CmUC07G135240 (gene) Watermelon (USVL531) v1

Overview
NameCmUC07G135240
Typegene
OrganismCitrullus mucosospermus (Watermelon (USVL531) v1)
DescriptionGTP-binding protein At3g49725, chloroplastic
LocationCmU531Chr07: 23785000 .. 23811543 (+)
RNA-Seq ExpressionCmUC07G135240
SyntenyCmUC07G135240
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGAACAAATACACACTCATGGTCTTGTGGAAAAAGTTTAGGTTGTGTATATGTTGTGTTCTCATTAGGATAATATATATTTTGTGTGTGTTTGCAATAACCTATGTTCTTGATTGCATGCTCCACTATTTTTGTCAGCGGGCATGGGAAAAACCTGTATTGGATCGCGTGGGTCTCATAATAGAGATATTCAATGCTCATGCCTGCACGAAGGAGGCAAAGTTACAGACAGAAGAGCTCAAACCCATTACAACCACGAACAGAGAGGAAATCGAATGGGTGACGACATTTGATAGCAGGTACGGCGAATTTTGGTGGCAGGAAAATGCCATTACTCCCCTTTCTTCCACACCAGCGGCGACGGCTGAAACTCGGAAAGCATTTGCAAATGGGATCGATCTTGTAGCAGGAGGTAAGAGTAAGAAGACCAAGAGAACTGCACCTAAGTATGATGATATCTACCTGAAGTTACTCGTCAAGCTTTACCGCTTCCTTGTCCGTCGGACTGGAAGCAATTTCAATGTTGTGATTCTCAAGCGCTTGTTTATGAGCAAGGTTAACAAGCCTCCACTTTCGCTCTCTAGGCTTATCCAGTTCATGAAAGGAAAGGAAAGTAAGATTGCAGTTGTTGTTGGGACTATTACCGATGATATTCGTGTCTATGAAGTCCCAGCATTGAAAGTTGCAGCGCTGAGGTTTACTGAGACAACAAGGGCAAGGATCGAAAAGGCTGAACTCTTGGGAGGCAGTGAAGCATTTCGGTCCAGCACGTTGTGTACCACGCAGCCATTCCAAGCCATATGTGAGGTCCAAGGGAAGGAAGTTACAGCAGGGGATATAGGTGCTTACTGGAAAACGAGGATAGGAAAGGCTGAACTAGCTGCTTTAATGTATAAAAAATCGAGACTTGTTCGAGTACGTGGCCTTGATGGACGTTATACATTTGGTGCTACGGGAGAAGCTGAAGTTGTTAGTGCTAGAGGGAGAGGAAGTGGGGGACGTGGCTTTATAAGTGGTGCAGGAGAGACTGAACTTCAACTCCAGCAGCGAAGAATTTTGGAACGAAGAAATCATCTTTATTCCCAAATTGAAGAGGTGCGTCGTACACGTGCTTTGCAGCGTGCTTCTCGAAAGAGGCATGGAGGCTCAAATGGTCAACATTTAGCTACTGTTGCTGTTGTTGGGTACACTAATGCTGGGAAGTCAACATTAGTCAGTGCACTTTCAGACAATGATCTCTATAGTGATTCTAGATTGTTTGCAACTGTCGATCCCAGATTAAGAAGTGTTTGTCTTCCTTCTGGGAGAAAAGTACTCCTAAGTGATACGGTGGGATTTATTTCAGATTTGCCTGTGCAGTTGGTCGAAGCATTTCATGCAACTTTAGAAGAAGTTGTTGAAGCAGACTTGTTAGTGCCGCCCTCTCGACACGTCTTCTCTATCTCTTCCCAATTTCACATCAGATGGCTACACGCTAACTCATTATTCAAGTCTCACATCAATCTCCCTTCCCCAACATTTCTTCGAGTCTTCATCTACCATCATTCTTCGAGTCTTCGTGTTCACTCTTTGATGCATGTGGTCGATTGCACCGCCCCCAACCTCAATGAGCACCGATCGACTGTTTTTCAAGTACTTCAGCAAATAGGAGTTTCTAAAACGAAGCTTCAAGATATGATTGAGGTTTGGAATAAGATTGATTATCATGAAGAAGGCAAGAGTATAGATGAGTCTTGTGATGATGCTAATAAATATAATGGCGAGGCTGGAGATTCGTCAGGAGAAGATAGTATAATAGATGCTGGAACTAACAATTTTATTGAAATGGAAAAGGGTGATATTACGAAAAAGCAAGCAACTGAAGAAGTCATTTCTCAAGAAAATCTTGGAAACAGGATGAAGGGACAAGAGAGCGATTGTTGTGAAGACTGGTTGGCAGATGATGATGATCAAAACCCTTGGGTGGATGAAAAGGGTTATTATGAAGGCCAGGGGATGAGGATGGGGATGGGAGAAGATGTACAGCCTTCAGGTGATCAATCTGGTCCACATCTCAAAATATCAGCTACGTTTGGAGTTGGTCTGCAAGAGTTGCTACAACTCATAGATAACAAACTGAAGGTTCAGGATGAGAAGCTGAAAGCTCAAAATGTTTTAGAGAATAATGTTTTTGAACGTAAATGGAGGCCATCTCAGATAGAGGCAGATTCAATTTGAGAAGATTATGGTTTCTTGCATCTGCTATGAAGCATGCAAGTGTGTGGCGATCATCTCGATGAAGCATTGAATATTAGTTAGCAATTATGCAATGTCGATGAAGTATTGAACATAGCCTCATAAATCATAAAGCTTTCAGGAGAAAACAAGTTATATTTAATATATATAATGCTATATTTGAATTTTCTAAAAACAAATTAGGCTATATTTGATAAGTGCATAAATAAAATATTTTGTATAATATTTCTTCTTATATACCGAATAATATAGGAAAATTATTATAAATAGAAAAAATATCAAACTATTTAC

