Lsi07G010270 (gene) Bottle gourd (USVL1VR-Ls)

Overview
NameLsi07G010270
Typegene
OrganismLagenaria siceraria (Bottle gourd (USVL1VR-Ls))
DescriptionMAU2 chromatid cohesion factor like
Locationchr07 : 15565735 .. 15579224 (-)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGCGAAGATGATGGGGTGTGGTTTTTCTTGGAAGGAGGTGACAATGAGTGACGTGGCGGTGGCAAGGATGCCAAAAATGGTGAATGCACCAGCGACGGTGGAAGTCAGTTTGCAACACTCTGCCATATGGATGGCTGGCGTTTATTTAATGCTCCTTATGCAACTTCTTGAAAACAAAGTAGCCATTGAGCTAACACGTTCTGAATTTGTTGAGGCGCAAGAGGCGAGCATCAACACTGAAGACGACACCGGGAAGGACGACGTTACTGGAGTGAGACGCCGTTGGAGGTTGCTTGAAGATTTCGGCTTGGTGCAGATGAAGAATTGGTTCTTGCGCTTTCCTACAATCTTACAGGCATGTGAGAGTATGATTGAGATGCTCAGAGGCCAGTATGCTCATTACGTTGGTTGTTACCATGAAGCAACCTTTCATTATATCGAAGCTGCAAAGCTTACAGAGAGCAAATCAATTCAAGCAATGTGCCAAGTTTATGCGGCTGTCTCTTATATCTGTATTGGCGATGCTGAATCATCTACTCTCGCACTTGACTTGATTGGACCAGTTTACAGAATGATGGATTCGTTCGTTGGAGTTCGAGAGAAAACAAGTGTTCTTTTTGCTTATGGCCTCTTACTGATGAAGCAACATGATTTACAAGAAGCAAGGAGAATACAGCAGGTATTTGAGGTCTTAACCTTCCCCTGCAAGGTTTTAACTGGCCAACTACCACCGCCTTATAGCAACCCTTATAATAATCTATCTATTCGAGGCCTCAAAGGATATCATATGGTATTTATTATGTCATTGATTGATGTTGGAAAAGAAGCATGCCCACCGTCAGCTAAGGGTGTTTTCCCCCTCTTCCTCAGAAATCGATTGGCGAAAGGATTACAATTGACCCACAATCATTTGGGGAATCTTCAACTTGTTGCACAATATTTGACAATCCTCGGGAGTTTGGCACTTGCTCTACATGACACTGTGCAGGCCAGAGAGATATTGAGATCATCTTTAACATTGGCAAAGAAACTCTATGACATCCCAACTCAGATCTGGGTACTATCAGTTTTAACAACTTTATACCAAGAGCTGGGTGAAAAAGGAAATGAGATGGAGAACGCGGAATATCAATGTAAAAAGGCAGAGGATCTGCAAAGGAGACTGGTTGATGCGCATTCCTCCATTCATCACATCGAATTAATCGACAAAGTACGGCTTGAAATTCAGCAACTACAGGGGGTTGACATCAAGCGTGCAGGTAGCCCATCCCTTGGAGTTGATCTTGATATACCAGAATCCATTGGTGTGTCGGTTTCATTGCCGACTTCATCATTGAAGCTTATGGATATGGACACGGGGAGACGTGGAAAGAGGAAAATTTAGAGCTTGCCTGGGAGATTTTTCAAACCAGCTTGTTACTGTTGTTATTATTTATTTATTTATTTTTAATTTTGGTTTGTACTTTTTTTTTGAAAACTATGATTGACTTGTAAATATTAAATTTATTGCTCACTTTAAATCAAACGGAACAATTTAGCTTCTAGTAT

Coding sequence (CDS)

