Cp4.1LG12g00630 (gene) Cucurbita pepo (Zucchini)

Overview
NameCp4.1LG12g00630
Typegene
OrganismCucurbita pepo (Cucurbita pepo (Zucchini))
DescriptionEndoglucanase
LocationCp4.1LG12 : 277900 .. 297437 (-)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATTGTTAGTGTGCTGGTTGGGCTTGGAGTTGTTCTTGCTCATATCCATGGCTGCCTTGGAGTTGACTATAAAGAAGCTTTAACAAAGTCTTTGCTGTATTATGAGGCTCAAAGATCAGGAAAATTGCCCCAAAATCAAAGACTCTTTGATTTCGCAAGGAATAATCAAGGGTTATACCAAAATAGTGTACGTTTTGTTTTTGGTTTGGTCGAGTATGGGGTTTGTTGGATTTTGTTCCTTAATTTAATCGAAAATGATGAACTGTTGTGGGCTTCTGCTTGGCTTTATCGTGCAACTGGGGATCAAACCTACCTTAACTATTTGGGTGGGTCTGGTAATACCGGTGGGACAAGAACTGCGTTCTCTTGGGACGACAACATTGTTGGTGTGCTGGTTGGGCTTGGAGTTGTTCTTGCTCATATCCATGGCTGCCTTGGAGTTGACTATAAAGAAGCTTTAACAAACATTGTTGGTGTGCTGGTTGGGCTTGGAGTTGTTCTTGCTCATATCCATGGCTGCCTTGGAGTTGACTATAAAGAAGCTTTAACAAACATTGTTGGTGTGCTGGTTGGGCTTGGAGTTGTTCTTGCTCATATCCATGGCTGCCTTGGAGTTGACTATAAAGAAGCTTTAACAAAGTCTTTGCTGTATTATGAGGCTCAAAGATCAGGAAAATTGCCCCAAAATCAAAGACTCTTTGATTTCGCAAGGAATAATCAAGGGTTATACCAAAATAGTGTTTCTGTAGCAGGCAAGTTCTATTCAAGCTCTGGATTTCAGGATGAACTGTTGTGGGCTTCTGCTTGGCTTTATCGTGCAACTGGGGATCAAACCTACCTTAACTATTTGGGTGGGTCTGGTAATACCGGTGGGACAAGAACTATGTTCTCTTGGGACGACAAGTTTGCTGGTCTCTTTGAATTTGCGAGGAATCATCAAGGGCTTTATCAAAATAGTGTTCCTGGAGTGGGACAGTTCTATTCCAGCTCCGGATTTCAGGATGAATTGTTGTGGGCTGCTGTCTGGCTTTATCGTGCAACTGGGGATCGAGCGTACCTTGATTATTTGGGTGGGTCGGGTAATGCCGGTGGGGCAAGAACTATGTTCTCTTGGGACGAC

Coding sequence (CDS)

ATTGTTAGTGTGCTGGTTGGGCTTGGAGTTGTTCTTGCTCATATCCATGGCTGCCTTGGAGTTGACTATAAAGAAGCTTTAACAAAGTCTTTGCTGTATTATGAGGCTCAAAGATCAGGAAAATTGCCCCAAAATCAAAGACTCTTTGATTTCGCAAGGAATAATCAAGGGTTATACCAAAATAGTGTACGTTTTGTTTTTGGTTTGGTCGAGTATGGGGTTTGTTGGATTTTGTTCCTTAATTTAATCGAAAATGATGAACTGTTGTGGGCTTCTGCTTGGCTTTATCGTGCAACTGGGGATCAAACCTACCTTAACTATTTGGGTGGGTCTGGTAATACCGGTGGGACAAGAACTGCGTTCTCTTGGGACGACAACATTGTTGGTGTGCTGGTTGGGCTTGGAGTTGTTCTTGCTCATATCCATGGCTGCCTTGGAGTTGACTATAAAGAAGCTTTAACAAACATTGTTGGTGTGCTGGTTGGGCTTGGAGTTGTTCTTGCTCATATCCATGGCTGCCTTGGAGTTGACTATAAAGAAGCTTTAACAAACATTGTTGGTGTGCTGGTTGGGCTTGGAGTTGTTCTTGCTCATATCCATGGCTGCCTTGGAGTTGACTATAAAGAAGCTTTAACAAAGTCTTTGCTGTATTATGAGGCTCAAAGATCAGGAAAATTGCCCCAAAATCAAAGACTCTTTGATTTCGCAAGGAATAATCAAGGGTTATACCAAAATAGTGTTTCTGTAGCAGGCAAGTTCTATTCAAGCTCTGGATTTCAGGATGAACTGTTGTGGGCTTCTGCTTGGCTTTATCGTGCAACTGGGGATCAAACCTACCTTAACTATTTGGGTGGGTCTGGTAATACCGGTGGGACAAGAACTATGTTCTCTTGGGACGACAAGTTTGCTGGTCTCTTTGAATTTGCGAGGAATCATCAAGGGCTTTATCAAAATAGTGTTCCTGGAGTGGGACAGTTCTATTCCAGCTCCGGATTTCAGGATGAATTGTTGTGGGCTGCTGTCTGGCTTTATCGTGCAACTGGGGATCGAGCGTACCTTGATTATTTGGGTGGGTCGGGTAATGCCGGTGGGGCAAGAACTATGTTCTCTTGGGACGAC