Coding sequence (CDS)

ATGAACAAATACACACTCATGGTCTTGTGGAAAAAGTTTAGGTTGTGTATATGTTGTGTTCTCATTAGGATAATATATATTTTGTGTGTGTTTGCAATAACCTATGTTCTTGATTGCATGCTCCACTATTTTTGTCAGCGGGCATGGGAAAAACCTGTATTGGATCGCGTGGGTCTCATAATAGAGATATTCAATGCTCATGCCTGCACGAAGGAGGCAAAGTTACAGACAGAAGAGCTCAAACCCATTACAACCACGAACAGAGAGGAAATCGAATGGGTGACGACATTTGATAGCAGGTACGGCGAATTTTGGTGGCAGGAAAATGCCATTACTCCCCTTTCTTCCACACCAGCGGCGACGGCTGAAACTCGGAAAGCATTTGCAAATGGGATCGATCTTGTAGCAGGAGGTAAGAGTAAGAAGACCAAGAGAACTGCACCTAAGTATGATGATATCTACCTGAAGTTACTCGTCAAGCTTTACCGCTTCCTTGTCCGTCGGACTGGAAGCAATTTCAATGTTGTGATTCTCAAGCGCTTGTTTATGAGCAAGGTTAACAAGCCTCCACTTTCGCTCTCTAGGCTTATCCAGTTCATGAAAGGAAAGGAAAGTAAGATTGCAGTTGTTGTTGGGACTATTACCGATGATATTCGTGTCTATGAAGTCCCAGCATTGAAAGTTGCAGCGCTGAGGTTTACTGAGACAACAAGGGCAAGGATCGAAAAGGCTGAACTCTTGGGAGGCAGTGAAGCATTTCGGTCCAGCACGTTGTGTACCACGCAGCCATTCCAAGCCATATGTGAGGTCCAAGGGAAGGAAGTTACAGCAGGGGATATAGGTGCTTACTGGAAAACGAGGATAGGAAAGGCTGAACTAGCTGCTTTAATGTATAAAAAATCGAGACTTGTTCGAGTACGTGGCCTTGATGGACGTTATACATTTGGTGCTACGGGAGAAGCTGAAGTTGTTAGTGCTAGAGGGAGAGGAAGTGGGGGACGTGGCTTTATAAGTGGTGCAGGAGAGACTGAACTTCAACTCCAGCAGCGAAGAATTTTGGAACGAAGAAATCATCTTTATTCCCAAATTGAAGAGGTGCGTCGTACACGTGCTTTGCAGCGTGCTTCTCGAAAGAGGCATGGAGGCTCAAATGGTCAACATTTAGCTACTGTTGCTGTTGTTGGGTACACTAATGCTGGGAAGTCAACATTAGTCAGTGCACTTTCAGACAATGATCTCTATAGTGATTCTAGATTGTTTGCAACTGTCGATCCCAGATTAAGAAGTGTTTGTCTTCCTTCTGGGAGAAAAGTACTCCTAAGTGATACGGTGGGATTTATTTCAGATTTGCCTGTGCAGTTGGTCGAAGCATTTCATGCAACTTTAGAAGAAGTTGTTGAAGCAGACTTGTTAGTGCCGCCCTCTCGACACGTCTTCTCTATCTCTTCCCAATTTCACATCAGATGGCTACACGCTAACTCATTATTCAAGTCTCACATCAATCTCCCTTCCCCAACATTTCTTCGAGTCTTCATCTACCATCATTCTTCGAGTCTTCGTGTTCACTCTTTGATGCATGTGGTCGATTGCACCGCCCCCAACCTCAATGAGCACCGATCGACTGTTTTTCAAGTACTTCAGCAAATAGGAGTTTCTAAAACGAAGCTTCAAGATATGATTGAGGTTTGGAATAAGATTGATTATCATGAAGAAGGCAAGAGTATAGATGAGTCTTGTGATGATGCTAATAAATATAATGGCGAGGCTGGAGATTCGTCAGGAGAAGATAGTATAATAGATGCTGGAACTAACAATTTTATTGAAATGGAAAAGGGTGATATTACGAAAAAGCAAGCAACTGAAGAAGTCATTTCTCAAGAAAATCTTGGAAACAGGATGAAGGGACAAGAGAGCGATTGTTGTGAAGACTGGTTGGCAGATGATGATGATCAAAACCCTTGGGTGGATGAAAAGGGTTATTATGAAGGCCAGGGGATGAGGATGGGGATGGGAGAAGATGTACAGCCTTCAGGTGATCAATCTGGTCCACATCTCAAAATATCAGCTACGTTTGGAGTTGGTCTGCAAGAGTTGCTACAACTCATAGATAACAAACTGAAGGTTCAGGATGAGAAGCTGAAAGCTCAAAATGTTTTAGAGAATAATGTTTTTGAACGTAAATGGAGGCCATCTCAGATAGAGGCAGATTCAATTTGA