ATGGCGAAGATGATGGGGTGTGGTTTTTCTTGGAAGGAGGTGACAATGAGTGACGTGGCGGTGGCAAGGATGCCAAAAATGGTGAATGCACCAGCGACGGTGGAAGTCAGTTTGCAACACTCTGCCATATGGATGGCTGGCGTTTATTTAATGCTCCTTATGCAACTTCTTGAAAACAAAGTAGCCATTGAGCTAACACGTTCTGAATTTGTTGAGGCGCAAGAGGCGAGCATCAACACTGAAGACGACACCGGGAAGGACGACGTTACTGGAGTGAGACGCCGTTGGAGGTTGCTTGAAGATTTCGGCTTGGTGCAGATGAAGAATTGGTTCTTGCGCTTTCCTACAATCTTACAGGCATGTGAGAGTATGATTGAGATGCTCAGAGGCCAGTATGCTCATTACGTTGGTTGTTACCATGAAGCAACCTTTCATTATATCGAAGCTGCAAAGCTTACAGAGAGCAAATCAATTCAAGCAATGTGCCAAGTTTATGCGGCTGTCTCTTATATCTGTATTGGCGATGCTGAATCATCTACTCTCGCACTTGACTTGATTGGACCAGTTTACAGAATGATGGATTCGTTCGTTGGAGTTCGAGAGAAAACAAGTGTTCTTTTTGCTTATGGCCTCTTACTGATGAAGCAACATGATTTACAAGAAGCAAGGAGAATACAGCAGGTATTTGAGGTCTTAACCTTCCCCTGCAAGGTTTTAACTGGCCAACTACCACCGCCTTATAGCAACCCTTATAATAATCTATCTATTCGAGGCCTCAAAGGATATCATATGGTATTTATTATGTCATTGATTGATGTTGGAAAAGAAGCATGCCCACCGTCAGCTAAGGGTGTTTTCCCCCTCTTCCTCAGAAATCGATTGGCGAAAGGATTACAATTGACCCACAATCATTTGGGGAATCTTCAACTTGTTGCACAATATTTGACAATCCTCGGGAGTTTGGCACTTGCTCTACATGACACTGTGCAGGCCAGAGAGATATTGAGATCATCTTTAACATTGGCAAAGAAACTCTATGACATCCCAACTCAGATCTGGGTACTATCAGTTTTAACAACTTTATACCAAGAGCTGGGTGAAAAAGGAAATGAGATGGAGAACGCGGAATATCAATGTAAAAAGGCAGAGGATCTGCAAAGGAGACTGGTTGATGCGCATTCCTCCATTCATCACATCGAATTAATCGACAAAGTACGGCTTGAAATTCAGCAACTACAGGGGGTTGACATCAAGCGTGCAGGTAGCCCATCCCTTGGAGTTGATCTTGATATACCAGAATCCATTGGTGTGTCGGTTTCATTGCCGACTTCATCATTGAAGCTTATGGATATGGACACGGGGAGACGTGGAAAGAGGAAAATTTAG

Protein sequence

MAKMMGCGFSWKEVTMSDVAVARMPKMVNAPATVEVSLQHSAIWMAGVYLMLLMQLLENKVAIELTRSEFVEAQEASINTEDDTGKDDVTGVRRRWRLLEDFGLVQMKNWFLRFPTILQACESMIEMLRGQYAHYVGCYHEATFHYIEAAKLTESKSIQAMCQVYAAVSYICIGDAESSTLALDLIGPVYRMMDSFVGVREKTSVLFAYGLLLMKQHDLQEARRIQQVFEVLTFPCKVLTGQLPPPYSNPYNNLSIRGLKGYHMVFIMSLIDVGKEACPPSAKGVFPLFLRNRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPTQIWVLSVLTTLYQELGEKGNEMENAEYQCKKAEDLQRRLVDAHSSIHHIELIDKVRLEIQQLQGVDIKRAGSPSLGVDLDIPESIGVSVSLPTSSLKLMDMDTGRRGKRKI
Homology
[Close]
BLAST of Lsi07G010270 vs. TrEMBL
Match: A0A0A0L1H4_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G000020 PE=4 SV=1)

