CcUC11G213630 (gene) Watermelon (PI 537277) v1

Overview
NameCcUC11G213630
Typegene
OrganismCitrullus colocynthis (Watermelon (PI 537277) v1)
Descriptionstress-induced protein KIN2-like
LocationCicolChr11: 5628809 .. 5650086 (-)
RNA-Seq ExpressionCcUC11G213630
SyntenyCcUC11G213630
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ACTCAAACTATATTCACCAAGTCTTTCTCAAGTTCTAAGCTCCTAATTTTGTGTTTTTAAAATTCATTAAAAAAAAAAAAATGGATAACTCTCAAAAGATGAGCTACCATGCTGGAGAAGCCAAGGGTCAAGCTCAGGAGAAGGCGAGCAATATGATGGACAAGGCTGTTGATGTAGCCCAATCAGCTAAGGAATCAGTGCAAGAAGCAGGACAACAGGTGAAAGTTAAGGCACAAGAAACTGCCGATGCTGAAAAGGCGAGCAATTTGATGGACAAGGCAAGTGATGCAGCGCAATCAACTAAAGAATCAATACAAGAAACAGGACAACAGGTGAAGGAGAAGGCGCAAGGGGCCGCTGATGCGGTTAAGGATGCAATTAACAAATGAAAATGTCTCCAGTTTCATGTTTTTTGAGATTTTTTTCAAAGGCTCCCCTCAATTTTGTTTTTCCCTTAGATTTTTTCTTTTCTCTCTATTGAATAAAGCTAGCATTATGTAAGAGCCTTAAAAAAAAAAAAGGTCTCACATGGCTCATTAGCCTTTTTTGCCAATAAAAATGGGTTGCTTTTGTAATGTATCGATTTACATCTTTATTATGTTTTTATTCCTATAATTTTACCAATTAAATTCTTACATTTACGTAATCAAAT

Coding sequence (CDS)

ATGGATAACTCTCAAAAGATGAGCTACCATGCTGGAGAAGCCAAGGGTCAAGCTCAGGAGAAGGCGAGCAATATGATGGACAAGGCTGTTGATGTAGCCCAATCAGCTAAGGAATCAGTGCAAGAAGCAGGACAACAGGTGAAAGTTAAGGCACAAGAAACTGCCGATGCTGAAAAGGCGAGCAATTTGATGGACAAGGCAAGTGATGCAGCGCAATCAACTAAAGAATCAATACAAGAAACAGGACAACAGGTGAAGGAGAAGGCGCAAGGGGCCGCTGATGCGGTTAAGGATGCAATTAACAAATGA

Protein sequence

MDNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKASNLMDKASDAAQSTKESIQETGQQVKEKAQGAADAVKDAINK
Homology
[Close]
BLAST of CcUC11G213630 vs. NCBI nr
Match: KAF7822332.1 (stress-induced protein KIN2-like [Senna tora])

HSP 1 Score: 117.9 bits (294), Expect = 5.3e-23
Identity = 67/99 (67.68%), Postives = 85/99 (85.86%), Query Frame = 0 

Query: 1   MDNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKA 60
           MD++ KMSY+AG+A+GQAQEKA+ MMDKA ++AQSAKES+Q+ G+Q+K  A+  A+AEKA
Sbjct: 1   MDSTNKMSYNAGQAQGQAQEKANTMMDKASNIAQSAKESMQQTGEQIKATAEGAAEAEKA 60

Query: 61  SNLMDKASDAAQSTKESIQETGQQVKEKAQGAADAVKDA 100
           S LMDKASD AQS KESIQ+ G+QVK  AQGAA+AVK+A
Sbjct: 61  STLMDKASDVAQSAKESIQQAGEQVKATAQGAAEAVKNA 99

[Close]
BLAST of CcUC11G213630 vs. NCBI nr
Match: RXH68262.1 (hypothetical protein DVH24_028409 [Malus domestica])

HSP 1 Score: 108.2 bits (269), Expect = 4.2e-20
Identity = 70/120 (58.33%), Postives = 85/120 (70.83%), Query Frame = 0 

Query: 2   DNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADA---- 61
           DNSQKMSY AGEAKGQAQEKAS MMDKA + AQSAKE++Q+AGQ ++ KAQ  ADA    
Sbjct: 3   DNSQKMSYQAGEAKGQAQEKASGMMDKANNAAQSAKETMQDAGQNMQAKAQGAADAKKMA 62

