Bhi04G000716 (gene) Wax gourd (B227) v1

Overview
NameBhi04G000716
Typegene
OrganismBenincasa hispida (Wax gourd (B227) v1)
DescriptionReceptor-like protein kinase HSL1
Locationchr4: 21995344 .. 22001774 (+)
RNA-Seq ExpressionBhi04G000716
SyntenyBhi04G000716
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
CCCGAATACAATTACCAGCTTTTGGACTTTGGCTGTGCCGTGTAAGAACAAAGCTCCCCAACCTTTGACTGTCTTAAAGATTATATGTTAACTAAATGGGACCAAAGCATCTACTTTCATATACAGTTCTACATCTTTCCCATCGTCTTTACTTTTCTGGCAAAAACCAATCCTACCAGAATAACCATTAGAAACAAGCATCCAAAAATGTCCAGAATTTCACTGCCATTTCTCACAACCCTGCTCCCTGTTTACCTCTTCTACTTCATCTCCATACAATTCCATGTAACTTCACAAACTGTCGATGTAGACCAGACCATCTTGCTTGATCTCAGGGCACAATGGGGGAATCCACCCTCTCTCTGGTTATGGAACGCCTCGTCCTCACCCTGTGGTTGGCCTGGGATCGTCTGTAGAGATGGTAGGGTCATTGGAATCTCTCTGAGGAACAAGAATATCACTGGGAAAGTCCCAGTTGTCATATGTAACCTGCAAAATCTCAGCGTGGTTGATCTTTCATGGAACTATATCATTGGTGAGTTCCCAGAAGTTCTATACAACTGTTCCAAGCTCAAATATCTCGATCTTTCAGGAAACTATTTTGGGGGTCCAATACCCCAAGACATCGAACGACTTCGAACTCTGCAATACATGGACCTTAGCGCCAACAACTTCTCAGGCAATTTTCCAGCAGCGCTAGGGCGATTGTCAGATTTGAGAACTTTGAACATTTATAGAACTCAATGCAATGGTACATTGCCAGCTGAAATTGGTAACTTGTCCAATCTTGAAATTTTGAGCATGGCGTACAACACTCTGCTTGTCCCATCAACAATACCACAAGAATTCAAGAAACTTAAGAAGTTGAAGTATATGTGGATGACAAAATCCAATTTGATAGGTGAAATCCCAGAAAGCTTTTCGGATCTTTTGAGTCTTGAACACTTGGATTTATCCAGTAACAACTTGATGGGCTCTATTCCTGCTGGGTTGTTCTCTTTGCAGAATTTAAGCAACTTATTTCTCTACCAAAATCAATTGTCCGGGGAGATCCCCAAGTCAATCCGAGCATCAAATTTACTCAATGTTGACCTTTCTGCAAACAATTTACGCGGCACAATCCCTGAGGATTTTGGGAAGTTAAAAAAGTTGCAGGTCTTGAACTTGTTTGCAAATCACTTATCTGGTGAGATTCCAAGAAGTCTAGGCCTAATACCTACACTGAAAGGTTTTCGTGTATTCAACAACAGCTTAACAGGGGGCTTGCCGCAAGAGTTGGGTCTGCACTCAAATTTGGAAGCATTGGAGGTTTCAATGAATAAACTAAGTGGTTCCTTGCCTGAACATCTCTGTAAAAATAGTGTCTTACAGGGAGTAGTTGCTTTTTCCAATAATCTTAGTGGTGAATTGCCAAAAGGGCTTGGAAATTGCAGGACCCTACGTACAGTCCAGCTTTCAAACAACAACTTTTCTGGCGAAATTCCTCCAGGTCTTTGGACTACTTTCAATCTATCAAGCATAATGTTAGATGGAAATTCATTCTCAGGCGAGTTACCAAATAGCTTATCTTGGAATCTCTCAAGACTCACGATAAATAACAACAAATTTTGGGGTCAAATTCCTCCAAATGTGTCTGCTTGGCAAAACTTGATCGTGTTTGAGGCAAGCAACAATCTGCTTTCTGGTATGTTCCCTGATGGATTGACAAGTCTTCCTCATCTTACCACACTCGTATTGAGTGGCAATCGACTCTCGGGCCAACTTCCATCGACAATTGGTTCGTGGAAATCATTGAATACTCTAAATCTCTCAAGAAATGAACTTTCAGGCCATATTCCTGCAGCACTGGGTTCTCTTCCTAACCTCCTTTACCTGGATTTATCAGGTAATAACTTCACAGGTGAAATACCACCTGAAATTGGCCACTTAAGACTGGCTTCCCTCAACTTGTCTTCCAATCAGCTTTCAGGGAAAATCCCAGATGTGTACGAGAATATAGCATATGGAAGAAGTTTCTTGAGCAACCCCAAACTATGTACCACCAGCGGTATACTTGACCTTCCGAGCTGTTACTCTAGACAAAGAGATTCAAAAGATCAGTCCTCTAAGTATCTTCCCCTCATTCTAGCTCTCACTGTTACCTTGCTCATAGTTGCTTTACTTTGGATTTCCCTCCTATATAAAAGTTATTGCAAGAAGGATGAAAGATGCCACCCTGACACATGGAAGCTAACTTCATTCCAGAGATTGAACTTCACAGAAACGAATATCTTGTCAAACTTGACAGAAACTAATCTGATCGGAAGTGGTGGATCTGGCAAAGTGTACTGCATAGACATCAACCATGCTGGTAATTATGTTGCTGTCAAAAGGATTTGGAACAACAATAAGTTAGATCACAAACTTGAGAAAGAATTTCAAGCAGAAGTTCAAATACTAGGCTCAATTCGGCATTCAAATATAGTGAAGTTGCTATGCTGTGTCTGGAATGAGAATTCAAAGCTCTTAGTCTATGAATACATGGAAAATCAGAGCCTAGATAGGTGGCTTCATAAAAAGAAGAAAAGGTTAACAGTTGCTCCAATGGATTTTGTTGATGTCTTAGATTGGCCGAGGAGGTTGCAGATTGCTATTGGAGCTGCACAAGGCCTCAGTTATATGCACCACGATTGCTCTCCACCAATCATTCATCGAGATGTGAAGTCGAGTAACATCTTATTAGACTGCAAGTTCCAGGCAAGGATAGCAGATTTTGGGCTGGCTAAGATGCTGGCCAGGCAGGGAGAGCCCCACACTATGTCTGCAATAGCAGGATCTTTCGGCTACATAGCACCAGGTAAGTTCATACCACATCCTTGGAAAAGACAATGTCTTTAAACATCACAAATTATATAATAGCTGCAGGTAAGTTCATCCAAGATTACTGTGGAAAGAATATGGTCCTTGATCATCACAAATCATATAAATCCACATCACTTACAGTTTTCATTTGTATAGGCCTGCCTCCCAAACTATTTCTTTTAGTAAATCTATGTTAAACAAAAATGCTCATGTTTAAAATAGTTTGATCTTTCTTTTCTTAGCCAAATAGAGGGGGTTCCATCTCCATAACTAGATATAATAAACATGTTATGTTCATAGAGAGTTTCTAAATGTAGTTTTGACAAATTTCCATTATCTCTATTGCAGAGTATGCCTACACAACAAAAGTCAATGAGAAGATTGATGTCTATAGCTTTGGGGTTGTACTCCTGGAACTTACAACAGGAAGGGAACCTAACTGTGGAGATGAGCACACAAGCCTAGCAGAATGGGCATGGCAGCAATATAGTGAGGGAAAGCTTATTATTGATGCTCTTGATGAGGAAATAAAAAACCCATGCAATTTTGAAGAGATGACTACTCTATTCAAACTTGGTCTAATTTGTACGAGCACGTTACCTGAAATACGACCTTCGATGAAGGAAGTTCTGCATATTCTACGCCAATGCAGCCCTTCAGAAGCTTGTGATAGGAGAAAGCATGCCATTGAATTTGATGCTGTTCCCCTCCTCGGCACCCCTCAATGACATCAACAATATCCTTACTGTTTATGGAAAATTAGTGCCACATTTTGATGGCTGTTTGTATACTCGAGCAGAGGTAGGGGATTGATAAAATTGCTGCAAAGACCACCCCCCCCCCCCAAAAAAAAAAACTTTTATCGATGTAGTGGGAAAAGGAATTGGAAATGTTCATTTTAATGAAGGAAAGAATCTTGCAGTACTCAATTTATCAATTTAATTTTCAAGTGTAATGTCTAAATATTGAACTTAAATGCAATTTGTATCATATAAAGGAGAGAAGAAAAATCCTCATAAACTACAAAGCGTTTCATAAAGAACACTGCACAGCACATGTGAGATGTACAGACAACAGTAAATTGACTGCCCGACACTCTCTCGTGATGTCTAACTACAAGTATAAGCAACCCTCCCCCTTCTCTCTCCCTTTCCTCCCCCACCCCAACCCCCAGGAAGAAAGAAAAAAAGAGAAATAAAATGGAAGAAAACATGAGAACTTTCTCCGTACAATGTGCATGTCAAAAACTCAATATAGTTAAACTGTAAGATTGAAGGTCCAGGAAGTGTAGACTAGATTCGCCCCAGAAACGACCACATGAGCAGTTCCTTCATAAAGAATCTCCCATCTTCTAAAAATGGGAAGCTGTGACAGTTCCAACACCAGGCATCAAACATGAAATGCACCAGATTCATCAAAGCATCGCCTGCACTTATCTAAGGTTTTTTCCCCCAACAGCAGTTCTCCGGATTCCCATCTTTAAGGACAATAAACAGCATATGGGAGCTGAACCATATGCCCCCGCCACCAAGCCACGTGACTCCTCCCCAACTCCGCAGGTTCATACATGATGAACACCATCTATATCAATAATCAAAGCCAGTAATTGAGGTGATACTTACCAAATGCTGGTTAGCTCCCGACCTCCTAACCCATCCAGCATCCAGTACTTTCCCTCCACACAAGCCTTTAGGTTCAGATTCAGTCTGTTCAAAGGATGCTAAAGAGCCAAACAAGCAACATAAGGAGAAGATGATTAAAATAAACATAATAATTAGGCAACTTAAATACTAATGAATGGAAAAAAGCACATGCCCTTTAGCCAGGTTCAGAAAAATAATCCTTTATCTAATAGAAATTGCATCGATTTGAAATACACATGCCTTCTAGCCAGATCCCCCAAGACTCTTTTTTACCAGAATTTTGCTTAGATTCTGATTTAACTCCATTCTGTGACTGCCTGATCGCTGATCTTCGGCTATAGAATAAAGTTCAAAAAGAAAATACTAATTAGGCAGAGATTTTCATGAGGAGAAAAAAGGTAATGCAGGAAAACTTGAGCAGAAATGGGTTCTTTAGCACAGTTACTGGTAACATAACACGTATAGTGGTGCAGGACCTGCCACCACATGTGCACCAGTCAGAAGATTGCCTGTGCGAAAATTTGGCATTACAAAATGATAATTAAAATGCAACAGGAAAATAGACCAATAATTATGGATCAAATGAAAAAGGCATGGCGAAGAGATATAGAATGAAACAACAAGAGTTGGTTTCTGGCAAATATATATATTTAAGGTATCAAACCGGCAATTTGTTTATATCTTCTATTCTGCTGATTGATATCAATTAAAATCTCAACCTCTTACCCTAGATTCCTTGGTGGAAGCACCATAATTAGTTATAAAATAGTTTGTGTAGATATATAAAATGAAAGTAATTTAACAATTGGATTCAAACCTCCAACTCTTTAGATTGACCATTTTGAGACACTCTTCCAGTTACAACAGAGCCATTTTCCAATGCCAAGTCTGGATCCGTCCTGCTATCATTGCCCTGCAAATACCCAACTCACTATCCCCATAATGCCACTTCTCTTACTGCCATTGGCTATGATTTGTAATCCAACGTAGTCAAACTCAGTCACTCACCTTGCAACTAAGGTTATGTGTATTGCAATTTGGTTGAAAGTCAACTTGGGTACTCTCACCCCCTGTTGTTTGGCCAAATGTATTTGCTGACTTGGAGTCAATCCTCCCAACATCCTTTGTCCAATGGAGAAAAGTCTTGATGGCTACTGTCTGTGCATTTCCACTCATGCTTGATGCTAAGCCCTTGACCTTTTCCCCGTTCATTCCAATTTGTAAAGCTTCCTCAGATTTTGAAAGACTGCCTTTATATAGATCAGACACCTCCTTCCTCGAGGAAGATCCTTCCATCTCTTTAGCTAGTAGCTCTACCTGATCCCCCGTAGAACTAGTCTCCTTGGTCAAAGTTGGAATATCCGTGCCATTTCTAACAGTATCCATTCTGCAATAAGGCTGTTCAAGAGATGACCAAACCTCAGAATAACAATCTGCATTTATAGATTTCAAACTCAGCAATTTTCCATCTGATCCACCACCATTAGTTTCATGCATGGGAGATTCTTCTGCTGGTTGACTGATAAGGGCTTGTTTCTTTTCTGTCTCTTCTTCTTCATGATCACTTTTCCTTTTTTTCCCCTTTTCAGTGATCCCAGATTGATCTTGGTGCATATCAGCACAAACTGCATTAGCTTGCTGTCCTTCATGCCTGGATGGCTTTGCTCGCTTGTGTCCATCAGGAAAAACAAAGGTGGGCAGTTGCTTCCTCCGTACATGAGAAACATAGATATCCATCCCTGGCTTCCAAAAGGCATACATGTTTATCTCTTGCCTGAACTCATCAACTGTTCCACGTATGTCAAACTGCTGGCCTCCTTGACCTCTTAATCCCTCTTTTCTCTGCAAGCCCATGAAAAAAGCACAGTGAGAACATGGCTTGGACATGTCAGAATACTCAATCGGATAGGGATGGCACTGCAGCATCCCCCTGGTGTCCCTCTCTAT

mRNA sequence

CCCGAATACAATTACCAGCTTTTGGACTTTGGCTGTGCCGTGTAAGAACAAAGCTCCCCAACCTTTGACTGTCTTAAAGATTATATGTTAACTAAATGGGACCAAAGCATCTACTTTCATATACAGTTCTACATCTTTCCCATCGTCTTTACTTTTCTGGCAAAAACCAATCCTACCAGAATAACCATTAGAAACAAGCATCCAAAAATGTCCAGAATTTCACTGCCATTTCTCACAACCCTGCTCCCTGTTTACCTCTTCTACTTCATCTCCATACAATTCCATGTAACTTCACAAACTGTCGATGTAGACCAGACCATCTTGCTTGATCTCAGGGCACAATGGGGGAATCCACCCTCTCTCTGGTTATGGAACGCCTCGTCCTCACCCTGTGGTTGGCCTGGGATCGTCTGTAGAGATGGTAGGGTCATTGGAATCTCTCTGAGGAACAAGAATATCACTGGGAAAGTCCCAGTTGTCATATGTAACCTGCAAAATCTCAGCGTGGTTGATCTTTCATGGAACTATATCATTGGTGAGTTCCCAGAAGTTCTATACAACTGTTCCAAGCTCAAATATCTCGATCTTTCAGGAAACTATTTTGGGGGTCCAATACCCCAAGACATCGAACGACTTCGAACTCTGCAATACATGGACCTTAGCGCCAACAACTTCTCAGGCAATTTTCCAGCAGCGCTAGGGCGATTGTCAGATTTGAGAACTTTGAACATTTATAGAACTCAATGCAATGGTACATTGCCAGCTGAAATTGGTAACTTGTCCAATCTTGAAATTTTGAGCATGGCGTACAACACTCTGCTTGTCCCATCAACAATACCACAAGAATTCAAGAAACTTAAGAAGTTGAAGTATATGTGGATGACAAAATCCAATTTGATAGGTGAAATCCCAGAAAGCTTTTCGGATCTTTTGAGTCTTGAACACTTGGATTTATCCAGTAACAACTTGATGGGCTCTATTCCTGCTGGGTTGTTCTCTTTGCAGAATTTAAGCAACTTATTTCTCTACCAAAATCAATTGTCCGGGGAGATCCCCAAGTCAATCCGAGCATCAAATTTACTCAATGTTGACCTTTCTGCAAACAATTTACGCGGCACAATCCCTGAGGATTTTGGGAAGTTAAAAAAGTTGCAGGTCTTGAACTTGTTTGCAAATCACTTATCTGGTGAGATTCCAAGAAGTCTAGGCCTAATACCTACACTGAAAGGTTTTCGTGTATTCAACAACAGCTTAACAGGGGGCTTGCCGCAAGAGTTGGGTCTGCACTCAAATTTGGAAGCATTGGAGGTTTCAATGAATAAACTAAGTGGTTCCTTGCCTGAACATCTCTGTAAAAATAGTGTCTTACAGGGAGTAGTTGCTTTTTCCAATAATCTTAGTGGTGAATTGCCAAAAGGGCTTGGAAATTGCAGGACCCTACGTACAGTCCAGCTTTCAAACAACAACTTTTCTGGCGAAATTCCTCCAGGTCTTTGGACTACTTTCAATCTATCAAGCATAATGTTAGATGGAAATTCATTCTCAGGCGAGTTACCAAATAGCTTATCTTGGAATCTCTCAAGACTCACGATAAATAACAACAAATTTTGGGGTCAAATTCCTCCAAATGTGTCTGCTTGGCAAAACTTGATCGTGTTTGAGGCAAGCAACAATCTGCTTTCTGGTATGTTCCCTGATGGATTGACAAGTCTTCCTCATCTTACCACACTCGTATTGAGTGGCAATCGACTCTCGGGCCAACTTCCATCGACAATTGGTTCGTGGAAATCATTGAATACTCTAAATCTCTCAAGAAATGAACTTTCAGGCCATATTCCTGCAGCACTGGGTTCTCTTCCTAACCTCCTTTACCTGGATTTATCAGGTAATAACTTCACAGGTGAAATACCACCTGAAATTGGCCACTTAAGACTGGCTTCCCTCAACTTGTCTTCCAATCAGCTTTCAGGGAAAATCCCAGATGTGTACGAGAATATAGCATATGGAAGAAGTTTCTTGAGCAACCCCAAACTATGTACCACCAGCGGTATACTTGACCTTCCGAGCTGTTACTCTAGACAAAGAGATTCAAAAGATCAGTCCTCTAAGTATCTTCCCCTCATTCTAGCTCTCACTGTTACCTTGCTCATAGTTGCTTTACTTTGGATTTCCCTCCTATATAAAAGTTATTGCAAGAAGGATGAAAGATGCCACCCTGACACATGGAAGCTAACTTCATTCCAGAGATTGAACTTCACAGAAACGAATATCTTGTCAAACTTGACAGAAACTAATCTGATCGGAAGTGGTGGATCTGGCAAAGTGTACTGCATAGACATCAACCATGCTGGTAATTATGTTGCTGTCAAAAGGATTTGGAACAACAATAAGTTAGATCACAAACTTGAGAAAGAATTTCAAGCAGAAGTTCAAATACTAGGCTCAATTCGGCATTCAAATATAGTGAAGTTGCTATGCTGTGTCTGGAATGAGAATTCAAAGCTCTTAGTCTATGAATACATGGAAAATCAGAGCCTAGATAGGTGGCTTCATAAAAAGAAGAAAAGGTTAACAGTTGCTCCAATGGATTTTGTTGATGTCTTAGATTGGCCGAGGAGGTTGCAGATTGCTATTGGAGCTGCACAAGGCCTCAGTTATATGCACCACGATTGCTCTCCACCAATCATTCATCGAGATGTGAAGTCGAGTAACATCTTATTAGACTGCAAGTTCCAGGCAAGGATAGCAGATTTTGGGCTGGCTAAGATGCTGGCCAGGCAGGGAGAGCCCCACACTATGTCTGCAATAGCAGGATCTTTCGGCTACATAGCACCAGAGTATGCCTACACAACAAAAGTCAATGAGAAGATTGATGTCTATAGCTTTGGGGTTGTACTCCTGGAACTTACAACAGGAAGGGAACCTAACTGTGGAGATGAGCACACAAGCCTAGCAGAATGGGCATGGCAGCAATATAGTGAGGGAAAGCTTATTATTGATGCTCTTGATGAGGAAATAAAAAACCCATGCAATTTTGAAGAGATGACTACTCTATTCAAACTTGGTCTAATTTGTACGAGCACGTTACCTGAAATACGACCTTCGATGAAGGAAGTTCTGCATATTCTACGCCAATGCAGCCCTTCAGAAGCTTGTGATAGGAGAAAGCATGCCATTGAATTTGATGCTGTTCCCCTCCTCGGCACCCCTCAATGACATCAACAATATCCTTACTGTTTATGGAAAATTAGTGCCACATTTTGATGGCTGTTTGTATACTCGAGCAGAGGTAGGGGATTGATAAAATTGCTGCAAAGACCACCCCCCCCCCCCAAAAAAAAAAACTTTTATCGATGTAGTGGGAAAAGGAATTGGAAATGTTCATTTTAATGAAGGAAAGAATCTTGCAGTACTCAATTTATCAATTTAATTTTCAAGTGTAATGTCTAAATATTGAACTTAAATGCAATTTGTATCATATAAAGGAGAGAAGAAAAATCCTCATAAACTACAAAGCGTTTCATAAAGAACACTGCACAGCACATGTGAGATGTACAGACAACAGTAAATTGACTGCCCGACACTCTCTCGTGATGTCTAACTACAAGTATAAGCAACCCTCCCCCTTCTCTCTCCCTTTCCTCCCCCACCCCAACCCCCAGGAAGAAAGAAAAAAAGAGAAATAAAATGGAAGAAAACATGAGAACTTTCTCCGTACAATGTGCATGTCAAAAACTCAATATAGTTAAACTGTAAGATTGAAGGTCCAGGAAGTGTAGACTAGATTCGCCCCAGAAACGACCACATGAGCAGTTCCTTCATAAAGAATCTCCCATCTTCTAAAAATGGGAAGCTGTGACAGTTCCAACACCAGGCATCAAACATGAAATGCACCAGATTCATCAAAGCATCGCCTGCACTTATCTAAGGTTTTTTCCCCCAACAGCAGTTCTCCGGATTCCCATCTTTAAGGACAATAAACAGCATATGGGAGCTGAACCATATGCCCCCGCCACCAAGCCACGTGACTCCTCCCCAACTCCGCAGGTTCATACATGATGAACACCATCTATATCAATAATCAAAGCCAGTAATTGAGGTGATACTTACCAAATGCTGGTTAGCTCCCGACCTCCTAACCCATCCAGCATCCAGTACTTTCCCTCCACACAAGCCTTTAGGTTCAGATTCAGTCTGTTCAAAGGATGCTAAAGAGCCAAACAAGCAACATAAGGAGAAGATGATTAAAATAAACATAATAATTAGGCAACTTAAATACTAATGAATGGAAAAAAGCACATGCCCTTTAGCCAGGTTCAGAAAAATAATCCTTTATCTAATAGAAATTGCATCGATTTGAAATACACATGCCTTCTAGCCAGATCCCCCAAGACTCTTTTTTACCAGAATTTTGCTTAGATTCTGATTTAACTCCATTCTGTGACTGCCTGATCGCTGATCTTCGGCTATAGAATAAAGTTCAAAAAGAAAATACTAATTAGGCAGAGATTTTCATGAGGAGAAAAAAGGTAATGCAGGAAAACTTGAGCAGAAATGGGTTCTTTAGCACAGTTACTGGTAACATAACACGTATAGTGGTGCAGGACCTGCCACCACATGTGCACCAGTCAGAAGATTGCCTGTGCGAAAATTTGGCATTACAAAATGATAATTAAAATGCAACAGGAAAATAGACCAATAATTATGGATCAAATGAAAAAGGCATGGCGAAGAGATATAGAATGAAACAACAAGAGTTGGTTTCTGGCAAATATATATATTTAAGGTATCAAACCGGCAATTTGTTTATATCTTCTATTCTGCTGATTGATATCAATTAAAATCTCAACCTCTTACCCTAGATTCCTTGGTGGAAGCACCATAATTAGTTATAAAATAGTTTGTGTAGATATATAAAATGAAAGTAATTTAACAATTGGATTCAAACCTCCAACTCTTTAGATTGACCATTTTGAGACACTCTTCCAGTTACAACAGAGCCATTTTCCAATGCCAAGTCTGGATCCGTCCTGCTATCATTGCCCTGCAAATACCCAACTCACTATCCCCATAATGCCACTTCTCTTACTGCCATTGGCTATGATTTGTAATCCAACGTAGTCAAACTCAGTCACTCACCTTGCAACTAAGGTTATGTGTATTGCAATTTGGTTGAAAGTCAACTTGGGTACTCTCACCCCCTGTTGTTTGGCCAAATGTATTTGCTGACTTGGAGTCAATCCTCCCAACATCCTTTGTCCAATGGAGAAAAGTCTTGATGGCTACTGTCTGTGCATTTCCACTCATGCTTGATGCTAAGCCCTTGACCTTTTCCCCGTTCATTCCAATTTGTAAAGCTTCCTCAGATTTTGAAAGACTGCCTTTATATAGATCAGACACCTCCTTCCTCGAGGAAGATCCTTCCATCTCTTTAGCTAGTAGCTCTACCTGATCCCCCGTAGAACTAGTCTCCTTGGTCAAAGTTGGAATATCCGTGCCATTTCTAACAGTATCCATTCTGCAATAAGGCTGTTCAAGAGATGACCAAACCTCAGAATAACAATCTGCATTTATAGATTTCAAACTCAGCAATTTTCCATCTGATCCACCACCATTAGTTTCATGCATGGGAGATTCTTCTGCTGGTTGACTGATAAGGGCTTGTTTCTTTTCTGTCTCTTCTTCTTCATGATCACTTTTCCTTTTTTTCCCCTTTTCAGTGATCCCAGATTGATCTTGGTGCATATCAGCACAAACTGCATTAGCTTGCTGTCCTTCATGCCTGGATGGCTTTGCTCGCTTGTGTCCATCAGGAAAAACAAAGGTGGGCAGTTGCTTCCTCCGTACATGAGAAACATAGATATCCATCCCTGGCTTCCAAAAGGCATACATGTTTATCTCTTGCCTGAACTCATCAACTGTTCCACGTATGTCAAACTGCTGGCCTCCTTGACCTCTTAATCCCTCTTTTCTCTGCAAGCCCATGAAAAAAGCACAGTGAGAACATGGCTTGGACATGTCAGAATACTCAATCGGATAGGGATGGCACTGCAGCATCCCCCTGGTGTCCCTCTCTAT

Coding sequence (CDS)

ATGTTAACTAAATGGGACCAAAGCATCTACTTTCATATACAGTTCTACATCTTTCCCATCGTCTTTACTTTTCTGGCAAAAACCAATCCTACCAGAATAACCATTAGAAACAAGCATCCAAAAATGTCCAGAATTTCACTGCCATTTCTCACAACCCTGCTCCCTGTTTACCTCTTCTACTTCATCTCCATACAATTCCATGTAACTTCACAAACTGTCGATGTAGACCAGACCATCTTGCTTGATCTCAGGGCACAATGGGGGAATCCACCCTCTCTCTGGTTATGGAACGCCTCGTCCTCACCCTGTGGTTGGCCTGGGATCGTCTGTAGAGATGGTAGGGTCATTGGAATCTCTCTGAGGAACAAGAATATCACTGGGAAAGTCCCAGTTGTCATATGTAACCTGCAAAATCTCAGCGTGGTTGATCTTTCATGGAACTATATCATTGGTGAGTTCCCAGAAGTTCTATACAACTGTTCCAAGCTCAAATATCTCGATCTTTCAGGAAACTATTTTGGGGGTCCAATACCCCAAGACATCGAACGACTTCGAACTCTGCAATACATGGACCTTAGCGCCAACAACTTCTCAGGCAATTTTCCAGCAGCGCTAGGGCGATTGTCAGATTTGAGAACTTTGAACATTTATAGAACTCAATGCAATGGTACATTGCCAGCTGAAATTGGTAACTTGTCCAATCTTGAAATTTTGAGCATGGCGTACAACACTCTGCTTGTCCCATCAACAATACCACAAGAATTCAAGAAACTTAAGAAGTTGAAGTATATGTGGATGACAAAATCCAATTTGATAGGTGAAATCCCAGAAAGCTTTTCGGATCTTTTGAGTCTTGAACACTTGGATTTATCCAGTAACAACTTGATGGGCTCTATTCCTGCTGGGTTGTTCTCTTTGCAGAATTTAAGCAACTTATTTCTCTACCAAAATCAATTGTCCGGGGAGATCCCCAAGTCAATCCGAGCATCAAATTTACTCAATGTTGACCTTTCTGCAAACAATTTACGCGGCACAATCCCTGAGGATTTTGGGAAGTTAAAAAAGTTGCAGGTCTTGAACTTGTTTGCAAATCACTTATCTGGTGAGATTCCAAGAAGTCTAGGCCTAATACCTACACTGAAAGGTTTTCGTGTATTCAACAACAGCTTAACAGGGGGCTTGCCGCAAGAGTTGGGTCTGCACTCAAATTTGGAAGCATTGGAGGTTTCAATGAATAAACTAAGTGGTTCCTTGCCTGAACATCTCTGTAAAAATAGTGTCTTACAGGGAGTAGTTGCTTTTTCCAATAATCTTAGTGGTGAATTGCCAAAAGGGCTTGGAAATTGCAGGACCCTACGTACAGTCCAGCTTTCAAACAACAACTTTTCTGGCGAAATTCCTCCAGGTCTTTGGACTACTTTCAATCTATCAAGCATAATGTTAGATGGAAATTCATTCTCAGGCGAGTTACCAAATAGCTTATCTTGGAATCTCTCAAGACTCACGATAAATAACAACAAATTTTGGGGTCAAATTCCTCCAAATGTGTCTGCTTGGCAAAACTTGATCGTGTTTGAGGCAAGCAACAATCTGCTTTCTGGTATGTTCCCTGATGGATTGACAAGTCTTCCTCATCTTACCACACTCGTATTGAGTGGCAATCGACTCTCGGGCCAACTTCCATCGACAATTGGTTCGTGGAAATCATTGAATACTCTAAATCTCTCAAGAAATGAACTTTCAGGCCATATTCCTGCAGCACTGGGTTCTCTTCCTAACCTCCTTTACCTGGATTTATCAGGTAATAACTTCACAGGTGAAATACCACCTGAAATTGGCCACTTAAGACTGGCTTCCCTCAACTTGTCTTCCAATCAGCTTTCAGGGAAAATCCCAGATGTGTACGAGAATATAGCATATGGAAGAAGTTTCTTGAGCAACCCCAAACTATGTACCACCAGCGGTATACTTGACCTTCCGAGCTGTTACTCTAGACAAAGAGATTCAAAAGATCAGTCCTCTAAGTATCTTCCCCTCATTCTAGCTCTCACTGTTACCTTGCTCATAGTTGCTTTACTTTGGATTTCCCTCCTATATAAAAGTTATTGCAAGAAGGATGAAAGATGCCACCCTGACACATGGAAGCTAACTTCATTCCAGAGATTGAACTTCACAGAAACGAATATCTTGTCAAACTTGACAGAAACTAATCTGATCGGAAGTGGTGGATCTGGCAAAGTGTACTGCATAGACATCAACCATGCTGGTAATTATGTTGCTGTCAAAAGGATTTGGAACAACAATAAGTTAGATCACAAACTTGAGAAAGAATTTCAAGCAGAAGTTCAAATACTAGGCTCAATTCGGCATTCAAATATAGTGAAGTTGCTATGCTGTGTCTGGAATGAGAATTCAAAGCTCTTAGTCTATGAATACATGGAAAATCAGAGCCTAGATAGGTGGCTTCATAAAAAGAAGAAAAGGTTAACAGTTGCTCCAATGGATTTTGTTGATGTCTTAGATTGGCCGAGGAGGTTGCAGATTGCTATTGGAGCTGCACAAGGCCTCAGTTATATGCACCACGATTGCTCTCCACCAATCATTCATCGAGATGTGAAGTCGAGTAACATCTTATTAGACTGCAAGTTCCAGGCAAGGATAGCAGATTTTGGGCTGGCTAAGATGCTGGCCAGGCAGGGAGAGCCCCACACTATGTCTGCAATAGCAGGATCTTTCGGCTACATAGCACCAGAGTATGCCTACACAACAAAAGTCAATGAGAAGATTGATGTCTATAGCTTTGGGGTTGTACTCCTGGAACTTACAACAGGAAGGGAACCTAACTGTGGAGATGAGCACACAAGCCTAGCAGAATGGGCATGGCAGCAATATAGTGAGGGAAAGCTTATTATTGATGCTCTTGATGAGGAAATAAAAAACCCATGCAATTTTGAAGAGATGACTACTCTATTCAAACTTGGTCTAATTTGTACGAGCACGTTACCTGAAATACGACCTTCGATGAAGGAAGTTCTGCATATTCTACGCCAATGCAGCCCTTCAGAAGCTTGTGATAGGAGAAAGCATGCCATTGAATTTGATGCTGTTCCCCTCCTCGGCACCCCTCAATGA

Protein sequence