Protein sequence

IVSVLVGLGVVLAHIHGCLGVDYKEALTKSLLYYEAQRSGKLPQNQRLFDFARNNQGLYQNSVRFVFGLVEYGVCWILFLNLIENDELLWASAWLYRATGDQTYLNYLGGSGNTGGTRTAFSWDDNIVGVLVGLGVVLAHIHGCLGVDYKEALTNIVGVLVGLGVVLAHIHGCLGVDYKEALTNIVGVLVGLGVVLAHIHGCLGVDYKEALTKSLLYYEAQRSGKLPQNQRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNYLGGSGNTGGTRTMFSWDDKFAGLFEFARNHQGLYQNSVPGVGQFYSSSGFQDELLWAAVWLYRATGDRAYLDYLGGSGNAGGARTMFSWDD
Homology
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BLAST of Cp4.1LG12g00630 vs. Swiss-Prot
Match: GUN12_ARATH (Endoglucanase 12 OS=Arabidopsis thaliana GN=At2g44540 PE=3 SV=1)

HSP 1 Score: 105.1 bits (261), Expect = 1.6e-21
Identity = 47/73 (64.38%), Postives = 60/73 (82.19%), Query Frame = 1 

Query: 232 LFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNYLGGSGNTGG 291
           LF FA+ + GLYQNS++ AG FY+SSG++DELLWA+AWL+RAT DQ YLNYL  +  TGG
Sbjct: 213 LFAFAKAHPGLYQNSITNAGGFYASSGYEDELLWAAAWLHRATNDQIYLNYLTQASGTGG 272

Query: 292 TRTMFSWDDKFAG 305
            R++F+WDDKF G
Sbjct: 273 PRSVFAWDDKFVG 285

[Close]
BLAST of Cp4.1LG12g00630 vs. Swiss-Prot
Match: GUN14_ARATH (Endoglucanase 14 OS=Arabidopsis thaliana GN=At2g44560 PE=2 SV=2)

HSP 1 Score: 104.8 bits (260), Expect = 2.1e-21
Identity = 47/75 (62.67%), Postives = 60/75 (80.00%), Query Frame = 1 

Query: 230 QRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNYLGGSGNT 289
           + LF+FA+   G+YQNS++ AG FY+SSG++DELLWA+AWL+RAT DQ YL+YL  +  T
Sbjct: 211 KELFEFAKAYPGIYQNSITNAGGFYASSGYEDELLWAAAWLHRATNDQIYLDYLTQASGT 270

Query: 290 GGTRTMFSWDDKFAG 305
           GG RT FSWDDKF G
Sbjct: 271 GGPRTAFSWDDKFVG 285

[Close]
BLAST of Cp4.1LG12g00630 vs. Swiss-Prot
Match: GUN15_ARATH (Endoglucanase 15 OS=Arabidopsis thaliana GN=At2g44570 PE=3 SV=1)

HSP 1 Score: 104.8 bits (260), Expect = 2.1e-21
Identity = 43/69 (62.32%), Postives = 58/69 (84.06%), Query Frame = 1 

Query: 305 LFEFARNHQGLYQNSVPGVGQFYSSSGFQDELLWAAVWLYRATGDRAYLDYLGGSGNAGG 364
           LFEFA+++ G+Y NS+P  G FY SSG++DELLWAA WL+RATGD+ YLD+L  + N+GG
Sbjct: 213 LFEFAKDYPGVYHNSIPNAGGFYPSSGYEDELLWAAAWLHRATGDQTYLDHLTQASNSGG 272

Query: 365 ARTMFSWDD 374
           AR++F+WDD
Sbjct: 273 ARSVFAWDD 281

[Close]
BLAST of Cp4.1LG12g00630 vs. Swiss-Prot
Match: GUN14_ORYSJ (Endoglucanase 14 OS=Oryza sativa subsp. japonica GN=Os05g0129200 PE=2 SV=1)

