Moc04g00410 (gene) Bitter gourd (OHB3-1) v2

Overview
NameMoc04g00410
Typegene
OrganismMomordica charantia cv. OHB3-1 (Bitter gourd (OHB3-1) v2)
DescriptionLINE-1 retrotransposable element ORF2 protein
Locationchr4: 280870 .. 293717 (-)
RNA-Seq ExpressionMoc04g00410
SyntenyMoc04g00410
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGTCCTATATGAAGAAAGGAAGTGTTGGCAGAAATGTAAAGTTAGGTGGCTTATAGAAGGGGATGTGAGAACACCAAGCTCTTCCATAGTGTGCTCAACTCAAGAAGAAAGAGGCAATAGGGATCCATGGTTTAACAGGGGAACTCTATGGGTCACTTTGACCTTGTCGCTAGGTCACTTTCCTGGTTTATGGGCGAGGATACATATCAAGATCACTTTTCAAGTACTAGAACAAGTGGAGATCCCCGACTCATTTTCATTTGTTTTGTGTATTTGTAATTTTTTCAATTCCAATTTCTTGGGTTTGCAAAGAGGAATACAAAGTCCCACATTGGCTAGGGAAGGGATTGATCCATGGTATATAAGAGATGAGAATTATCTCCATTGGTTGTTCTTGGAGTCTTGGATAAGAGCACGCTCTCGTTATGCCCGAGAGTGGACAGATGGTCACTTTCCTAGTCTACGGTGTGATCAAAATCTGAATCTAGATCACTTATCAAGTACTCTAACAAGTGGAGTTCTCCAACTGGTTTTCTTTTGTCTCGTGGCATTTGTCATTTGTCACTTTCTTTGTCTAAGAGTTAGTCATGATCACTTATCAAGTACTCCAACAAGTGGAGATCTCCAACTCATTTTTCTCTGTCTTGTGGTGAGGTCAAAATCCAAATCTAGATCACTTATCAAGTACAAGTGGAGATCTCCGATTCATTTTCCTGTGTTACTTTCCTTGTCTATGGGGGAGGATACATATCAAGTACTTCAACAAGTGGAGAGGTCCAACTCGACTTCCTTTGTCTTGTGGTCACTTTCCTTGTCTATGGGTGAGGTCAAAGTCCAAATCATGATCACTTATCAAGAACTAGAGCAAGTGGAGATCTCCAACTTATTTTCTTTCGTCATATGGCCACCTTCCTTGTCTACGAGTCAAAATCCAAATCAAGATCACTTATCATCTACAAGTGGAGATCTCCAATTCATTTTCCTTTGTCCTGTGGTCAATTTTCTTTCCATGGGTAACGATACATATCTAGATCACTTATCAAGTACTCCAACAAGTGGAGATCTCCAACTCATTTTTCTCTGTCTTGTGGTCACTTTCCTTGTCTATGGGTCACTTTCCTTACCTATGGGTGAGGATACATATCAAGATCACTTATCAAGTCACTTTCCTTGTTCACGGGTGAGATCAAAATCCAAAATCAAGACCAACTTATCAAGTACTACAAGTGAAGGCCTCCGACTCATTTTCCTTTGTCTTGCGGTCACTTCCCTTTTTATGGGTGAGGATACATATCAAGATCTTATCAAAATTCTTACAATAAGTGGAGATCTCAGACTCTTTTTCCTTTGTCTTGTGGTCACCTTTCTTGTCTACAGGTCACTTTCCTTATCTATGAGTAAGGCCAAAATTCAAATCAAGGTCACCTATCAAGTACTCCAGCAAGTAGAGATCCGCAACTCTTTTTGCCAGTACAAGTCATTTGTTCCGTCACTTTCCTTATCTATGGTTAGCATATCTTTGATCTTTCCACCTCCTCTTCGTAGGTTACTTTTCTTGTCTATGGGTAAGGTCAATCCAAATCAAGATCACTTATCAAGTCACGTTCCTTGTCTATGGGTGAGACCAAAATCCAAATCAAGATCACTTATCAAGTCATTTTCTTTGTCTATGGGTGAGACCAAAATCGAAATCAAGATCGCTTATCAAGTACTACTACATGTGGAGATCTCCAACACATTTTCCTTTGTCTCATGGTCACTTTCCTTTTCTATGGGTGAGGATACATATCAAGATAACTTATCAAAAGTCCTACAACAAGTGAAGGTCACTTACCTTGTTTATGGGTTACTTTCCTTGTCAATAGAGAGGCCAAAATCCAAATCAAGATTACTTATCAAGTACTACAGTCTTCAACTCATTTTCCTTTATCCTGTGGTCACTTTCCTTGTCTATAGGTCACTTTTCTTGTTTATTGGTGAGGGTACATATCAAGATCACTTATCAAGTACTACAGCAAGTGGAGATCTCAAACTCAATTTCCTTTGTCTTGTGGTGAGGTCAAAATCCAAATCAAGATCACTTATAAGCATATGGAGATTCCATATCATTTTCCTTTGTCCTGTGGTTACTTTCCATGTCCATGCTAGCTGGTTAAAAGGTGGATTGATTTCAGAAGGCAAGATCTTGGATATAACACTATCAATGCCTACCTCTGATCATTTCCCCATTCTTATGGAAACGGGAAGCTTCAAGTGGGTTCCTATATCTTCTAAGTTCAAAAACATGTGGCTCCTTCACAAGTCTTCCCTGAAAGATCTCGAAGGCTGGTGGAAAGAAATCAACCCTTGGGGTTGCCTGGGTTTGCCCTTATCCAGGATCTTAAATATATCAAAGCGAAGTTGA