HSP 1 Score: 303.5 bits (776), Expect = 4.3e-79
Identity = 162/170 (95.29%), Postives = 166/170 (97.65%), Query Frame = 1 

Query: 292 NRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPTQ 351
           NRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPTQ
Sbjct: 14  NRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPTQ 73

Query: 352 IWVLSVLTTLYQELGEKGNEMENAEYQCKKAEDLQRRLVDAHSSIHHIELIDKVRLEIQQ 411
           IWVLSVLTTLYQELGEKGNEMENAEYQCKKA+DLQRRLVDAHSSIHHIELIDKVRLEIQQ
Sbjct: 74  IWVLSVLTTLYQELGEKGNEMENAEYQCKKADDLQRRLVDAHSSIHHIELIDKVRLEIQQ 133

Query: 412 LQGVDIKRAGSPSLGVDLDIPESIGVSVSLPTSSLKLMDMDTGRRGKRKI 462
           L+GVDIKRAGS SLGVDLDIP SIGVSVS  TSSLKLMD+D+GRRGKRKI
Sbjct: 134 LKGVDIKRAGSISLGVDLDIPGSIGVSVS--TSSLKLMDIDSGRRGKRKI 181

[Close]
BLAST of Lsi07G010270 vs. TrEMBL
Match: A0A0A0L4R7_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G000010 PE=4 SV=1)

HSP 1 Score: 300.8 bits (769), Expect = 2.8e-78
Identity = 162/198 (81.82%), Postives = 164/198 (82.83%), Query Frame = 1 

Query: 26  KMVNAPATVEVSLQHSAIWMAGVYLMLLMQLLENKVAIELTRSEFVEAQEASINTEDDTG 85
           K+  A    EVSLQHSAIWMAGVYLML+MQLLENKVAIELTRSEFVEAQEA         
Sbjct: 380 KLGIADGVREVSLQHSAIWMAGVYLMLIMQLLENKVAIELTRSEFVEAQEA--------- 439

Query: 86  KDDVTGVRRRWRLLEDFGLVQMKNWFLRFPTILQACESMIEMLRGQYAHYVGCYHEATFH 145
                             LVQMKNWFLRFPTILQACESMIEMLRGQYAHYVGCYHEATFH
Sbjct: 440 ------------------LVQMKNWFLRFPTILQACESMIEMLRGQYAHYVGCYHEATFH 499

Query: 146 YIEAAKLTESKSIQAMCQVYAAVSYICIGDAESSTLALDLIGPVYRMMDSFVGVREKTSV 205
           YIEAAKLTESKSIQAMCQVYAAVSYICIGDAESSTLALDLIGPVY MMDSFVGVREKTSV
Sbjct: 500 YIEAAKLTESKSIQAMCQVYAAVSYICIGDAESSTLALDLIGPVYSMMDSFVGVREKTSV 550

Query: 206 LFAYGLLLMKQHDLQEAR 224
           LFAYGLLLMKQHDLQEAR
Sbjct: 560 LFAYGLLLMKQHDLQEAR 550

[Close]
BLAST of Lsi07G010270 vs. TrEMBL
Match: D7SJG2_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_06s0004g08370 PE=4 SV=1)

HSP 1 Score: 277.3 bits (708), Expect = 3.3e-71
Identity = 147/189 (77.78%), Postives = 155/189 (82.01%), Query Frame = 1 

Query: 35  EVSLQHSAIWMAGVYLMLLMQLLENKVAIELTRSEFVEAQEASINTEDDTGKDDVTGVRR 94
           EV LQHSAIWMAGVYLMLLMQ LENKVA+ELTRSEFVEAQEA                  
Sbjct: 389 EVDLQHSAIWMAGVYLMLLMQFLENKVAVELTRSEFVEAQEA------------------ 448

