Bhi12G001117 (gene) Wax gourd (B227) v1

Overview
NameBhi12G001117
Typegene
OrganismBenincasa hispida (Wax gourd (B227) v1)
Descriptiontransmembrane protein 50A
Locationchr12: 39626484 .. 39643040 (+)
RNA-Seq ExpressionBhi12G001117
SyntenyBhi12G001117
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGATTTGGCGGAGCTGTGGTCAATTTTCGGGCCAGGCGTCGCCGGAGCTGTGTTCGGCGCCGGATGGTGGTTCTGGGTTGACGCCGTTGTCTGCAGTTCTGTTGCTGTCTCCTTTATCCACTACCTCCCAGGTATTTTTGCTTCTTTTGCGGCTCTGATGTTCAATTGCGTTCGCAAAGAAGACATCGATTATTCTCCATACGAGGAGGGCGAATGGAGGTTAAAGCTTTGGCTCTTCTTCGCTTATGTGGTATCATTCGTTTCATTAGCAGCATCAGTGGGACTCTTGATACAAGATTCAGTAGTAAAAACTGGGCCATCAGTGTGGACCGGAGTTGCAGGAGTGTTGCAGTGTGTGTTTGTGTTGGTTAGTGGGTTGATTTACTGGACTTCTCACTCGGAGTAA

Coding sequence (CDS)

ATGGATTTGGCGGAGCTGTGGTCAATTTTCGGGCCAGGCGTCGCCGGAGCTGTGTTCGGCGCCGGATGGTGGTTCTGGGTTGACGCCGTTGTCTGCAGTTCTGTTGCTGTCTCCTTTATCCACTACCTCCCAGGTATTTTTGCTTCTTTTGCGGCTCTGATGTTCAATTGCGTTCGCAAAGAAGACATCGATTATTCTCCATACGAGGAGGGCGAATGGAGGTTAAAGCTTTGGCTCTTCTTCGCTTATGTGGTATCATTCGTTTCATTAGCAGCATCAGTGGGACTCTTGATACAAGATTCAGTAGTAAAAACTGGGCCATCAGTGTGGACCGGAGTTGCAGGAGTGTTGCAGTGTGTGTTTGTGTTGGTTAGTGGGTTGATTTACTGGACTTCTCACTCGGAGTAA

Protein sequence

MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRKEDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCVFVLVSGLIYWTSHSE
Homology
BLAST of Bhi12G001117 vs. TAIR 10
Match: AT1G36980.1 (unknown protein; CONTAINS InterPro DOMAIN/s: Uncharacterised protein family UPF0220 (InterPro:IPR007919); Has 424 Blast hits to 424 proteins in 159 species: Archae - 0; Bacteria - 0; Metazoa - 228; Fungi - 120; Plants - 62; Viruses - 0; Other Eukaryotes - 14 (source: NCBI BLink). )

HSP 1 Score: 255.4 bits (651), Expect = 2.6e-68
Identity = 118/135 (87.41%), Postives = 126/135 (93.33%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK 60
           MDLAELW+IFGPG +GAVFG GWWFWVDAVVCSS+ V F+HYLPGIFAS  ALMFNCVRK
Sbjct: 1   MDLAELWAIFGPGFSGAVFGTGWWFWVDAVVCSSIQVPFVHYLPGIFASLGALMFNCVRK 60

Query: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120
           EDIDYSPY+EGEWRLKLWLF AYVV+FVSLAASVGLLIQDSVVKTGPS WTGVAGV QCV
Sbjct: 61  EDIDYSPYDEGEWRLKLWLFIAYVVAFVSLAASVGLLIQDSVVKTGPSTWTGVAGVFQCV 120

Query: 121 FVLVSGLIYWTSHSE 136
           FVL+SGL+YWTSHSE
Sbjct: 121 FVLISGLMYWTSHSE 135

BLAST of Bhi12G001117 vs. ExPASy Swiss-Prot
Match: Q9CXL1 (Transmembrane protein 50A OS=Mus musculus OX=10090 GN=Tmem50a PE=1 SV=1)