Coding sequence (CDS)

ATGGTCCTATATGAAGAAAGGAAGTGTTGGCAGAAATGTAAAGTTAGGTGGCTTATAGAAGGGGATGTGAGAACACCAAGCTCTTCCATAGTGTGCTCAACTCAAGAAGAAAGAGGCAATAGGGATCCATGGTTTAACAGGGGAACTCTATGGGTCACTTTGACCTTGTCGCTAGGTCACTTTCCTGGTTTATGGGCGAGGATACATATCAAGATCACTTTTCAAGTACTAGAACAAGTGGAGATCCCCGACTCATTTTCATTTGTTTTGTGTATTTGTAATTTTTTCAATTCCAATTTCTTGGGTTTGCAAAGAGGAATACAAAGTCCCACATTGGCTAGGGAAGGGATTGATCCATGGTATATAAGAGATGAGAATTATCTCCATTGGTTGTTCTTGGAGTCTTGGATAAGAGCACGCTCTCGTTATGCCCGAGAGTGGACAGATGGTCACTTTCCTAGTCTACGGTGTGATCAAAATCTGAATCTAGATCACTTATCAAGTACTCTAACAAGTGGAGTTCTCCAACTGGTTTTCTTTTGTCTCGTGGCATTTGTCATTTGTCACTTTCTTTGTCTAAGAGTTAGTCATGATCACTTATCAAGTACTCCAACAAGTGGAGATCTCCAACTCATTTTTCTCTGTCTTGTGGTGAGGTCAAAATCCAAATCTAGATCACTTATCAAGTACAAGTGGAGATCTCCGATTCATTTTCCTGTGTTACTTTCCTTGTCTATGGGGGAGGATACATATCAAGTACTTCAACAAGTGGAGAGGTCCAACTCGACTTCCTTTGTCTTGTGGTCACTTTCCTTGTCTATGGGTGAGGTCAAAGTCCAAATCATGATCACTTATCAAGAACTAGAGCAAGTGGAGATCTCCAACTTATTTTCTTTCGTCATATGGCCACCTTCCTTGTCTACGAGTCAAAATCCAAATCAAGATCACTTATCATCTACAAGTGGAGATCTCCAATTCATTTTCCTTTGTCCTGTGGTCAATTTTCTTTCCATGGGTAACGATACATATCTAGATCACTTATCAAGTACTCCAACAAGTGGAGATCTCCAACTCATTTTTCTCTGTCTTGTGGTCACTTTCCTTGTCTATGGGTCACTTTCCTTACCTATGGGTGAGGATACATATCAAGATCACTTATCAAGTCACTTTCCTTGTTCACGGGTGAGATCAAAATCCAAAATCAAGACCAACTTATCAAGTACTACAAGTGAAGGCCTCCGACTCATTTTCCTTTGTCTTGCGGTCACTTCCCTTTTTATGGGTGAGGATACATATCAAGATCTTATCAAAATTCTTACAATAAGTGGAGATCTCAGACTCTTTTTCCTTTGTCTTGTGGTCACCTTTCTTGTCTACAGGTCACTTTCCTTATCTATGAGTAAGGCCAAAATTCAAATCAAGGTCACCTATCAAGTACTCCAGCAAGTAGAGATCCGCAACTCTTTTTGCCAGTACAAGTCATTTGTTCCGTCACTTTCCTTATCTATGGTTAGCATATCTTTGATCTTTCCACCTCCTCTTCGTAGGTTACTTTTCTTGTCTATGGGTAAGGTCAATCCAAATCAAGATCACTTATCAAGTCACGTTCCTTGTCTATGGGTGAGACCAAAATCCAAATCAAGATCACTTATCAAGTCATTTTCTTTGTCTATGGGTGAGACCAAAATCGAAATCAAGATCGCTTATCAAGTACTACTACATGTGGAGATCTCCAACACATTTTCCTTTGTCTCATGGTCACTTTCCTTTTCTATGGGTGAGGATACATATCAAGATAACTTATCAAAAGTCCTACAACAAGTGAAGGTCACTTACCTTGTTTATGGGTTACTTTCCTTGTCAATAGAGAGGCCAAAATCCAAATCAAGATTACTTATCAAGTACTACAGTCTTCAACTCATTTTCCTTTATCCTGTGGTCACTTTCCTTGTCTATAGGTCACTTTTCTTGTTTATTGGTGAGGGTACATATCAAGATCACTTATCAAGTACTACAGCAAGTGGAGATCTCAAACTCAATTTCCTTTGTCTTGTGGTGAGGTCAAAATCCAAATCAAGATCACTTATAAGCATATGGAGATTCCATATCATTTTCCTTTGTCCTGTGGTTACTTTCCATGTCCATGCTAGCTGGTTAAAAGGTGGATTGATTTCAGAAGGCAAGATCTTGGATATAACACTATCAATGCCTACCTCTGATCATTTCCCCATTCTTATGGAAACGGGAAGCTTCAAGTGGGTTCCTATATCTTCTAAGTTCAAAAACATGTGGCTCCTTCACAAGTCTTCCCTGAAAGATCTCGAAGGCTGGTGGAAAGAAATCAACCCTTGGGGTTGCCTGGGTTTGCCCTTATCCAGGATCTTAAATATATCAAAGCGAAGTTGA

Protein sequence

MVLYEERKCWQKCKVRWLIEGDVRTPSSSIVCSTQEERGNRDPWFNRGTLWVTLTLSLGHFPGLWARIHIKITFQVLEQVEIPDSFSFVLCICNFFNSNFLGLQRGIQSPTLAREGIDPWYIRDENYLHWLFLESWIRARSRYAREWTDGHFPSLRCDQNLNLDHLSSTLTSGVLQLVFFCLVAFVICHFLCLRVSHDHLSSTPTSGDLQLIFLCLVVRSKSKSRSLIKYKWRSPIHFPVLLSLSMGEDTYQVLQQVERSNSTSFVLWSLSLSMGEVKVQIMITYQELEQVEISNLFSFVIWPPSLSTSQNPNQDHLSSTSGDLQFIFLCPVVNFLSMGNDTYLDHLSSTPTSGDLQLIFLCLVVTFLVYGSLSLPMGEDTYQDHLSSHFPCSRVRSKSKIKTNLSSTTSEGLRLIFLCLAVTSLFMGEDTYQDLIKILTISGDLRLFFLCLVVTFLVYRSLSLSMSKAKIQIKVTYQVLQQVEIRNSFCQYKSFVPSLSLSMVSISLIFPPPLRRLLFLSMGKVNPNQDHLSSHVPCLWVRPKSKSRSLIKSFSLSMGETKIEIKIAYQVLLHVEISNTFSFVSWSLSFSMGEDTYQDNLSKVLQQVKVTYLVYGLLSLSIERPKSKSRLLIKYYSLQLIFLYPVVTFLVYRSLFLFIGEGTYQDHLSSTTASGDLKLNFLCLVVRSKSKSRSLISIWRFHIIFLCPVVTFHVHASWLKGGLISEGKILDITLSMPTSDHFPILMETGSFKWVPISSKFKNMWLLHKSSLKDLEGWWKEINPWGCLGLPLSRILNISKRS
Homology
[Close]
BLAST of Moc04g00410 vs. NCBI nr
Match: XP_022147852.1 (uncharacterized protein LOC111016689 [Momordica charantia])

