Lag0017732 (gene) Sponge gourd (AG‐4) v1

Overview
NameLag0017732
Typegene
OrganismLuffa acutangula (Sponge gourd (AG‐4) v1)
DescriptionBEST Arabidopsis thaliana protein match is: embryo defective 1303 .
Locationchr5: 8011889 .. 8026698 (-)
RNA-Seq ExpressionLag0017732
SyntenyLag0017732
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.
ATGCAATCTAATCAGGAGGTGATAGACCAAATTCTAGGGACGGTGCCGAATAGCATATCAGAAGAGCAGAATGTAAAGCTCACAACCCCTTTCACGAGAGAAGAACTCTATAGCGTTGTCAAACGTATGCATCCTACTAAAGCACCAGGTCTAGATGGGATGCAAGCCATCTTCTACCAGAAATATTGGGAGGTGGTGGGATCGGAGGTGTGTGACTTCTGTCTGCAGTATCTGAATGGGACGGAGAGCTTGAAGCAAATTAACAAGACGTATATTGTGTTGATTCCAAAGAATAAGGACCCTAAGTCCATGAAGGATTTTAGTCCTATCAGTCTTTGTACAGTAATATACAAAATTATTTCCAAAGCCTTGGCTAATCGTTTGAAAGGTTTTTAAATAACATTATTTCCCCTAGTCAGTCGACGTTTGTCCCGAGAGATTAATTAATGATAATGCTATTCTTGGATTTGAATGTACTCACGCGGTCAAGAGTAAAAGGCAAGGGAAAGATGGAGTCATTGGCCTTAAATTAGATATGAGTAAAGCATATGACCTGGTGGAATGGAGCTATATCTAGAATATCATGGGTCAGATGGGGTTTTGCAGGCGATGGATTGAGCTTGTCATGGGTTGTGTTGAATCAATCACATACCAAGTTTTATTGAATGGAACTCCGAGAGAGGTCTTCTTTCCTAATAGGGGGCTTAGGCAGGGTGACCCCCTCTCCCCCTATCTCTTCCTGATGTGTGCAGAGGGTTTGTCTAGGATCCTGATCCACGCTGAATCGAGGAAGGAGGTAACAGGTTTGCGTATCAATAAGCATTGTCCTAGTATCTCTCATTTATTCTATGCCGATGACTGCTTGTTGTTCTTTAAGGCTTGTATTTCTGATTGTAGGCGTATCAAGAATATTTTGAATACATATAAAAAAACATCTGGACAAACAATTAATTATGATAAGTCCAATTTTATAACTAGCCCGAACACTAACATGACTCTGGAGAGAGAGATTAGGAGTATTTTGCAAGTGAATCAAACTGCATGCCTGGGTCAATACCTTGACCTCCCCTCACAGAATGGGCGTAACAAAAAGGAGATTTTCAACAATATCAAAGATCGAGTGTGGAAAGTCTTGTAGGGATGGAATGGCAATCTCTTCTCTGCGATAGGGAGGGAAGTTCTAATCAAATCTGTGGCTTAAGCTATCCCTAATTATGCGATGAGTTGTTTTAAATTTCCTTTAACTTTAACTAACAAGTTGAATTCGATGTGTGCTAGGTTCTGGTGGGGCTCAGGATCATCAGGCAGGAAGATCCACTAGAGGAGTTGGAAGAAACTTTGCATCCATAAATCTAACGGGGCATGGGTTTTCGAGACCTTACCATCTTCAACCAGGCTATGTTAGCGAAGCAGAGCTGGAGGATCTTGAGGTACCCGAGAGCATTCTATCAAGGGTGCTTAAGGGGGGTATTTCAAGAATGGGAGCTTTCTTAAGGCTGAAGTGGGCAATAATCCTTCCTTCACTTGGCGAAGTATCATCTGGGGGAGAGATCTTTTTAAACAAGGATATAGATGGCGTATTGGCAGCGGAATTAATATAGAAGCGGCGTCGGATCCTTGGATCCCAAGAGATGGGTCTCCCAAACCGATCCTGCGAATGGAAATGCTTCTAAGTATACTGTGGCTCAACTCATTCATCCATCTAGAGTCTGGAGAGAAGACCTTGTCAGAGATTTGTTCCTCCAAGGGGATGCTAATGCAATTTTAAACATCCTGATCAGCTCTAGACAAAGGATGGATGAGATTGTTTGGAACTATGATCCTAGGGGTATTTTCTCAGTTAGAAACGCTTACCGTTTAGGAGTTAAACTGCAAACCTCTGCAAAGACTTCACCCTCATCCTCCCAATATAAGAAGGCAATCTGGAAGCAGTTCTGGAAAATTAAAATCCCCCCGAAAATTAAAGTTTGTGGGTGAAAAATCTATAACGATCTCCTCCAACTTGTACAAATTTGATTAAGAGGGGATGGACATTAACCCTATACGTTTTCTTTGCAGGTCCAAGCCGGAGTCCATTCAACACCTTCTTTGGGAATGCAATTTAACAAAGGGATTATGACCTAAGTTTTTCAATTTTCCTAATGATACTATGTTGGTGACAGGAGCTCCTGGATGGTGGCTGACTTCTGTGAGTGCACGTGGAAAGGCCCAAGATGGAAGGTGTGGATGAGGACAATCTCAAGAGGAGTTTGGTTTGTGGTGGCAGATCTGGAGCTATAGGAACGACTTAATGCACAATGGTTTTCAGTCCAACAAAGACAACATCAGACATCAGATTCAAAGAGCGTTGAACTCGATTTTGAGAGACGAAGACTCTTACCGGCGAGAAGAAGTTGCGACAAGGGAGATAGATCCAAACGGCGGGAAATCTCCTCTGGAATGGCTGGGACCACCGGCTGGTTTCTGCAAATTGAATACCGATGCGAGAAGACGAAAAACGGTGGAATTGGATGGGTCCTCAGGCAGTGGGATGGAACTCCGTTGAGCGCCGACTTTAAATTCATCGACCGTCAATGGAAAATCTCTTGGCTGGAAGCCCTGGCTGTAGTGGAGGGTTTGACATCGATTCCTACATTCTCCCACAAGCTGATTCTCGAGCTTGACTCAGTGCATGTGGTAAATCTGCTTGCTGGTAGGGAAGAAGATGCAACAGAACTCTCCAACTTCATTGATGAGGCGAAGTCCCAGATGTCCGGCTTTCAAGTTCACGAAGTGGTTCATGTTTCTAGAAGGAGAAATTATTTGACCCACCAATTGGCCCAAAAGGCCCATTCCAGTCAAAGGTCTGAGAGCTGGAGTGGTTGGTTCCCGGTGTGGTTTTTGCAAATGAACAAGATTGATATTAGGGCTATTAATGATCGTAGTGGGGGTGTCTGTCCTACGATAGGTTGCCCATTAGGAGCTTCTGCTCTTGTTTAGCTGTGTTGTTTTGTATTGGTTCTAAAAAAAAAGTTGGGATTTAAAATTCAACTTAATCCTCGAAAATTCTCAAAGATTTGGTTCGGTTTCAAGGGTTGTCTTTAAATTAGAAGGGCTTGGTTATTTAGAATGAAGTAAAAGAAGAAAAAAAAAAAAAAAAAAAGCCCTATCTCTCCCTCTCTTCCTCTCGGCAACATCTCTCTCTCGTATTCTCTTTTCTCCGGCGAGTAAACCCACGACCAGCGGCGGTTGTAGCCCTCTCTCTCGCGTGCCGTCTCAACCTCGTGCCGCCGCCGCTTGCTCTGCCTTCGTCTCCCTCTCTTCGTGCCGTTGGCCAGCCGCGAGGAGACCCACAGCTTGAATCTTCTCCTTCTTTCTCGCGTGGTAAGGTTGCTTTTCCCCTCGTTTTTGTTTAGTTTCGGCCAGCACGATCTCAAGCTCTCTCTTTCTCTCGTTCTCAGCCAAGACCCATTGTGGGTTTTCTCTCTATCAGTCGCTGCAGTTTGGAGAAAATTTTGCTTTAATTTAGTTGGTGGGCTTGGATTACTGAAGTTGGGTTTTATGGATTGTTGTTTGTGATTTGATTTTGGCTTTTGTCTCAGTTGTTTGTTTTGTTTGGACTGAAAGAGAATTTTGCTTCAATTTGGAGTTTGAATCACACTGGTTGATGGAGCACATAGCTGGTTTGTATGTCTAGAATTTGCGCCGAGTAGCATTATTGAACATCAGATTGATGTGCATTTCAAAGTAAATAATTCATTAGTTTGTTTCTACGAACGATAGATTTCTAGAACAATTGAACTTGTCCTTTCCATGGGAATTTTGGACTTGTGAATAGGGATTTTCAATGTATTTATTTCTGGGTATGGTTGAATTGATGAACAACTTTTAACTTTAATTGTTCAATTGATTCAAGTTTGCAGAGTTTGAAAATACCTCCAACTTTGTTGGATGGTTAAACAATAAGGCAAAACTCATACATAGTAGACCTTTGTCTTGTAAGCAATTTGGCAAAATGCCTCCAACCTTTTGAGCTATACTTGGTTTGCTTTTTGTCATTGGATGACTTCGTCCTTTACAAATGAGACTTCTAGACAAAGTCATAATCCTAATCCTGGTGTCAATAGCAAAGTAGGATTGTTAGGAAAAAGAAAATCTACTAAAGCTTCAGATACTTGGGAGCATTTTATTAAGTTGAGGGATGTGATCTTTAATTTTCTAGGAGTTTCTAAAGTTTTGAAGTTCTAGTTTATTCTCTATCTGGATTCATGGATTCAAGAAGTTGTAGCGTAGAGAACAAGTATTTCTACATTTGGCTTCAAAAAGATTGTTTTTTTGTTGAAGATTTTGAAAGATGATTCTTCCCCTTCATTTGTCCCATATTAGATGGTTTGTAAGAGTTATGGTTGAGGTGATGCAAAAATCCTTTTATTCCAACTTTTTAAAGCAAGACAGAGATGATTTGGGGACATGTCGTCTTCAGAAAAGAAGAACTCCTCTAGGATGGTTGATGGAATGTGTGGTTTGGCCTCGCACCGGTGGTAGAAAGATTCTCCGGATTCCTAATGGCTCCTTCCAAAGAGATTGGTTAGCTTTTTGCGACATGATTAAAGATTTCTTGGCAAGTAATGACTATGGCTTCAAGAATCATGTGCTTGTTTCTCAAAAACAAGTTTCTATCACTTTCAATAATAAAGCAAAGGTTTTTTATTTGAATGTGGTCAAAGAGAAAGTTGCTTTACTTGGAAAAGACTCTCGGAAGAATCATTGGGTTAGGAAAGAGTCTGAAGTTATATCTTTGGATTGGAATTCTCTGATGGTTATCAAATAGCTTAATGATTTTGATGATTGGAAGGAAATTTCCCTTACTTGGAAAGAAGTTTTTAATGACAATTGTTTGATCAATCCCTTTATGGCTGAGCATTATGTAAATTTTCTCAAAATTTACTTTTGAAAGGCATCAAGAAAGAAGGCTCATTGTAGAAAGAAGATAAAATTTATTTGAAGATTCAACGTTGGTCTACCAAAAAGCATAGAAAGAACTGAGCTTGTGAAGAGCTATGGAGGTTGGAGTAAAATTCATAACCTATCTTTTAACCATTGGACTCATCATTGCTTGGAAGCTTTAGGAAATAACCTTGGTGGTTTTTGTAAGGTGTTCTTCAAAAAAATTTAATTTGTTGGACTATGAACACACATATTGAAGTTCTTCCAAACAAATGTGGCTTTCTTCCCACTGAAGTTGAAATAATAGATCTGTCTTTTGGGATTTGTAGTATTAATATCTCCGAAATTAGTGAAGATTTGATAAATCTTCCCATTGATGGCTTGTTGGAGCAAGGAAAAATTGATTTGAGCCATTATTTGAATTTTCTTGATATTGATCATATTAGTAAAATTTTTGGAGATAAACAGCCACTTGAGGAAGATTAATAGGTTTTTGTTCCAAGTGTGATGAAGACAACACTCCACCTTCTGCTTCTCTTTTGAAAAGGAATGTCTCTCTCCCTTAATTAATGCAAATTCTCCCGAGGAAGGTGAGATAATTGGCATTTATGCCCCTCGGTTGGAAGTTGGTTTAAAGGAAAAATTTATTGGGCCTTTACCTTCCCCAAGTATTAATGAGTCTCTTTGGATGGGTGTCTTTTGAATCCCCCATGTGATCCGTCAGCATCTTTTATTAAGCCTTTTAATGAAGCTTTGCATTTTTCCTTCCGTCTTCAATGCTCCATTAAACACCTACGAAGAGCCTTTTTGAGGCCACCAATATGCCATTTGACGATTCCATTAGGGTTCTTGAGTTTTCAAAGTCTCTAAGTGTTTAATGGAGCAATCATGATGGTCTTCCCAAGATTAATTTTATTAAAAAAATATTTGTTTTTTTTCAAATTTTCTCAATCTCCATCCGATTCTTCTTCTTCTCTTTCACATTTCTTTTTCCCATCTTCTTTCTTTTCTTCCTCTCTTCTTCTCTCTGCATTTTTTTTCTTATCCTTCTTTTCATTTCTTTCTTCTTCCTTTTCTCATTTTTCGTTTTTTCCTTCTTCTTCTGTCTTCTTCTTCTTTGTTTTTATTTCTTCCTTTCTTCTTCTTCTTCTTCTTCTTTTTTTGTTTTTCTTACTTTTTCTTCTTTCTTTTTGTTTCTTCTTATTCTTCTCTGTTTTCATCTCTTCATTTCTTCTAACTATTTTATCTTCTTTGCGGATTCAAACTTTTTTTACCTCTTTTGTTGATCTTCTTCTTTCATTTCGCCGGAGTTTTTAAACCGACGGAAACCGACCGACCGCCGGTGTAGTCGGTCGGCCGGCGTGGCCAACTTCTTCCAAACCGACAGAAACCGTCCGCCGAAAACCGACGTGTCGGTGGTCGGCGTCGGTTTGAGCCCAAAACCGACGACCGACCGATGATCACCCCTAGTGATACTGATTTTGAATCTGAAGTCAGTCTAAGTAGCTTGGATTCCATCCTTTCGCCCATGGAAAATAAAGTTGACGATATTGAGATTGAAGATTCATTACTAGAAGACCTAGGTTCTTTATTTCAAAATGTGACAAGGAGACACTTCATCCTCCATCCTTAGTGCCTAGTAAATTTGCTTCTTTTATTGAAGTTTGTGGTCTTGAGTTACGTGAGTTTGCTAGGACTATTTGTAAATATTGTGGAGCTACATATGCATATGACTCTAAGAGAAACGCGACAACAAATATGAAAAGACACTTAGAGAAATGTAAGGAGTATATAAGTGAGAGGATTATGTTGAAGGAGAGAGGGATTCTGAATGTAACTTGATAGCTACATCGCTCACTCAAGAGATTTGTAGAACGATGCTTGCATATGGTCACATTGGATGATTGCCATTTAAGATTGTAGAAAGTGAAGGATTTTCATGAGTCACTCTTGCAAAAGATTGTTTTCAATGGTACATGAGAGAGAAAAAGAGGTTGAAGAGTGCCGTAACTAGAAGTGGCCAAAGTTTGTTTAACAACTAATACATGGACTTCTCAATGAAAGTTGGGTCTTTATAAAAAAAGAAAACAAAGATATTTGATATTTGAAACTTATTTTAACTATACTTTTGGGAGCTTCATTTAGTGTAAACTTTGATTTTGAAACTTAGTTAGCTCTTTTCTTATAGCTTTTTTTTTTTTTTTTTGAAAAATTGGAGCTTATTGTTGTGTGTGTGTGTGTATATATAAATACAAGTATTATTTGAAATTTGTTGATGTAGTTTAAAATGTTAGTTTTGTTGAACATTTATTAGATTTATTTCCAAAAAAAAACATTTATTAGATATGGTATGAATTATCAAGAAATTGATGAAGTATCAAAAGAGGGTTCAATATAGAATTGATAAAGTTTTGACAATGGTTTTAGTTTGAAGTATCAAAGGGGTTCAGTATGGCATTGATAGAGTGGCATTACTTAAAAAAAGGGATTAGCTCGAACCGACCTGGTTCGGGTCGGTTGTTCGTTCAATTGACCTTGAACCAACTTTTTTACACCCCTGATCAATATCATCAACAAGCCATAATAGTTTGAATTACCCCTATCCCTTTTATGAATGGAAAAGAATCCAAAAAAATACTGTGATGTTTTCTTATCTCACACCCTCCCTTTTGATTCTCCTTGACCCCCTTTGTCGTCGTTGATTTCTCTCTTCCCACCGTTCTAGCCTCCCATGGAGTCTTCTTTAGAATCCATTCTAGTATCATCCTCTCAATTCCCGGTTCGTTGTTGCTAGTTGCCGCTGTTGCACCACCATTGTTGGTGTTGTTGGTTGCCACCACACTTCGTCTCTAGTCTTCTCTCAGTATTTCTAGCTGTAAGGTAAGTAACCTTCACTCTCTTCCTCAATTGTTGCCTCTGCTTTTCAAAATTGAAAAGCCAAAGCGGTAGATCAATTGGTTAATTCATTTCAGTCTGGTTTGGACAGAAGCTTGTTTCTTATGGACATATTTGATGAAGTTTTTCAGCTATGGAATGTAGGTCTACGAGGCTTGTTGCAGGCTTACAGCGATGAGATTGATCGGTGTCTAATACAAAGTTTTTGTTTTGGATAAGAAATAGGGTACCTTTATTAAAATAAAAACCCTATCAAACAACCTAAAAGCCATAAGGAGAGAAGGCGTCTCCAAGTGTCTAATACATAGTTATAATACACATAAATTGCTAAGGCCCCGTTTGATAACCATTTCAGTTTTTGGTTTTTGGTTTTTGGTTTTCTGTTTTTTAAAACAAAAACCATATATGTTTGATAACTGTTTTTTATTTTCTGTTTTTAAAAACAGAAAACCAACTTGTTTGATAACGGTTTTTGGTTTTCAGTTTCTAAAAATTAGAAAGATGAAAAGATGTTTTAGAGAGAGAAAAAAGTGTAGAGACGTTGAAACAAAAATTTAGATACACAAATATAAATGTTTTCAAGATAAGTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAAAGACGAGAAAAGTTAAACATAGAAAATTTAGAGGGATGAAAGAAAATATTTAGAGAAATAATATTAGTTATTAGACTCGAGAAAAGATATTAGTTAGAGGAAAAATAGGAAACAAGTAAGAGTAAAAACGATAAATTTTATATTAAAAAATTAAATAAAAAAAGAAAATTTAGAGAGACAATAAGGTTAAGAGTAAAAGATATGCTAAAGAAATAACGATAAATTAGAAAAATAAAGAAAAGTTGTAGCGATAGAAAATTTTGGTGACTTTTTCTTTTCAAAAGAAAAATTAGAACATGTTAATTAAGGAGAGAAAAATTATTGATAAGTTTTTAGAAATAGACAAGATATAAAGAAAAAAAATTGAGAGAGAAAATTTTAGAGAGAGAAAAATAAATTTTATAGAGTAAAAAACCTTTTAGAGAAAAAAAATAGAGAAAGAAATTTGTTGGAGAAAGATAGGTAAAAGAGAAGAAAAATAAGCATTAGAAGAAAAACGAGTTTTTGAAAAACAGAAATCTGTTTTTAAAAACTACTTTTTTTTGTTTTTGAAATTTACTTATAATTTCAAAAACGTTTTTAAAAAACATAAAACAAAAAACAGAAATGGTTATCAAACACCCCTGTTTTTAAAAAATGAAAAACAAAAACAAAAAACAAAAACGAAATGGTTATCAAACGACCCCTAAGTTATTTGTGAATCCAATCATAGCGTGCACTCAAGGACTACTGCACACTTGCATTCATTTGCAAAATATGGACTACTTCAGAATCACATTTCATTTGAAGCTCATAACTCAACAAGGTGACTTTCTTTCTCTTTTGCTGTAACATGTTTTTGAGACCATAACTATTTCAGTTTACAGTAGGAGCAAGTACTGCTTATATGTGGTCTTAATGAGATCAGTAGAAGGAGGCTATTTGGCCTTTGGAGGTCCTTGTGGATTGGAATTTTAAAGGCAAGGCTAAGGTTTTTAGGAATTGTGCGGGTAGAGCCCTTTTGAAATTGTCATGGTTATTAAATGTTTGGCAGGCTCTTATTTTGTAGTCCTTTTCGGGTGGGTCTTCTTCTATCCCTGTCCTTCCACCCTTTCACTAGAAGGAGAGGTTTATGTGGTGTGCTGGGAATTTGTAGTTTTGTGGAGCCTTTGGGGTGGGAGGAACAATAGAACCTTTAAAGGACTTGAGAGGACTTCGAGTGATGTACGGTCCATTTCATTCAAAGGGGAGGTTTTTGTGGTGAGCTGGGCAACTAAGAAGCACGGACACGGACATGGACACGATAGGACACATCGATACGTCAAATTCTAAAAATCTAAGATACGGACTCGTATATTTTTATAAAAATTTAGTATATCTATAGATTTTTTTTTTAAAAAATAGTATATTTATAAAATTTTCTTGAGAGTAGTTTAATAATCATTCATTTTTTTTTTAAAAAATAGTATATTTATAAAATTTTCTTGAGAGTAGTTTAATAATCATTCATTTTTTTTTCAAAATTTAAAAACAGTTCTTTTATTGGGTTGGGCCTTTTATCTAGGTTAACTTTAAAAGGAGGTTTTAAAAGATAAAAAGAAGAAAAACTTAAATGAACCAGAAATATGGTGGGTGACGGGAGATTTTGGAGGCAACTTCCGGCGGCAATTGCTACAAGCGGCGGAAATTGCAACAAGCGACGACAACCGTGACAAAGTGAGAAGAAAAGAGGCCACTCGAAGGCTGTTGTGTTTCAAAATCATGAAGAAAACTGGTTCTCGTTTGAGGTTTTTGTGTGATTTTGAAATTGGTTCTCGTTTGAGGTTTTCGTGTTCTCTCTCTCTCATTTAGCTTAGATTCCAAAGAATTGTTCAATTCGGACCCAATCTTTTAAATTTTGAAACGAGCGTGTCCGAAAATTTGAAAAAAAAAATGGACACGCAAAATTGCGTGTCTGACACGTGTCCAGAGCGTGTCCGGACGAATCCGTGTCCGACACATATCCTTCCTCCATTTTAGTGTGTCCGTGCTTCATAGCTGGGCAATGTGTAGTTTTATGGGGCCTTTGGGGTGGGAGGAACAATAGAACCTTTAAAGTACCTGAGAGGATTTCGAGTAATTTTTGGTCCTTTGTAAGATTCTATGTTTTTCTCCAGGCTTCATTTTGGCCGAGTCTTTTTGTAATTATCTTTTAGGTCTTATTTTGATTGGAGCCTTTTTTCTAGTTTGGCCTCTTTGCCGTGGGTTGTGTTTTTGTACATCCTTGTATTTTTTTTTTCTTCTTCTTTAAGAGAAGTTCGGTTAACCCTAGAAAAAAAATCTTGGAGAATGCAAAAATGACTACAATGAGTTATATTAGAAACAAGCATCAATGCCATCAACAAGCCAGAATAAAACACCTTAAATACTTTCTTTCCATGTTTCTTACCTTTTTTTTAAAAAAAATATTTGAGTGTCTGAACAACTATTTTGCCTTTTCCTCCTGTACAATCTAAATAAAAGGGATAGGCCAAACACACCTGGATATATGCCGAAATAAACAATAATGATAATCAAATTAGCTTTACCTGCTGTTCATATATAGCTTCTCAAACTCCTTACTTCCGCAGGTAAGGAAACCCCTTACAGTATTGATATTCAGGGAGAGAAACAGCTCTAAGGCAATACAAAACTTCCAGCGAGTTTAAGAGTGCTGGTTACTCTCCTCTCTCTTACCACACTCAGCAGAAAATCAACATAAAAACTCTAATAGATAAAAGACATCATATGTATACTACCCAGCTCTCAACATGGACTCTCCAGACCCTCTCTTGGGACCACAGTGGTCCCCAATTGCTTTCAGTGCCCTCAGCACAATCTCCCATGTAACTAACTCTCTTCTGCATTCTCCATTCTACACCTCCTATAAACTTTCGTTATTGGTGGCCTAACATCAGCCAAATCGGGGCCTCATTGTATTCAATTAGCTCCCTTTATTTATTTTTATTTTTTAAAAGTATTCAGTTGGGACACTTATGTTTTAGGGTCCATCCTTATCAAAGCCACCCTCTATAGGGTTTCTCGGTGGCTTTTGAAAAAAAAATATCCTGTTTGGAAAAGAGTATCTAGAAGATCTTCCAGCTTGACTTCAACAATTTCAGTTTGAATTCTAGCATGCCTTTCAACACCAGCTCTAGAGTTTATGGATTTGATTCGTATCTTGTATTTTTCATTGAATCAATGGAAGTCTATAAAAACAGATAATTCTTATCCACTTTTCTCATGTAGCTTCTTCTTCTTCCTTTTTTCTTTGTGATTCTTAAACTTCCTTAACTGTGCAACACGTATGGTTTGATAATCAATTTTTTTTATGCTGTTTTATCATTTCATTCCTATTTTCATGTTCTTAAATCTTAATTACGTTGTATACAGTCTAGGTTGCAACGTGTAATTAGGAAATTCATTTTTTTTCTCATTTTATTGGTGCTTTGATCTCAGAAATTATTGTTTACAGTGTCAGGTTGTCATCCACCCTCGCCTGGAGATGCTTACTACAAATTCTGGTGCCCTGTTACCTCTTCTACCCCCAGGTACAAGCAACTACTTTCCAAATCGTTTTATTGATTTGATGTAAGGGGAAATGAGCAGATTTAATTATAATAGAAAAGAATCAGTACAAGAGAAGGAAAGAAGGATAAGGCATTTCCCTTACCTCAGAAAGGAACTTGTAAGAAGCAACCATATCTAATTTGATTCGAGAAGTAACGTAATGCCAGAATTCCTACTATAGTCACTCCAACCTGAGGTGCTGTACTGTATACAATCCAAAAAATTGTCAAAGTTTTAGAGATATCTTGGAGGAATCTATTTTCTTTTCAATCTAATATTAGCCATGTAATTGCTTTGTAAGGATTTCCATATAGAACTCTAACTTTATCTTTCAGCTACCAGCCCACAAAAACTTCTGAACCTGGGATCTCATATCCTTCAGGAAGCTTAAGAATCCCCAATCCAACATGATGACAATTCCAGCTTTTAGTGGTAACTTAGTATAGAAAGAGATGGTTTATATTGAGAAAAGTTGACTTCTGTTTAGATCCCTTCCTAATCAGGTTAGTTATGTTGGTAACTGAGGTTGGGGTTTTTGGTAGTTAGGTAGACTAGAGCAGACTTGCAAGAGTATGCCCTTGAATTATCAAAATTCCAATTGCAAAGAGATGTTACATTCTTTCATACTAATATCTATCATGGGTTATTAAGTTTGGGATAAAATAATTTAGCTGGTATAGATCCACTCAAGCAGTCTGATTGGTTGAGATAAAATTTATGTGTTTATATGAAAGGTTTTTTTCCTTGGAAGTATTACATTAACTATTGTAGAAATAATTGTTTCTGGTGTAATGGTGTTTGAAGCTGGCTCGTCTTACATGGACACATCTGTGGTACAACCAAGTCATAGCTTTCAATGGTTTTGAGTTCTCAATATTTAATTAGTCGGCCGAGCCAGGTGGAATATTGATGGACCATAACATCTTGATTATTCTTTGAAATGTATATTTATTTACACTCGGTTGATTGGAGCATTCAATTTTCACTAATGTCTGCTAATTGTGATAAATTAAGATTTGTCAAAGGTCTCTATCTCCGTAACATGATATATGAACTTTTCTTGTGGCCTTGTGTTATCCTCCATGCTTTTAAGTTTCAATATATTTCTGCTCGGGCTAAAAAATGGAACTAATTAGCTTATGTAATCTTTTTTAATTTGAAGACCATTATATTTACATTGGTACTTTATTCAGTTAAAAAGTAGTGGTTTCTTGTTTAAATTATTGTTCTATTACCATTATTTTGACAATTTTTTTGATATTTAGTTGTAATATTGTCTTGGTAAAATAGTGGGTCAGCATTGGGGAAGAATGAAGGCCAAAGATTTCCATCTTAGAAGGGATACTTTCCAACTTCAAACTCCTAATGAGAGGAGACAACCAGTGATTGCTAAAGCAGGACCACTTTTTCTGAAACCAATTCCATCTACTGGGACGAGAGGAGGCATTCTATATTCTAGTAGAAAGAACAATGCTTTCATGTGTTTTGCTGCTTTGGTAAATTGGTTCTTTTTCTATTTGTTTATTTCTTTTAATGGTTGCTTATTTCCTTTTGCCATTGAGTTCAACTGTTTATTTTTTTTACTTGAAAGTTCCCCTCTTATTTTTGGTAGTTGGTAACAATTTTTTTTATTAGAAACATTACGTTAGAATTTAATGTATAAATTTAAGCTTAGATGCCAAGGGAGTTTATCAGAAGGCTTCACAATTTGTTGAAATGAGTTGGTGGGACATTTGGCTTGTGAGGAATCATAGAATTCTTAGAGAGGGTTGAGAGGTATGTAGAGGAGTTGTGAGAGGTTATTAGGTTTAATTCCTCGGCTTGGGCCTTGATGCCTAAGGGTTTTTTTTTTTTTTTTTTTTTTTGGTAATTATCATTTGGGTCTTATTCTTTTGGATTAAAGCCCCTTTTTATACTTTGAGCATTTTTTTTTATGTTTGTTTGCACTTGTATATCTTTCATTTTTTTTTGTTTCAATTTGGTCGCTTGTCAAAAAAGAAAGGAAGTTGAAATGTGCAATAGTTGAAGCCACATTTTTCTCTTTTTCCTAATCAGTCAGTATCTATTTCAACCGTGTTTGAAGGCATATATTAAGTCTGTAGTAGACTGGGTGGTGGATTTTCAAATGGATTTGAGTTTTTGTTAAATAATCAATTCTAAAGAATAAAATAGGTTTTTAGGCATAGTTAAAACAGAAGATTTGAAAGAGAGATTAAAATAAATTAAAAAAAAAAATTTAATGGTGCCATTTCTCTGCAGAATGCTAGATGTGCAGCGGAGCAGACCCAGACTGTTACGAGAGAGGCTCCTACAATCACTGTTCTTCCTGGTAACAATCACTCGCAGATTTTATGAATAATAGTAACTTTTAACATCAATCTTCCTAGTAGTAAGTTGCATATGCACATGTTATCGCTTCTCAACTAGAACACCATAATCTGTTACTCTTTTAGAATAACTTGCATCACTATGTTCTTACCGATTTGTCTCTCCCTAGCATATGCACACAAGGCGTTGTCCTAGGCTATCATAATTTTGGCTGTTGTTAAGCCTTATTTTTATAATTTTAACCAATACACTGTTATTACCTAAAACTAAAATTGTAGGCAAGGAAAAGTCACCGCAACTGGATGATGGTGATTCTGGATTCCCACCTCGTGATGATGGTGATGGTGGCGGTGGAGGCGGCGGCGGCGGAGGCAACTGGTCTGGTGGATTCTTCTTCTTTGGCTTCCTTGCCTTCCTTGGGTTCTTAAAAGATAAAGAAAGTGAAGGGCCTTATCAGAATGATCGGAGAAGATAA