HSP 1 Score: 65.5 bits (158), Expect = 5.4e-10
Identity = 43/140 (30.71%), Postives = 65/140 (46.43%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIH--YLPGIFASFAALMFNCV 60
           MD  E  +      AG +F  GWW  +DA V       F H  +  G+ A+ A LM N V
Sbjct: 14  MDWGEKRNTIASIAAGVLFFTGWWIIIDAAVMYPRMDQFNHSYHTCGVIATIAFLMINAV 73

Query: 61  RKEDIDYSPYEE---GEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAG 120
               +    Y E   G+   ++WLF  ++++F SL AS+ +L    V K    V+ G+A 
Sbjct: 74  SNGQVRGDSYSEGCLGQTGARIWLFIGFMLAFGSLIASMWILFGGYVAKEKDVVYPGIAV 133

Query: 121 VLQCVFVLVSGLIYWTSHSE 136
             Q  F+   GL++    +E
Sbjct: 134 FFQNAFIFFGGLVFKFGRTE 153

BLAST of Bhi12G001117 vs. ExPASy Swiss-Prot
Match: O95807 (Transmembrane protein 50A OS=Homo sapiens OX=9606 GN=TMEM50A PE=1 SV=1)

HSP 1 Score: 64.7 bits (156), Expect = 9.2e-10
Identity = 40/126 (31.75%), Postives = 61/126 (48.41%), Query Frame = 0

Query: 15  AGAVFGAGWWFWVDAVVCSSVAVSFIH--YLPGIFASFAALMFNCVRKEDIDYSPYEE-- 74
           AG +F  GWW  +DA V       F H  +  G+ A+ A LM N V    +    Y E  
Sbjct: 28  AGVLFFTGWWIIIDAAVIYPTMKDFNHSYHACGVIATIAFLMINAVSNGQVRGDSYSEGC 87

Query: 75  -GEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCVFVLVSGLIY 134
            G+   ++WLF  ++++F SL AS+ +L    V K    V+ G+A   Q  F+   GL++
Sbjct: 88  LGQTGARIWLFVGFMLAFGSLIASMWILFGGYVAKEKDIVYPGIAVFFQNAFIFFGGLVF 147

Query: 135 WTSHSE 136
               +E
Sbjct: 148 KFGRTE 153

BLAST of Bhi12G001117 vs. ExPASy Swiss-Prot
Match: Q54T60 (Transmembrane protein 50 homolog OS=Dictyostelium discoideum OX=44689 GN=tmem50 PE=3 SV=1)

HSP 1 Score: 60.8 bits (146), Expect = 1.3e-08
Identity = 35/132 (26.52%), Postives = 69/132 (52.27%), Query Frame = 0

Query: 12  PGVAGAVFGAGWWFWVDAVVCSSV----------AVSFIHYLPGIFASFAALMFNCVRKE 71
           P +AG +F AGW+ W+D  V  +            + +I+YLPGIFA+   +M N V   
Sbjct: 10  PALAGIIFTAGWFLWIDGHVYENTNNKNADFDGPHIQWIYYLPGIFATLGMVMANIVDLS 69

Query: 72  DIDYSP--YEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVV---KTGPSVWTGVAGV 129
            ++ +   ++ G  ++++WLF ++ +SF  + A++ +++   +        + W G+A  
Sbjct: 70  ALNSNSLLFDGGATKVRVWLFISFAISFGCIGAALWIMVAVFLPPHNTNDAAQWPGIAIT 129

BLAST of Bhi12G001117 vs. ExPASy Swiss-Prot
Match: Q3SZL9 (Transmembrane protein 50B OS=Bos taurus OX=9913 GN=TMEM50B PE=2 SV=1)

HSP 1 Score: 55.8 bits (133), Expect = 4.3e-07
Identity = 41/140 (29.29%), Postives = 63/140 (45.00%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIH--YLPGIFASFAALMFNCV 60
           +D +E  +     VAG +F  GWW  +DA V         H  +  G+F++ A  M N V
Sbjct: 16  IDWSERRNAVASVVAGILFFTGWWIMIDAAVVYPKPEQLNHAFHTCGVFSTLAFFMINAV 75