HSP 1 Score: 101.3 bits (251), Expect = 2.4e-20
Identity = 47/76 (61.84%), Postives = 61/76 (80.26%), Query Frame = 1 

Query: 230 QRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRAT-GDQTYLNYLGGSGN 289
           ++LF+FA+N++GLY NSV  A KFY+SSG +DELLWA+AWLY AT G++ Y  Y+ G+ N
Sbjct: 225 KQLFEFAKNHRGLYHNSVPSAAKFYASSGDEDELLWAAAWLYIATGGEEEYSAYIAGATN 284

Query: 290 TGGTRTMFSWDDKFAG 305
            GG R+MFSWDDKF G
Sbjct: 285 VGGVRSMFSWDDKFVG 300

[Close]
BLAST of Cp4.1LG12g00630 vs. Swiss-Prot
Match: GUN13_ARATH (Endoglucanase 13 OS=Arabidopsis thaliana GN=At2g44550 PE=2 SV=1)

HSP 1 Score: 100.9 bits (250), Expect = 3.1e-20
Identity = 47/73 (64.38%), Postives = 59/73 (80.82%), Query Frame = 1 

Query: 232 LFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNYLGGSGNTGG 291
           LF FA+ ++GLYQNS+  AG FY+SSG++DELLWA+AWL+RAT DQ YL+YL     TGG
Sbjct: 213 LFAFAKAHRGLYQNSIPNAGGFYASSGYEDELLWAAAWLHRATNDQIYLDYL-TEAETGG 272

Query: 292 TRTMFSWDDKFAG 305
            RT+F+WDDKF G
Sbjct: 273 PRTVFAWDDKFVG 284

[Close]
BLAST of Cp4.1LG12g00630 vs. TrEMBL
Match: A0A0A0K938_CUCSA (Endoglucanase OS=Cucumis sativus GN=Csa_6G079740 PE=3 SV=1)

HSP 1 Score: 157.5 bits (397), Expect = 3.1e-35
Identity = 102/255 (40.00%), Postives = 123/255 (48.24%), Query Frame = 1 

Query: 185 IVGVLVGLGVVLAHIHGCLGVDYKEALTKSLLYYEAQRSG-------------------- 244
           IV  LVG+G+ L HIHGC+G DY +ALTK+LLYYEAQRSG                    
Sbjct: 10  IVCALVGVGIFLGHIHGCVGADYGKALTKALLYYEAQRSGKLPHNQRVQWRGDSGLQDGK 69

Query: 245 -------------------KLPQNQRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLW 304
                               LP     F     +  + +    +  K   S+   + + W
Sbjct: 70  DVGVDLTGGYYDSGDNVKFGLPM---AFTLTMLSWSVVEYKTQLWAKHEISNAL-NAIKW 129

Query: 305 ASAWLYRATGDQTYLNYLGGSGNTGGT-----------RTMFSWDDKFAG---------- 364
            + +L +A      L    G GN+              RT +  DD+  G          
Sbjct: 130 GTDYLVKAHPSPDVLYCEVGDGNSDHACWQRPEDMTTPRTAYRIDDQHPGSDLAAEAAAA 189

Query: 365 ------LFEFARNHQGLYQNSVPGVGQFYSSSGFQDELLWAAVWLYRATGDRAYLDYLGG 374
                 LF+F RNHQGLYQNSVP  GQFYSSSGFQDELLWA+ WLYRAT D  YL+YLGG
Sbjct: 190 LAAASLLFDFGRNHQGLYQNSVPVAGQFYSSSGFQDELLWASAWLYRATNDETYLNYLGG 249

[Close]
BLAST of Cp4.1LG12g00630 vs. TrEMBL
Match: M5X8V8_PRUPE (Endoglucanase (Fragment) OS=Prunus persica GN=PRUPE_ppa021556mg PE=3 SV=1)

HSP 1 Score: 122.5 bits (306), Expect = 1.1e-24
Identity = 54/79 (68.35%), Postives = 70/79 (88.61%), Query Frame = 1 

Query: 226 LPQNQRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNYLGG 285
           L   + LF+FAR++ G+YQNS++VAGKFYSSSG++DELLWA+AWL+RAT ++TYL+YLG 
Sbjct: 179 LTHAKELFEFARDHSGVYQNSINVAGKFYSSSGYEDELLWAAAWLHRATDEKTYLDYLGQ 238