Protein sequence

MNKYTLMVLWKKFRLCICCVLIRIIYILCVFAITYVLDCMLHYFCQRAWEKPVLDRVGLIIEIFNAHACTKEAKLQTEELKPITTTNREEIEWVTTFDSRYGEFWWQENAITPLSSTPAATAETRKAFANGIDLVAGGKSKKTKRTAPKYDDIYLKLLVKLYRFLVRRTGSNFNVVILKRLFMSKVNKPPLSLSRLIQFMKGKESKIAVVVGTITDDIRVYEVPALKVAALRFTETTRARIEKAELLGGSEAFRSSTLCTTQPFQAICEVQGKEVTAGDIGAYWKTRIGKAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAGETELQLQQRRILERRNHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHATLEEVVEADLLVPPSRHVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRVHSLMHVVDCTAPNLNEHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDDANKYNGEAGDSSGEDSIIDAGTNNFIEMEKGDITKKQATEEVISQENLGNRMKGQESDCCEDWLADDDDQNPWVDEKGYYEGQGMRMGMGEDVQPSGDQSGPHLKISATFGVGLQELLQLIDNKLKVQDEKLKAQNVLENNVFERKWRPSQIEADSI
Homology
[Close]
BLAST of CmUC07G135240 vs. NCBI nr
Match: XP_038892869.1 (GTP-binding protein At3g49725, chloroplastic isoform X2 [Benincasa hispida])

HSP 1 Score: 633.6 bits (1633), Expect = 2.1e-177
Identity = 360/465 (77.42%), Postives = 373/465 (80.22%), Query Frame = 0 

Query: 282 AYWKTRIGKAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAG 341
           AY K    +AELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAG
Sbjct: 197 AYTKEAKLQAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAG 256

Query: 342 ETELQLQQRRILERRNHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGK 401
           ETELQLQ+RRILERRNHLYSQIEEVRRTR+LQRASRKRHGGSNGQHLATVAVVGYTNAGK
Sbjct: 257 ETELQLQRRRILERRNHLYSQIEEVRRTRSLQRASRKRHGGSNGQHLATVAVVGYTNAGK 316

Query: 402 STLVSALSDNDLYSDSRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHAT 461
           STLVSALSDN LYSDSRLFATVDPRLRSV LPSGRKVLLSDTVGFISDLPVQLVEAFHAT
Sbjct: 317 STLVSALSDNYLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDLPVQLVEAFHAT 376

Query: 462 LEEVVEADLLVPPSRHVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRV 521
           LEEVVEADLLV                                                 
Sbjct: 377 LEEVVEADLLV------------------------------------------------- 436

Query: 522 HSLMHVVDCTAPNLNEHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDD 581
               HVVDCTAPNL+EHR TVFQVLQQIGVSK KL+DMIEVWNKIDYHEEGKSIDESCDD
Sbjct: 437 ----HVVDCTAPNLDEHRLTVFQVLQQIGVSKMKLEDMIEVWNKIDYHEEGKSIDESCDD 496

Query: 582 ANKYNGEAGDSSGEDSI--------IDAGTNNFIEMEKGDITKKQATEEVISQENLGNRM 641
               NG+AG+SSGEDSI         DAGTNNFIE+EKGDITKKQAT EVISQEN GNRM
Sbjct: 497 D---NGKAGNSSGEDSIGGKLSSVLDDAGTNNFIELEKGDITKKQAT-EVISQENFGNRM 556

Query: 642 KGQESDCCEDWLADDDD--QNPWVDEKGYYEGQGMRMGMGEDVQPSGDQSGPHLKISATF 701
           +GQESDCCEDWLADDDD  QNPW+DE       G R  MGEDVQ SGDQSGPH++ISAT 
Sbjct: 557 EGQESDCCEDWLADDDDQNQNPWIDE-------GQR--MGEDVQASGDQSGPHVRISATL 595

Query: 702 GVGLQELLQLIDNKLKVQDEKLKAQNVLENNVFERKWRPSQIEAD 737
           GVGL+ELLQLIDNKLKVQDEKLKAQNVLE NVFERKWRPSQIEAD
Sbjct: 617 GVGLRELLQLIDNKLKVQDEKLKAQNVLERNVFERKWRPSQIEAD 595

[Close]
BLAST of CmUC07G135240 vs. NCBI nr
Match: XP_038892861.1 (GTP-binding protein At3g49725, chloroplastic isoform X1 [Benincasa hispida])

HSP 1 Score: 633.6 bits (1633), Expect = 2.1e-177
Identity = 360/465 (77.42%), Postives = 373/465 (80.22%), Query Frame = 0 

Query: 282 AYWKTRIGKAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAG 341
           AY K    +AELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAG
Sbjct: 198 AYTKEAKLQAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAG 257

Query: 342 ETELQLQQRRILERRNHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGK 401
           ETELQLQ+RRILERRNHLYSQIEEVRRTR+LQRASRKRHGGSNGQHLATVAVVGYTNAGK
Sbjct: 258 ETELQLQRRRILERRNHLYSQIEEVRRTRSLQRASRKRHGGSNGQHLATVAVVGYTNAGK 317

Query: 402 STLVSALSDNDLYSDSRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHAT 461
           STLVSALSDN LYSDSRLFATVDPRLRSV LPSGRKVLLSDTVGFISDLPVQLVEAFHAT
Sbjct: 318 STLVSALSDNYLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDLPVQLVEAFHAT 377

Query: 462 LEEVVEADLLVPPSRHVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRV 521
           LEEVVEADLLV                                                 
Sbjct: 378 LEEVVEADLLV------------------------------------------------- 437

Query: 522 HSLMHVVDCTAPNLNEHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDD 581
               HVVDCTAPNL+EHR TVFQVLQQIGVSK KL+DMIEVWNKIDYHEEGKSIDESCDD
Sbjct: 438 ----HVVDCTAPNLDEHRLTVFQVLQQIGVSKMKLEDMIEVWNKIDYHEEGKSIDESCDD 497

Query: 582 ANKYNGEAGDSSGEDSI--------IDAGTNNFIEMEKGDITKKQATEEVISQENLGNRM 641
               NG+AG+SSGEDSI         DAGTNNFIE+EKGDITKKQAT EVISQEN GNRM
Sbjct: 498 D---NGKAGNSSGEDSIGGKLSSVLDDAGTNNFIELEKGDITKKQAT-EVISQENFGNRM 557

Query: 642 KGQESDCCEDWLADDDD--QNPWVDEKGYYEGQGMRMGMGEDVQPSGDQSGPHLKISATF 701
           +GQESDCCEDWLADDDD  QNPW+DE       G R  MGEDVQ SGDQSGPH++ISAT 
Sbjct: 558 EGQESDCCEDWLADDDDQNQNPWIDE-------GQR--MGEDVQASGDQSGPHVRISATL 596

Query: 702 GVGLQELLQLIDNKLKVQDEKLKAQNVLENNVFERKWRPSQIEAD 737
           GVGL+ELLQLIDNKLKVQDEKLKAQNVLE NVFERKWRPSQIEAD
Sbjct: 618 GVGLRELLQLIDNKLKVQDEKLKAQNVLERNVFERKWRPSQIEAD 596

[Close]
BLAST of CmUC07G135240 vs. NCBI nr
Match: XP_008462905.1 (PREDICTED: GTP-binding protein At3g49725, chloroplastic isoform X1 [Cucumis melo] >TYK04619.1 GTP-binding protein [Cucumis melo var. makuwa])

HSP 1 Score: 602.1 bits (1551), Expect = 6.7e-168
Identity = 344/460 (74.78%), Postives = 360/460 (78.26%), Query Frame = 0 

Query: 282 AYWKTRIGKAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAG 341
           AY K    +AELAALMYKKSRLVRVRGLDGRYTFG  GEAEVVSARGRGSGGRGFISGAG
Sbjct: 205 AYTKEAKLQAELAALMYKKSRLVRVRGLDGRYTFGGKGEAEVVSARGRGSGGRGFISGAG 264

Query: 342 ETELQLQQRRILERRNHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGK 401
           ETELQLQ+RRILERRNHLYSQIEEVRRTR+LQRASRKRHGGSNGQHLATVAVVGYTNAGK
Sbjct: 265 ETELQLQRRRILERRNHLYSQIEEVRRTRSLQRASRKRHGGSNGQHLATVAVVGYTNAGK 324

Query: 402 STLVSALSDNDLYSDSRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHAT 461
           STLVSALSDNDLYSDSRLFATVDPRLRSV LPSGRKV+LSDTVGFISDLPVQLVEAFHAT
Sbjct: 325 STLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVVLSDTVGFISDLPVQLVEAFHAT 384

Query: 462 LEEVVEADLLVPPSRHVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRV 521
           LEEVVEADLLV                                                 
Sbjct: 385 LEEVVEADLLV------------------------------------------------- 444

Query: 522 HSLMHVVDCTAPNLNEHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDD 581
               HVVDCTAPNL+EHRSTVFQVLQQIGVSK KLQDMIEVWNKIDYHEEGKSIDESCDD
Sbjct: 445 ----HVVDCTAPNLDEHRSTVFQVLQQIGVSKMKLQDMIEVWNKIDYHEEGKSIDESCDD 504

Query: 582 ANKYNGEAGDSSGEDSI----IDAGTNNFIEMEKGDITKKQATEEVISQENLGNRMKGQE 641
               NGEA +SSGEDSI      AGTNN IEMEKGDIT KQATEE +     GNRM+GQE
Sbjct: 505 D---NGEAANSSGEDSIEGKLSSAGTNNIIEMEKGDITIKQATEEDLGN---GNRMEGQE 564

Query: 642 SDCCEDWLADDD-DQNPWVDEKGYYEGQGMRMGMGEDVQPSGDQSGPHLKISATFGVGLQ 701
           SDCC+DWL DDD D+NPW D KG         G+GEDVQ S DQSGPH++ISA  GVGL 
Sbjct: 565 SDCCDDWLEDDDEDKNPWAD-KG--------KGIGEDVQASLDQSGPHVRISARLGVGLG 596

Query: 702 ELLQLIDNKLKVQDEKLKAQNVLENNVFERKWRPSQIEAD 737
           ELLQLIDNKLKVQDEKL+AQNVLE NVF+RKWRPSQ+EAD
Sbjct: 625 ELLQLIDNKLKVQDEKLQAQNVLERNVFDRKWRPSQMEAD 596