Query: 95  RWRLLEDFGLVQMKNWFLRFPTILQACESMIEMLRGQYAHYVGCYHEATFHYIEAAKLTE 154
                    LVQM+NWFLRFPTILQACES+IEMLRGQYAH VGC+ EA FH+IEAAKLTE
Sbjct: 449 ---------LVQMRNWFLRFPTILQACESIIEMLRGQYAHSVGCFSEAAFHFIEAAKLTE 508

Query: 155 SKSIQAMCQVYAAVSYICIGDAESSTLALDLIGPVYRMMDSFVGVREKTSVLFAYGLLLM 214
           SKS+QAMCQVYAAVSYICIGDAESS+ A DLIGPVYRMMDSFVGVREKTSVLFAYGLLLM
Sbjct: 509 SKSMQAMCQVYAAVSYICIGDAESSSQAFDLIGPVYRMMDSFVGVREKTSVLFAYGLLLM 550

Query: 215 KQHDLQEAR 224
           KQH+LQEAR
Sbjct: 569 KQHNLQEAR 550

[Close]
BLAST of Lsi07G010270 vs. TrEMBL
Match: W9QXY9_9ROSA (Uncharacterized protein OS=Morus notabilis GN=L484_022693 PE=4 SV=1)

HSP 1 Score: 276.2 bits (705), Expect = 7.4e-71
Identity = 146/189 (77.25%), Postives = 155/189 (82.01%), Query Frame = 1 

Query: 35  EVSLQHSAIWMAGVYLMLLMQLLENKVAIELTRSEFVEAQEASINTEDDTGKDDVTGVRR 94
           EV+LQHSAIWMAGVYLML MQ LENKVA+ELTRSEFVEAQEA                  
Sbjct: 390 EVNLQHSAIWMAGVYLMLQMQFLENKVAVELTRSEFVEAQEA------------------ 449

Query: 95  RWRLLEDFGLVQMKNWFLRFPTILQACESMIEMLRGQYAHYVGCYHEATFHYIEAAKLTE 154
                    LVQMKNWF RFPTILQ+CES+IEMLRGQY+H VGCY EA FHYIEAAKLT+
Sbjct: 450 ---------LVQMKNWFTRFPTILQSCESIIEMLRGQYSHSVGCYSEAAFHYIEAAKLTQ 509

Query: 155 SKSIQAMCQVYAAVSYICIGDAESSTLALDLIGPVYRMMDSFVGVREKTSVLFAYGLLLM 214
           SKS+QA+CQVYAAVSYICIGDAESS+ ALDLIGPVYRMMDSFVGVREKTSVLFAYGLLLM
Sbjct: 510 SKSMQAICQVYAAVSYICIGDAESSSQALDLIGPVYRMMDSFVGVREKTSVLFAYGLLLM 551

Query: 215 KQHDLQEAR 224
           KQHDLQEAR
Sbjct: 570 KQHDLQEAR 551

[Close]
BLAST of Lsi07G010270 vs. TrEMBL
Match: A0A059AEJ6_EUCGR (Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_J01848 PE=4 SV=1)

HSP 1 Score: 273.9 bits (699), Expect = 3.7e-70
Identity = 143/189 (75.66%), Postives = 153/189 (80.95%), Query Frame = 1 

Query: 35  EVSLQHSAIWMAGVYLMLLMQLLENKVAIELTRSEFVEAQEASINTEDDTGKDDVTGVRR 94
           EV LQHSAIWMAGVYLMLLMQ LENKVA++LTRSEFVEAQEA                  
Sbjct: 391 EVDLQHSAIWMAGVYLMLLMQFLENKVAVDLTRSEFVEAQEA------------------ 450

Query: 95  RWRLLEDFGLVQMKNWFLRFPTILQACESMIEMLRGQYAHYVGCYHEATFHYIEAAKLTE 154
                    LVQMK WF+RFPTILQACES+IEMLRGQYAH VGCY EATFHYIEAAK+TE
Sbjct: 451 ---------LVQMKKWFMRFPTILQACESVIEMLRGQYAHSVGCYSEATFHYIEAAKITE 510