Query: 286 SGNTGGTRTMFSWDDKFAG 305
           +GNTGG RT+FSWDDKF G
Sbjct: 239 AGNTGGARTVFSWDDKFIG 257

[Close]
BLAST of Cp4.1LG12g00630 vs. TrEMBL
Match: D7T4N1_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_13s0067g01190 PE=3 SV=1)

HSP 1 Score: 121.3 bits (303), Expect = 2.5e-24
Identity = 62/95 (65.26%), Postives = 73/95 (76.84%), Query Frame = 1 

Query: 210 ALTKSLLYYEAQRSGKLPQNQRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAW 269
           A +KS   Y +Q  G   Q   LFDFA ++QG+YQNS+  A  FYSSSGFQDELLWA+AW
Sbjct: 185 AFSKSDPDYSSQLLGHAKQ---LFDFANSHQGMYQNSIPQA-HFYSSSGFQDELLWAAAW 244

Query: 270 LYRATGDQTYLNYLGGSGNTGGTRTMFSWDDKFAG 305
           LYRAT D+TY +YL  SGNTGGTRTMFSWDDK++G
Sbjct: 245 LYRATNDKTYSDYLSSSGNTGGTRTMFSWDDKYSG 275

[Close]
BLAST of Cp4.1LG12g00630 vs. TrEMBL
Match: S8EBN5_9LAMI (Endoglucanase (Fragment) OS=Genlisea aurea GN=M569_04812 PE=3 SV=1)

HSP 1 Score: 120.9 bits (302), Expect = 3.2e-24
Identity = 64/125 (51.20%), Postives = 87/125 (69.60%), Query Frame = 1 

Query: 210 ALTKSLLYYEAQR---SGKLPQNQR-LFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLW 269
           AL  + + Y A+    S +L ++ R LF+FA  + GLYQNS+  AG+FYSSSG++DELLW
Sbjct: 176 ALAAASIVYSARDPVYSAELLRHARELFEFATAHTGLYQNSIPSAGQFYSSSGYEDELLW 235

Query: 270 ASAWLYRATGDQTYLNYLGGSGNTGGTRTMFSWDDKFAG----LFEFARNHQGLYQNSVP 327
           A+AWL RATGDQ Y N++ G+GNTGGTRTMFSWDDKF G    + +  +  QG+    +P
Sbjct: 236 AAAWLGRATGDQRYWNFIAGNGNTGGTRTMFSWDDKFVGVQLLIAKAIKCTQGVAAGRIP 295

[Close]
BLAST of Cp4.1LG12g00630 vs. TrEMBL
Match: A0A059C4Y0_EUCGR (Endoglucanase OS=Eucalyptus grandis GN=EUGRSUZ_E01717 PE=3 SV=1)

HSP 1 Score: 117.5 bits (293), Expect = 3.6e-23
Identity = 53/79 (67.09%), Postives = 68/79 (86.08%), Query Frame = 1 

Query: 226 LPQNQRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNYLGG 285
           L   ++LFDFARN+ G+Y +S+SVAG+FYSSSG+QDELLWA+AWL+RATGD+ YL+YL  
Sbjct: 191 LTHAKQLFDFARNHPGVYTSSISVAGQFYSSSGYQDELLWAAAWLHRATGDKEYLDYLSS 250

Query: 286 SGNTGGTRTMFSWDDKFAG 305
           SG+TGG RT FSW+DK+ G
Sbjct: 251 SGDTGGGRTEFSWNDKYVG 269

[Close]
BLAST of Cp4.1LG12g00630 vs. TAIR10
Match: AT2G44540.1 (AT2G44540.1 glycosyl hydrolase 9B9)

HSP 1 Score: 105.1 bits (261), Expect = 9.2e-23
Identity = 47/73 (64.38%), Postives = 60/73 (82.19%), Query Frame = 1 

Query: 232 LFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNYLGGSGNTGG 291
           LF FA+ + GLYQNS++ AG FY+SSG++DELLWA+AWL+RAT DQ YLNYL  +  TGG
Sbjct: 213 LFAFAKAHPGLYQNSITNAGGFYASSGYEDELLWAAAWLHRATNDQIYLNYLTQASGTGG 272

Query: 292 TRTMFSWDDKFAG 305
            R++F+WDDKF G
Sbjct: 273 PRSVFAWDDKFVG 285

[Close]
BLAST of Cp4.1LG12g00630 vs. TAIR10
Match: AT2G44570.1 (AT2G44570.1 glycosyl hydrolase 9B12)

HSP 1 Score: 104.8 bits (260), Expect = 1.2e-22
Identity = 43/69 (62.32%), Postives = 58/69 (84.06%), Query Frame = 1 