Query: 62  ------------------EKASNLMDKASDAAQSTKESIQETGQQVKEKAQGAADAVKDA 100
                             EKAS +MDKA++AAQS KE++Q+ GQ ++ KAQGAADAVK+A
Sbjct: 63  DNSQKMSYHAGEAKGQAQEKASGMMDKANNAAQSAKETMQDAGQNMQAKAQGAADAVKNA 122

[Close]
BLAST of CcUC11G213630 vs. NCBI nr
Match: XP_011011268.1 (PREDICTED: late embryogenesis abundant protein 1-like [Populus euphratica])

HSP 1 Score: 96.7 bits (239), Expect = 1.3e-16
Identity = 61/98 (62.24%), Postives = 71/98 (72.45%), Query Frame = 0 

Query: 2   DNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKAS 61
           DN+QKMSY AGE KGQAQEKASN+MD+A + AQSAKESVQE               EKAS
Sbjct: 3   DNTQKMSYKAGETKGQAQEKASNLMDRADNAAQSAKESVQE---------------EKAS 62

Query: 62  NLMDKASDAAQSTKESIQETGQQVKEKAQGAADAVKDA 100
           NLMD+A +AAQS KES+QE GQQV+ K Q A + VK+A
Sbjct: 63  NLMDRADNAAQSAKESVQEAGQQVRAKTQEAVEGVKNA 85

[Close]
BLAST of CcUC11G213630 vs. NCBI nr
Match: KAG5247471.1 (late embryogenesis abundant protein [Salix suchowensis])

HSP 1 Score: 94.4 bits (233), Expect = 6.2e-16
Identity = 61/98 (62.24%), Postives = 70/98 (71.43%), Query Frame = 0 

Query: 2   DNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKAS 61
           DNSQKMSY AGE KGQAQEKAS +MD+A + AQSAKESVQE               +KAS
Sbjct: 3   DNSQKMSYQAGEVKGQAQEKASTLMDRAGNPAQSAKESVQE---------------KKAS 62

Query: 62  NLMDKASDAAQSTKESIQETGQQVKEKAQGAADAVKDA 100
            LMD+A +AAQS KES+QE GQQV  KAQGA + VK+A
Sbjct: 63  TLMDRAGNAAQSAKESVQEAGQQVGAKAQGAVEGVKNA 85

[Close]
BLAST of CcUC11G213630 vs. NCBI nr
Match: XP_022159706.1 (stress-induced protein KIN2-like [Momordica charantia])

HSP 1 Score: 91.7 bits (226), Expect = 4.0e-15
Identity = 54/65 (83.08%), Postives = 56/65 (86.15%), Query Frame = 0 

Query: 2  DNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKAS 61
          DNSQKMSYHAGEAKGQAQEKASNMMDKA D AQSAKESVQEAGQQVK KAQ  ADA K +
Sbjct: 3  DNSQKMSYHAGEAKGQAQEKASNMMDKASDAAQSAKESVQEAGQQVKAKAQGAADAVKDA 62

Query: 62 NLMDK 67
            M+K
Sbjct: 63 TGMNK 67

[Close]
BLAST of CcUC11G213630 vs. ExPASy Swiss-Prot
Match: O49817 (Late embryogenesis abundant protein 2 OS=Cicer arietinum OX=3827 PE=2 SV=1)

HSP 1 Score: 55.8 bits (133), Expect = 3.2e-07
Identity = 40/95 (42.11%), Postives = 52/95 (54.74%), Query Frame = 0 

Query: 4  SQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKASNL 63
          S   SY AGEAKG+ +EK + M+    D AQ+AKE  Q+A Q  K K  +TA A K    
Sbjct: 3  SHDQSYRAGEAKGRTEEKTNQMIGNIEDKAQAAKEKAQQAAQTAKDKTSQTAQAAK---- 62

Query: 64 MDKASDAAQSTKESIQETGQQVKEKAQGAADAVKD 99
           +K    AQ+ K+  Q+T Q  KEKAQ      K+
Sbjct: 63 -EKTQQTAQAAKDKTQQTTQATKEKAQDTTGRAKE 92

[Close]
BLAST of CcUC11G213630 vs. ExPASy Swiss-Prot
Match: Q96270 (Late embryogenesis abundant protein 7 OS=Arabidopsis thaliana OX=3702 GN=LEA7 PE=2 SV=1)