[Close]
BLAST of CmUC07G135240 vs. NCBI nr
Match: XP_004137207.1 (GTP-binding protein At3g49725, chloroplastic [Cucumis sativus] >KAE8649266.1 hypothetical protein Csa_014691 [Cucumis sativus])

HSP 1 Score: 597.0 bits (1538), Expect = 2.1e-166
Identity = 339/460 (73.70%), Postives = 361/460 (78.48%), Query Frame = 0 

Query: 282 AYWKTRIGKAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAG 341
           AY K    +AELAALMYKKSRLVRVRGLDGRY FGA GEAEVVSARGRGSGGRGFISGAG
Sbjct: 204 AYTKEAKLQAELAALMYKKSRLVRVRGLDGRYAFGARGEAEVVSARGRGSGGRGFISGAG 263

Query: 342 ETELQLQQRRILERRNHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGK 401
           ETELQLQ+RRILERRNHLYSQIEEVRRTR+LQRASRKRHGGSNGQHLATVAVVGYTNAGK
Sbjct: 264 ETELQLQRRRILERRNHLYSQIEEVRRTRSLQRASRKRHGGSNGQHLATVAVVGYTNAGK 323

Query: 402 STLVSALSDNDLYSDSRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHAT 461
           STLVSALSDNDLYSDSRLFATVDPRLRSV LPSGRKV+LSDTVGFISDLPVQLVEAFHAT
Sbjct: 324 STLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVVLSDTVGFISDLPVQLVEAFHAT 383

Query: 462 LEEVVEADLLVPPSRHVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRV 521
           LEEVVEADLLV                                                 
Sbjct: 384 LEEVVEADLLV------------------------------------------------- 443

Query: 522 HSLMHVVDCTAPNLNEHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDD 581
               HVVDCTAPNL+EHRSTV QVLQQIGVSK KLQDM+EVWNKIDYH+EG+SID+SCDD
Sbjct: 444 ----HVVDCTAPNLDEHRSTVLQVLQQIGVSKMKLQDMVEVWNKIDYHQEGESIDDSCDD 503

Query: 582 ANKYNGEAGDSSGEDS----IIDAGTNNFIEMEKGDITKKQATEEVISQENLGNRMKGQE 641
               NGEA +SSGEDS    +  AGTNN +EMEKGDIT KQATE     E+LGNRM+GQE
Sbjct: 504 D---NGEAANSSGEDSNEGKLSSAGTNNIVEMEKGDITIKQATE-----EHLGNRMEGQE 563

Query: 642 SDCCEDWLADDD-DQNPWVDEKGYYEGQGMRMGMGEDVQPSGDQSGPHLKISATFGVGLQ 701
           SDCC+DWL DDD DQNPW D     +GQ    GMGEDVQ S DQSGPH++ISA  GVGL 
Sbjct: 564 SDCCDDWLQDDDEDQNPWAD-----KGQ----GMGEDVQASLDQSGPHVRISARLGVGLG 593

Query: 702 ELLQLIDNKLKVQDEKLKAQNVLENNVFERKWRPSQIEAD 737
           ELLQLIDNKLKVQDEKL+AQNVLE NVF+RKWRPSQ+E+D
Sbjct: 624 ELLQLIDNKLKVQDEKLQAQNVLERNVFDRKWRPSQMESD 593

[Close]
BLAST of CmUC07G135240 vs. NCBI nr
Match: KAA0056658.1 (GTP-binding protein [Cucumis melo var. makuwa])

HSP 1 Score: 587.0 bits (1512), Expect = 2.2e-163
Identity = 333/445 (74.83%), Postives = 349/445 (78.43%), Query Frame = 0 

Query: 297 MYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAGETELQLQQRRILERR 356
           MYKKSRLVRVRGLDGRYTFG  GEAEVVSARGRGSGGRGFISGAGETELQLQ+RRILERR
Sbjct: 1   MYKKSRLVRVRGLDGRYTFGGKGEAEVVSARGRGSGGRGFISGAGETELQLQRRRILERR 60

Query: 357 NHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGKSTLVSALSDNDLYSD 416
           NHLYSQIEEVRRTR+LQRASRKRHGGSNGQHLATVAVVGYTNAGKSTLVSALSDNDLYSD
Sbjct: 61  NHLYSQIEEVRRTRSLQRASRKRHGGSNGQHLATVAVVGYTNAGKSTLVSALSDNDLYSD 120

Query: 417 SRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHATLEEVVEADLLVPPSR 476
           SRLFATVDPRLRSV LPSGRKV+LSDTVGFISDLPVQLVEAFHATLEEVVEADLLV    
Sbjct: 121 SRLFATVDPRLRSVFLPSGRKVVLSDTVGFISDLPVQLVEAFHATLEEVVEADLLV---- 180

Query: 477 HVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRVHSLMHVVDCTAPNLN 536
                                                            HVVDCTAPNL+
Sbjct: 181 -------------------------------------------------HVVDCTAPNLD 240

Query: 537 EHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDDANKYNGEAGDSSGED 596
           EHRSTVFQVLQQIGVSK KLQDMIEVWNKIDYHEEGK IDESCDD    NGEA +SSGED
Sbjct: 241 EHRSTVFQVLQQIGVSKMKLQDMIEVWNKIDYHEEGKGIDESCDDD---NGEAANSSGED 300