Query: 305 LFEFARNHQGLYQNSVPGVGQFYSSSGFQDELLWAAVWLYRATGDRAYLDYLGGSGNAGG 364
           LFEFA+++ G+Y NS+P  G FY SSG++DELLWAA WL+RATGD+ YLD+L  + N+GG
Sbjct: 213 LFEFAKDYPGVYHNSIPNAGGFYPSSGYEDELLWAAAWLHRATGDQTYLDHLTQASNSGG 272

Query: 365 ARTMFSWDD 374
           AR++F+WDD
Sbjct: 273 ARSVFAWDD 281

[Close]
BLAST of Cp4.1LG12g00630 vs. TAIR10
Match: AT2G44560.1 (AT2G44560.1 glycosyl hydrolase 9B11)

HSP 1 Score: 104.8 bits (260), Expect = 1.2e-22
Identity = 47/75 (62.67%), Postives = 60/75 (80.00%), Query Frame = 1 

Query: 230 QRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNYLGGSGNT 289
           + LF+FA+   G+YQNS++ AG FY+SSG++DELLWA+AWL+RAT DQ YL+YL  +  T
Sbjct: 211 KELFEFAKAYPGIYQNSITNAGGFYASSGYEDELLWAAAWLHRATNDQIYLDYLTQASGT 270

Query: 290 GGTRTMFSWDDKFAG 305
           GG RT FSWDDKF G
Sbjct: 271 GGPRTAFSWDDKFVG 285

[Close]
BLAST of Cp4.1LG12g00630 vs. TAIR10
Match: AT2G44550.1 (AT2G44550.1 glycosyl hydrolase 9B10)

HSP 1 Score: 100.9 bits (250), Expect = 1.7e-21
Identity = 47/73 (64.38%), Postives = 59/73 (80.82%), Query Frame = 1 

Query: 232 LFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNYLGGSGNTGG 291
           LF FA+ ++GLYQNS+  AG FY+SSG++DELLWA+AWL+RAT DQ YL+YL     TGG
Sbjct: 213 LFAFAKAHRGLYQNSIPNAGGFYASSGYEDELLWAAAWLHRATNDQIYLDYL-TEAETGG 272

Query: 292 TRTMFSWDDKFAG 305
            RT+F+WDDKF G
Sbjct: 273 PRTVFAWDDKFVG 284

[Close]
BLAST of Cp4.1LG12g00630 vs. TAIR10
Match: AT1G48930.1 (AT1G48930.1 glycosyl hydrolase 9C1)

HSP 1 Score: 86.3 bits (212), Expect = 4.4e-17
Identity = 46/84 (54.76%), Postives = 56/84 (66.67%), Query Frame = 1 

Query: 226 LPQNQRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNY-LG 285
           L   + LF FA   +GLY NS+  A  FY SSG+ DELLWA+AWL+RATGDQ YL Y + 
Sbjct: 204 LSHAKELFSFADKYRGLYTNSIPNAKAFYMSSGYSDELLWAAAWLHRATGDQYYLKYAMD 263

Query: 286 GSGNTGGTR---TMFSWDDKFAGL 306
            SG  GGT      FSWD+K+AG+
Sbjct: 264 NSGYMGGTGWGVKEFSWDNKYAGV 287

[Close]
BLAST of Cp4.1LG12g00630 vs. NCBI nr
Match: gi|700191076|gb|KGN46280.1| (hypothetical protein Csa_6G079740 [Cucumis sativus])

HSP 1 Score: 157.5 bits (397), Expect = 4.4e-35
Identity = 102/255 (40.00%), Postives = 123/255 (48.24%), Query Frame = 1 

Query: 185 IVGVLVGLGVVLAHIHGCLGVDYKEALTKSLLYYEAQRSG-------------------- 244
           IV  LVG+G+ L HIHGC+G DY +ALTK+LLYYEAQRSG                    
Sbjct: 10  IVCALVGVGIFLGHIHGCVGADYGKALTKALLYYEAQRSGKLPHNQRVQWRGDSGLQDGK 69

Query: 245 -------------------KLPQNQRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLW 304
                               LP     F     +  + +    +  K   S+   + + W
Sbjct: 70  DVGVDLTGGYYDSGDNVKFGLPM---AFTLTMLSWSVVEYKTQLWAKHEISNAL-NAIKW 129

Query: 305 ASAWLYRATGDQTYLNYLGGSGNTGGT-----------RTMFSWDDKFAG---------- 364
            + +L +A      L    G GN+              RT +  DD+  G          
Sbjct: 130 GTDYLVKAHPSPDVLYCEVGDGNSDHACWQRPEDMTTPRTAYRIDDQHPGSDLAAEAAAA 189