Query: 155 SKSIQAMCQVYAAVSYICIGDAESSTLALDLIGPVYRMMDSFVGVREKTSVLFAYGLLLM 214
           SKS+QAMCQ+YAAVSYICIGDA+SS  ALDLIGPVYRM+DSF GVREKT VLFAYGLLLM
Sbjct: 511 SKSMQAMCQIYAAVSYICIGDADSSAQALDLIGPVYRMIDSFTGVREKTCVLFAYGLLLM 552

Query: 215 KQHDLQEAR 224
           +QHDLQEAR
Sbjct: 571 RQHDLQEAR 552

[Close]
BLAST of Lsi07G010270 vs. TAIR10
Match: AT5G51340.1 (AT5G51340.1 Tetratricopeptide repeat (TPR)-like superfamily protein)

HSP 1 Score: 217.2 bits (552), Expect = 2.1e-56
Identity = 118/189 (62.43%), Postives = 136/189 (71.96%), Query Frame = 1 

Query: 35  EVSLQHSAIWMAGVYLMLLMQLLENKVAIELTRSEFVEAQEASINTEDDTGKDDVTGVRR 94
           E  L+H+AIWM+ V+LML MQ LEN+VA+ELTRS++VEA+EA                  
Sbjct: 390 EADLRHTAIWMSRVFLMLQMQFLENRVALELTRSDYVEAEEA------------------ 449

Query: 95  RWRLLEDFGLVQMKNWFLRFPTILQACESMIEMLRGQYAHYVGCYHEATFHYIEAAKLTE 154
                    LV MKNWF RFPTILQA E MIEMLRGQY+H VGCY EA FH IEA KLTE
Sbjct: 450 ---------LVDMKNWFTRFPTILQASECMIEMLRGQYSHSVGCYSEAAFHCIEATKLTE 509

Query: 155 SKSIQAMCQVYAAVSYICIGDAESSTLALDLIGPVYRMMDSFVGVREKTSVLFAYGLLLM 214
           S S+QA CQ +AAVSY+ IGDAESS+ ALDLIGP+  M +S  GVRE+ S+LFAYGLLLM
Sbjct: 510 SISMQASCQAFAAVSYLTIGDAESSSKALDLIGPLNGMTNSLSGVREEASILFAYGLLLM 551

Query: 215 KQHDLQEAR 224
           KQ DLQEAR
Sbjct: 570 KQRDLQEAR 551

[Close]
BLAST of Lsi07G010270 vs. NCBI nr
Match: gi|449456905|ref|XP_004146189.1| (PREDICTED: MAU2 chromatid cohesion factor homolog isoform X1 [Cucumis sativus])

HSP 1 Score: 305.4 bits (781), Expect = 1.6e-79
Identity = 163/171 (95.32%), Postives = 167/171 (97.66%), Query Frame = 1 

Query: 291 RNRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPT 350
           RNRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPT
Sbjct: 550 RNRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPT 609

Query: 351 QIWVLSVLTTLYQELGEKGNEMENAEYQCKKAEDLQRRLVDAHSSIHHIELIDKVRLEIQ 410
           QIWVLSVLTTLYQELGEKGNEMENAEYQCKKA+DLQRRLVDAHSSIHHIELIDKVRLEIQ
Sbjct: 610 QIWVLSVLTTLYQELGEKGNEMENAEYQCKKADDLQRRLVDAHSSIHHIELIDKVRLEIQ 669

Query: 411 QLQGVDIKRAGSPSLGVDLDIPESIGVSVSLPTSSLKLMDMDTGRRGKRKI 462
           QL+GVDIKRAGS SLGVDLDIP SIGVSVS  TSSLKLMD+D+GRRGKRKI
Sbjct: 670 QLKGVDIKRAGSISLGVDLDIPGSIGVSVS--TSSLKLMDIDSGRRGKRKI 718