Query: 597 SI----IDAGTNNFIEMEKGDITKKQATEEVISQENLGNRMKGQESDCCEDWLADDD-DQ 656
           SI      AGTNN IEMEKGDIT +QATEE +     GNRM+GQESDCC+DWL DDD D+
Sbjct: 301 SIEGKLSSAGTNNIIEMEKGDITIEQATEEDLGN---GNRMEGQESDCCDDWLEDDDEDK 360

Query: 657 NPWVDEKGYYEGQGMRMGMGEDVQPSGDQSGPHLKISATFGVGLQELLQLIDNKLKVQDE 716
           NPW D KG         G+GEDVQ S DQSGPH++ISA  GVGL ELLQLIDNKLKVQDE
Sbjct: 361 NPWAD-KG--------KGIGEDVQASLDQSGPHVRISARLGVGLGELLQLIDNKLKVQDE 377

Query: 717 KLKAQNVLENNVFERKWRPSQIEAD 737
           KL+AQNVLE NVF+RKWRPSQ+EAD
Sbjct: 421 KLQAQNVLERNVFDRKWRPSQMEAD 377

[Close]
BLAST of CmUC07G135240 vs. ExPASy Swiss-Prot
Match: Q0WTB4 (GTP-binding protein At3g49725, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=At3g49725 PE=2 SV=2)

HSP 1 Score: 311.6 bits (797), Expect = 2.4e-83
Identity = 205/449 (45.66%), Postives = 270/449 (60.13%), Query Frame = 0 

Query: 290 KAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGR----GSGGRGFISGAGETEL 349
           +AELAALMY KSRLVRVRG DGR+TFG  GEAEVVSARGR    G+GG GF+ GAGETEL
Sbjct: 244 QAELAALMYNKSRLVRVRGTDGRHTFGQFGEAEVVSARGRAGSKGTGG-GFVGGAGETEL 303

Query: 350 QLQQRRILERRNHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGKSTLV 409
           QLQ+RRI +RR  L SQI+E +RTR LQRA RK+  G  G+   T+AVVGYTNAGKSTL+
Sbjct: 304 QLQRRRISDRRIRLLSQIKEAQRTRLLQRAGRKKRVGLEGESSGTIAVVGYTNAGKSTLI 363

Query: 410 SALSDNDLYSDSRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHATLEEV 469
           SAL+   LY + RLFAT+DP L+S  LPSG  VLLSDTVGFISDLP+QLV+AF +TLEEV
Sbjct: 364 SALTKTALYCNERLFATLDPTLKSAHLPSGNFVLLSDTVGFISDLPIQLVKAFQSTLEEV 423

Query: 470 VEADLLVPPSRHVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRVHSLM 529
           VEADL                                                     L+
Sbjct: 424 VEADL-----------------------------------------------------LL 483

Query: 530 HVVDCTAPNLNEHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDDANKY 589
           HVVD TAPN+ EHRSTV  VL QIGV + KLQ+MIEVWNKIDY E+    ++  DD    
Sbjct: 484 HVVDSTAPNIEEHRSTVLHVLNQIGVPEEKLQNMIEVWNKIDYEEDEVEEEKYLDD---- 543

Query: 590 NGEAGDSSGEDSIIDAGTNNFIEMEKGDITKKQ---ATEEVISQENLGNRMKGQESDCCE 649
               G+  GE+           + ++ D+  ++   A+E  + ++ + N     + D  +
Sbjct: 544 ----GEGVGEE-----------DEDEADLKAEETVDASEATVDEDQIQN----GDGDDAD 603

Query: 650 DWLADDDDQNPWVDEKGYYEGQGMRMGMGEDVQPSGDQSGPHLKISATFGVGLQELLQLI 709
            WL  +D+     D+  +++   +          + ++ GP +++SA  GVGL+ELL LI
Sbjct: 604 GWLLSEDEN---ADDPEFWKVPEVAK------VDAANKKGPDVRVSALTGVGLKELLYLI 604

Query: 710 DNKLKVQDEKLKAQNVLE-NNVFERKWRP 731
           D+K+K  ++KLK+  ++E + + +RKWRP
Sbjct: 664 DDKMK--EKKLKSPTIVERSELHKRKWRP 604


HSP 2 Score: 60.8 bits (146), Expect = 7.3e-08
Identity = 28/33 (84.85%), Postives = 29/33 (87.88%), Query Frame = 0 

Query: 46  QRAWEKPVLDRVGLIIEIFNAHACTKEAKLQTE 79
           +R W KPVLDRVGLIIEIFNAHA TKEAKLQ E
Sbjct: 214 ERIWAKPVLDRVGLIIEIFNAHAHTKEAKLQAE 246

[Close]
BLAST of CmUC07G135240 vs. ExPASy Swiss-Prot
Match: Q940B0 (60S ribosomal protein L18-3 OS=Arabidopsis thaliana OX=3702 GN=RPL18C PE=2 SV=1)

HSP 1 Score: 185.3 bits (469), Expect = 2.5e-45
Identity = 94/114 (82.46%), Postives = 105/114 (92.11%), Query Frame = 0 

