Spg037763 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg037763
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
DescriptionUnknown protein
Locationscaffold27: 164051 .. 176095 (+)
RNA-Seq ExpressionSpg037763
SyntenySpg037763
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGCTTTCTCTGCGTTGGGCTCGCTTCTTCAAGCGGAGCTTGCTGCTTTTCATTTTGATAGGATGGAAGATCGGAAAAGACTTCTCTTCATCACGAGACTGATCGGATCTGCCGTAGACACCCGAGAGACCTCCACAAGGCAGACTCAAAGACCTGGTAAGACAAATCTGTTTACTTCTTTCTCGTTCTTCTTCCCAACCATATTTCCAAGTGATCTCCGGCAATTGATCGAGCTCTCTGCTGTGCTCTTCAACAATTCTGTGTATAAGGAGTATAACAAGCAATCAAAGGAATGCAGGCGTTGTATCCCATTCCTGTATGCCATTCCCGCATTCACTCGAGACGTCCAACAAGTTCTCTCTCCCATTGGTAGGCAGAAGACAGGGGTTTTGGAGGGGAAAGGTGCAAAATCTATAATAAATAGAAGTGGAATCCGCTTCTCGTATTGGAATTTTGGAAAACATTGGCTCAATCCGTCCACATTCATCTCTGTCTTTTTTAAAAAATGGATGTTTTCTTCCGGTCTCTGGTCTCCGGTCTTTCCATCCGTCTACGGCTATTTTCTTGTTCATCCTGCCTTCGCCCTTTTGTTAGCTGCTCTTCGATCAACCCAGGTCTGGTCTGAATTGGTCGGGAAACTCGAAACTCTCCCGCAAGCGTCCTTCTTAGGTCGGCATTTGGCTTTGGCCTTGCTTGTTCGGTTTTGGCTCATTCTTTTGATTGCCATGTCTGCTCCGTCTGCTGGCGTGAATGGGAGAATACGATACCATAAGGAGGAATTCCTCGTTCTTCATGACTACCCGAAGGAGGAGGTATATGGCAATAGCCAAGTTGACGATAAAAGAATAGGACAAAGGTCTATATTCAAGTCAGAAATCCAGGCGAAAGATTTTGCATCTCTATGGGATGAAATCCCGAGTTATTGCGAATTAAAGAAAAATGAAACGATGTTTATTCTCAATCTTGTCGCATTTATTGCTACAGCACTGTTCATTCTAGTTCCTACTGCTTCTCAATTCTATTTCATATGTAGTGAGTTTGAATTGACCCGGTTAGCTAGAAGTTTTAAAGTCAAGCGAGAAAGCAAGTGGATCAGACAAAGTCTTTCTGGTTGTCTCACCAAAGAGTACTGCGTGGCGTGTGTCGCTTATGCGCGCCTATGGCGGGTGTTGAGATCGACACGAATCCTTACCGCATCCGATATCCCTAGCAAGGCTCGAGAGACCTCGATGTCTAAGCGGATTCTTGTTCCTAAACAGAGCAACTATCAGTTTAGTAGCATTGTGGACGACCCGTCGACAGACGTCGAGAGTGTTTTGGAGAAGTCTTCATCTCCGGTGAAAGGTGATAAGGCCCTAGTGGGCCGGATTCCCTTCCATTTGGAAGATGTTTGCAATCGCTTTATGGGATCGCGCGGTTCTTTATCCTACCCGAGCGAAAGCGGAGTCTCCAGAGATCAATCAACCGGGCGCCTCCAAAGCTGTATCCAAGTTGTAATAAAAGAAACAAGAAAGAATAAGAATCCAACTAGAGAACTGAAGCTTCCCAAGACCACTTACGATAGGGGCAAGTTGAAGAAGGGTTTGGGTTCCGAGGAGCTACCAGAGCAGGGGGTTTTAACTGCCCTGATAGCCGGGAAGAGCCTTAGACTTCCGCCGGAGTTCCCGCAGGGACAGGCCAAACCAACCCAGGAACTTCACCAGCAAACTCCACACGTCGACCCAGGAGGTGAGGTCTCCCAACGCTGCCGATTGGATGCCCTGAGTCATTTGGTTTTTACGCGTGTCTGTTAG

Coding sequence (CDS)