Query: 365 ------LFEFARNHQGLYQNSVPGVGQFYSSSGFQDELLWAAVWLYRATGDRAYLDYLGG 374
                 LF+F RNHQGLYQNSVP  GQFYSSSGFQDELLWA+ WLYRAT D  YL+YLGG
Sbjct: 190 LAAASLLFDFGRNHQGLYQNSVPVAGQFYSSSGFQDELLWASAWLYRATNDETYLNYLGG 249

[Close]
BLAST of Cp4.1LG12g00630 vs. NCBI nr
Match: gi|659120450|ref|XP_008460200.1| (PREDICTED: endoglucanase 13-like [Cucumis melo])

HSP 1 Score: 142.9 bits (359), Expect = 1.1e-30
Identity = 68/86 (79.07%), Postives = 75/86 (87.21%), Query Frame = 1 

Query: 220 AQRSGKLPQNQRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTY 279
           A  S  L   ++LFDF RN+QGLYQNSV VAG+FYSSSGFQDELLWASAWLYRAT D+TY
Sbjct: 202 AYSSMLLSHAKQLFDFGRNHQGLYQNSVPVAGQFYSSSGFQDELLWASAWLYRATNDETY 261

Query: 280 LNYLGGSGNTGGTRTMFSWDDKFAGL 306
           LNYLGGSG TGGTRTMFSWDDK+AG+
Sbjct: 262 LNYLGGSGTTGGTRTMFSWDDKYAGV 287

[Close]
BLAST of Cp4.1LG12g00630 vs. NCBI nr
Match: gi|449472797|ref|XP_004153697.1| (PREDICTED: endoglucanase 13-like [Cucumis sativus])

HSP 1 Score: 142.1 bits (357), Expect = 1.9e-30
Identity = 65/76 (85.53%), Postives = 72/76 (94.74%), Query Frame = 1 

Query: 230 QRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNYLGGSGNT 289
           ++LFDF RN+QGLYQNSV VAG+FYSSSGFQDELLWASAWLYRAT D+TYLNYLGGSG T
Sbjct: 209 KQLFDFGRNHQGLYQNSVPVAGQFYSSSGFQDELLWASAWLYRATNDETYLNYLGGSGTT 268

Query: 290 GGTRTMFSWDDKFAGL 306
           GGTRTMFSWDDK+AG+
Sbjct: 269 GGTRTMFSWDDKYAGV 284

[Close]
BLAST of Cp4.1LG12g00630 vs. NCBI nr
Match: gi|1009110321|ref|XP_015894940.1| (PREDICTED: endoglucanase 13-like [Ziziphus jujuba])

HSP 1 Score: 129.4 bits (324), Expect = 1.3e-26
Identity = 57/80 (71.25%), Postives = 72/80 (90.00%), Query Frame = 1 

Query: 226 LPQNQRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNYLGG 285
           L  +++LFDFARN+ GLYQNS++VAG FY+SSG++DELLWA+AWL+RAT D+ YL+YLGG
Sbjct: 184 LTHSKQLFDFARNHVGLYQNSINVAGAFYASSGYEDELLWAAAWLHRATNDKKYLDYLGG 243

Query: 286 SGNTGGTRTMFSWDDKFAGL 306
           SGNTGG RT+FSWDDKF G+
Sbjct: 244 SGNTGGARTVFSWDDKFVGV 263

[Close]
BLAST of Cp4.1LG12g00630 vs. NCBI nr
Match: gi|645252789|ref|XP_008232281.1| (PREDICTED: endoglucanase 14-like [Prunus mume])

HSP 1 Score: 124.8 bits (312), Expect = 3.2e-25
Identity = 56/84 (66.67%), Postives = 72/84 (85.71%), Query Frame = 1 

Query: 226 LPQNQRLFDFARNNQGLYQNSVSVAGKFYSSSGFQDELLWASAWLYRATGDQTYLNYLGG 285
           L   + LF+FAR++ G+YQNS++VAGKFYSSSG++DELLWA+AWL+RAT ++TYL+YLG 
Sbjct: 201 LTHAKELFEFARDHSGVYQNSINVAGKFYSSSGYEDELLWAAAWLHRATDEKTYLDYLGQ 260