Query: 61  RKEDIDYSPYEE---GEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAG 120
               +    YE    G    ++WLF  +++ F SL AS+ +L   + V     V+ G+A 
Sbjct: 76  SNAQVRGDSYESGCLGRTGARVWLFIGFMLMFGSLIASMWILF-GAYVTQNTDVYPGLAV 135

Query: 121 VLQCVFVLVSGLIYWTSHSE 136
             Q   +  S LIY    +E
Sbjct: 136 FFQNALIFFSTLIYKFGRTE 154

BLAST of Bhi12G001117 vs. ExPASy Swiss-Prot
Match: P56557 (Transmembrane protein 50B OS=Homo sapiens OX=9606 GN=TMEM50B PE=1 SV=2)

HSP 1 Score: 55.8 bits (133), Expect = 4.3e-07
Identity = 41/140 (29.29%), Postives = 63/140 (45.00%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIH--YLPGIFASFAALMFNCV 60
           +D +E  +     VAG +F  GWW  +DA V         H  +  G+F++ A  M N V
Sbjct: 16  IDWSERRNAVASVVAGILFFTGWWIMIDAAVVYPKPEQLNHAFHTCGVFSTLAFFMINAV 75

Query: 61  RKEDIDYSPYEE---GEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAG 120
               +    YE    G    ++WLF  +++ F SL AS+ +L   + V     V+ G+A 
Sbjct: 76  SNAQVRGDSYESGCLGRTGARVWLFIGFMLMFGSLIASMWILF-GAYVTQNTDVYPGLAV 135

Query: 121 VLQCVFVLVSGLIYWTSHSE 136
             Q   +  S LIY    +E
Sbjct: 136 FFQNALIFFSTLIYKFGRTE 154

BLAST of Bhi12G001117 vs. NCBI nr
Match: XP_038874577.1 (transmembrane protein 50A [Benincasa hispida])

HSP 1 Score: 278.9 bits (712), Expect = 2.4e-71
Identity = 135/135 (100.00%), Postives = 135/135 (100.00%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK 60
           MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK
Sbjct: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK 60

Query: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120
           EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV
Sbjct: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120

Query: 121 FVLVSGLIYWTSHSE 136
           FVLVSGLIYWTSHSE
Sbjct: 121 FVLVSGLIYWTSHSE 135

BLAST of Bhi12G001117 vs. NCBI nr
Match: XP_008460472.1 (PREDICTED: transmembrane protein 50A [Cucumis melo])

HSP 1 Score: 278.5 bits (711), Expect = 3.1e-71
Identity = 134/135 (99.26%), Postives = 135/135 (100.00%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK 60
           MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSF+HYLPGIFASFAALMFNCVRK
Sbjct: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFVHYLPGIFASFAALMFNCVRK 60

Query: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120
           EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV
Sbjct: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120

Query: 121 FVLVSGLIYWTSHSE 136
           FVLVSGLIYWTSHSE
Sbjct: 121 FVLVSGLIYWTSHSE 135

BLAST of Bhi12G001117 vs. NCBI nr
Match: XP_022993057.1 (transmembrane protein 50A [Cucurbita maxima] >XP_023549618.1 transmembrane protein 50A-like [Cucurbita pepo subsp. pepo])

HSP 1 Score: 277.3 bits (708), Expect = 6.9e-71
Identity = 133/135 (98.52%), Postives = 135/135 (100.00%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK 60
           MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSF+HYLPGIFASFAALMFNCVR+
Sbjct: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFVHYLPGIFASFAALMFNCVRR 60

Query: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120
           EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV
Sbjct: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120

Query: 121 FVLVSGLIYWTSHSE 136
           FVLVSGLIYWTSHSE
Sbjct: 121 FVLVSGLIYWTSHSE 135

BLAST of Bhi12G001117 vs. NCBI nr
Match: XP_004140320.1 (transmembrane protein 50A [Cucumis sativus])

HSP 1 Score: 276.6 bits (706), Expect = 1.2e-70
Identity = 133/135 (98.52%), Postives = 134/135 (99.26%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK 60
           MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSF+HYLPGIFASFAALMFNCVRK
Sbjct: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFVHYLPGIFASFAALMFNCVRK 60

Query: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120
           EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVK GPSVWTGVAGVLQCV
Sbjct: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKAGPSVWTGVAGVLQCV 120

Query: 121 FVLVSGLIYWTSHSE 136
           FVLVSGLIYWTSHSE
Sbjct: 121 FVLVSGLIYWTSHSE 135

BLAST of Bhi12G001117 vs. NCBI nr
Match: XP_022141734.1 (transmembrane protein 50A [Momordica charantia])

HSP 1 Score: 276.2 bits (705), Expect = 1.5e-70
Identity = 132/135 (97.78%), Postives = 134/135 (99.26%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK 60
           MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSV VSF+HYLPGIFASFAALMFNCVRK
Sbjct: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVPVSFVHYLPGIFASFAALMFNCVRK 60

Query: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120
           EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDS+VKTGPSVWTGVAGVLQCV
Sbjct: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSIVKTGPSVWTGVAGVLQCV 120

Query: 121 FVLVSGLIYWTSHSE 136
           FVLVSGLIYWTSHSE
Sbjct: 121 FVLVSGLIYWTSHSE 135

BLAST of Bhi12G001117 vs. ExPASy TrEMBL
Match: A0A1S3CCJ8 (transmembrane protein 50A OS=Cucumis melo OX=3656 GN=LOC103499276 PE=3 SV=1)

HSP 1 Score: 278.5 bits (711), Expect = 1.5e-71
Identity = 134/135 (99.26%), Postives = 135/135 (100.00%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK 60
           MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSF+HYLPGIFASFAALMFNCVRK
Sbjct: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFVHYLPGIFASFAALMFNCVRK 60

Query: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120
           EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV
Sbjct: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120

Query: 121 FVLVSGLIYWTSHSE 136
           FVLVSGLIYWTSHSE
Sbjct: 121 FVLVSGLIYWTSHSE 135

BLAST of Bhi12G001117 vs. ExPASy TrEMBL
Match: A0A6J1JRP9 (transmembrane protein 50A OS=Cucurbita maxima OX=3661 GN=LOC111489187 PE=3 SV=1)

HSP 1 Score: 277.3 bits (708), Expect = 3.3e-71
Identity = 133/135 (98.52%), Postives = 135/135 (100.00%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK 60
           MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSF+HYLPGIFASFAALMFNCVR+
Sbjct: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFVHYLPGIFASFAALMFNCVRR 60

Query: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120
           EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV
Sbjct: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120

Query: 121 FVLVSGLIYWTSHSE 136
           FVLVSGLIYWTSHSE
Sbjct: 121 FVLVSGLIYWTSHSE 135

BLAST of Bhi12G001117 vs. ExPASy TrEMBL
Match: A0A6J1CJN8 (transmembrane protein 50A OS=Momordica charantia OX=3673 GN=LOC111012019 PE=3 SV=1)

HSP 1 Score: 276.2 bits (705), Expect = 7.4e-71
Identity = 132/135 (97.78%), Postives = 134/135 (99.26%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK 60
           MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSV VSF+HYLPGIFASFAALMFNCVRK
Sbjct: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVPVSFVHYLPGIFASFAALMFNCVRK 60

Query: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120
           EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDS+VKTGPSVWTGVAGVLQCV
Sbjct: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSIVKTGPSVWTGVAGVLQCV 120

Query: 121 FVLVSGLIYWTSHSE 136
           FVLVSGLIYWTSHSE
Sbjct: 121 FVLVSGLIYWTSHSE 135

BLAST of Bhi12G001117 vs. ExPASy TrEMBL
Match: A0A6J1FCW9 (transmembrane protein 50A-like OS=Cucurbita moschata OX=3662 GN=LOC111444629 PE=3 SV=1)

HSP 1 Score: 275.0 bits (702), Expect = 1.7e-70
Identity = 132/135 (97.78%), Postives = 134/135 (99.26%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK 60
           MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSF+HYLPGIFAS AALMFNCVR+
Sbjct: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFVHYLPGIFASIAALMFNCVRR 60

Query: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120
           EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV
Sbjct: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120

Query: 121 FVLVSGLIYWTSHSE 136
           FVLVSGLIYWTSHSE
Sbjct: 121 FVLVSGLIYWTSHSE 135

BLAST of Bhi12G001117 vs. ExPASy TrEMBL
Match: A0A6J1JKY2 (transmembrane protein 50A-like OS=Cucurbita maxima OX=3661 GN=LOC111487827 PE=3 SV=1)