HSP 1 Score: 55.1 bits (131), Expect = 5.5e-07
Identity = 44/109 (40.37%), Postives = 58/109 (53.21%), Query Frame = 0 

Query: 1   MDNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKA 60
           M + Q+ SY AGE +G+AQEK    M    D  Q+AK+  QE  Q  + KA ETA + K 
Sbjct: 1   MASHQEQSYKAGETRGKAQEKTGEAMGTMGDKTQAAKDKTQETAQSAQQKAHETAQSAK- 60

Query: 61  SNLMDKASDAAQSTKESIQ-----------ETGQQVKEKAQGAADAVKD 99
               DK S AAQ+T+E  Q           ETG+ +K KA  AA+  K+
Sbjct: 61  ----DKTSQAAQTTQERAQESKDKTGSYMSETGEAIKNKAHDAAEYTKE 104

[Close]
BLAST of CcUC11G213630 vs. ExPASy Swiss-Prot
Match: O49816 (Late embryogenesis abundant protein 1 OS=Cicer arietinum OX=3827 PE=2 SV=1)

HSP 1 Score: 54.3 bits (129), Expect = 9.4e-07
Identity = 39/95 (41.05%), Postives = 51/95 (53.68%), Query Frame = 0 

Query: 4  SQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKASNL 63
          S   SY AGE  G+ +EK + M+    D AQ+AKE  Q+A Q  K K  +TA A K    
Sbjct: 3  SHDQSYKAGETMGRTEEKTNQMIGNIEDKAQAAKEKAQQAAQTAKDKTSQTAQAAK---- 62

Query: 64 MDKASDAAQSTKESIQETGQQVKEKAQGAADAVKD 99
           +K    AQ+ KE  Q+T Q  K++ Q  A A KD
Sbjct: 63 -EKTQQTAQAAKEKTQQTAQAAKDETQQTAQAAKD 92

[Close]
BLAST of CcUC11G213630 vs. ExPASy Swiss-Prot
Match: P13934 (Late embryogenesis abundant protein 76 OS=Brassica napus OX=3708 PE=2 SV=2)

HSP 1 Score: 53.1 bits (126), Expect = 2.1e-06
Identity = 38/94 (40.43%), Postives = 51/94 (54.26%), Query Frame = 0 

Query: 4  SQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKASNL 63
          S + SY AGE +G+ QEK    M    D A+  K+   +  Q+ + KAQETA A K    
Sbjct: 3  SNQQSYKAGETRGKTQEKTGQAMGAMRDKAEEGKDKTSQTAQKAQQKAQETAQAAK---- 62

Query: 64 MDKASDAAQSTKESIQETGQQVKEKAQGAADAVK 98
           DK S AAQ+T++  QET Q  K+K   AA   +
Sbjct: 63 -DKTSQAAQTTQQKAQETAQAAKDKTSQAAQTTQ 91

[Close]
BLAST of CcUC11G213630 vs. ExPASy Swiss-Prot
Match: Q9LW12 (Late embryogenesis abundant protein 29 OS=Arabidopsis thaliana OX=3702 GN=LEA29 PE=2 SV=1)

HSP 1 Score: 47.0 bits (110), Expect = 1.5e-04
Identity = 40/116 (34.48%), Postives = 55/116 (47.41%), Query Frame = 0 

Query: 4   SQKMSYHAGEAKGQAQEKASNMM-----------DKAVDVAQSAKESVQEAGQQVKVKAQ 63
           S + SY AGE +G+AQEK    M           DK    AQ+A++   E  Q  K K  
Sbjct: 3   SNQQSYKAGETRGKAQEKTGQAMGTMRDKAEEGRDKTSQTAQTAQQKAHETAQSAKDKTS 62

Query: 64  ETADA------EKASNLMDKASDAAQSTKESIQETGQQVKEKAQGAADAVKDAINK 103
           +TA A      E A +  +K S  AQ+ ++   ET Q  KEK   A D  ++A +K
Sbjct: 63  QTAQAAQQKAHETAQSAKEKTSQTAQTAQQKAHETTQAAKEKTSQAGDKAREAKDK 118

[Close]
BLAST of CcUC11G213630 vs. ExPASy TrEMBL
Match: A0A498HEG5 (Uncharacterized protein OS=Malus domestica OX=3750 GN=DVH24_028409 PE=4 SV=1)

