGGAGAGCTAGAGGTTGTGGTGGGCGGTTTCTCAAATCAAATAAAAATGAGAATCATCAAAATGAAGTGGCATCAGGTGATAAATCACAGCCAAATATAAATCTGAATTCTGATAGAAGTGATCTTGCTTCTTCAGAGAACTGA MTSSVHDYSDNAEADEQQKYSESQNHSSSVINGLNQPSIATPNQYVTSTQIGAGHAMAPAAYPYPDPYYRSIFTPYEPQPYPPQPYGGQPMVHLQLMGIQQAGVPLPTDAVEEPVFVNAKQYHGILRRRQSRAKAESENKALKSRKPYLHESRHLHALRRARGCGGRFLKSNKNENHQNEVASGDKSQPNINLNSDRSDLASSEN
BLAST of Bhi03G000143 vs. Swiss-Prot
Match: sp|Q84JP1|NFYA7_ARATH (Nuclear transcription factor Y subunit A-7 OS=Arabidopsis thaliana OX=3702 GN=NFYA7 PE=1 SV=1) HSP 1 Score: 156.4 bits (394), Expect = 3.5e-37 Identity = 91/175 (52.00%), Postives = 110/175 (62.86%), Query Frame = 0
BLAST of Bhi03G000143 vs. Swiss-Prot
Match: sp|Q8VY64|NFYA4_ARATH (Nuclear transcription factor Y subunit A-4 OS=Arabidopsis thaliana OX=3702 GN=NFYA4 PE=1 SV=1) HSP 1 Score: 141.0 bits (354), Expect = 1.5e-32 Identity = 90/183 (49.18%), Postives = 110/183 (60.11%), Query Frame = 0
BLAST of Bhi03G000143 vs. Swiss-Prot
Match: sp|Q9LNP6|NFYA8_ARATH (Nuclear transcription factor Y subunit A-8 OS=Arabidopsis thaliana OX=3702 GN=NFYA8 PE=1 SV=2) HSP 1 Score: 101.7 bits (252), Expect = 1.0e-20 Identity = 49/70 (70.00%), Postives = 59/70 (84.29%), Query Frame = 0
BLAST of Bhi03G000143 vs. Swiss-Prot
Match: sp|Q9SYH4|NFYA5_ARATH (Nuclear transcription factor Y subunit A-5 OS=Arabidopsis thaliana OX=3702 GN=NFYA5 PE=2 SV=1) HSP 1 Score: 101.3 bits (251), Expect = 1.3e-20 Identity = 52/80 (65.00%), Postives = 61/80 (76.25%), Query Frame = 0
BLAST of Bhi03G000143 vs. Swiss-Prot
Match: sp|Q945M9|NFYA9_ARATH (Nuclear transcription factor Y subunit A-9 OS=Arabidopsis thaliana OX=3702 GN=NFYA9 PE=1 SV=1) HSP 1 Score: 99.8 bits (247), Expect = 3.8e-20 Identity = 74/194 (38.14%), Postives = 94/194 (48.45%), Query Frame = 0
BLAST of Bhi03G000143 vs. TAIR10
Match: AT1G30500.2 (nuclear factor Y, subunit A7) HSP 1 Score: 156.4 bits (394), Expect = 1.9e-38 Identity = 91/175 (52.00%), Postives = 110/175 (62.86%), Query Frame = 0
BLAST of Bhi03G000143 vs. TAIR10
Match: AT2G34720.1 (nuclear factor Y, subunit A4) HSP 1 Score: 141.0 bits (354), Expect = 8.3e-34 Identity = 90/183 (49.18%), Postives = 110/183 (60.11%), Query Frame = 0
BLAST of Bhi03G000143 vs. TAIR10
Match: AT1G17590.1 (nuclear factor Y, subunit A8) HSP 1 Score: 101.7 bits (252), Expect = 5.6e-22 Identity = 49/70 (70.00%), Postives = 59/70 (84.29%), Query Frame = 0
BLAST of Bhi03G000143 vs. TAIR10
Match: AT1G54160.1 (nuclear factor Y, subunit A5) HSP 1 Score: 101.3 bits (251), Expect = 7.3e-22 Identity = 52/80 (65.00%), Postives = 61/80 (76.25%), Query Frame = 0
BLAST of Bhi03G000143 vs. TAIR10
Match: AT3G20910.1 (nuclear factor Y, subunit A9) HSP 1 Score: 99.8 bits (247), Expect = 2.1e-21 Identity = 74/194 (38.14%), Postives = 94/194 (48.45%), Query Frame = 0
BLAST of Bhi03G000143 vs. TrEMBL
Match: tr|A0A0A0KIV0|A0A0A0KIV0_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G525440 PE=4 SV=1) HSP 1 Score: 308.1 bits (788), Expect = 1.4e-80 Identity = 190/205 (92.68%), Postives = 195/205 (95.12%), Query Frame = 0
BLAST of Bhi03G000143 vs. TrEMBL