mRNA sequence

ATGCAATCTAATCAGGAGGTGATAGACCAAATTCTAGGGACGGTGCCGAATAGCATATCAGAAGAGCAGAATGTAAAGCTCACAACCCCTTTCACGAGAGAAGAACTCTATAGCGTTGTCAAACGTATGCATCCTACTAAAGCACCAGGTCTAGATGGGATGCAAGCCATCTTCTACCAGAAATATTGGGAGGTGGTGGGATCGGAGGTGTGTGACTTCTGTCTGCAGTATCTGAATGGGACGGAGAGCTTGAAGCAAATTAACAAGACGCGATGGATTGAGCTTGTCATGGGTTGTGTTGAATCAATCACATACCAAGTTTTATTGAATGGAACTCCGAGAGAGGTCTTCTTTCCTAATAGGGGGCTTAGGCAGGGTGACCCCCTCTCCCCCTATCTCTTCCTGATGTGTGCAGAGGGTTTGTCTAGGATCCTGATCCACGCTGAATCGAGGAAGGAGGTAACAGGTTCTGGTGGGGCTCAGGATCATCAGGCAGGAAGATCCACTAGAGGAGTTGGAAGAAACTTTGCATCCATAAATCTAACGGGGCATGGGTTTTCGAGACCTTACCATCTTCAACCAGGCTATGTTAGCGAAGCAGAGCTGGAGGATCTTGAGGTACCCGAGAGCATTCTATCAAGGGTGCTTAAGGGGGGTATTTCAAGAATGGGAGCTTTCTTAAGGCTGAAAAGCGGCGTCGGATCCTTGGATCCCAAGAGATGGGTCTCCCAAACCGATCCTGCGAATGGAAATGCTTCTAAGTATACTGTGGCTCAACTCATTCATCCATCTAGAGTCTGGAGAGAAGACCTTGTCAGAGATTTGTTCCTCCAAGGGGATGCTAATGCAATTTTAAACATCCTGATCAGCTCTAGACAAAGGATGGATGAGATTGTTTGGAACTATGATCCTAGGGGAGCTCCTGGATGGTGGCTGACTTCTGAACGACTTAATGCACAATGGTTTTCAGTCCAACAAAGACAACATCAGACATCAGATTCAAAGAGCGTTGAACTCGATTTTGAGAGACGAAGACTCTTACCGGCGAGAAGAAGTTGCGACAAGGGAGATAGATCCAAACGGCGGGAAATCTCCTCTGGAATGGCTGGGACCACCGGCTGGTTTCTGCAAATTGAATACCGATGCGAGAAGACGAAAAACGGTGGAATTGGATGGGTCCTCAGGCAGTGGGATGGAACTCCGTTGAGCGCCGACTTTAAATTCATCGACCGTCAATGGAAAATCTCTTGGCTGGAAGCCCTGGCTGTAGTGGAGGGTTTGACATCGATTCCTACATTCTCCCACAAGCTGATTCTCGAGCTTGACTCAGTGCATGTGGTAAATCTGCTTGCTGGTAGGGAAGAAGATGCAACAGAACTCTCCAACTTCATTGATGAGGCGAAGTCCCAGATGTCCGGCTTTCAAGTTCACGAAGTGGTTCATGTTTCTAGAAGGAGAAATTATTTGACCCACCAATTGGCCCAAAAGGCCCATTCCAGTCAAAGGTCTGAGAGCTGGAGTGGTTGGTTCCCGGTGTGGTTTTTGCAAATGAACAAGATTGATATTAGGGCTATTAATGATCGTAGTGGGGGTGTCTGTCCTACGATAGTAAACCCACGACCAGCGGCGGTTGTAGCCCTCTCTCTCGCGTGCCGTCTCAACCTCGTGCCGCCGCCGCTTGCTCTGCCTTCGTCTCCCTCTCTTCGTGCCGTTGGCCAGCCGCGAGGAGACCCACAGCTTGAATCTTCTCCTTCTTTCTCGCGTGTGTCAGGTTGTCATCCACCCTCGCCTGGAGATGCTTACTACAAATTCTGGTGCCCTGTTACCTCTTCTACCCCCAGGAAGCTTAAGAATCCCCAATCCAACATGATGACAATTCCAGCTTTTAGTGTGGGTCAGCATTGGGGAAGAATGAAGGCCAAAGATTTCCATCTTAGAAGGGATACTTTCCAACTTCAAACTCCTAATGAGAGGAGACAACCAGTGATTGCTAAAGCAGGACCACTTTTTCTGAAACCAATTCCATCTACTGGGACGAGAGGAGGCATTCTATATTCTAGTAGAAAGAACAATGCTTTCATGTGTTTTGCTGCTTTGAATGCTAGATGTGCAGCGGAGCAGACCCAGACTGTTACGAGAGAGGCTCCTACAATCACTGTTCTTCCTGGCAAGGAAAAGTCACCGCAACTGGATGATGGTGATTCTGGATTCCCACCTCGTGATGATGGTGATGGTGGCGGTGGAGGCGGCGGCGGCGGAGGCAACTGGTCTGGTGGATTCTTCTTCTTTGGCTTCCTTGCCTTCCTTGGGTTCTTAAAAGATAAAGAAAGTGAAGGGCCTTATCAGAATGATCGGAGAAGATAA

Coding sequence (CDS)

ATGCAATCTAATCAGGAGGTGATAGACCAAATTCTAGGGACGGTGCCGAATAGCATATCAGAAGAGCAGAATGTAAAGCTCACAACCCCTTTCACGAGAGAAGAACTCTATAGCGTTGTCAAACGTATGCATCCTACTAAAGCACCAGGTCTAGATGGGATGCAAGCCATCTTCTACCAGAAATATTGGGAGGTGGTGGGATCGGAGGTGTGTGACTTCTGTCTGCAGTATCTGAATGGGACGGAGAGCTTGAAGCAAATTAACAAGACGCGATGGATTGAGCTTGTCATGGGTTGTGTTGAATCAATCACATACCAAGTTTTATTGAATGGAACTCCGAGAGAGGTCTTCTTTCCTAATAGGGGGCTTAGGCAGGGTGACCCCCTCTCCCCCTATCTCTTCCTGATGTGTGCAGAGGGTTTGTCTAGGATCCTGATCCACGCTGAATCGAGGAAGGAGGTAACAGGTTCTGGTGGGGCTCAGGATCATCAGGCAGGAAGATCCACTAGAGGAGTTGGAAGAAACTTTGCATCCATAAATCTAACGGGGCATGGGTTTTCGAGACCTTACCATCTTCAACCAGGCTATGTTAGCGAAGCAGAGCTGGAGGATCTTGAGGTACCCGAGAGCATTCTATCAAGGGTGCTTAAGGGGGGTATTTCAAGAATGGGAGCTTTCTTAAGGCTGAAAAGCGGCGTCGGATCCTTGGATCCCAAGAGATGGGTCTCCCAAACCGATCCTGCGAATGGAAATGCTTCTAAGTATACTGTGGCTCAACTCATTCATCCATCTAGAGTCTGGAGAGAAGACCTTGTCAGAGATTTGTTCCTCCAAGGGGATGCTAATGCAATTTTAAACATCCTGATCAGCTCTAGACAAAGGATGGATGAGATTGTTTGGAACTATGATCCTAGGGGAGCTCCTGGATGGTGGCTGACTTCTGAACGACTTAATGCACAATGGTTTTCAGTCCAACAAAGACAACATCAGACATCAGATTCAAAGAGCGTTGAACTCGATTTTGAGAGACGAAGACTCTTACCGGCGAGAAGAAGTTGCGACAAGGGAGATAGATCCAAACGGCGGGAAATCTCCTCTGGAATGGCTGGGACCACCGGCTGGTTTCTGCAAATTGAATACCGATGCGAGAAGACGAAAAACGGTGGAATTGGATGGGTCCTCAGGCAGTGGGATGGAACTCCGTTGAGCGCCGACTTTAAATTCATCGACCGTCAATGGAAAATCTCTTGGCTGGAAGCCCTGGCTGTAGTGGAGGGTTTGACATCGATTCCTACATTCTCCCACAAGCTGATTCTCGAGCTTGACTCAGTGCATGTGGTAAATCTGCTTGCTGGTAGGGAAGAAGATGCAACAGAACTCTCCAACTTCATTGATGAGGCGAAGTCCCAGATGTCCGGCTTTCAAGTTCACGAAGTGGTTCATGTTTCTAGAAGGAGAAATTATTTGACCCACCAATTGGCCCAAAAGGCCCATTCCAGTCAAAGGTCTGAGAGCTGGAGTGGTTGGTTCCCGGTGTGGTTTTTGCAAATGAACAAGATTGATATTAGGGCTATTAATGATCGTAGTGGGGGTGTCTGTCCTACGATAGTAAACCCACGACCAGCGGCGGTTGTAGCCCTCTCTCTCGCGTGCCGTCTCAACCTCGTGCCGCCGCCGCTTGCTCTGCCTTCGTCTCCCTCTCTTCGTGCCGTTGGCCAGCCGCGAGGAGACCCACAGCTTGAATCTTCTCCTTCTTTCTCGCGTGTGTCAGGTTGTCATCCACCCTCGCCTGGAGATGCTTACTACAAATTCTGGTGCCCTGTTACCTCTTCTACCCCCAGGAAGCTTAAGAATCCCCAATCCAACATGATGACAATTCCAGCTTTTAGTGTGGGTCAGCATTGGGGAAGAATGAAGGCCAAAGATTTCCATCTTAGAAGGGATACTTTCCAACTTCAAACTCCTAATGAGAGGAGACAACCAGTGATTGCTAAAGCAGGACCACTTTTTCTGAAACCAATTCCATCTACTGGGACGAGAGGAGGCATTCTATATTCTAGTAGAAAGAACAATGCTTTCATGTGTTTTGCTGCTTTGAATGCTAGATGTGCAGCGGAGCAGACCCAGACTGTTACGAGAGAGGCTCCTACAATCACTGTTCTTCCTGGCAAGGAAAAGTCACCGCAACTGGATGATGGTGATTCTGGATTCCCACCTCGTGATGATGGTGATGGTGGCGGTGGAGGCGGCGGCGGCGGAGGCAACTGGTCTGGTGGATTCTTCTTCTTTGGCTTCCTTGCCTTCCTTGGGTTCTTAAAAGATAAAGAAAGTGAAGGGCCTTATCAGAATGATCGGAGAAGATAA

Protein sequence

MQSNQEVIDQILGTVPNSISEEQNVKLTTPFTREELYSVVKRMHPTKAPGLDGMQAIFYQKYWEVVGSEVCDFCLQYLNGTESLKQINKTRWIELVMGCVESITYQVLLNGTPREVFFPNRGLRQGDPLSPYLFLMCAEGLSRILIHAESRKEVTGSGGAQDHQAGRSTRGVGRNFASINLTGHGFSRPYHLQPGYVSEAELEDLEVPESILSRVLKGGISRMGAFLRLKSGVGSLDPKRWVSQTDPANGNASKYTVAQLIHPSRVWREDLVRDLFLQGDANAILNILISSRQRMDEIVWNYDPRGAPGWWLTSERLNAQWFSVQQRQHQTSDSKSVELDFERRRLLPARRSCDKGDRSKRREISSGMAGTTGWFLQIEYRCEKTKNGGIGWVLRQWDGTPLSADFKFIDRQWKISWLEALAVVEGLTSIPTFSHKLILELDSVHVVNLLAGREEDATELSNFIDEAKSQMSGFQVHEVVHVSRRRNYLTHQLAQKAHSSQRSESWSGWFPVWFLQMNKIDIRAINDRSGGVCPTIVNPRPAAVVALSLACRLNLVPPPLALPSSPSLRAVGQPRGDPQLESSPSFSRVSGCHPPSPGDAYYKFWCPVTSSTPRKLKNPQSNMMTIPAFSVGQHWGRMKAKDFHLRRDTFQLQTPNERRQPVIAKAGPLFLKPIPSTGTRGGILYSSRKNNAFMCFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR
Homology
[Close]
BLAST of Lag0017732 vs. NCBI nr
Match: XP_023540533.1 (uncharacterized protein LOC111800870 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 289.3 bits (739), Expect = 1.0e-73
Identity = 143/157 (91.08%), Postives = 151/157 (96.18%), Query Frame = 0 

Query: 631 VGQHWGRMKAKDFHLRRDTFQLQTPNERRQPVIAKAGPLFLKPIPSTGTRGGILYSSRKN 690
           VGQHWGRM+A +FHL RD+FQ+QT N RRQPVIAKAGPL++KPI STGTRGG+LYSSRKN
Sbjct: 18  VGQHWGRMEAMNFHLSRDSFQVQTSNGRRQPVIAKAGPLYVKPILSTGTRGGVLYSSRKN 77

Query: 691 NAFMCFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG 750
           NAF+CFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG
Sbjct: 78  NAFVCFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG 137

