Bhi08G000030 (gene) Wax gourd
The following sequences are available for this feature:
Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below.ATGGTCATCACGCCTCATCATGATTATTATCCTTTAACTCCTCTAGCACAAGAGCAAGTTCCTCGATTTATAAGGAAGTGGATAACTCCACGGGAACCACCGGATCAACATGTGGTAAGTGTGCTGACCATAAATATCTTTTTATTCTTTAATCGATTTTTTAGGCTCATTATGTCATGTTCCCTTCTCCCCATTGAGAAAATACCATCTGTTCTGAAATTTTCAAAATTTAGGTCTTGACTGTTGGAGCCCTGCATCAGATTGATTTTGCTGCATTACGTAGTGCAGCTAGTGCATGGCATGATGTGTTTGCTCCTCTTCCAAAACCCTTATTGGTGGTCAACATAGGAGGGCCTACAAGTGAGTTTTTTCAATATATTGGGTTGTCATACTTGATCTTACTCAAATTTTTTATTGTCCCCCGTTCTTTTTGTTTTTGAAACGTTAGGTATACCTTGTTGATAATCATTTCTTATAAAAATGGATCATTCCTTGTTTCTATGTTATTGTGAAAATTATATTATTAACCCTAGTGTATGAGTTTCTTAGTAGGCTGAATGATCCTTTTGTACTATGATATATGAGTAGATTCAGCTGTTGCACGTTGATATGTTTTTATTGAATTTAGGTCAGTTGTTGACATTATATTAATTGTGAATTTTTTAGAAAACATTTCGAAGACTAACCAAGTTCGAGAAAGATCATCGGTATATGTTTGAACCAGAAACAAATTTTCATTGATATATGAAAAGGAAAAAAAAGTTACTAATGGAACAAGAAAGACGAAAAGACCCGTAAAAGTAAAGCCCCAAAATAGAAGAGAATAAAACATTTGAAGAACTTATCCTTGTCTAATTCCTAAGAAATTTAGAGTGGTCAAAGTTGTTGATTATCGATGCATAAGCTTAGTGACAAAATACGTATAAGGTGGTTCCAAAGTCCTTGCAAACAGAATGAGGAGAACCATTCGGTCTTTGTGTCAGAGTGACAAATCCTCGACTCCATTCTTTTTGTAGATGGGGTGGTGGATGATTATAAATGCGAGAAGAAGAAAGGTTGGGTCATTACGTTGGACTGACTGGGATTTTTTGTTGGAAGTCCTTTCAAGAAAATGGAAAACCACTTAGTGAAATGGAAAACCACTTCTCTACCTAGGTGTAGTGGAGGCCTTGGAATAGGCAACGTGAAATGCATAAATCTGAGTCTTTTGGCCTAATGGGGATGGAAATTTATGATTGAAAAAGGTGCTTTGTGGCAGGATATCATTGTCAGTAAACATTCCTTAAATTGGTGACTGTGTGTGTGTAGGTGGCGTCTCAAACCATAAAACATAAAAAACTGACAGCTCCTAGGAACAAAACTTTAACTGCTGGCGCACCTTTACCACAGAAAATCACAAGATATACTGGACATGAAGACAAAAAAAGGAAAACTAAAAAGAAACAAAAGATGCTTCCTCATATGCAATTTTTGCTCCCAATGAAATTATTAGTTGACTGATCTGCCAAACAAGCTTAATCTTTTGAAAATTGTGGAATTCCCCAAATCTGGAGACCACAAATATCAAGGTGTGAAAATAAATCTTTTTAAAATCAAAGGGAGGGATGGAGAAGAATGCCCTGCATCTTTTTTCGAAATAATCTTGTCATTATTGCTTGAAGAAACAACCATCTTTTGCTCACCGAGTAACAAACAAAGAGCCTCATCTAAAGAATCCTCCACAATGACATCATAAAAATCATTAGTCCGAGCCAATACTACATCTAACTTCAGATTCCAAATAAGAATCTAATATACATATTAACATTTGACAATGGAAGTTTTGTTCATTTAATTGAATGCTGACGCTTTGGATAGAATGCTTGTTCGAACTAATGTTCCCATTCTTAGACATTTCAATTACAGAAAATGAAGTTTATTCAGAAGTTACTTCAGACATTGTTGCATTTAGGTTAGATGTATGGTTTGACTAGATGTGATCAGTGGCAAACAAGGACACCACTTGACGGACTGCTCAGACAAGGCTGGCTGTCCTCCAATAGTAGTCAAGTGCAGACATGGATGGTTGATATTGATGCAATCTTATTTGGAGAGTGCAACACAGACAAATTGTTGTCATTCTCTGTGCCAAACCAGTTTGTGTACTTAAATTTGAAAGGAAAAATAGTTATTCTTTGCATGCTGGAGAGTACAAACACACTAAACATAAGAGGAAAAGCATGGGACCAAAAGATGCACCGAGGGTTCTGACATCATCTAGGTTTTCTTTTTCCTCTAATACCAACTAGGTTTGTGAAAAACAGACGAGTCAAAGAATTAAGTTTGCATTTTGCAGAAACATAATTTTTGACACTATATGGACAAAAGTCAATGCAGGATTTAGGGTGTTCACTCTGTAAGAAATCCTGCTGTGAGGGCAATGTAGAGAAACCTATAGCAGTCATGATATAGAGCTATTATCTTCATTTTTCAGATGCCTTGGAGCTACATATTTTGGTTATGTTATTTATTTTATATATTTTTCCTGTTTTGTTCATTAAATATGTGAGGGTAGATTGCTAAAGGGTTATACCGGTCCATTGTGCGCCCTTTACTTTATTCTCTTCCTCTTGGCTACTAGATACAATTCATGACATAGGAGTGCATTTTTTTTAAACGGAAACAAACTTTTCATTGATATAATGAAAGGAGATTATTGCTCAAAGTACATAGCTCAAAATACAACGAAACAAGATAATAATCATAATAAACCGGAGCTCTATGGATGAGTAGGTGCACAAGGACATCCCAACTAGGTTGACACCCCATAGCACTCTTATCATATCCATTTACAAGATGAAACTATCAAACAAAATCAGAGACTACTAAATAGTTACAAAGAAGGTATAAAAGCTATAAGGCAAATGTCCTAGATAGAATAATCAGCCAAAAAACTTGGACTGAGAGCACCGAGAGGAAGCTAATAGGCAGGCTGATCCAAATCTGTCTGACCATTCGGCAACCTTGTTGTGGAATACTCTTTGGTTTCGTTCAAACCATAATTTTGAAATTAAGGCTTTAACCGCATTTGACCAAAGAATTTGTGTCTTAGAAGACAAGATCGGTCCAGTCAAAATATGGGAAACATTACTGTGAATGTTCTGTCCAAAGATCCAATGTTGATTGAAATATGAAAAGAGATTCTTCCAGCATTTTCTTGAATAAGGACAATCAAAGAACACATGTTGTAAGTCTTCACTACTTGCTAGGCATAAATGGCAGATGGTGGGTGAAAGATAATGAGATTGAAGTTTGTGTTGCAACACTTCAGAGCAATTAAGAGATCCAAAAATTAAAGCCCAAACCAGAATGTTGATTTTTCTCGGGCTTTTGGACTTCCAGAGGGTCTGAAAAAGCTCTTTTTCAAAGGGGAAGATGAGTTCAAGTGCTTTGATAAGGATCTAGGTGAAGTGCGTAAGTTGCTAGGATCTAGGTGGAGAAGTGGAGATATATTGACTCGCACAAACTTCTACCCAGATCAATAGTAGAACCAAGGGTCTGAACTAATGAACTAATGAACAATTTGTATATAAGTCTCAATCTCAGTATTTCTGCTGCATTCTTGTTGATGATCATGTTTATGAACTATAATATGATTTTCTGCAGGTTGCTGTCGATATGGTGTGGATCTTGCAAAGCAGCTGGTAACCAGTTTGCTGAGTGTTCTTGCAAGCTGTGGAAGTGTCAGAATATCCTTCTCAGACAGAACTCCTGAGAAGGTAGTATTGAGGAAAAAAAATCTTAGCAATATCCAGATGTGACCTTTCTTTTATGATATCCTATTTTTCCTTGACAGGTGTATAATGTTATTGTGAAAGAACTTGGGGATAATCCAAAAGTTTACATCTGGGATAGACAAGGTTCATTTACTATGAAATGAGTTTAATGAGTTCGTCTGTAGTTTTGAAATATTGTTTTGCGTTATTTGATAATTTAATTCGGTAGTTCAATATTAATATTCATCAGAGACAAATCCGCACATGGGCCACTTAGCTTGGGCAGATGCATTTGTTGTAACAGCAGATTCGGTTAGCATGATTAGTGAGGTTTGCAGTACTGGGTATGATCGTCTGTCTCATGATTAACCCCCTGCTCTAATTTTTTCGGTGTCTTAGTCACAGTTGTTTATACCCTGGTTTGTTGATAATTCCTGTTTGTTATTATTGCAGGAAGCCTGTCTATGTCATTGGAACTGAGCGTTGTAAGTGGAAGTATTCAGCATTCCATAAATCCTTGAAGGAGAGAGGAGTCATCCGCCCATTTACAGGGACTGAGGATGTAAGTATTTTACTTTTTTCATTTCATGATGCTTCAAATACTTTGTGACCAAACTGATACACATCTTTCGATGTATTTTCCTCTCTTTGGATGCGTGATCTAATTAGCTCAATGTTGCAAAATTAAATGCTAACATGTAGAAGGGCATGAATCTTTTCTTAGCGTTCTTCGTTTGGCTCTGCTGAAGGACAATTCTCCTCAAGTTTGTCCTTTCTAAATCATCATGTTTGCAGGCGTCATGTGTCATTAAGTACTTGTAGCCAAGAAGGAAAATAAAACAAAAATCTAACTCGGGCCTAATTAAAGCCATAATCTGTTCTTAATACTTATATTTTCTCAAAAACAATTAGTTTCTCAACATCTTTAATTTCTAAAGAAGTATGAACTAAGTGAGATCGACAAAACTTAAACTAAAATTTGTATAAGTAAAGTACGACTAAGGGAAACTGATGATAGTAGTGTTTAATCTTAAAACACATTCTTCAAACATAAAGTTAGCAATAGCATGGGAAAAAGTGGAGTGTATATTTTGAGAGAACAAGGGTGAATGAAAGCAACGTGGGTGAAGGCGTGCATGCATAGGTGAGCAAATGTGGGCCTTTTTCTTGTGGCTTGTGGACGCTTGGGCAGTCTTGGGCTTATGAACCAATAAGCGCCGGTTGGATCTGATGTGTGTAGATGGGGCATGTCATCTGAGTTGAGGGTGCCACACATGAGCGTGGGTCTATGCCACCATGAGTCAAGCAGTTGGGCTAGCTCTTTGAAAGTTCTTCTTAAGCTCAACCTGGGCTTCCTCCCACTTAATTGGATTTCCATGGGTTTGATGGTGACCATGATCACATCAATCTGTGTTGCCATTTGAATCTTTCAAGTGAAAGGAACAATAGAGTGTCTAAAAAGTGGTTGGATAAGGAGCCTAGCGACGTTTGGGCCCTTATTAGGTTTATTGTTTCTTTTTGGTCTTCAAATGCAAAGGTTTTCTGTAAATTTTCTATAGGCACTATTTTGCTTGATTGGTCTCTTTCTATAAGAGGTTTTCTATTTATTTATTTCATTTTAGGAAAAAAAATACCTTTTTAGTCCCTGAGTTTTCAAGAATAGGTTTAAAAGGTCATTTCTAAATAAAACCTTCAAATTTAATATTAAAGAAATTGATAGAAGCTGACATGGTGAGATGACATAGAAAAAAAAAGATTTTTTTTTTAATCTTTCCCTTTCTTTCTCCCTTCTCTCTCTTATTCTATCTCCATTTTCATCCTATCTCTCTCTCTCTCGTCTCTCCTCCCTCTCATCCTCTTTCTCATCGTTGAGGAAGAAACTGAGTGAGGATTGAGTGAATTGTAATAGAGGCTTTGAATTTATTGAGAAAATTCTGTGTATGATGCTTTACCGGTGGGTCTTGTTGGAATGAATGCGGATTTGATGAGCCTATACAAAGAATTTGGGTATGGGCAAATCTATAATGTGTAAGGCCACAAGTTATTTACACCTACAAAAGAAGGGGTAAAAAGGGAAATGAACAACTAACCAAAGAAGCAAAGGAAGAGAATGTTGGAGAAAAAGGAGAGGGGGACCACAAGGCCGTTATAAAGGACAATGAAGGTACAGGAGAAGGGCAGAGAAGAATGTGGTGAAAGTTGTGTAGTGGGAGGAGAGAAATACCCGACTCTCTCTAAGGTGCTGGGGAGTCTTTTTGTTTTCTTCTTTTAGGTCAGCAGCCGAGGAGGTTAGGGAAGAGTGTTGGTGTATTTTGGGTAGTGTTTTTCCAGGGAGGTTGTTAAATGTTCGAGAGAGACTTGAAGGAGAAGTTTATGTATAAATAAAGAGCATTCTGATTGCCTTGTTCTTTATTGCTCTATTTTCTTTTGTTTGGCTGGTTGTTTCTCAGTGCAGGGTAGCAAGAAGCTTACAAGTGGTATCAGAGCCGCTTCATCCTGGGGCGAACGCATGCGATGGCTCAGAAATAAATAGAAGAAAGGATGGAAAAAAGCGAGAAGGAAGTCTCCGAAATGAAAAAAATGCTGCTGGGGCTTTGCAAAAATATAGAGAAACTGACAGAGGAAATGAGGGAGAGTAATGCTGCTCGGAAGGCCGAAGAATCGGGCGCATTTGATGGTCGACGGATGAAAATGAAGGGGAAGATTGATGAGGCCGATTCAACTCCCAGCAATGGAGGAGGATGAGGAGCCGACAAGAGCAAGTACAAAAGGTTAGAAATACCTGTTTTCGTAGGAGAAAACCCGGAACCGTGAGTGTACAAGGTCGAAACCTTACTTTGAAATCCACGAGTTATCCGATCAAGAGAAGGTGAAGGTAGCGGTCATTAGTTTTGGGCCGGATGAAGTCGATTGGTTCCGATGGAGCCACAACCGGAGACCCATCAGTACTTGGGAGGAGCTGAAAAGAAGAATGTTAGAGTATTACAGACCTACCGGAGAAGGGAGTTTAGACGCGAGGTCGTTGAGGATAAAGCAGGACGATTCATATTCAGACTACGTGAAGAAGTTCGTGACTTATTCGGCACCCCTACCCGATTTGGCCGAAGATGTTCTCAAGGATGCATTCATAAATGGGCTGGAACCAACGCTGAGGGCCGAGGTCATTAGTAGAAAACTGTATACACTGGAGGAATGTATGCACAAAGCCCAGTTGGTGAGCGATAGGAACATGGCCCTGAAGTTGGCCTTAGCCGATCTGGGGGTAGTTGGGCCTGGCCAAAAGGAAGCCCACATGAAGGAGAATCTGATGATTGAAAGGAAGAGCGGGAAGACCGTGGAAGCGGAGGCGACCAAACGAATCACATTACCTATGAAGAACAACTTCATAAAGAAGGATCCACCCATGAAACGCCTCTCCGATAGTGAGTTCCGAGAACGATTGGACAAGGGACTCTGCTTCAGGTGTAATGAGAAATATGCATCGGGTCACCGATGCAAGACTAAGGAAAACCGTGAGTTGATGCTATTTATCGCCAATGAAAGAGAAGAGGCAATCGGAGAAGAGGAGGAAGGGGAGAAGTTAAGAGGAGAAGAAGATCTTGAGACAGAGGAAACCGCGGAGATAACCTTGAGGTCAATGTGCGGCCTATCTGCCCAAGGTACAATGAAGTTGAAAGGGGAGGTGAAGGGGAAAGAAGTAGTAGTGTTGATTGACTGTGGAGCAACACACAATTTCGTGCACTCGTAGAATAGTGGAGGAGCTGGAATTACCAATGAATAAGAAGAATTTCTCAGTGGGGATCGACAATGGCGCGGCTATACGAGGGGAAGGGGTATGCAGAGCAGCCGAATTGAGGCTCCCCAACTTGAATGTGAAGGCGGATTTCTTGGCGACGATTTGGGACAGATGGACGTGGTGTTAGGAATGCTCTGGTTATGCACAACTGGTTTTATGGGAGTTCATTGGCCATCACTGACCATGTCTTTCTTGGTAGGGAATCGCACGTCATGTTGAAGGGTGATCCGTCCTTGACCAAAAGCAGAGGCTTCATTCAAGGTGCTAACAAAGTCATGGGAGGAGGAAGGCCAAGGATTTCTGGTAGAATTCCAGAACTATAAATTTGATAGTGAGGAAGGAAACGAGGAGAAGGGTGAGCCCAACGAGTCTGGGGAGCTTCCTGTAGCCTTGTTGGAGCAAAACGTGGACGTATTTGAAGAACTCACAACACTTCCTCCTAGGAGAGTTGTGGACCATCGCATTCTGATTAGTGCTGACCAGAAACCAATCAATGTGAGACCCTACAAGTAATGGTCACAACCAAAAAGAAGAGATTGAGAAATTGGTGGAAGAGATGCTCAAGGCTGGAATTATTCGACCCAGTCACAGCCCTTACTCCAGCCCTGTTGTGTTAGTAGAAGAAAGATGGTGGGTGGAGATTTTGTGTCGACTACCGGAAGCTAAATCAAGCAACTGTGGCCGACAAGTTTCCCTATACTTGTAATTGAAGAGTTGTTAGATGAACTACAGGATCGGCGGTCTATTCCAAGCTTGATTTGAGTCGGGTTACCATCAGATCAGATGAATGAAAAGGACATTGAGAATACAACCTTCAGGACTCATGAAGGACACTATGAATTCCTTGTGATGCCCGTTCGGACTCACAAATGCGCCAGCCACCTTCCAATCATTGATGAACCAGTTTTTTCGACCTTTCCTTCGTAAATTTGTACTAATTTCCTTTGATGATATATTGGTGTACAACCCGGACATATCAACACATGAGACACATTTGGGAGTTGTATTCATTGTCCTTCGAGATCATAGGCTGTATGCAAATCAGAAGTGCACATTCTGCCAAACCAGGGTCCAATACTTAGGCCACTGGATATCAGCTAAGGGGGTAGAAGTAGATGATGGAAAGGTCAAAGTGATGAGAGAATGGCTACAACCGCAAAATGTATCTGAATTAAGGGGATTCCTAGGACTTACCGGGTATTATAGGAGGTTTGTTCAGGGGTATAGAAGTATCGCAGCTCCACTTACCAAACTTCTTCAGAAGAATTAGTTCAAATGGGATGAAGAAGCCAATCAGGCTCTCGAAAAATTGAAGCAGGCCATGGTGACAGCCTCGGTCCTGGCTCTTCCTGACTTCTCCAAGGGCTTTGTGATAGAAACTGACGCATCAGGAATTGGGTTAGGTGCTGTATTATCACAAGACTCGAAGCCTATAGCCTACTTTAGTCAGAAATTATCAATGAGAGCTCAAGCCAAGTCCATTTATGAGAAGGAGTTGATGACAGTTGTCCTAGCAGTGCAGAAATGGAGACATTACCTGTTGGGGAGTAAGTTCACGGTGATTTCAAACGAAAAAGCATTAAAGTTCCTTATTGAGCAACGAGAAGTGCAACCTCAATTCCAACGTTGGCTAACAAAATTGCTTGGATACGACTTTGAGATCTTATATCAACCAGGCTTGCAAAACAAAGCAGCTGATACATTGTCTCGAGTCCCCAATTCAGCTTTAGGGCTGTCTCTTATACACATCTAGATGTGTATAAGAGACAGCTATATTGGCAAGGAATGAAGACTGATGTGAAGAAATATGTGGAAGGCTACGAGATATGTCAAAGGAACAAATATGAGACTCTAACACTGGCTGGTTTGCTACAACCCCTCCCCATTCCCTACCTGATTTTGGAGGATTGGAGCATGGATTTTGTGGAAGGTTTACCAAAGGCAGAGGGCTTTGATGCCATAATGGTAGTAGTGGATCGCTTGAGCAAGTATGCACATTTCATACCCCTCAAACACCCCTTCTCAACCAAGCAAGTAGCTGACATATTCGTCCAAGAAGTAGTACGACACCATGGAGTTCCCTTATCAATCTTGACCGACAGAGATAAGATGTTTTTGAGTAACCTCTGGAAGGAGATGTTCACGAACATGGGGACTAAATTGAAAAGGAGTACTTCGTTCCATCCTCAAATGGATGGGCAAACTGAGAGGGTGAATCGCTGCCTAGAGACCTACCTACGTTATTTTTGTAATGAACAACCAAGGAAATGGAACAAATGGATAGCGTGGGCTGAACTGTGGTACAACATGACCTTCCACGTCTCTATCAAGACAACCTCGTACCAAGCAGTCTACGGTAGACGTCCCCCACCCTTAGTCACGTATGGAGATAGGAGAACCTTCAACAATGCGGTGGAACAACAGTTACAAGAACGTGATCTGGCTCTCAATGCACTGAAGGAAAATTTGGCCATTGCTCAAAACCGGATGAAAAAACAGCAGATAAACATAGAAGAGAGAGAATTTTTGAAGTTGGAGAAGAAGTTTACTTGAAAGTACGACCATATAGACAGAAATCATTGGCAATGAGAAGGAGTGAGAAGCTGGCACCGAGGTTCTATGGTCCTTACAGAGTAGTTGAACGAGTGGGGGAAGTTGCATACAAATTAGCCTTGCCAACCGAAGCCAAAGTACACAATGTGTTCCATATATCGCAGCTGAAGAAGAAATTAGGACAAGGCCATCAAGTACAACATCCGCCCATTTTGACCGAGGAATTTGAGTTGCAAACGACCCCGGAGACTGTATTGGGAGTAAGATGGAATGGAGATCTAGCTACAAATGAATGGTTGGTCAAATGGAAGGGAATGCCAGACAATGAAGCCACTTGGGAAGATGTTCGGGCCATGAACCAACAATTTCCACGTTTCAACCTTGAGGACAAGGTTCTTTTCGAGAAGGGAGGTATTGTAAGGCCACAAGTTATTTACACCTACAAAAGAAGGGGTAAAAAGGGAAATGAACAACCAACCAAAGAAGCAAAGGAAGAGAATGTTGGAGAAAAAGGAGAGGGGGACCACAAGGCCGTTATAAAGGACAATGAAGGTACAGGAGAAGGGCAGAGAAGAATGTGGTGAAAGCTGTGTAGGCTTTTGGGAGGAGAGAAATACCCGACTCTCTCTAAGGTGCTGGGGAGTCTTTTTGTTTTCTTCTTTTAGGTCAGCAGCCGAGGAGGTTAGGGAAGAGTGTTGGTGTATTTTGGGTAGTGTTTTTCCAGGGAGGTTGTTAAATATTCGAGAGAGACTTGAAGGAGAAGTTTATATATAAATAAAGAGCATTCTGATTGCCTTGTTCTTTATTCCTCTATTTTCTTTCTGTTTTCTTTTGTTTGGCTGGTTGTTTCTCAGTGCAGGGTAGCAAGAAGCTTACATAATGTTCATAATCCGTTTGACTGGATGGAGTTGATTTCGAATCTGAATGGTAATGGGATGGGGGATGAAGATTTATGAGTATTTAAGATGAAGATGAGTTTGCAGTAGAATAAAACTTGTGGGTCCTTTCTTTTTATTCTTCTCTAGAACTTAGTATTAAGGATTAGATCTGATTATGTTTGCTTAATTTCTTCATGGTTGAGAATGAAGATAAAAACGTTTCATGTTTTTGCTTTATGTTTATGTTGAGCTTGGTGCTCTAATGGTTACCATCTATGGCCGACCTATTAAGCTTAAGATATGGGATGATGAACCATTTTGTGCAACTTGTAATACTATTGTGTATCCTTCTAAATGCATTATGTATGGTGTCTCATCTATAAATTTTCTGCAACTTGTTATACTGTTGCGGTAATGGAGATGGAGGAGACTACAACGAGAGAGAAGATGAAGAGGGAGGAGAGAGATTAAGAGAGAGGAGGGAGAAAGAGATTAAAAATAGATTTTTTTCCCATGTCATTTGGCCACAAGTGTATCAATTTTTTTATATTAAATTTAAATGTTTTATTTAGAGGGACCTTTTAAATCTATTATTGAAAACTCGGGGACTAAAATGGCCAATTTGAAACATTAGGTACTAAATGCACCTATTCTTCAAAACTTAGGGGCCAAAAAGGTATTTTTCCCTTAAAAAAATATATTTGTTTCCAAGTCATCTTGCCACATCACGTATTTAATCAATTTTATGTTTAAATTTAGTAGACTTATTAGTTGAGTGACCTTTAGTTTTAAACCTATTCTTAAAAACTCAGACATTAGGGACCAAATGCATCTATTCTTGAAAATTCAGGGACGAAAAAGGGTATTTTCCCCTTCATTTTATTTATTTTTAATGCCTTTGTAATCTTTCATTTTTTTCTCATGAAAGTTCTATAAAATTAAAGCTTTTAAAAAAATCTGTGTTACCCTGTCAAGTTTACCTAAGTCCTGCCATTTGGGGGACAATGATAGATAGGCATAGAATAAAATAAAATGAAGAAACCTCATAAAAATACCCCCTTGATTTCAGAACTAATAAATTGTAAAATGTCTCTACGTTAAATCCAATATCCAGTATTCAGGAAAATTTGTCATCAGATTCTATCTGCATTTACAGATTTTAATGTTTATTCTCTTGTTCTTTTATTCCCCTTCAGAACATTTCTAATCTTCAGTATGAAATCAATCTTTTTTCTTGGAGGCATGGACCATTTAGTTCCAGATTTGATATCTTTTTGAGATTCTTTTCAGTGTATTGTTAGAAAGCTATGGATATTATACTATTGAACTCTTTTTATTCCAAATCTTGTATATTTGTCTTTTTCAATATAATCGATAGCATTCGGCCATTCTTTTCTGCTTGATGGAAAAGTTGAAAAGAATATCTTAATGTGGTGGCTTTTCTGTTTGATGCTAAATAAAAGTTCACCAGTAAAGACAATACTTCACGTTCATTCTGATGTTGACCTATGGATGTTTGATCTTCGTTTCATATACACCATTTGACATTTCAGATCTCAGAAAGCTGGAGTTATCCTCCACTGAACGATACGGCAGAAGCAGCTACTCGG ATGGTCATCACGCCTCATCATGATTATTATCCTTTAACTCCTCTAGCACAAGAGCAAGTTCCTCGATTTATAAGGAAGTGGATAACTCCACGGGAACCACCGGATCAACATGTGGTCTTGACTGTTGGAGCCCTGCATCAGATTGATTTTGCTGCATTACGTAGTGCAGCTAGTGCATGGCATGATGTGTTTGCTCCTCTTCCAAAACCCTTATTGGTGGTCAACATAGGAGGGCCTACAAGTTGCTGTCGATATGGTGTGGATCTTGCAAAGCAGCTGGTAACCAGTTTGCTGAGTGTTCTTGCAAGCTGTGGAAGTGTCAGAATATCCTTCTCAGACAGAACTCCTGAGAAGGTAGTGTATAATGTTATTGTGAAAGAACTTGGGGATAATCCAAAAGTTTACATCTGGGATAGACAAGAGACAAATCCGCACATGGGCCACTTAGCTTGGGCAGATGCATTTGTTGTAACAGCAGATTCGGTTAGCATGATTAGTGAGGTTTGCAGTACTGGGAAGCCTGTCTATGTCATTGGAACTGAGCGTTGTAAGTGGAAGTATTCAGCATTCCATAAATCCTTGAAGGAGAGAGGAGTCATCCGCCCATTTACAGGGACTGAGGATATCTCAGAAAGCTGGAGTTATCCTCCACTGAACGATACGGCAGAAGCAGCTACTCGG