MLTKWDQSIYFHIQFYIFPIVFTFLAKTNPTRITIRNKHPKMSRISLPFLTTLLPVYLFYFISIQFHVTSQTVDVDQTILLDLRAQWGNPPSLWLWNASSSPCGWPGIVCRDGRVIGISLRNKNITGKVPVVICNLQNLSVVDLSWNYIIGEFPEVLYNCSKLKYLDLSGNYFGGPIPQDIERLRTLQYMDLSANNFSGNFPAALGRLSDLRTLNIYRTQCNGTLPAEIGNLSNLEILSMAYNTLLVPSTIPQEFKKLKKLKYMWMTKSNLIGEIPESFSDLLSLEHLDLSSNNLMGSIPAGLFSLQNLSNLFLYQNQLSGEIPKSIRASNLLNVDLSANNLRGTIPEDFGKLKKLQVLNLFANHLSGEIPRSLGLIPTLKGFRVFNNSLTGGLPQELGLHSNLEALEVSMNKLSGSLPEHLCKNSVLQGVVAFSNNLSGELPKGLGNCRTLRTVQLSNNNFSGEIPPGLWTTFNLSSIMLDGNSFSGELPNSLSWNLSRLTINNNKFWGQIPPNVSAWQNLIVFEASNNLLSGMFPDGLTSLPHLTTLVLSGNRLSGQLPSTIGSWKSLNTLNLSRNELSGHIPAALGSLPNLLYLDLSGNNFTGEIPPEIGHLRLASLNLSSNQLSGKIPDVYENIAYGRSFLSNPKLCTTSGILDLPSCYSRQRDSKDQSSKYLPLILALTVTLLIVALLWISLLYKSYCKKDERCHPDTWKLTSFQRLNFTETNILSNLTETNLIGSGGSGKVYCIDINHAGNYVAVKRIWNNNKLDHKLEKEFQAEVQILGSIRHSNIVKLLCCVWNENSKLLVYEYMENQSLDRWLHKKKKRLTVAPMDFVDVLDWPRRLQIAIGAAQGLSYMHHDCSPPIIHRDVKSSNILLDCKFQARIADFGLAKMLARQGEPHTMSAIAGSFGYIAPEYAYTTKVNEKIDVYSFGVVLLELTTGREPNCGDEHTSLAEWAWQQYSEGKLIIDALDEEIKNPCNFEEMTTLFKLGLICTSTLPEIRPSMKEVLHILRQCSPSEACDRRKHAIEFDAVPLLGTPQ
Homology
The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
AT5G25930.10.0e+0057.44Protein kinase family protein with leucine-rich repeat domain [more]
AT1G28440.11.0e-20441.55HAESA-like 1 [more]
AT4G28490.13.3e-19540.75Leucine-rich receptor-like protein kinase family protein [more]
AT5G65710.12.5e-19040.25HAESA-like 2 [more]
AT5G61480.17.2e-17436.23Leucine-rich repeat protein kinase family protein [more]
Match NameE-valueIdentityDescription
Q9SGP21.4e-20341.55Receptor-like protein kinase HSL1 OS=Arabidopsis thaliana OX=3702 GN=HSL1 PE=2 S... [more]
P477354.7e-19440.75Receptor-like protein kinase 5 OS=Arabidopsis thaliana OX=3702 GN=RLK5 PE=1 SV=1[more]
C0LGX33.5e-18940.25LRR receptor-like serine/threonine-protein kinase HSL2 OS=Arabidopsis thaliana O... [more]
Q9FII51.0e-17236.23Leucine-rich repeat receptor-like protein kinase TDR OS=Arabidopsis thaliana OX=... [more]
Q9M0G73.7e-16735.15MDIS1-interacting receptor like kinase 1 OS=Arabidopsis thaliana OX=3702 GN=MIK1... [more]
Match NameE-valueIdentityDescription
A0A0A0LRY80.0e+0089.98Protein kinase domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_2G373... [more]
A0A1S3BCE50.0e+0090.02receptor-like protein kinase HSL1 OS=Cucumis melo OX=3656 GN=LOC103488166 PE=4 S... [more]
A0A5A7VCP70.0e+0090.02Receptor-like protein kinase HSL1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C2... [more]
A0A6J1GIG70.0e+0082.92receptor-like protein kinase HSL1 OS=Cucurbita moschata OX=3662 GN=LOC111454520 ... [more]
A0A6J1KPS00.0e+0084.93receptor-like protein kinase HSL1 OS=Cucurbita maxima OX=3661 GN=LOC111496129 PE... [more]
InterPro
Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000719Protein kinase domainSMARTSM00220serkin_6coord: 733..1014
e-value: 7.1E-24
score: 95.3