HSP 1 Score: 271.6 bits (693), Expect = 1.8e-69
Identity = 131/135 (97.04%), Postives = 133/135 (98.52%), Query Frame = 0

Query: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFIHYLPGIFASFAALMFNCVRK 60
           MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSF+HYLPGIFASFAALMFNCVRK
Sbjct: 1   MDLAELWSIFGPGVAGAVFGAGWWFWVDAVVCSSVAVSFLHYLPGIFASFAALMFNCVRK 60

Query: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGPSVWTGVAGVLQCV 120
           EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTG S WTGVAGVLQCV
Sbjct: 61  EDIDYSPYEEGEWRLKLWLFFAYVVSFVSLAASVGLLIQDSVVKTGLSAWTGVAGVLQCV 120

Query: 121 FVLVSGLIYWTSHSE 136
           FVLVSGLIYWTSH+E
Sbjct: 121 FVLVSGLIYWTSHTE 135

The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
AT1G36980.12.6e-6887.41unknown protein; CONTAINS InterPro DOMAIN/s: Uncharacterised protein family UPF0... [more]
Match NameE-valueIdentityDescription
Q9CXL15.4e-1030.71Transmembrane protein 50A OS=Mus musculus OX=10090 GN=Tmem50a PE=1 SV=1[more]
O958079.2e-1031.75Transmembrane protein 50A OS=Homo sapiens OX=9606 GN=TMEM50A PE=1 SV=1[more]
Q54T601.3e-0826.52Transmembrane protein 50 homolog OS=Dictyostelium discoideum OX=44689 GN=tmem50 ... [more]
Q3SZL94.3e-0729.29Transmembrane protein 50B OS=Bos taurus OX=9913 GN=TMEM50B PE=2 SV=1[more]
P565574.3e-0729.29Transmembrane protein 50B OS=Homo sapiens OX=9606 GN=TMEM50B PE=1 SV=2[more]
Match NameE-valueIdentityDescription
XP_038874577.12.4e-71100.00transmembrane protein 50A [Benincasa hispida][more]
XP_008460472.13.1e-7199.26PREDICTED: transmembrane protein 50A [Cucumis melo][more]
XP_022993057.16.9e-7198.52transmembrane protein 50A [Cucurbita maxima] >XP_023549618.1 transmembrane prote... [more]
XP_004140320.11.2e-7098.52transmembrane protein 50A [Cucumis sativus][more]
XP_022141734.11.5e-7097.78transmembrane protein 50A [Momordica charantia][more]
Match NameE-valueIdentityDescription
A0A1S3CCJ81.5e-7199.26transmembrane protein 50A OS=Cucumis melo OX=3656 GN=LOC103499276 PE=3 SV=1[more]
A0A6J1JRP93.3e-7198.52transmembrane protein 50A OS=Cucurbita maxima OX=3661 GN=LOC111489187 PE=3 SV=1[more]
A0A6J1CJN87.4e-7197.78transmembrane protein 50A OS=Momordica charantia OX=3673 GN=LOC111012019 PE=3 SV... [more]
A0A6J1FCW91.7e-7097.78transmembrane protein 50A-like OS=Cucurbita moschata OX=3662 GN=LOC111444629 PE=... [more]
A0A6J1JKY21.8e-6997.04transmembrane protein 50A-like OS=Cucurbita maxima OX=3661 GN=LOC111487827 PE=3 ... [more]
InterPro
Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR007919Uncharacterised protein family UPF0220PFAMPF05255UPF0220coord: 13..133
e-value: 8.7E-24
score: 83.9
IPR007919Uncharacterised protein family UPF0220PANTHERPTHR13180SMALL MEMBRANE PROTEIN-RELATEDcoord: 3..135
NoneNo IPR availablePANTHERPTHR13180:SF3OS02G0566900 PROTEINcoord: 3..135

Relationships

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

Feature NameUnique NameType
Bhi12M001117Bhi12M001117mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0032511 late endosome to vacuole transport via multivesicular body sorting pathway
cellular_component GO:0016021 integral component of membrane