ATGGTCATCACGCCTCATCATGATTATTATCCTTTAACTCCTCTAGCACAAGAGCAAGTTCCTCGATTTATAAGGAAGTGGATAACTCCACGGGAACCACCGGATCAACATGTGGTCTTGACTGTTGGAGCCCTGCATCAGATTGATTTTGCTGCATTACGTAGTGCAGCTAGTGCATGGCATGATGTGTTTGCTCCTCTTCCAAAACCCTTATTGGTGGTCAACATAGGAGGGCCTACAAGTTGCTGTCGATATGGTGTGGATCTTGCAAAGCAGCTGGTAACCAGTTTGCTGAGTGTTCTTGCAAGCTGTGGAAGTGTCAGAATATCCTTCTCAGACAGAACTCCTGAGAAGGTAGTGTATAATGTTATTGTGAAAGAACTTGGGGATAATCCAAAAGTTTACATCTGGGATAGACAAGAGACAAATCCGCACATGGGCCACTTAGCTTGGGCAGATGCATTTGTTGTAACAGCAGATTCGGTTAGCATGATTAGTGAGGTTTGCAGTACTGGGAAGCCTGTCTATGTCATTGGAACTGAGCGTTGTAAGTGGAAGTATTCAGCATTCCATAAATCCTTGAAGGAGAGAGGAGTCATCCGCCCATTTACAGGGACTGAGGATATCTCAGAAAGCTGGAGTTATCCTCCACTGAACGATACGGCAGAAGCAGCTACTCGG MVITPHHDYYPLTPLAQEQVPRFIRKWITPREPPDQHVVLTVGALHQIDFAALRSAASAWHDVFAPLPKPLLVVNIGGPTSCCRYGVDLAKQLVTSLLSVLASCGSVRISFSDRTPEKVVYNVIVKELGDNPKVYIWDRQETNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGTERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR
BLAST of Bhi08G000030 vs. Swiss-Prot
Match: sp|Q93YN4|ELM1_ARATH (Mitochondrial fission protein ELM1 OS=Arabidopsis thaliana OX=3702 GN=ELM1 PE=1 SV=1) HSP 1 Score: 369.4 bits (947), Expect = 2.9e-101 Identity = 176/227 (77.53%), Postives = 193/227 (85.02%), Query Frame = 0
BLAST of Bhi08G000030 vs. Swiss-Prot
Match: sp|Q9ZE28|Y120_RICPR (Uncharacterized protein RP120 OS=Rickettsia prowazekii (strain Madrid E) OX=272947 GN=RP120 PE=4 SV=1) HSP 1 Score: 77.4 bits (189), Expect = 2.3e-13 Identity = 64/188 (34.04%), Postives = 94/188 (50.00%), Query Frame = 0
BLAST of Bhi08G000030 vs. TAIR10
Match: AT5G22350.1 (Protein of unknown function (DUF1022)) HSP 1 Score: 369.4 bits (947), Expect = 1.6e-102 Identity = 176/227 (77.53%), Postives = 193/227 (85.02%), Query Frame = 0
BLAST of Bhi08G000030 vs. TAIR10
Match: AT5G06180.1 (Protein of unknown function (DUF1022)) HSP 1 Score: 305.8 bits (782), Expect = 2.2e-83 Identity = 143/227 (63.00%), Postives = 171/227 (75.33%), Query Frame = 0
BLAST of Bhi08G000030 vs. TrEMBL
Match: tr|A0A1S3CFB0|A0A1S3CFB0_CUCME (mitochondrial fission protein ELM1 OS=Cucumis melo OX=3656 GN=LOC103499828 PE=4 SV=1) HSP 1 Score: 453.8 bits (1166), Expect = 2.3e-124 Identity = 218/227 (96.04%), Postives = 220/227 (96.92%), Query Frame = 0
BLAST of Bhi08G000030 vs. TrEMBL
Match: tr|A0A0A0LYB1|A0A0A0LYB1_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G166800 PE=4 SV=1) HSP 1 Score: 453.8 bits (1166), Expect = 2.3e-124 Identity = 218/227 (96.04%), Postives = 221/227 (97.36%), Query Frame = 0