IPR000719Protein kinase domainPFAMPF00069Pkinasecoord: 735..1013
e-value: 5.4E-46
score: 157.1
IPR000719Protein kinase domainPROSITEPS50011PROTEIN_KINASE_DOMcoord: 733..1016
score: 36.710957
IPR003591Leucine-rich repeat, typical subtypeSMARTSM00369LRR_typ_2coord: 232..257
e-value: 100.0
score: 4.9
coord: 591..615
e-value: 5.7
score: 15.3
coord: 136..160
e-value: 210.0
score: 2.4
coord: 543..567
e-value: 11.0
score: 12.8
coord: 282..306
e-value: 0.67
score: 19.0
coord: 353..377
e-value: 210.0
score: 2.5
NoneNo IPR availableGENE3D3.30.200.20Phosphorylase Kinase; domain 1coord: 716..812
e-value: 2.1E-20
score: 74.7
NoneNo IPR availableGENE3D1.10.510.10Transferase(Phosphotransferase) domain 1coord: 813..1035
e-value: 1.2E-60
score: 206.4
NoneNo IPR availablePIRSRPIRSR037921-2PIRSR037921-2coord: 731..947
e-value: 5.5E-27
score: 92.6
NoneNo IPR availablePIRSRPIRSR037014-2PIRSR037014-2coord: 759..950
e-value: 2.1E-14
score: 50.4
NoneNo IPR availablePANTHERPTHR48054RECEPTOR KINASE-LIKE PROTEIN XA21coord: 56..1033
NoneNo IPR availablePANTHERPTHR48054:SF21KINASE FAMILY WITH LEUCINE-RICH REPEAT DOMAIN-CONTAINING PROTEINcoord: 56..1033
NoneNo IPR availableSUPERFAMILY52058L domain-likecoord: 87..426
NoneNo IPR availableSUPERFAMILY52047RNI-likecoord: 330..636
IPR001611Leucine-rich repeatPFAMPF13855LRR_8coord: 497..556
e-value: 1.1E-6
score: 28.3
coord: 562..604
e-value: 6.5E-7
score: 29.0
IPR001611Leucine-rich repeatPFAMPF00560LRR_1coord: 162..184
e-value: 0.3
score: 11.8
coord: 284..303
e-value: 0.86
score: 10.4
IPR001611Leucine-rich repeatPROSITEPS51450LRRcoord: 284..307
score: 7.065096
IPR032675Leucine-rich repeat domain superfamilyGENE3D3.80.10.10Ribonuclease Inhibitorcoord: 381..666
e-value: 2.6E-71
score: 242.7
coord: 249..380
e-value: 2.7E-36
score: 126.9
IPR032675Leucine-rich repeat domain superfamilyGENE3D3.80.10.10Ribonuclease Inhibitorcoord: 73..248
e-value: 6.1E-47
score: 162.2
IPR013210Leucine-rich repeat-containing N-terminal, plant-typePFAMPF08263LRRNT_2coord: 76..110
e-value: 3.1E-4
score: 21.0
IPR008271Serine/threonine-protein kinase, active sitePROSITEPS00108PROTEIN_KINASE_STcoord: 867..879
IPR017441Protein kinase, ATP binding sitePROSITEPS00107PROTEIN_KINASE_ATPcoord: 739..762
IPR011009Protein kinase-like domain superfamilySUPERFAMILY56112Protein kinase-like (PK-like)coord: 724..1015

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
Bhi04M000716Bhi04M000716mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006468 protein phosphorylation
cellular_component GO:0016021 integral component of membrane
molecular_function GO:0005524 ATP binding
molecular_function GO:0005515 protein binding
molecular_function GO:0004672 protein kinase activity