Match: tr|A0A1S4DTP4|A0A1S4DTP4_CUCME (LOW QUALITY PROTEIN: nuclear transcription factor Y subunit A-7 OS=Cucumis melo OX=3656 GN=LOC103484315 PE=4 SV=1) HSP 1 Score: 307.8 bits (787), Expect = 1.9e-80 Identity = 190/205 (92.68%), Postives = 194/205 (94.63%), Query Frame = 0
BLAST of Bhi03G000143 vs. TrEMBL
Match: tr|A0A2I4GVD2|A0A2I4GVD2_9ROSI (nuclear transcription factor Y subunit A-7 OS=Juglans regia OX=51240 GN=LOC109011209 PE=4 SV=1) HSP 1 Score: 263.1 bits (671), Expect = 5.3e-67 Identity = 167/204 (81.86%), Postives = 183/204 (89.71%), Query Frame = 0
BLAST of Bhi03G000143 vs. TrEMBL
Match: tr|A0A067G6Q0|A0A067G6Q0_CITSI (Uncharacterized protein OS=Citrus sinensis OX=2711 GN=CISIN_1g0264741mg PE=4 SV=1) HSP 1 Score: 255.8 bits (652), Expect = 8.5e-65 Identity = 162/204 (79.41%), Postives = 179/204 (87.75%), Query Frame = 0
BLAST of Bhi03G000143 vs. TrEMBL
Match: tr|A0A067GIX8|A0A067GIX8_CITSI (Uncharacterized protein OS=Citrus sinensis OX=2711 GN=CISIN_1g0264741mg PE=4 SV=1) HSP 1 Score: 255.8 bits (652), Expect = 8.5e-65 Identity = 162/204 (79.41%), Postives = 179/204 (87.75%), Query Frame = 0
BLAST of Bhi03G000143 vs. NCBI nr
Match: XP_022146628.1 (nuclear transcription factor Y subunit A-7 [Momordica charantia]) HSP 1 Score: 311.2 bits (796), Expect = 2.6e-81 Identity = 191/205 (93.17%), Postives = 194/205 (94.63%), Query Frame = 0
BLAST of Bhi03G000143 vs. NCBI nr
Match: XP_004134622.1 (PREDICTED: nuclear transcription factor Y subunit A-7 [Cucumis sativus] >XP_011658320.1 PREDICTED: nuclear transcription factor Y subunit A-7 [Cucumis sativus] >XP_011658321.1 PREDICTED: nuclear transcription factor Y subunit A-7 [Cucumis sativus] >KGN49458.1 hypothetical protein Csa_6G525440 [Cucumis sativus]) HSP 1 Score: 308.1 bits (788), Expect = 2.2e-80 Identity = 190/205 (92.68%), Postives = 195/205 (95.12%), Query Frame = 0
BLAST of Bhi03G000143 vs. NCBI nr
Match: XP_016899328.1 (PREDICTED: LOW QUALITY PROTEIN: nuclear transcription factor Y subunit A-7 [Cucumis melo]) HSP 1 Score: 307.8 bits (787), Expect = 2.8e-80 Identity = 190/205 (92.68%), Postives = 194/205 (94.63%), Query Frame = 0
BLAST of Bhi03G000143 vs. NCBI nr
Match: XP_022925987.1 (nuclear transcription factor Y subunit A-7 [Cucurbita moschata] >XP_022925988.1 nuclear transcription factor Y subunit A-7 [Cucurbita moschata] >XP_023544362.1 nuclear transcription factor Y subunit A-7 [Cucurbita pepo subsp. pepo] >XP_023544363.1 nuclear transcription factor Y subunit A-7 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 305.4 bits (781), Expect = 1.4e-79 Identity = 186/205 (90.73%), Postives = 193/205 (94.15%), Query Frame = 0
BLAST of Bhi03G000143 vs. NCBI nr
Match: XP_022926734.1 (nuclear transcription factor Y subunit A-7-like isoform X2 [Cucurbita moschata]) HSP 1 Score: 305.1 bits (780), Expect = 1.8e-79 Identity = 162/205 (79.02%), Postives = 168/205 (81.95%), 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 wax gourd
Date Performed: 2019-11-17
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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