Query: 286 SGNTGGTRTMFSWDDKFAGLFEFA 310
           +GNTGG RT+FSWDDKF G  E A
Sbjct: 261 AGNTGGARTVFSWDDKFIGGLEIA 284

The following BLAST results are available for this feature:
BLAST of Cp4.1LG12g00630 vs. Swiss-Prot
Match NameE-valueIdentityDescription
GUN12_ARATH1.6e-2164.38Endoglucanase 12 OS=Arabidopsis thaliana GN=At2g44540 PE=3 SV=1[more]
GUN14_ARATH2.1e-2162.67Endoglucanase 14 OS=Arabidopsis thaliana GN=At2g44560 PE=2 SV=2[more]
GUN15_ARATH2.1e-2162.32Endoglucanase 15 OS=Arabidopsis thaliana GN=At2g44570 PE=3 SV=1[more]
GUN14_ORYSJ2.4e-2061.84Endoglucanase 14 OS=Oryza sativa subsp. japonica GN=Os05g0129200 PE=2 SV=1[more]
GUN13_ARATH3.1e-2064.38Endoglucanase 13 OS=Arabidopsis thaliana GN=At2g44550 PE=2 SV=1[more]
BLAST of Cp4.1LG12g00630 vs. TrEMBL
Match NameE-valueIdentityDescription
A0A0A0K938_CUCSA3.1e-3540.00Endoglucanase OS=Cucumis sativus GN=Csa_6G079740 PE=3 SV=1[more]
M5X8V8_PRUPE1.1e-2468.35Endoglucanase (Fragment) OS=Prunus persica GN=PRUPE_ppa021556mg PE=3 SV=1[more]
D7T4N1_VITVI2.5e-2465.26Putative uncharacterized protein OS=Vitis vinifera GN=VIT_13s0067g01190 PE=3 SV=... [more]
S8EBN5_9LAMI3.2e-2451.20Endoglucanase (Fragment) OS=Genlisea aurea GN=M569_04812 PE=3 SV=1[more]
A0A059C4Y0_EUCGR3.6e-2367.09Endoglucanase OS=Eucalyptus grandis GN=EUGRSUZ_E01717 PE=3 SV=1[more]
BLAST of Cp4.1LG12g00630 vs. TAIR10
Match NameE-valueIdentityDescription
AT2G44540.19.2e-2364.38 glycosyl hydrolase 9B9[more]
AT2G44570.11.2e-2262.32 glycosyl hydrolase 9B12[more]
AT2G44560.11.2e-2262.67 glycosyl hydrolase 9B11[more]
AT2G44550.11.7e-2164.38 glycosyl hydrolase 9B10[more]
AT1G48930.14.4e-1754.76 glycosyl hydrolase 9C1[more]
BLAST of Cp4.1LG12g00630 vs. NCBI nr
Match NameE-valueIdentityDescription
gi|700191076|gb|KGN46280.1|4.4e-3540.00hypothetical protein Csa_6G079740 [Cucumis sativus][more]
gi|659120450|ref|XP_008460200.1|1.1e-3079.07PREDICTED: endoglucanase 13-like [Cucumis melo][more]
gi|449472797|ref|XP_004153697.1|1.9e-3085.53PREDICTED: endoglucanase 13-like [Cucumis sativus][more]
gi|1009110321|ref|XP_015894940.1|1.3e-2671.25PREDICTED: endoglucanase 13-like [Ziziphus jujuba][more]
gi|645252789|ref|XP_008232281.1|3.2e-2566.67PREDICTED: endoglucanase 14-like [Prunus mume][more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: Molecular Function
TermDefinition
GO:0003824catalytic activity
GO:0004553hydrolase activity, hydrolyzing O-glycosyl compounds
Vocabulary: Biological Process
TermDefinition
GO:0005975carbohydrate metabolic process
Vocabulary: INTERPRO
TermDefinition
IPR0123416hp_glycosidase-like_sf
IPR0089286-hairpin_glycosidase_sf
IPR001701Glyco_hydro_9
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0030245 cellulose catabolic process
biological_process GO:0005982 starch metabolic process
biological_process GO:0005985 sucrose metabolic process
biological_process GO:0000272 polysaccharide catabolic process
biological_process GO:0005975 carbohydrate metabolic process
cellular_component GO:0005575 cellular_component
molecular_function GO:0008810 cellulase activity
molecular_function GO:0004553 hydrolase activity, hydrolyzing O-glycosyl compounds
molecular_function GO:0003824 catalytic activity
Relationships