HSP 1 Score: 147.1 bits (370), Expect = 6.4e-31
Identity = 146/418 (34.93%), Postives = 186/418 (44.50%), Query Frame = 0 

Query: 5   EERKCWQKCKVRWLIEGDVRTPSSSIVCST--QEERGNRDPWFNRGTLWVTLTLSLGHFP 64
           EERKCWQKCKVRWLIEGD  T     V ++  + +R NRDPWFNRG LWVTLTLSLG   
Sbjct: 8   EERKCWQKCKVRWLIEGDENTKLFHGVLNSRRKRQRSNRDPWFNRGILWVTLTLSLGE-- 67

Query: 65  GLWARIHIKITFQVLEQVEIPDSFSFVLCICNFFNSNFLGLQRGIQSPTLAREGIDPWYI 124
               +I +K T  +L       +   ++         FL   RG  S +L          
Sbjct: 68  ---VKIQLKNTEHLLRS---KSNSRTLIKYYGDLQVTFLVYGRGYISRSLF--------- 127

Query: 125 RDENYLHWLFLESWIRARSRYAREWTDGHFPSLRCDQNLNLDHLSSTLTSGVLQLVFFCL 184
              NY   L    W R   +Y  +W  G FP L         HLS+              
Sbjct: 128 ---NYFPCL----WGRIHIKYFNKWR-GCFPYLWVKSKSKSYHLSA-------------- 187

Query: 185 VAFVICHFLCLRVSHDHLSSTPTSGDLQLIFLCLVVRSKSKSRSLIKYKWRSPIHFPVLL 244
                                  SGD             S S S + +           L
Sbjct: 188 -----------------------SGD-------------SDSFSFVLWS----------L 247

Query: 245 SLSMGEDTYQVLQQVERSNSTSFVLWSLSLSMGEVKVQ---IMITYQELEQVEISNL-FS 304
           SLSM ED YQ+LQQVE            SLS  E+K Q   I ITYQ L QV+++ L + 
Sbjct: 248 SLSMSEDAYQILQQVEMPP---------SLSTSEIKNQKSKIKITYQIL-QVKVTFLTYG 307

Query: 305 FVI--WPPSLSTSQNPNQDHLSSTSGD-LQFIFLCPVVNFLSMGNDTYLDHLSSTPTSGD 364
           F +  +P S   S++  + +LSST+ + L+ IFLC  V  +   +  +   LS +     
Sbjct: 308 FFVGHFPCSRVRSKSKIKTNLSSTTSEGLRLIFLCLAVFVIC--HFPFYGSLSLSMGEVK 323

Query: 365 LQLIFLCLVVTFLVYGSLSLPMGEDTYQDHLSSHFPCSRVRSKSKIKTNLSS-TTSEG 413
           +Q I  C  +      S SL M ED YQDHLSSH  C +VRSK K + +LSS TTSEG
Sbjct: 368 VQFIITCQELE-----SRSLFMSEDIYQDHLSSHLSCLQVRSKIKNQDHLSSTTTSEG 323

[Close]
BLAST of Moc04g00410 vs. NCBI nr
Match: RVW48032.1 (hypothetical protein CK203_089187 [Vitis vinifera])