Query: 751 GGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 788
           GGGGNWSGGFFFFGFLAFLGFLKDKESE PYQNDRRR
Sbjct: 138 GGGGNWSGGFFFFGFLAFLGFLKDKESEEPYQNDRRR 174

[Close]
BLAST of Lag0017732 vs. NCBI nr
Match: KAG6577548.1 (Protein YELLOW LEAF 1, choloroplastic, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 287.7 bits (735), Expect = 3.0e-73
Identity = 156/206 (75.73%), Postives = 168/206 (81.55%), Query Frame = 0 

Query: 583 SPSFSRVSGCHPPSPGDAYYKFWCPVTSSTPRKLKNPQSNMMTIPAFSVGQHWGRMKAKD 642
           S  F  +SGCH PS      K     TSS           M+T+    VGQHWG+MK KD
Sbjct: 29  SSRFGSLSGCHLPS------KMEMLTTSS---------GAMLTLLP-PVGQHWGKMKGKD 88

Query: 643 FHLRRDTFQLQTPNERRQPVIAKAGPLFLKPIPSTGTRGGILYSSRK-NNAFMCFAALNA 702
           F LRRD+ QLQTPN RRQ VIAKAGP+FLKPIPSTGT+GG+LYS+RK NNAF+CFAALNA
Sbjct: 89  FLLRRDSVQLQTPNGRRQSVIAKAGPVFLKPIPSTGTKGGVLYSTRKNNNAFICFAALNA 148

Query: 703 RCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGGGGGGNWSGGFF 762
           RCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGGGGGGNWSGGFF
Sbjct: 149 RCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGGGGGGNWSGGFF 208

Query: 763 FFGFLAFLGFLKDKESEGPYQNDRRR 788
           FFGFLAFLGFLKDKESEG Y++DRRR
Sbjct: 209 FFGFLAFLGFLKDKESEGAYEDDRRR 218

[Close]
BLAST of Lag0017732 vs. NCBI nr
Match: KAG6596785.1 (Protein YELLOW LEAF 1, choloroplastic, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 286.2 bits (731), Expect = 8.6e-73
Identity = 142/157 (90.45%), Postives = 150/157 (95.54%), Query Frame = 0 

Query: 631 VGQHWGRMKAKDFHLRRDTFQLQTPNERRQPVIAKAGPLFLKPIPSTGTRGGILYSSRKN 690
           VGQHWGRMKA +FHL RD+FQ++T N RRQPVIAKAGPL++KPI STG RGG+LYSSRKN
Sbjct: 18  VGQHWGRMKAINFHLSRDSFQVRTSNGRRQPVIAKAGPLYVKPILSTGKRGGVLYSSRKN 77

Query: 691 NAFMCFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG 750
           NAF+CFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG
Sbjct: 78  NAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG 137

Query: 751 GGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 788
           GGGGNWSGGFFFFGFLAFLGFLKDKESE PYQNDRRR
Sbjct: 138 GGGGNWSGGFFFFGFLAFLGFLKDKESEEPYQNDRRR 174

[Close]
BLAST of Lag0017732 vs. NCBI nr
Match: XP_023005574.1 (uncharacterized protein LOC111498519 isoform X1 [Cucurbita maxima] >XP_023005575.1 uncharacterized protein LOC111498519 isoform X1 [Cucurbita maxima] >XP_023005577.1 uncharacterized protein LOC111498519 isoform X2 [Cucurbita maxima])

HSP 1 Score: 285.8 bits (730), Expect = 1.1e-72
Identity = 142/157 (90.45%), Postives = 150/157 (95.54%), Query Frame = 0 

Query: 631 VGQHWGRMKAKDFHLRRDTFQLQTPNERRQPVIAKAGPLFLKPIPSTGTRGGILYSSRKN 690
           VGQHWGRMKA +FHL RD+FQ++T N RRQPVIAKAGPL++KPI STGT GG+LYSSRKN
Sbjct: 18  VGQHWGRMKAINFHLSRDSFQVKTSNGRRQPVIAKAGPLYVKPILSTGTGGGVLYSSRKN 77

Query: 691 NAFMCFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG 750
           NAF+CFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG
Sbjct: 78  NAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG 137

Query: 751 GGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 788
           GGGGNWSGGFFFFGFLAFLGFLKDKESE PYQNDRRR
Sbjct: 138 GGGGNWSGGFFFFGFLAFLGFLKDKESEEPYQNDRRR 174

[Close]
BLAST of Lag0017732 vs. NCBI nr
Match: XP_023553392.1 (uncharacterized protein LOC111810820 isoform X1 [Cucurbita pepo subsp. pepo] >XP_023553393.1 uncharacterized protein LOC111810820 isoform X2 [Cucurbita pepo subsp. pepo] >XP_023553394.1 uncharacterized protein LOC111810820 isoform X1 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 285.4 bits (729), Expect = 1.5e-72
Identity = 143/158 (90.51%), Postives = 152/158 (96.20%), Query Frame = 0 

Query: 631 VGQHWGRMKAKDFHLRRDTFQLQTPNERRQPVIAKAGPLFLKPIPSTGTRGGILYSSRK- 690
           VGQHWG+MKAKDF LRRD+ QLQTPN RRQ VIAKAGP+FLKPIPSTGT+GG+LYS+RK 
Sbjct: 18  VGQHWGKMKAKDFLLRRDSVQLQTPNGRRQSVIAKAGPVFLKPIPSTGTKGGVLYSTRKN 77

Query: 691 NNAFMCFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGG 750
           NNAF+CFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGG
Sbjct: 78  NNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGG 137

Query: 751 GGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 788
           GGGGGNWSGGFFFFGFLAFLGFLKDKESEG Y++DRRR
Sbjct: 138 GGGGGNWSGGFFFFGFLAFLGFLKDKESEGAYEDDRRR 175

[Close]
BLAST of Lag0017732 vs. ExPASy Swiss-Prot
Match: Q0E3V2 (Protein YELLOW LEAF 1, choloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=YL1 PE=1 SV=1)

HSP 1 Score: 60.8 bits (146), Expect = 7.7e-08
Identity = 44/99 (44.44%), Postives = 56/99 (56.57%), Query Frame = 0 

Query: 695 CFAALNARCAAEQTQTVTRE------APTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGG 754
           C A++   C A QTQT  R+      +P    +  K +SP+LDDG +GFPP   G GGGG
Sbjct: 58  CEASMRITCCANQTQTARRKSFSGPTSPPSGSVKEKVRSPKLDDGGTGFPPFRFGGGGGG 117

Query: 755 GGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 788
           GGGGG N +GGF  F  +  L +L  +E E   QN  RR
Sbjct: 118 GGGGGSNSAGGFILFVIVLLLDYL--REFERNLQNGTRR 154

[Close]
BLAST of Lag0017732 vs. ExPASy Swiss-Prot
Match: F1SZ44 (Protein FERTILITY RESTORER RF2, mitochondrial OS=Oryza sativa subsp. japonica OX=39947 GN=RF2 PE=2 SV=1)

HSP 1 Score: 59.3 bits (142), Expect = 2.3e-07
Identity = 41/83 (49.40%), Postives = 51/83 (61.45%), Query Frame = 0 

Query: 700 NARCAAEQTQTVTREAPTITVL----PGKEKSPQLDDGDSGFPPRDDGDGGGGGGGGGG- 759
           + RC A QTQ+  R++ T TV      GK + P+LDDG  GFPP   G GGGGGGGGGG 
Sbjct: 49  SVRCNATQTQSAQRKSSTATVKRSDPKGKTQGPKLDDGSGGFPPFRFGKGGGGGGGGGGG 108

Query: 760 -NWSGGFFFFGFLAFLGFLKDKE 777
            N+ GGF  F  +  L +LK+ E
Sbjct: 109 SNYFGGFLLFTCVLLLDYLKEFE 131

[Close]
BLAST of Lag0017732 vs. ExPASy Swiss-Prot
Match: P92555 (Uncharacterized mitochondrial protein AtMg01250 OS=Arabidopsis thaliana OX=3702 GN=AtMg01250 PE=4 SV=1)

HSP 1 Score: 58.5 bits (140), Expect = 3.8e-07
Identity = 24/49 (48.98%), Postives = 35/49 (71.43%), Query Frame = 0 

Query: 108 LLNGTPREVFFPNRGLRQGDPLSPYLFLMCAEGLSRILIHAESRKEVTG 157
           ++NG P+ +  P+RGLRQGDPLSPYLF++C E LS +   A+ +  + G
Sbjct: 13  IINGAPQGLVTPSRGLRQGDPLSPYLFILCTEVLSGLCRRAQEQGRLPG 61

[Close]
BLAST of Lag0017732 vs. ExPASy Swiss-Prot
Match: F1SZ42 (Protein FERTILITY RESTORER RF2, mitochondrial OS=Oryza sativa subsp. japonica OX=39947 GN=RF2 PE=2 SV=1)

HSP 1 Score: 58.5 bits (140), Expect = 3.8e-07
Identity = 41/83 (49.40%), Postives = 51/83 (61.45%), Query Frame = 0 