HSP 1 Score: 108.2 bits (269), Expect = 2.0e-20
Identity = 70/120 (58.33%), Postives = 85/120 (70.83%), Query Frame = 0 

Query: 2   DNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADA---- 61
           DNSQKMSY AGEAKGQAQEKAS MMDKA + AQSAKE++Q+AGQ ++ KAQ  ADA    
Sbjct: 3   DNSQKMSYQAGEAKGQAQEKASGMMDKANNAAQSAKETMQDAGQNMQAKAQGAADAKKMA 62

Query: 62  ------------------EKASNLMDKASDAAQSTKESIQETGQQVKEKAQGAADAVKDA 100
                             EKAS +MDKA++AAQS KE++Q+ GQ ++ KAQGAADAVK+A
Sbjct: 63  DNSQKMSYHAGEAKGQAQEKASGMMDKANNAAQSAKETMQDAGQNMQAKAQGAADAVKNA 122

[Close]
BLAST of CcUC11G213630 vs. ExPASy TrEMBL
Match: A0A6J1E4Q8 (stress-induced protein KIN2-like OS=Momordica charantia OX=3673 GN=LOC111026049 PE=4 SV=1)

HSP 1 Score: 91.7 bits (226), Expect = 2.0e-15
Identity = 54/65 (83.08%), Postives = 56/65 (86.15%), Query Frame = 0 

Query: 2  DNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKAS 61
          DNSQKMSYHAGEAKGQAQEKASNMMDKA D AQSAKESVQEAGQQVK KAQ  ADA K +
Sbjct: 3  DNSQKMSYHAGEAKGQAQEKASNMMDKASDAAQSAKESVQEAGQQVKAKAQGAADAVKDA 62

Query: 62 NLMDK 67
            M+K
Sbjct: 63 TGMNK 67

[Close]
BLAST of CcUC11G213630 vs. ExPASy TrEMBL
Match: A0A6J1E4S0 (stress-induced protein KIN2-like OS=Momordica charantia OX=3673 GN=LOC111026055 PE=4 SV=1)

HSP 1 Score: 90.5 bits (223), Expect = 4.4e-15
Identity = 53/65 (81.54%), Postives = 56/65 (86.15%), Query Frame = 0 

Query: 2  DNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKAS 61
          DNSQKMSYHAGEAKGQAQEKASNMMDKA D AQSAKES+QEAGQQVK KAQ  ADA K +
Sbjct: 3  DNSQKMSYHAGEAKGQAQEKASNMMDKASDAAQSAKESMQEAGQQVKAKAQGVADAVKDA 62

Query: 62 NLMDK 67
            M+K
Sbjct: 63 TGMNK 67

[Close]
BLAST of CcUC11G213630 vs. ExPASy TrEMBL
Match: A0A2P6S3G4 (Uncharacterized protein OS=Rosa chinensis OX=74649 GN=RchiOBHm_Chr2g0163981 PE=4 SV=1)

HSP 1 Score: 89.4 bits (220), Expect = 9.7e-15
Identity = 59/99 (59.60%), Postives = 71/99 (71.72%), Query Frame = 0 

Query: 6   KMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAG-----QQVKVKAQETADAEKA 65
           KMSY+AG AKGQ QEKAS MMDKA +VAQSAKES+Q AG     Q++   A E     +A
Sbjct: 3   KMSYNAGVAKGQTQEKASTMMDKAGNVAQSAKESIQNAGQVDNSQKMSYHAGEAKGQTQA 62

Query: 66  SNLMDKASDAAQSTKESIQETGQQVKEKAQGAADAVKDA 100
           S +MDKA +AAQS KES+Q  GQ ++  A GAADAVK+A
Sbjct: 63  STMMDKAGNAAQSAKESMQNAGQAIQNTAAGAADAVKNA 101

[Close]
BLAST of CcUC11G213630 vs. ExPASy TrEMBL
Match: A0A6A6NKI2 (Uncharacterized protein OS=Hevea brasiliensis OX=3981 GN=GH714_033303 PE=4 SV=1)

HSP 1 Score: 89.4 bits (220), Expect = 9.7e-15
Identity = 52/65 (80.00%), Postives = 57/65 (87.69%), Query Frame = 0 