ATGGCTTTCTCTGCGTTGGGCTCGCTTCTTCAAGCGGAGCTTGCTGCTTTTCATTTTGATAGGATGGAAGATCGGAAAAGACTTCTCTTCATCACGAGACTGATCGGATCTGCCGTAGACACCCGAGAGACCTCCACAAGGCAGACTCAAAGACCTGGTAAGACAAATCTGTTTACTTCTTTCTCGTTCTTCTTCCCAACCATATTTCCAAGTGATCTCCGGCAATTGATCGAGCTCTCTGCTGTGCTCTTCAACAATTCTGTGTATAAGGAGTATAACAAGCAATCAAAGGAATGCAGGCGTTGTATCCCATTCCTGTATGCCATTCCCGCATTCACTCGAGACGTCCAACAAGTTCTCTCTCCCATTGGTAGGCAGAAGACAGGGGTTTTGGAGGGGAAAGGTGCAAAATCTATAATAAATAGAAGTGGAATCCGCTTCTCGTATTGGAATTTTGGAAAACATTGGCTCAATCCGTCCACATTCATCTCTGTCTTTTTTAAAAAATGGATGTTTTCTTCCGGTCTCTGGTCTCCGGTCTTTCCATCCGTCTACGGCTATTTTCTTGTTCATCCTGCCTTCGCCCTTTTGTTAGCTGCTCTTCGATCAACCCAGGTCTGGTCTGAATTGGTCGGGAAACTCGAAACTCTCCCGCAAGCGTCCTTCTTAGGTCGGCATTTGGCTTTGGCCTTGCTTGTTCGGTTTTGGCTCATTCTTTTGATTGCCATGTCTGCTCCGTCTGCTGGCGTGAATGGGAGAATACGATACCATAAGGAGGAATTCCTCGTTCTTCATGACTACCCGAAGGAGGAGGTATATGGCAATAGCCAAGTTGACGATAAAAGAATAGGACAAAGGTCTATATTCAAGTCAGAAATCCAGGCGAAAGATTTTGCATCTCTATGGGATGAAATCCCGAGTTATTGCGAATTAAAGAAAAATGAAACGATGTTTATTCTCAATCTTGTCGCATTTATTGCTACAGCACTGTTCATTCTAGTTCCTACTGCTTCTCAATTCTATTTCATATGTAGTGAGTTTGAATTGACCCGGTTAGCTAGAAGTTTTAAAGTCAAGCGAGAAAGCAAGTGGATCAGACAAAGTCTTTCTGGTTGTCTCACCAAAGAGTACTGCGTGGCGTGTGTCGCTTATGCGCGCCTATGGCGGGTGTTGAGATCGACACGAATCCTTACCGCATCCGATATCCCTAGCAAGGCTCGAGAGACCTCGATGTCTAAGCGGATTCTTGTTCCTAAACAGAGCAACTATCAGTTTAGTAGCATTGTGGACGACCCGTCGACAGACGTCGAGAGTGTTTTGGAGAAGTCTTCATCTCCGGTGAAAGGTGATAAGGCCCTAGTGGGCCGGATTCCCTTCCATTTGGAAGATGTTTGCAATCGCTTTATGGGATCGCGCGGTTCTTTATCCTACCCGAGCGAAAGCGGAGTCTCCAGAGATCAATCAACCGGGCGCCTCCAAAGCTGTATCCAAGTTGTAATAAAAGAAACAAGAAAGAATAAGAATCCAACTAGAGAACTGAAGCTTCCCAAGACCACTTACGATAGGGGCAAGTTGAAGAAGGGTTTGGGTTCCGAGGAGCTACCAGAGCAGGGGGTTTTAACTGCCCTGATAGCCGGGAAGAGCCTTAGACTTCCGCCGGAGTTCCCGCAGGGACAGGCCAAACCAACCCAGGAACTTCACCAGCAAACTCCACACGTCGACCCAGGAGGTGAGGTCTCCCAACGCTGCCGATTGGATGCCCTGAGTCATTTGGTTTTTACGCGTGTCTGTTAG

Protein sequence

MAFSALGSLLQAELAAFHFDRMEDRKRLLFITRLIGSAVDTRETSTRQTQRPGKTNLFTSFSFFFPTIFPSDLRQLIELSAVLFNNSVYKEYNKQSKECRRCIPFLYAIPAFTRDVQQVLSPIGRQKTGVLEGKGAKSIINRSGIRFSYWNFGKHWLNPSTFISVFFKKWMFSSGLWSPVFPSVYGYFLVHPAFALLLAALRSTQVWSELVGKLETLPQASFLGRHLALALLVRFWLILLIAMSAPSAGVNGRIRYHKEEFLVLHDYPKEEVYGNSQVDDKRIGQRSIFKSEIQAKDFASLWDEIPSYCELKKNETMFILNLVAFIATALFILVPTASQFYFICSEFELTRLARSFKVKRESKWIRQSLSGCLTKEYCVACVAYARLWRVLRSTRILTASDIPSKARETSMSKRILVPKQSNYQFSSIVDDPSTDVESVLEKSSSPVKGDKALVGRIPFHLEDVCNRFMGSRGSLSYPSESGVSRDQSTGRLQSCIQVVIKETRKNKNPTRELKLPKTTYDRGKLKKGLGSEELPEQGVLTALIAGKSLRLPPEFPQGQAKPTQELHQQTPHVDPGGEVSQRCRLDALSHLVFTRVC
Homology
[Close]
BLAST of Spg037763 vs. NCBI nr
Match: CAN70459.1 (hypothetical protein VITISV_033464 [Vitis vinifera])