[Close]
BLAST of Lsi07G010270 vs. NCBI nr
Match: gi|778674503|ref|XP_011650234.1| (PREDICTED: MAU2 chromatid cohesion factor homolog isoform X2 [Cucumis sativus])

HSP 1 Score: 305.4 bits (781), Expect = 1.6e-79
Identity = 163/171 (95.32%), Postives = 167/171 (97.66%), Query Frame = 1 

Query: 291 RNRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPT 350
           RNRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPT
Sbjct: 537 RNRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPT 596

Query: 351 QIWVLSVLTTLYQELGEKGNEMENAEYQCKKAEDLQRRLVDAHSSIHHIELIDKVRLEIQ 410
           QIWVLSVLTTLYQELGEKGNEMENAEYQCKKA+DLQRRLVDAHSSIHHIELIDKVRLEIQ
Sbjct: 597 QIWVLSVLTTLYQELGEKGNEMENAEYQCKKADDLQRRLVDAHSSIHHIELIDKVRLEIQ 656

Query: 411 QLQGVDIKRAGSPSLGVDLDIPESIGVSVSLPTSSLKLMDMDTGRRGKRKI 462
           QL+GVDIKRAGS SLGVDLDIP SIGVSVS  TSSLKLMD+D+GRRGKRKI
Sbjct: 657 QLKGVDIKRAGSISLGVDLDIPGSIGVSVS--TSSLKLMDIDSGRRGKRKI 705

[Close]
BLAST of Lsi07G010270 vs. NCBI nr
Match: gi|659095143|ref|XP_008448423.1| (PREDICTED: LOW QUALITY PROTEIN: MAU2 chromatid cohesion factor homolog [Cucumis melo])

HSP 1 Score: 303.9 bits (777), Expect = 4.7e-79
Identity = 162/171 (94.74%), Postives = 166/171 (97.08%), Query Frame = 1 

Query: 291 RNRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPT 350
           RNRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPT
Sbjct: 550 RNRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPT 609

Query: 351 QIWVLSVLTTLYQELGEKGNEMENAEYQCKKAEDLQRRLVDAHSSIHHIELIDKVRLEIQ 410
           QIWVLSVLTTLYQELGEKGNEMENAEYQCKKA+DLQRRLVDAHSSIHHIELIDKVRLEIQ
Sbjct: 610 QIWVLSVLTTLYQELGEKGNEMENAEYQCKKADDLQRRLVDAHSSIHHIELIDKVRLEIQ 669

Query: 411 QLQGVDIKRAGSPSLGVDLDIPESIGVSVSLPTSSLKLMDMDTGRRGKRKI 462
           QL+GVDIKRAGS SLGVDLDIP SIG SVS  TSSLKLMD+D+GRRGKRKI
Sbjct: 670 QLKGVDIKRAGSISLGVDLDIPGSIGASVS--TSSLKLMDIDSGRRGKRKI 718

[Close]
BLAST of Lsi07G010270 vs. NCBI nr
Match: gi|700200445|gb|KGN55578.1| (hypothetical protein Csa_3G000020 [Cucumis sativus])

HSP 1 Score: 303.5 bits (776), Expect = 6.2e-79
Identity = 162/170 (95.29%), Postives = 166/170 (97.65%), Query Frame = 1 

Query: 292 NRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPTQ 351
           NRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPTQ
Sbjct: 14  NRLAKGLQLTHNHLGNLQLVAQYLTILGSLALALHDTVQAREILRSSLTLAKKLYDIPTQ 73