Query: 700 NARCAAEQTQTVTREAPTITVL----PGKEKSPQLDDGDSGFPPRDDGDGGGGGGGGGG- 759
           + RC A QTQ+  R++ T TV      GK + P+LDDG  GFPP   G GGGGGGGGGG 
Sbjct: 49  SVRCNATQTQSAQRKSSTATVKRSDPKGKIQGPKLDDGSGGFPPFRFGKGGGGGGGGGGG 108

Query: 760 -NWSGGFFFFGFLAFLGFLKDKE 777
            N+ GGF  F  +  L +LK+ E
Sbjct: 109 SNYFGGFLLFTCVLLLDYLKEFE 131

[Close]
BLAST of Lag0017732 vs. ExPASy Swiss-Prot
Match: F1SZ41 (Protein FERTILITY RESTORER RF2, mitochondrial OS=Oryza sativa subsp. indica OX=39946 GN=RF2 PE=2 SV=1)

HSP 1 Score: 58.5 bits (140), Expect = 3.8e-07
Identity = 41/83 (49.40%), Postives = 51/83 (61.45%), Query Frame = 0 

Query: 700 NARCAAEQTQTVTREAPTITVL----PGKEKSPQLDDGDSGFPPRDDGDGGGGGGGGGG- 759
           + RC A QTQ+  R++ T TV      GK + P+LDDG  GFPP   G GGGGGGGGGG 
Sbjct: 49  SVRCNATQTQSAQRKSSTATVKRSDPKGKIQGPKLDDGSGGFPPFRFGKGGGGGGGGGGG 108

Query: 760 -NWSGGFFFFGFLAFLGFLKDKE 777
            N+ GGF  F  +  L +LK+ E
Sbjct: 109 SNYFGGFLLFTCVLLLDYLKEFE 131

[Close]
BLAST of Lag0017732 vs. ExPASy TrEMBL
Match: A0A6J1KZM4 (uncharacterized protein LOC111498519 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111498519 PE=4 SV=1)

HSP 1 Score: 285.8 bits (730), Expect = 5.5e-73
Identity = 142/157 (90.45%), Postives = 150/157 (95.54%), Query Frame = 0 

Query: 631 VGQHWGRMKAKDFHLRRDTFQLQTPNERRQPVIAKAGPLFLKPIPSTGTRGGILYSSRKN 690
           VGQHWGRMKA +FHL RD+FQ++T N RRQPVIAKAGPL++KPI STGT GG+LYSSRKN
Sbjct: 18  VGQHWGRMKAINFHLSRDSFQVKTSNGRRQPVIAKAGPLYVKPILSTGTGGGVLYSSRKN 77

Query: 691 NAFMCFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG 750
           NAF+CFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG
Sbjct: 78  NAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG 137

Query: 751 GGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 788
           GGGGNWSGGFFFFGFLAFLGFLKDKESE PYQNDRRR
Sbjct: 138 GGGGNWSGGFFFFGFLAFLGFLKDKESEEPYQNDRRR 174

[Close]
BLAST of Lag0017732 vs. ExPASy TrEMBL
Match: A0A6J1F258 (uncharacterized protein LOC111438781 OS=Cucurbita moschata OX=3662 GN=LOC111438781 PE=4 SV=1)

HSP 1 Score: 283.9 bits (725), Expect = 2.1e-72
Identity = 142/158 (89.87%), Postives = 151/158 (95.57%), Query Frame = 0 

Query: 631 VGQHWGRMKAKDFHLRRDTFQLQTPNERRQPVIAKAGPLFLKPIPSTGTRGGILYSSRK- 690
           VGQHWG+MK KDF LRRD+ QLQTPN RRQ VIAKAGP+FLKPIPSTGT+GG+LYS+RK 
Sbjct: 18  VGQHWGKMKGKDFLLRRDSVQLQTPNGRRQSVIAKAGPVFLKPIPSTGTKGGVLYSTRKN 77

Query: 691 NNAFMCFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGG 750
           NNAF+CFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGG
Sbjct: 78  NNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGG 137

Query: 751 GGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 788
           GGGGGNWSGGFFFFGFLAFLGFLKDKESEG Y++DRRR
Sbjct: 138 GGGGGNWSGGFFFFGFLAFLGFLKDKESEGAYEDDRRR 175

[Close]
BLAST of Lag0017732 vs. ExPASy TrEMBL
Match: A0A6J1GD79 (uncharacterized protein LOC111453117 OS=Cucurbita moschata OX=3662 GN=LOC111453117 PE=4 SV=1)

HSP 1 Score: 283.5 bits (724), Expect = 2.7e-72
Identity = 141/157 (89.81%), Postives = 149/157 (94.90%), Query Frame = 0 

Query: 631 VGQHWGRMKAKDFHLRRDTFQLQTPNERRQPVIAKAGPLFLKPIPSTGTRGGILYSSRKN 690
           VGQHWGRMKA +FHL  D+FQ++T N RRQPVIAKAGPL++KPI STG RGG+LYSSRKN
Sbjct: 18  VGQHWGRMKAINFHLSGDSFQVRTSNGRRQPVIAKAGPLYVKPILSTGKRGGVLYSSRKN 77

Query: 691 NAFMCFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG 750
           NAF+CFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG
Sbjct: 78  NAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG 137

Query: 751 GGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 788
           GGGGNWSGGFFFFGFLAFLGFLKDKESE PYQNDRRR
Sbjct: 138 GGGGNWSGGFFFFGFLAFLGFLKDKESEEPYQNDRRR 174

[Close]
BLAST of Lag0017732 vs. ExPASy TrEMBL
Match: A0A6J1HQC3 (uncharacterized protein LOC111465127 OS=Cucurbita maxima OX=3661 GN=LOC111465127 PE=4 SV=1)

HSP 1 Score: 282.7 bits (722), Expect = 4.6e-72
Identity = 142/158 (89.87%), Postives = 150/158 (94.94%), Query Frame = 0 

Query: 631 VGQHWGRMKAKDFHLRRDTFQLQTPNERRQPVIAKAGPLFLKPIPSTGTRGGILYSSRK- 690
           VGQHWG+MK KDF LRRD+ QLQTPN RRQ VIAKAGP+FLKPIPSTGT+GG LYS+RK 
Sbjct: 18  VGQHWGKMKVKDFLLRRDSVQLQTPNGRRQSVIAKAGPVFLKPIPSTGTKGGFLYSTRKN 77

Query: 691 NNAFMCFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGG 750
           NNAF+CFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGG
Sbjct: 78  NNAFICFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGG 137

Query: 751 GGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 788
           GGGGGNWSGGFFFFGFLAFLGFLKDKESEG Y++DRRR
Sbjct: 138 GGGGGNWSGGFFFFGFLAFLGFLKDKESEGSYEDDRRR 175

[Close]
BLAST of Lag0017732 vs. ExPASy TrEMBL
Match: A0A6J1CP11 (uncharacterized protein LOC111013392 OS=Momordica charantia OX=3673 GN=LOC111013392 PE=4 SV=1)

HSP 1 Score: 277.3 bits (708), Expect = 1.9e-70
Identity = 139/157 (88.54%), Postives = 144/157 (91.72%), Query Frame = 0 

Query: 631 VGQHWGRMKAKDFHLRRDTFQLQTPNERRQPVIAKAGPLFLKPIPSTGTRGGILYSSRKN 690
           VG+HWGR KAK+FHL RD+FQLQ  N R Q V+AK GPLFLKPIPS GTR  +LYSSRK 
Sbjct: 18  VGRHWGRTKAKNFHLGRDSFQLQPLNGRIQQVVAKVGPLFLKPIPSIGTRESVLYSSRKT 77

Query: 691 NAFMCFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG 750
           NAF CFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG
Sbjct: 78  NAFTCFAALNARCAAEQTQTVTREAPTITVLPGKEKSPQLDDGDSGFPPRDDGDGGGGGG 137

Query: 751 GGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 788
           GGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR
Sbjct: 138 GGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 174

[Close]
BLAST of Lag0017732 vs. TAIR 10
Match: AT1G56200.1 (embryo defective 1303 )

HSP 1 Score: 139.8 bits (351), Expect = 9.3e-33
Identity = 76/119 (63.87%), Postives = 89/119 (74.79%), Query Frame = 0 

Query: 671 LKPIPSTGTRGGILYSSRKNNAFMCFAALNARCAAEQTQTVTREAPTITVLP--GKEKSP 730
           + P+ + G   G+   SR+ +  +C +A+NA+C+  QTQTVTRE+PTIT  P   KEKSP
Sbjct: 39  VSPLSAVGLSSGL--GSRRKSLLICHSAINAKCSEGQTQTVTRESPTITQAPVHSKEKSP 98

Query: 731 QLDDGDSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 788
            LDDG  GFPPRDDGD GGGGGGGGGNWSGGFFFFGFLAFLG LKDKE E  Y+  RRR
Sbjct: 99  SLDDGGDGFPPRDDGD-GGGGGGGGGNWSGGFFFFGFLAFLGLLKDKEGEEDYRGSRRR 154

[Close]
BLAST of Lag0017732 vs. TAIR 10
Match: AT1G56200.2 (embryo defective 1303 )