Query: 2  DNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKAS 61
          DNSQ+MSYHAGEAKGQAQEKASN+MDKA + AQSAKESVQEAGQQVK KAQE ADA K +
Sbjct: 3  DNSQQMSYHAGEAKGQAQEKASNVMDKASNAAQSAKESVQEAGQQVKAKAQEAADAVKNA 62

Query: 62 NLMDK 67
            M+K
Sbjct: 63 TGMNK 67

[Close]
BLAST of CcUC11G213630 vs. TAIR 10
Match: AT5G53820.1 (Late embryogenesis abundant protein (LEA) family protein )

HSP 1 Score: 65.9 bits (159), Expect = 2.2e-11
Identity = 38/65 (58.46%), Postives = 50/65 (76.92%), Query Frame = 0 

Query: 2  DNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKAS 61
          +NSQ MS++AG+AKGQ QEKASN++DKA + AQSAKES+QE GQQ+K KAQ  ++  K  
Sbjct: 3  NNSQSMSFNAGQAKGQTQEKASNLIDKASNAAQSAKESIQEGGQQLKQKAQGASETIKEK 62

Query: 62 NLMDK 67
            + K
Sbjct: 63 TGISK 67

[Close]
BLAST of CcUC11G213630 vs. TAIR 10
Match: AT5G38760.1 (Late embryogenesis abundant protein (LEA) family protein )

HSP 1 Score: 64.7 bits (156), Expect = 4.9e-11
Identity = 38/64 (59.38%), Postives = 49/64 (76.56%), Query Frame = 0 

Query: 3  NSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKASN 62
          NSQ +S+ AG+AKGQ QEKAS MMDKA + AQSAKES++E GQQ+K KAQ   ++ K + 
Sbjct: 4  NSQNISFQAGQAKGQTQEKASTMMDKASNAAQSAKESLKETGQQIKEKAQGATESVKNAT 63

Query: 63 LMDK 67
           M+K
Sbjct: 64 GMNK 67

[Close]
BLAST of CcUC11G213630 vs. TAIR 10
Match: AT3G02480.1 (Late embryogenesis abundant protein (LEA) family protein )

HSP 1 Score: 62.0 bits (149), Expect = 3.2e-10
Identity = 37/67 (55.22%), Postives = 46/67 (68.66%), Query Frame = 0 

Query: 1  MDNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKA 60
          MDN Q  SY AG+A GQ +EKA  MMDKA D A SA++S+Q+ GQQ+K KAQ  AD  K 
Sbjct: 1  MDNKQNASYQAGQATGQTKEKAGGMMDKAKDAAASAQDSLQQTGQQMKEKAQGAADVVKD 60

Query: 61 SNLMDKA 68
             M+K+
Sbjct: 61 KTGMNKS 67

[Close]
BLAST of CcUC11G213630 vs. TAIR 10
Match: AT1G52690.1 (Late embryogenesis abundant protein (LEA) family protein )

HSP 1 Score: 55.1 bits (131), Expect = 3.9e-08
Identity = 44/109 (40.37%), Postives = 58/109 (53.21%), Query Frame = 0 

Query: 1   MDNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKA 60
           M + Q+ SY AGE +G+AQEK    M    D  Q+AK+  QE  Q  + KA ETA + K 
Sbjct: 1   MASHQEQSYKAGETRGKAQEKTGEAMGTMGDKTQAAKDKTQETAQSAQQKAHETAQSAK- 60

Query: 61  SNLMDKASDAAQSTKESIQ-----------ETGQQVKEKAQGAADAVKD 99
               DK S AAQ+T+E  Q           ETG+ +K KA  AA+  K+
Sbjct: 61  ----DKTSQAAQTTQERAQESKDKTGSYMSETGEAIKNKAHDAAEYTKE 104

[Close]
BLAST of CcUC11G213630 vs. TAIR 10
Match: AT1G52690.2 (Late embryogenesis abundant protein (LEA) family protein )

HSP 1 Score: 55.1 bits (131), Expect = 3.9e-08
Identity = 44/109 (40.37%), Postives = 58/109 (53.21%), Query Frame = 0 

Query: 1   MDNSQKMSYHAGEAKGQAQEKASNMMDKAVDVAQSAKESVQEAGQQVKVKAQETADAEKA 60
           M + Q+ SY AGE +G+AQEK    M    D  Q+AK+  QE  Q  + KA ETA + K 
Sbjct: 1   MASHQEQSYKAGETRGKAQEKTGEAMGTMGDKTQAAKDKTQETAQSAQQKAHETAQSAK- 60