Query: 131 GIDLVAGGKSKKTKRTAPKYDDIYLKLLVKLYRFLVRRTGSNFNVVILKRLFMSKVNKPP 190
           GIDL+AGGKSKKTKRTAPK DD+YLKLLVKLYRFLVRR+ SNFN VILKRLFMSKVNK P
Sbjct: 2   GIDLIAGGKSKKTKRTAPKSDDVYLKLLVKLYRFLVRRSNSNFNAVILKRLFMSKVNKAP 61

Query: 191 LSLSRLIQFMKGKESKIAVVVGTITDDIRVYEVPALKVAALRFTETTRARIEKA 245
           LSLSRL++FM GK+ KIAV+VGTITDD+RV+E+PA+KV ALRFTE  RARIEKA
Sbjct: 62  LSLSRLVEFMTGKDDKIAVLVGTITDDLRVHEIPAMKVTALRFTERARARIEKA 115

[Close]
BLAST of CmUC07G135240 vs. ExPASy Swiss-Prot
Match: P42791 (60S ribosomal protein L18-2 OS=Arabidopsis thaliana OX=3702 GN=RPL18B PE=1 SV=2)

HSP 1 Score: 182.6 bits (462), Expect = 1.7e-44
Identity = 94/114 (82.46%), Postives = 103/114 (90.35%), Query Frame = 0 

Query: 131 GIDLVAGGKSKKTKRTAPKYDDIYLKLLVKLYRFLVRRTGSNFNVVILKRLFMSKVNKPP 190
           GIDL+AGGKSKKTKRTAPK DD+YLKL VKLYRFLVRRT S FN VILKRLFMSKVNK P
Sbjct: 2   GIDLIAGGKSKKTKRTAPKSDDVYLKLTVKLYRFLVRRTNSKFNGVILKRLFMSKVNKAP 61

Query: 191 LSLSRLIQFMKGKESKIAVVVGTITDDIRVYEVPALKVAALRFTETTRARIEKA 245
           LSLSRL++FM GKE KIAV+VGTITDD+RV+E+PA+KV ALRFTE  RARIEKA
Sbjct: 62  LSLSRLVEFMTGKEDKIAVLVGTITDDLRVHEIPAMKVTALRFTERARARIEKA 115

[Close]
BLAST of CmUC07G135240 vs. ExPASy Swiss-Prot
Match: O65729 (60S ribosomal protein L18 (Fragment) OS=Cicer arietinum OX=3827 GN=RPL18 PE=2 SV=1)

HSP 1 Score: 177.2 bits (448), Expect = 6.9e-43
Identity = 90/112 (80.36%), Postives = 102/112 (91.07%), Query Frame = 0 

Query: 133 DLVAGGKSKKTKRTAPKYDDIYLKLLVKLYRFLVRRTGSNFNVVILKRLFMSKVNKPPLS 192
           DL AGGK+KKTKRT+PK +DIYLKLLVKLYRFLVRRT SNFN VILKRLFMSKVN+PPLS
Sbjct: 1   DLKAGGKNKKTKRTSPKSNDIYLKLLVKLYRFLVRRTDSNFNAVILKRLFMSKVNRPPLS 60

Query: 193 LSRLIQFMKGKESKIAVVVGTITDDIRVYEVPALKVAALRFTETTRARIEKA 245
           LSRLI++M+GKE KI VVVG +TDDIRVY+VP +KV AL+FTET RARI+KA
Sbjct: 61  LSRLIKYMQGKEGKIGVVVGAVTDDIRVYDVPTIKVTALKFTETARARIQKA 112

[Close]
BLAST of CmUC07G135240 vs. ExPASy Swiss-Prot
Match: O22254 (Putative 60S ribosomal protein L18-1 OS=Arabidopsis thaliana OX=3702 GN=RPL18A PE=3 SV=3)

HSP 1 Score: 169.1 bits (427), Expect = 1.9e-40
Identity = 86/114 (75.44%), Postives = 99/114 (86.84%), Query Frame = 0 

Query: 131 GIDLVAGGKSKKTKRTAPKYDDIYLKLLVKLYRFLVRRTGSNFNVVILKRLFMSKVNKPP 190
           GIDL+AGGKSKKTKRT PK DD+YLKLLVK  R+LVRRT S FN VILKRLFMSKVNK P
Sbjct: 2   GIDLIAGGKSKKTKRTEPKSDDVYLKLLVKANRYLVRRTESKFNAVILKRLFMSKVNKAP 61

Query: 191 LSLSRLIQFMKGKESKIAVVVGTITDDIRVYEVPALKVAALRFTETTRARIEKA 245
           LSLSRL+++M GK+ KIAV+VGT+TDD+R+ +VPAL V ALRFTE+ RARI KA
Sbjct: 62  LSLSRLVRYMDGKDGKIAVIVGTVTDDVRIEDVPALTVTALRFTESARARIHKA 115

[Close]
BLAST of CmUC07G135240 vs. ExPASy TrEMBL
Match: A0A5D3C2J4 (GTP-binding protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold351G00250 PE=4 SV=1)

HSP 1 Score: 602.1 bits (1551), Expect = 3.2e-168
Identity = 344/460 (74.78%), Postives = 360/460 (78.26%), Query Frame = 0 