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

Feature NameUnique NameType
Cp4.1LG12g00630.1Cp4.1LG12g00630.1mRNA


InterPro
Analysis Name: InterPro Annotations of Cucurbita pepo
Date Performed: 2017-12-02
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR001701Glycoside hydrolase family 9PFAMPF00759Glyco_hydro_9coord: 230..304
score: 2.4E-14coord: 46..132
score: 1.1E-9coord: 305..373
score: 1.7
IPR008928Six-hairpin glycosidase-likeunknownSSF48208Six-hairpin glycosidasescoord: 305..373
score: 1.6E-18coord: 206..305
score: 7.49E-26coord: 22..134
score: 1.02
IPR012341Six-hairpin glycosidaseGENE3DG3DSA:1.50.10.10coord: 306..373
score: 2.4E-19coord: 52..140
score: 2.3E-12coord: 22..51
score: 1.6E-6coord: 231..305
score: 3.5E-21coord: 206..230
score: 7.
NoneNo IPR availablePANTHERPTHR22298ENDO-1,4-BETA-GLUCANASEcoord: 232..304
score: 2.2
NoneNo IPR availablePANTHERPTHR22298:SF12ENDOGLUCANASE 12-RELATEDcoord: 232..304
score: 2.2

Synteny
The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
Cp4.1LG12g00630CmoCh17G000630Cucurbita moschata (Rifu)cmocpeB335
Cp4.1LG12g00630Csa6G079740Cucumber (Chinese Long) v2cpecuB143
Cp4.1LG12g00630MELO3C022465.2Melon (DHL92) v3.6.1cpemedB141
Cp4.1LG12g00630CsaV3_6G006550Cucumber (Chinese Long) v3cpecucB0167
Cp4.1LG12g00630Bhi12G002239Wax gourdcpewgoB0182
Cp4.1LG12g00630CsGy6G006230Cucumber (Gy14) v2cgybcpeB723
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
Cp4.1LG12g00630Melon (DHL92) v3.6.1cpemedB170
Cp4.1LG12g00630Silver-seed gourdcarcpeB0322
Cp4.1LG12g00630Silver-seed gourdcarcpeB0881
Cp4.1LG12g00630Silver-seed gourdcarcpeB1328
Cp4.1LG12g00630Silver-seed gourdcarcpeB1499
Cp4.1LG12g00630Silver-seed gourdcarcpeB1501
Cp4.1LG12g00630Cucumber (Chinese Long) v3cpecucB0153
Cp4.1LG12g00630Wax gourdcpewgoB0176
Cp4.1LG12g00630Wax gourdcpewgoB0192
Cp4.1LG12g00630Cucurbita pepo (Zucchini)cpecpeB162
Cp4.1LG12g00630Cucurbita pepo (Zucchini)cpecpeB184
Cp4.1LG12g00630Cucurbita pepo (Zucchini)cpecpeB194
Cp4.1LG12g00630Cucumber (Gy14) v1cgycpeB0670
Cp4.1LG12g00630Cucumber (Gy14) v1cgycpeB0947
Cp4.1LG12g00630Cucurbita maxima (Rimu)cmacpeB259
Cp4.1LG12g00630Cucurbita maxima (Rimu)cmacpeB371
Cp4.1LG12g00630Cucurbita maxima (Rimu)cmacpeB811
Cp4.1LG12g00630Cucurbita maxima (Rimu)cmacpeB895
Cp4.1LG12g00630Cucurbita maxima (Rimu)cmacpeB908
Cp4.1LG12g00630Cucurbita moschata (Rifu)cmocpeB223
Cp4.1LG12g00630Cucurbita moschata (Rifu)cmocpeB765
Cp4.1LG12g00630Cucurbita moschata (Rifu)cmocpeB833
Cp4.1LG12g00630Cucurbita moschata (Rifu)cmocpeB844
Cp4.1LG12g00630Wild cucumber (PI 183967)cpecpiB136
Cp4.1LG12g00630Wild cucumber (PI 183967)cpecpiB145
Cp4.1LG12g00630Cucumber (Chinese Long) v2cpecuB135
Cp4.1LG12g00630Bottle gourd (USVL1VR-Ls)cpelsiB104
Cp4.1LG12g00630Bottle gourd (USVL1VR-Ls)cpelsiB122
Cp4.1LG12g00630Watermelon (Charleston Gray)cpewcgB138
Cp4.1LG12g00630Watermelon (Charleston Gray)cpewcgB141
Cp4.1LG12g00630Watermelon (97103) v1cpewmB151
Cp4.1LG12g00630Watermelon (97103) v1cpewmB157
Cp4.1LG12g00630Melon (DHL92) v3.5.1cpemeB115
Cp4.1LG12g00630Melon (DHL92) v3.5.1cpemeB141
Cp4.1LG12g00630Cucumber (Gy14) v2cgybcpeB304