Query: 61  SNLMDKASDAAQSTKESIQ-----------ETGQQVKEKAQGAADAVKD 99
               DK S AAQ+T+E  Q           ETG+ +K KA  AA+  K+
Sbjct: 61  ----DKTSQAAQTTQERAQESKDKTGSYMSETGEAIKNKAHDAAEYTKE 104

The following BLAST results are available for this feature:
BLAST of CcUC11G213630 vs. NCBI nr
Match NameE-valueIdentityDescription
KAF7822332.15.3e-2367.68stress-induced protein KIN2-like [Senna tora][more]
RXH68262.14.2e-2058.33hypothetical protein DVH24_028409 [Malus domestica][more]
XP_011011268.11.3e-1662.24PREDICTED: late embryogenesis abundant protein 1-like [Populus euphratica][more]
KAG5247471.16.2e-1662.24late embryogenesis abundant protein [Salix suchowensis][more]
XP_022159706.14.0e-1583.08stress-induced protein KIN2-like [Momordica charantia][more]
BLAST of CcUC11G213630 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
O498173.2e-0742.11Late embryogenesis abundant protein 2 OS=Cicer arietinum OX=3827 PE=2 SV=1[more]
Q962705.5e-0740.37Late embryogenesis abundant protein 7 OS=Arabidopsis thaliana OX=3702 GN=LEA7 PE... [more]
O498169.4e-0741.05Late embryogenesis abundant protein 1 OS=Cicer arietinum OX=3827 PE=2 SV=1[more]
P139342.1e-0640.43Late embryogenesis abundant protein 76 OS=Brassica napus OX=3708 PE=2 SV=2[more]
Q9LW121.5e-0434.48Late embryogenesis abundant protein 29 OS=Arabidopsis thaliana OX=3702 GN=LEA29 ... [more]
BLAST of CcUC11G213630 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A498HEG52.0e-2058.33Uncharacterized protein OS=Malus domestica OX=3750 GN=DVH24_028409 PE=4 SV=1[more]
A0A6J1E4Q82.0e-1583.08stress-induced protein KIN2-like OS=Momordica charantia OX=3673 GN=LOC111026049 ... [more]
A0A6J1E4S04.4e-1581.54stress-induced protein KIN2-like OS=Momordica charantia OX=3673 GN=LOC111026055 ... [more]
A0A2P6S3G49.7e-1559.60Uncharacterized protein OS=Rosa chinensis OX=74649 GN=RchiOBHm_Chr2g0163981 PE=4... [more]
A0A6A6NKI29.7e-1580.00Uncharacterized protein OS=Hevea brasiliensis OX=3981 GN=GH714_033303 PE=4 SV=1[more]
BLAST of CcUC11G213630 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G53820.12.2e-1158.46Late embryogenesis abundant protein (LEA) family protein [more]
AT5G38760.14.9e-1159.38Late embryogenesis abundant protein (LEA) family protein [more]
AT3G02480.13.2e-1055.22Late embryogenesis abundant protein (LEA) family protein [more]
AT1G52690.13.9e-0840.37Late embryogenesis abundant protein (LEA) family protein [more]
AT1G52690.23.9e-0840.37Late embryogenesis abundant protein (LEA) family protein [more]
InterPro
Analysis Name: InterPro Annotations of Watermelon (PI 537277) v1
Date Performed: 2022-01-31
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableGENE3D6.10.140.1430coord: 4..56
e-value: 3.0E-5
score: 26.2
coord: 57..102
e-value: 1.7E-5
score: 27.0
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 66..86
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..102
NoneNo IPR availablePANTHERPTHR34191:SF15BNAA01G32930D PROTEINcoord: 1..59
NoneNo IPR availablePANTHERPTHR34191:SF15BNAA01G32930D PROTEINcoord: 58..100
IPR039624Stress-induced protein KIN1/KIN2PANTHERPTHR34191LATE EMBRYOGENESIS ABUNDANT PROTEIN (LEA) FAMILY PROTEINcoord: 1..59
coord: 58..100

Relationships

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

Feature NameUnique NameType
CcUC11G213630.1CcUC11G213630.1mRNA