HSP 1 Score: 63.2 bits (152), Expect = 1.2e-05
Identity = 28/62 (45.16%), Postives = 34/62 (54.84%), Query Frame = 0 

Query: 738 TSDHFPILMETGSFKWVPISSKFKNMWLLHKSSLKDLEGWWKEINPWGCLGLPLSRILNI 797
           TSDH+PI++ET  FKW P   +FKNMWL H S  +    WW+E    G  G    R L  
Sbjct: 35  TSDHWPIVLETNPFKWGPTPFRFKNMWLQHPSFKESFGSWWREFQGNGWEGHKFMRKLQF 94

Query: 798 SK 800
            K
Sbjct: 95  VK 96

[Close]
BLAST of Moc04g00410 vs. NCBI nr
Match: RVW90389.1 (LINE-1 retrotransposable element ORF2 protein [Vitis vinifera])

HSP 1 Score: 62.8 bits (151), Expect = 1.6e-05
Identity = 28/63 (44.44%), Postives = 36/63 (57.14%), Query Frame = 0 

Query: 738 TSDHFPILMETGSFKWVPISSKFKNMWLLHKSSLKDLEGWWKEINPWGCLGLPLSRILNI 797
           TSDH+PI++ET  FKW P   +F+NMWL H S  ++   WW+E    G  G    R L  
Sbjct: 924 TSDHWPIVLETNPFKWGPTPFRFENMWLQHPSFKENFGRWWREFQGNGWEGHKFMRKLQE 983

Query: 798 SKR 801
            KR
Sbjct: 984 HKR 986

[Close]
BLAST of Moc04g00410 vs. NCBI nr
Match: RVW93496.1 (hypothetical protein CK203_035058 [Vitis vinifera])

HSP 1 Score: 62.8 bits (151), Expect = 1.6e-05
Identity = 33/81 (40.74%), Postives = 40/81 (49.38%), Query Frame = 0 

Query: 719 LKGGLISEGKILDITLSMPTSDHFPILMETGSFKWVPISSKFKNMWLLHKSSLKDLEGWW 778
           L GG +    IL+  L   TSDH PI +ET S KW P   +F+NMWLLH    +    WW
Sbjct: 88  LSGGSLRRWVILE-ALPRWTSDHSPICLETNSLKWGPTPFRFENMWLLHPEFKEMFSDWW 147

Query: 779 KEINPWGCLGLPLSRILNISK 800
           +E    G  G    R L   K
Sbjct: 148 QECTVEGWEGHKFMRKLKFVK 167

[Close]
BLAST of Moc04g00410 vs. NCBI nr
Match: RVW70180.1 (hypothetical protein CK203_057138 [Vitis vinifera])

HSP 1 Score: 62.4 bits (150), Expect = 2.1e-05
Identity = 29/79 (36.71%), Postives = 42/79 (53.16%), Query Frame = 0 

Query: 721 GGLISEGKILDITLSMPTSDHFPILMETGSFKWVPISSKFKNMWLLHKSSLKDLEGWWKE 780
           G L  +G + ++ L   TSDH+PI+++T  FKW P   +F+NMWL H S  ++   WW+ 
Sbjct: 205 GHLFPQG-LQEVLLPRRTSDHWPIVLDTNPFKWGPTPFRFENMWLQHPSFKENFRNWWRG 264

Query: 781 INPWGCLGLPLSRILNISK 800
               G  G    R L   K
Sbjct: 265 FQGNGWEGHKFMRRLQFVK 282

[Close]
BLAST of Moc04g00410 vs. ExPASy TrEMBL
Match: A0A6J1D3H5 (uncharacterized protein LOC111016689 OS=Momordica charantia OX=3673 GN=LOC111016689 PE=4 SV=1)

HSP 1 Score: 147.1 bits (370), Expect = 3.1e-31
Identity = 146/418 (34.93%), Postives = 186/418 (44.50%), Query Frame = 0 

Query: 5   EERKCWQKCKVRWLIEGDVRTPSSSIVCST--QEERGNRDPWFNRGTLWVTLTLSLGHFP 64
           EERKCWQKCKVRWLIEGD  T     V ++  + +R NRDPWFNRG LWVTLTLSLG   
Sbjct: 8   EERKCWQKCKVRWLIEGDENTKLFHGVLNSRRKRQRSNRDPWFNRGILWVTLTLSLGE-- 67