Query: 352 IWVLSVLTTLYQELGEKGNEMENAEYQCKKAEDLQRRLVDAHSSIHHIELIDKVRLEIQQ 411
           IWVLSVLTTLYQELGEKGNEMENAEYQCKKA+DLQRRLVDAHSSIHHIELIDKVRLEIQQ
Sbjct: 74  IWVLSVLTTLYQELGEKGNEMENAEYQCKKADDLQRRLVDAHSSIHHIELIDKVRLEIQQ 133

Query: 412 LQGVDIKRAGSPSLGVDLDIPESIGVSVSLPTSSLKLMDMDTGRRGKRKI 462
           L+GVDIKRAGS SLGVDLDIP SIGVSVS  TSSLKLMD+D+GRRGKRKI
Sbjct: 134 LKGVDIKRAGSISLGVDLDIPGSIGVSVS--TSSLKLMDIDSGRRGKRKI 181

[Close]
BLAST of Lsi07G010270 vs. NCBI nr
Match: gi|700200444|gb|KGN55577.1| (hypothetical protein Csa_3G000010 [Cucumis sativus])

HSP 1 Score: 300.8 bits (769), Expect = 4.0e-78
Identity = 162/198 (81.82%), Postives = 164/198 (82.83%), Query Frame = 1 

Query: 26  KMVNAPATVEVSLQHSAIWMAGVYLMLLMQLLENKVAIELTRSEFVEAQEASINTEDDTG 85
           K+  A    EVSLQHSAIWMAGVYLML+MQLLENKVAIELTRSEFVEAQEA         
Sbjct: 380 KLGIADGVREVSLQHSAIWMAGVYLMLIMQLLENKVAIELTRSEFVEAQEA--------- 439

Query: 86  KDDVTGVRRRWRLLEDFGLVQMKNWFLRFPTILQACESMIEMLRGQYAHYVGCYHEATFH 145
                             LVQMKNWFLRFPTILQACESMIEMLRGQYAHYVGCYHEATFH
Sbjct: 440 ------------------LVQMKNWFLRFPTILQACESMIEMLRGQYAHYVGCYHEATFH 499

Query: 146 YIEAAKLTESKSIQAMCQVYAAVSYICIGDAESSTLALDLIGPVYRMMDSFVGVREKTSV 205
           YIEAAKLTESKSIQAMCQVYAAVSYICIGDAESSTLALDLIGPVY MMDSFVGVREKTSV
Sbjct: 500 YIEAAKLTESKSIQAMCQVYAAVSYICIGDAESSTLALDLIGPVYSMMDSFVGVREKTSV 550