BLAST of Bhi08G000030 vs. TrEMBL
Match: tr|B9SCW9|B9SCW9_RICCO (Uncharacterized protein OS=Ricinus communis OX=3988 GN=RCOM_1282020 PE=4 SV=1) HSP 1 Score: 419.1 bits (1076), Expect = 6.4e-114 Identity = 195/227 (85.90%), Postives = 209/227 (92.07%), Query Frame = 0
BLAST of Bhi08G000030 vs. TrEMBL
Match: tr|A0A2P4MWK2|A0A2P4MWK2_QUESU (Mitochondrial fission protein elm1 OS=Quercus suber OX=58331 GN=CFP56_63626 PE=4 SV=1) HSP 1 Score: 404.4 bits (1038), Expect = 1.6e-109 Identity = 191/227 (84.14%), Postives = 204/227 (89.87%), Query Frame = 0
BLAST of Bhi08G000030 vs. TrEMBL
Match: tr|A0A2R6PEQ7|A0A2R6PEQ7_ACTCH (Mitochondrial fission protein OS=Actinidia chinensis var. chinensis OX=1590841 GN=CEY00_Acc30043 PE=4 SV=1) HSP 1 Score: 404.1 bits (1037), Expect = 2.1e-109 Identity = 187/227 (82.38%), Postives = 206/227 (90.75%), Query Frame = 0
BLAST of Bhi08G000030 vs. NCBI nr
Match: XP_004139495.1 (PREDICTED: mitochondrial fission protein ELM1 [Cucumis sativus]) HSP 1 Score: 453.8 bits (1166), Expect = 3.6e-124 Identity = 218/227 (96.04%), Postives = 221/227 (97.36%), Query Frame = 0
BLAST of Bhi08G000030 vs. NCBI nr
Match: XP_008461166.1 (PREDICTED: mitochondrial fission protein ELM1 [Cucumis melo]) HSP 1 Score: 453.8 bits (1166), Expect = 3.6e-124 Identity = 218/227 (96.04%), Postives = 220/227 (96.92%), Query Frame = 0
BLAST of Bhi08G000030 vs. NCBI nr
Match: KGN64951.1 (hypothetical protein Csa_1G166800 [Cucumis sativus]) HSP 1 Score: 453.8 bits (1166), Expect = 3.6e-124 Identity = 218/227 (96.04%), Postives = 221/227 (97.36%), Query Frame = 0
BLAST of Bhi08G000030 vs. NCBI nr
Match: XP_023520710.1 (mitochondrial fission protein ELM1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 451.8 bits (1161), Expect = 1.3e-123 Identity = 216/227 (95.15%), Postives = 219/227 (96.48%), Query Frame = 0
BLAST of Bhi08G000030 vs. NCBI nr
Match: XP_022927352.1 (mitochondrial fission protein ELM1 [Cucurbita moschata]) HSP 1 Score: 450.7 bits (1158), Expect = 3.0e-123 Identity = 215/227 (94.71%), Postives = 219/227 (96.48%), 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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