HSP 1 Score: 79.7 bits (195), Expect = 9.3e-11
Identity = 48/80 (60.00%), Postives = 49/80 (61.25%), Query Frame = 0 

Query: 410 SMSKRILVPKQSNYQFSSIVDDPSTDVESVLEK--------------------------- 461
           S+SK ILVPKQSNYQFSSIVDDPSTDVESVLEK                           
Sbjct: 7   SVSKLILVPKQSNYQFSSIVDDPSTDVESVLEKYGILVKDPFLRYVQELPSIPMVLNWRP 66

[Close]
BLAST of Spg037763 vs. NCBI nr
Match: KAG8362767.1 (hypothetical protein BUALT_BualtUnG0041600 [Buddleja alternifolia])

HSP 1 Score: 74.3 bits (181), Expect = 3.9e-09
Identity = 43/77 (55.84%), Postives = 48/77 (62.34%), Query Frame = 0 

Query: 494 SCIQVVIKETRKNKNPTRELKLPKTTYDRGKLKKGLGSEELPEQGVLTALIAGKSLRLPP 553
           S I ++    RK        + P   +   KLKKGLGSEELPEQGVLTALIAGKSLRLPP
Sbjct: 2   SSILILSLPERKRSLQRSINRTPPKLHYTDKLKKGLGSEELPEQGVLTALIAGKSLRLPP 61

Query: 554 EFPQGQAKPTQELHQQT 571
           EFPQG      +LH  T
Sbjct: 62  EFPQGGRNFVSKLHTST 78

[Close]
BLAST of Spg037763 vs. NCBI nr
Match: QRW36630.1 (photosystem II protein M [Cenchrus flaccidus])

HSP 1 Score: 59.7 bits (143), Expect = 1.0e-04
Identity = 30/45 (66.67%), Postives = 37/45 (82.22%), Query Frame = 0 

Query: 293 IQAKDFASLWDEIPSYCELKKNETMFILNLVAFIATALFILVPTA 338
           +Q   F+SLWD IPSYCE KKN+ +  +N++AFIATALFILVPTA
Sbjct: 8   LQDTPFSSLWDYIPSYCE-KKNKEVMEVNILAFIATALFILVPTA 51

[Close]
BLAST of Spg037763 vs. NCBI nr
Match: QRW36721.1 (photosystem II protein M [Stellaria dichotoma var. lanceolata])

HSP 1 Score: 59.7 bits (143), Expect = 1.0e-04
Identity = 30/45 (66.67%), Postives = 37/45 (82.22%), Query Frame = 0 

Query: 293 IQAKDFASLWDEIPSYCELKKNETMFILNLVAFIATALFILVPTA 338
           +Q    +SLWD+IPSYCEL KNE +  +N++AFIATALFILVPTA
Sbjct: 18  LQVTFLSSLWDQIPSYCEL-KNEEIMEVNILAFIATALFILVPTA 61

[Close]
BLAST of Spg037763 vs. ExPASy TrEMBL
Match: A5BRD7 (Uncharacterized protein OS=Vitis vinifera OX=29760 GN=VITISV_033464 PE=4 SV=1)

HSP 1 Score: 79.7 bits (195), Expect = 4.5e-11
Identity = 48/80 (60.00%), Postives = 49/80 (61.25%), Query Frame = 0 

Query: 410 SMSKRILVPKQSNYQFSSIVDDPSTDVESVLEK--------------------------- 461
           S+SK ILVPKQSNYQFSSIVDDPSTDVESVLEK                           
Sbjct: 7   SVSKLILVPKQSNYQFSSIVDDPSTDVESVLEKYGILVKDPFLRYVQELPSIPMVLNWRP 66

The following BLAST results are available for this feature:
BLAST of Spg037763 vs. NCBI nr
Match NameE-valueIdentityDescription
CAN70459.19.3e-1160.00hypothetical protein VITISV_033464 [Vitis vinifera][more]
KAG8362767.13.9e-0955.84hypothetical protein BUALT_BualtUnG0041600 [Buddleja alternifolia][more]
QRW36630.11.0e-0466.67photosystem II protein M [Cenchrus flaccidus][more]
QRW36721.11.0e-0466.67photosystem II protein M [Stellaria dichotoma var. lanceolata][more]
BLAST of Spg037763 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Spg037763 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A5BRD74.5e-1160.00Uncharacterized protein OS=Vitis vinifera OX=29760 GN=VITISV_033464 PE=4 SV=1[more]
BLAST of Spg037763 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR007826Photosystem II PsbMPFAMPF05151PsbMcoord: 321..338
e-value: 3.0E-5
score: 23.8
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 557..578

Relationships

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

Feature NameUnique NameType
Spg037763.1Spg037763.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0019684 photosynthesis, light reaction
biological_process GO:0015979 photosynthesis
cellular_component GO:0009507 chloroplast
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0009523 photosystem II