Query: 206 LFAYGLLLMKQHDLQEAR 224
           LFAYGLLLMKQHDLQEAR
Sbjct: 560 LFAYGLLLMKQHDLQEAR 550

The following BLAST results are available for this feature:
BLAST of Lsi07G010270 vs. Swiss-Prot
Match NameE-valueIdentityDescription
BLAST of Lsi07G010270 vs. TrEMBL
Match NameE-valueIdentityDescription
A0A0A0L1H4_CUCSA4.3e-7995.29Uncharacterized protein OS=Cucumis sativus GN=Csa_3G000020 PE=4 SV=1[more]
A0A0A0L4R7_CUCSA2.8e-7881.82Uncharacterized protein OS=Cucumis sativus GN=Csa_3G000010 PE=4 SV=1[more]
D7SJG2_VITVI3.3e-7177.78Putative uncharacterized protein OS=Vitis vinifera GN=VIT_06s0004g08370 PE=4 SV=... [more]
W9QXY9_9ROSA7.4e-7177.25Uncharacterized protein OS=Morus notabilis GN=L484_022693 PE=4 SV=1[more]
A0A059AEJ6_EUCGR3.7e-7075.66Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_J01848 PE=4 SV=1[more]
BLAST of Lsi07G010270 vs. TAIR10
Match NameE-valueIdentityDescription
AT5G51340.12.1e-5662.43 Tetratricopeptide repeat (TPR)-like superfamily protein[more]
BLAST of Lsi07G010270 vs. NCBI nr
Match NameE-valueIdentityDescription
gi|449456905|ref|XP_004146189.1|1.6e-7995.32PREDICTED: MAU2 chromatid cohesion factor homolog isoform X1 [Cucumis sativus][more]
gi|778674503|ref|XP_011650234.1|1.6e-7995.32PREDICTED: MAU2 chromatid cohesion factor homolog isoform X2 [Cucumis sativus][more]
gi|659095143|ref|XP_008448423.1|4.7e-7994.74PREDICTED: LOW QUALITY PROTEIN: MAU2 chromatid cohesion factor homolog [Cucumis ... [more]
gi|700200445|gb|KGN55578.1|6.2e-7995.29hypothetical protein Csa_3G000020 [Cucumis sativus][more]
gi|700200444|gb|KGN55577.1|4.0e-7881.82hypothetical protein Csa_3G000010 [Cucumis sativus][more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: Biological Process
TermDefinition
GO:0007064mitotic sister chromatid cohesion
Vocabulary: Molecular Function
TermDefinition
GO:0005515protein binding
Vocabulary: INTERPRO
TermDefinition
IPR019440MAU2
IPR011990TPR-like_helical_dom_sf
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0007064 mitotic sister chromatid cohesion
biological_process GO:0000956 nuclear-transcribed mRNA catabolic process
biological_process GO:0006487 protein N-linked glycosylation
biological_process GO:0034088 maintenance of mitotic sister chromatid cohesion
cellular_component GO:0005575 cellular_component
cellular_component GO:0000785 chromatin
cellular_component GO:0032116 SMC loading complex
molecular_function GO:0005515 protein binding
molecular_function GO:0003674 molecular_function
molecular_function GO:0003690 double-stranded DNA binding
Relationships

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

Feature NameUnique NameType
Lsi07G010270.1Lsi07G010270.1mRNA


InterPro
Analysis Name: InterPro Annotations of Lagenaria siceraria
Date Performed: 2017-09-18
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR011990Tetratricopeptide-like helical domainGENE3DG3DSA:1.25.40.10coord: 204..227
score: 4.0E-7coord: 296..368
score: 4.
IPR011990Tetratricopeptide-like helical domainunknownSSF48452TPR-likecoord: 127..227
score: 2.9E-5coord: 296..392
score: 2.
IPR019440Chromatid cohesion factor MAU2PANTHERPTHR21394UNCHARACTERIZEDcoord: 104..222
score: 1.7E-100coord: 291..432
score: 1.7E-100coord: 32..76
score: 1.7E
NoneNo IPR availableunknownCoilCoilcoord: 365..385
scor
NoneNo IPR availablePANTHERPTHR21394:SF0MAU2 CHROMATID COHESION FACTOR HOMOLOGcoord: 104..222
score: 1.7E-100coord: 32..76
score: 1.7E-100coord: 291..432
score: 1.7E

Synteny
The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
Lsi07G010270Csa3G000010Cucumber (Chinese Long) v2culsiB228
Lsi07G010270CSPI03G00010Wild cucumber (PI 183967)cpilsiB227
Lsi07G010270Cucsa.323350Cucumber (Gy14) v1cgylsiB530
Lsi07G010270Cla008970Watermelon (97103) v1lsiwmB429
Lsi07G010270MELO3C013696Melon (DHL92) v3.5.1lsimeB446
Lsi07G010270ClCG10G000010Watermelon (Charleston Gray)lsiwcgB389
Lsi07G010270MELO3C013696.2Melon (DHL92) v3.6.1lsimedB462
Lsi07G010270Cla97C10G184560Watermelon (97103) v2lsiwmbB395
Lsi07G010270Bhi11G000278Wax gourdlsiwgoB540
Lsi07G010270CsGy3G000010Cucumber (Gy14) v2cgyblsiB217
Lsi07G010270CsaV3_3G000010Cucumber (Chinese Long) v3cuclsiB250
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:

None