Query: 65  GLWARIHIKITFQVLEQVEIPDSFSFVLCICNFFNSNFLGLQRGIQSPTLAREGIDPWYI 124
               +I +K T  +L       +   ++         FL   RG  S +L          
Sbjct: 68  ---VKIQLKNTEHLLRS---KSNSRTLIKYYGDLQVTFLVYGRGYISRSLF--------- 127

Query: 125 RDENYLHWLFLESWIRARSRYAREWTDGHFPSLRCDQNLNLDHLSSTLTSGVLQLVFFCL 184
              NY   L    W R   +Y  +W  G FP L         HLS+              
Sbjct: 128 ---NYFPCL----WGRIHIKYFNKWR-GCFPYLWVKSKSKSYHLSA-------------- 187

Query: 185 VAFVICHFLCLRVSHDHLSSTPTSGDLQLIFLCLVVRSKSKSRSLIKYKWRSPIHFPVLL 244
                                  SGD             S S S + +           L
Sbjct: 188 -----------------------SGD-------------SDSFSFVLWS----------L 247

Query: 245 SLSMGEDTYQVLQQVERSNSTSFVLWSLSLSMGEVKVQ---IMITYQELEQVEISNL-FS 304
           SLSM ED YQ+LQQVE            SLS  E+K Q   I ITYQ L QV+++ L + 
Sbjct: 248 SLSMSEDAYQILQQVEMPP---------SLSTSEIKNQKSKIKITYQIL-QVKVTFLTYG 307

Query: 305 FVI--WPPSLSTSQNPNQDHLSSTSGD-LQFIFLCPVVNFLSMGNDTYLDHLSSTPTSGD 364
           F +  +P S   S++  + +LSST+ + L+ IFLC  V  +   +  +   LS +     
Sbjct: 308 FFVGHFPCSRVRSKSKIKTNLSSTTSEGLRLIFLCLAVFVIC--HFPFYGSLSLSMGEVK 323

Query: 365 LQLIFLCLVVTFLVYGSLSLPMGEDTYQDHLSSHFPCSRVRSKSKIKTNLSS-TTSEG 413
           +Q I  C  +      S SL M ED YQDHLSSH  C +VRSK K + +LSS TTSEG
Sbjct: 368 VQFIITCQELE-----SRSLFMSEDIYQDHLSSHLSCLQVRSKIKNQDHLSSTTTSEG 323

[Close]
BLAST of Moc04g00410 vs. ExPASy TrEMBL
Match: A0A438EK20 (Uncharacterized protein OS=Vitis vinifera OX=29760 GN=CK203_089187 PE=4 SV=1)

HSP 1 Score: 63.2 bits (152), Expect = 5.9e-06
Identity = 28/62 (45.16%), Postives = 34/62 (54.84%), Query Frame = 0 

Query: 738 TSDHFPILMETGSFKWVPISSKFKNMWLLHKSSLKDLEGWWKEINPWGCLGLPLSRILNI 797
           TSDH+PI++ET  FKW P   +FKNMWL H S  +    WW+E    G  G    R L  
Sbjct: 35  TSDHWPIVLETNPFKWGPTPFRFKNMWLQHPSFKESFGSWWREFQGNGWEGHKFMRKLQF 94

Query: 798 SK 800
            K
Sbjct: 95  VK 96

[Close]
BLAST of Moc04g00410 vs. ExPASy TrEMBL
Match: A0A438I0Z7 (LINE-1 retrotransposable element ORF2 protein OS=Vitis vinifera OX=29760 GN=LORF2_149 PE=4 SV=1)

HSP 1 Score: 62.8 bits (151), Expect = 7.6e-06
Identity = 28/63 (44.44%), Postives = 36/63 (57.14%), Query Frame = 0 