HSP 1 Score: 139.8 bits (351), Expect = 9.3e-33
Identity = 76/119 (63.87%), Postives = 89/119 (74.79%), Query Frame = 0 

Query: 671 LKPIPSTGTRGGILYSSRKNNAFMCFAALNARCAAEQTQTVTREAPTITVLP--GKEKSP 730
           + P+ + G   G+   SR+ +  +C +A+NA+C+  QTQTVTRE+PTIT  P   KEKSP
Sbjct: 36  VSPLSAVGLSSGL--GSRRKSLLICHSAINAKCSEGQTQTVTRESPTITQAPVHSKEKSP 95

Query: 731 QLDDGDSGFPPRDDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESEGPYQNDRRR 788
            LDDG  GFPPRDDGD GGGGGGGGGNWSGGFFFFGFLAFLG LKDKE E  Y+  RRR
Sbjct: 96  SLDDGGDGFPPRDDGD-GGGGGGGGGNWSGGFFFFGFLAFLGLLKDKEGEEDYRGSRRR 151

[Close]
BLAST of Lag0017732 vs. TAIR 10
Match: AT1G30475.1 (BEST Arabidopsis thaliana protein match is: embryo defective 1303 (TAIR:AT1G56200.1); Has 148 Blast hits to 148 proteins in 34 species: Archae - 0; Bacteria - 14; Metazoa - 63; Fungi - 0; Plants - 62; Viruses - 0; Other Eukaryotes - 9 (source: NCBI BLink). )

HSP 1 Score: 113.6 bits (283), Expect = 7.1e-25
Identity = 63/98 (64.29%), Postives = 76/98 (77.55%), Query Frame = 0 

Query: 683 ILYSSRKNNAFMCFAALNARCAAEQTQTVTREAPTITVLP--GKEKSPQLDDGDSGFPPR 742
           ++ S  K   F C +ALN++C+  QTQTVTR++PTIT  P  GK KSP+LDDG +GFPPR
Sbjct: 90  VVVSKNKRPVFACNSALNSKCSQGQTQTVTRQSPTITQAPTHGKVKSPKLDDGGNGFPPR 149

Query: 743 DDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESE 779
           DDG GGGGGGGGGG+ SGGFF FGFL F+G+LKD E E
Sbjct: 150 DDG-GGGGGGGGGGSSSGGFFLFGFLLFMGYLKDLEGE 186

[Close]
BLAST of Lag0017732 vs. TAIR 10
Match: AT1G30475.2 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; BEST Arabidopsis thaliana protein match is: embryo defective 1303 (TAIR:AT1G56200.1); Has 142 Blast hits to 142 proteins in 33 species: Archae - 0; Bacteria - 14; Metazoa - 57; Fungi - 0; Plants - 62; Viruses - 0; Other Eukaryotes - 9 (source: NCBI BLink). )

HSP 1 Score: 113.6 bits (283), Expect = 7.1e-25
Identity = 63/98 (64.29%), Postives = 76/98 (77.55%), Query Frame = 0 

Query: 683 ILYSSRKNNAFMCFAALNARCAAEQTQTVTREAPTITVLP--GKEKSPQLDDGDSGFPPR 742
           ++ S  K   F C +ALN++C+  QTQTVTR++PTIT  P  GK KSP+LDDG +GFPPR
Sbjct: 61  VVVSKNKRPVFACNSALNSKCSQGQTQTVTRQSPTITQAPTHGKVKSPKLDDGGNGFPPR 120

Query: 743 DDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESE 779
           DDG GGGGGGGGGG+ SGGFF FGFL F+G+LKD E E
Sbjct: 121 DDG-GGGGGGGGGGSSSGGFFLFGFLLFMGYLKDLEGE 157

[Close]
BLAST of Lag0017732 vs. TAIR 10
Match: AT1G30475.3 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; BEST Arabidopsis thaliana protein match is: embryo defective 1303 (TAIR:AT1G56200.1); Has 142 Blast hits to 142 proteins in 33 species: Archae - 0; Bacteria - 14; Metazoa - 57; Fungi - 0; Plants - 62; Viruses - 0; Other Eukaryotes - 9 (source: NCBI BLink). )

HSP 1 Score: 113.6 bits (283), Expect = 7.1e-25
Identity = 63/98 (64.29%), Postives = 76/98 (77.55%), Query Frame = 0 

Query: 683 ILYSSRKNNAFMCFAALNARCAAEQTQTVTREAPTITVLP--GKEKSPQLDDGDSGFPPR 742
           ++ S  K   F C +ALN++C+  QTQTVTR++PTIT  P  GK KSP+LDDG +GFPPR
Sbjct: 61  VVVSKNKRPVFACNSALNSKCSQGQTQTVTRQSPTITQAPTHGKVKSPKLDDGGNGFPPR 120

Query: 743 DDGDGGGGGGGGGGNWSGGFFFFGFLAFLGFLKDKESE 779
           DDG GGGGGGGGGG+ SGGFF FGFL F+G+LKD E E
Sbjct: 121 DDG-GGGGGGGGGGSSSGGFFLFGFLLFMGYLKDLEGE 157

The following BLAST results are available for this feature:
BLAST of Lag0017732 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_023540533.11.0e-7391.08uncharacterized protein LOC111800870 [Cucurbita pepo subsp. pepo][more]
KAG6577548.13.0e-7375.73Protein YELLOW LEAF 1, choloroplastic, partial [Cucurbita argyrosperma subsp. so... [more]
KAG6596785.18.6e-7390.45Protein YELLOW LEAF 1, choloroplastic, partial [Cucurbita argyrosperma subsp. so... [more]
XP_023005574.11.1e-7290.45uncharacterized protein LOC111498519 isoform X1 [Cucurbita maxima] >XP_023005575... [more]
XP_023553392.11.5e-7290.51uncharacterized protein LOC111810820 isoform X1 [Cucurbita pepo subsp. pepo] >XP... [more]
BLAST of Lag0017732 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q0E3V27.7e-0844.44Protein YELLOW LEAF 1, choloroplastic OS=Oryza sativa subsp. japonica OX=39947 G... [more]
F1SZ442.3e-0749.40Protein FERTILITY RESTORER RF2, mitochondrial OS=Oryza sativa subsp. japonica OX... [more]
P925553.8e-0748.98Uncharacterized mitochondrial protein AtMg01250 OS=Arabidopsis thaliana OX=3702 ... [more]
F1SZ423.8e-0749.40Protein FERTILITY RESTORER RF2, mitochondrial OS=Oryza sativa subsp. japonica OX... [more]
F1SZ413.8e-0749.40Protein FERTILITY RESTORER RF2, mitochondrial OS=Oryza sativa subsp. indica OX=3... [more]
BLAST of Lag0017732 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1KZM45.5e-7390.45uncharacterized protein LOC111498519 isoform X1 OS=Cucurbita maxima OX=3661 GN=L... [more]
A0A6J1F2582.1e-7289.87uncharacterized protein LOC111438781 OS=Cucurbita moschata OX=3662 GN=LOC1114387... [more]
A0A6J1GD792.7e-7289.81uncharacterized protein LOC111453117 OS=Cucurbita moschata OX=3662 GN=LOC1114531... [more]
A0A6J1HQC34.6e-7289.87uncharacterized protein LOC111465127 OS=Cucurbita maxima OX=3661 GN=LOC111465127... [more]
A0A6J1CP111.9e-7088.54uncharacterized protein LOC111013392 OS=Momordica charantia OX=3673 GN=LOC111013... [more]
BLAST of Lag0017732 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G56200.19.3e-3363.87embryo defective 1303 [more]
AT1G56200.29.3e-3363.87embryo defective 1303 [more]
AT1G30475.17.1e-2564.29BEST Arabidopsis thaliana protein match is: embryo defective 1303 (TAIR:AT1G5620... [more]
AT1G30475.27.1e-2564.29FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknow... [more]
AT1G30475.37.1e-2564.29FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknow... [more]
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (AG-4) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR002156Ribonuclease H domainPFAMPF13456RVT_3coord: 383..497
e-value: 5.3E-14
score: 52.1
IPR036397Ribonuclease H superfamilyGENE3D3.30.420.10coord: 381..499
e-value: 1.3E-9
score: 40.2
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 710..751
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 567..592
NoneNo IPR availablePANTHERPTHR34938:SF1PROTEIN FERTILITY RESTORER RF2, MITOCHONDRIALcoord: 673..786
IPR040299Protein FERTILITY RESTORER RF2-likePANTHERPTHR34938PROTEIN FERTILITY RESTORER RF2, MITOCHONDRIALcoord: 673..786
IPR044730Ribonuclease H-like domain, plant typeCDDcd06222RNase_H_likecoord: 387..494
e-value: 1.22328E-10
score: 57.7092
IPR012337Ribonuclease H-like superfamilySUPERFAMILY53098Ribonuclease H-likecoord: 386..500

Relationships

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

Feature NameUnique NameType
Lag0017732.1Lag0017732.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009658 chloroplast organization
biological_process GO:0010027 thylakoid membrane organization
cellular_component GO:0009507 chloroplast
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0004523 RNA-DNA hybrid ribonuclease activity