Query: 738 TSDHFPILMETGSFKWVPISSKFKNMWLLHKSSLKDLEGWWKEINPWGCLGLPLSRILNI 797
           TSDH+PI++ET  FKW P   +F+NMWL H S  ++   WW+E    G  G    R L  
Sbjct: 924 TSDHWPIVLETNPFKWGPTPFRFENMWLQHPSFKENFGRWWREFQGNGWEGHKFMRKLQE 983

Query: 798 SKR 801
            KR
Sbjct: 984 HKR 986

[Close]
BLAST of Moc04g00410 vs. ExPASy TrEMBL
Match: A0A438I9V4 (Uncharacterized protein OS=Vitis vinifera OX=29760 GN=CK203_035058 PE=4 SV=1)

HSP 1 Score: 62.8 bits (151), Expect = 7.6e-06
Identity = 33/81 (40.74%), Postives = 40/81 (49.38%), Query Frame = 0 

Query: 719 LKGGLISEGKILDITLSMPTSDHFPILMETGSFKWVPISSKFKNMWLLHKSSLKDLEGWW 778
           L GG +    IL+  L   TSDH PI +ET S KW P   +F+NMWLLH    +    WW
Sbjct: 88  LSGGSLRRWVILE-ALPRWTSDHSPICLETNSLKWGPTPFRFENMWLLHPEFKEMFSDWW 147

Query: 779 KEINPWGCLGLPLSRILNISK 800
           +E    G  G    R L   K
Sbjct: 148 QECTVEGWEGHKFMRKLKFVK 167

[Close]
BLAST of Moc04g00410 vs. ExPASy TrEMBL
Match: A0A438EU27 (Transposon TX1 uncharacterized 149 kDa protein OS=Vitis vinifera OX=29760 GN=YTX2_345 PE=4 SV=1)

HSP 1 Score: 62.4 bits (150), Expect = 1.0e-05
Identity = 31/81 (38.27%), Postives = 42/81 (51.85%), Query Frame = 0 

Query: 719 LKGGLISEGKILDITLSMPTSDHFPILMETGSFKWVPISSKFKNMWLLHKSSLKDLEGWW 778
           L G L  +G  L   L   TSDH+PI+++T  FKW P + +F+NMWL H S  ++   WW
Sbjct: 681 LWGQLFPQG--LQEALLRRTSDHWPIVLDTNPFKWSPTTFRFENMWLQHPSFKENFRNWW 740

Query: 779 KEINPWGCLGLPLSRILNISK 800
           +     G  G    R L   K
Sbjct: 741 RGFQGNGWEGHKFMRRLQFVK 759

The following BLAST results are available for this feature:
BLAST of Moc04g00410 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022147852.16.4e-3134.93uncharacterized protein LOC111016689 [Momordica charantia][more]
RVW48032.11.2e-0545.16hypothetical protein CK203_089187 [Vitis vinifera][more]
RVW90389.11.6e-0544.44LINE-1 retrotransposable element ORF2 protein [Vitis vinifera][more]
RVW93496.11.6e-0540.74hypothetical protein CK203_035058 [Vitis vinifera][more]
RVW70180.12.1e-0536.71hypothetical protein CK203_057138 [Vitis vinifera][more]
BLAST of Moc04g00410 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Moc04g00410 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1D3H53.1e-3134.93uncharacterized protein LOC111016689 OS=Momordica charantia OX=3673 GN=LOC111016... [more]
A0A438EK205.9e-0645.16Uncharacterized protein OS=Vitis vinifera OX=29760 GN=CK203_089187 PE=4 SV=1[more]
A0A438I0Z77.6e-0644.44LINE-1 retrotransposable element ORF2 protein OS=Vitis vinifera OX=29760 GN=LORF... [more]
A0A438I9V47.6e-0640.74Uncharacterized protein OS=Vitis vinifera OX=29760 GN=CK203_035058 PE=4 SV=1[more]
A0A438EU271.0e-0538.27Transposon TX1 uncharacterized 149 kDa protein OS=Vitis vinifera OX=29760 GN=YTX... [more]
BLAST of Moc04g00410 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
Relationships

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

Feature NameUnique NameType
Moc04g00410.1Moc04g00410.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
molecular_function GO:0003824 catalytic activity