Query: 282 AYWKTRIGKAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAG 341
           AY K    +AELAALMYKKSRLVRVRGLDGRYTFG  GEAEVVSARGRGSGGRGFISGAG
Sbjct: 205 AYTKEAKLQAELAALMYKKSRLVRVRGLDGRYTFGGKGEAEVVSARGRGSGGRGFISGAG 264

Query: 342 ETELQLQQRRILERRNHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGK 401
           ETELQLQ+RRILERRNHLYSQIEEVRRTR+LQRASRKRHGGSNGQHLATVAVVGYTNAGK
Sbjct: 265 ETELQLQRRRILERRNHLYSQIEEVRRTRSLQRASRKRHGGSNGQHLATVAVVGYTNAGK 324

Query: 402 STLVSALSDNDLYSDSRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHAT 461
           STLVSALSDNDLYSDSRLFATVDPRLRSV LPSGRKV+LSDTVGFISDLPVQLVEAFHAT
Sbjct: 325 STLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVVLSDTVGFISDLPVQLVEAFHAT 384

Query: 462 LEEVVEADLLVPPSRHVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRV 521
           LEEVVEADLLV                                                 
Sbjct: 385 LEEVVEADLLV------------------------------------------------- 444

Query: 522 HSLMHVVDCTAPNLNEHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDD 581
               HVVDCTAPNL+EHRSTVFQVLQQIGVSK KLQDMIEVWNKIDYHEEGKSIDESCDD
Sbjct: 445 ----HVVDCTAPNLDEHRSTVFQVLQQIGVSKMKLQDMIEVWNKIDYHEEGKSIDESCDD 504

Query: 582 ANKYNGEAGDSSGEDSI----IDAGTNNFIEMEKGDITKKQATEEVISQENLGNRMKGQE 641
               NGEA +SSGEDSI      AGTNN IEMEKGDIT KQATEE +     GNRM+GQE
Sbjct: 505 D---NGEAANSSGEDSIEGKLSSAGTNNIIEMEKGDITIKQATEEDLGN---GNRMEGQE 564

Query: 642 SDCCEDWLADDD-DQNPWVDEKGYYEGQGMRMGMGEDVQPSGDQSGPHLKISATFGVGLQ 701
           SDCC+DWL DDD D+NPW D KG         G+GEDVQ S DQSGPH++ISA  GVGL 
Sbjct: 565 SDCCDDWLEDDDEDKNPWAD-KG--------KGIGEDVQASLDQSGPHVRISARLGVGLG 596

Query: 702 ELLQLIDNKLKVQDEKLKAQNVLENNVFERKWRPSQIEAD 737
           ELLQLIDNKLKVQDEKL+AQNVLE NVF+RKWRPSQ+EAD
Sbjct: 625 ELLQLIDNKLKVQDEKLQAQNVLERNVFDRKWRPSQMEAD 596

[Close]
BLAST of CmUC07G135240 vs. ExPASy TrEMBL
Match: A0A1S3CIG8 (GTP-binding protein At3g49725, chloroplastic isoform X1 OS=Cucumis melo OX=3656 GN=LOC103501174 PE=4 SV=1)

HSP 1 Score: 602.1 bits (1551), Expect = 3.2e-168
Identity = 344/460 (74.78%), Postives = 360/460 (78.26%), Query Frame = 0 

Query: 282 AYWKTRIGKAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAG 341
           AY K    +AELAALMYKKSRLVRVRGLDGRYTFG  GEAEVVSARGRGSGGRGFISGAG
Sbjct: 205 AYTKEAKLQAELAALMYKKSRLVRVRGLDGRYTFGGKGEAEVVSARGRGSGGRGFISGAG 264

Query: 342 ETELQLQQRRILERRNHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGK 401
           ETELQLQ+RRILERRNHLYSQIEEVRRTR+LQRASRKRHGGSNGQHLATVAVVGYTNAGK
Sbjct: 265 ETELQLQRRRILERRNHLYSQIEEVRRTRSLQRASRKRHGGSNGQHLATVAVVGYTNAGK 324

Query: 402 STLVSALSDNDLYSDSRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHAT 461
           STLVSALSDNDLYSDSRLFATVDPRLRSV LPSGRKV+LSDTVGFISDLPVQLVEAFHAT
Sbjct: 325 STLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVVLSDTVGFISDLPVQLVEAFHAT 384

Query: 462 LEEVVEADLLVPPSRHVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRV 521
           LEEVVEADLLV                                                 
Sbjct: 385 LEEVVEADLLV------------------------------------------------- 444

Query: 522 HSLMHVVDCTAPNLNEHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDD 581
               HVVDCTAPNL+EHRSTVFQVLQQIGVSK KLQDMIEVWNKIDYHEEGKSIDESCDD
Sbjct: 445 ----HVVDCTAPNLDEHRSTVFQVLQQIGVSKMKLQDMIEVWNKIDYHEEGKSIDESCDD 504

Query: 582 ANKYNGEAGDSSGEDSI----IDAGTNNFIEMEKGDITKKQATEEVISQENLGNRMKGQE 641
               NGEA +SSGEDSI      AGTNN IEMEKGDIT KQATEE +     GNRM+GQE
Sbjct: 505 D---NGEAANSSGEDSIEGKLSSAGTNNIIEMEKGDITIKQATEEDLGN---GNRMEGQE 564

Query: 642 SDCCEDWLADDD-DQNPWVDEKGYYEGQGMRMGMGEDVQPSGDQSGPHLKISATFGVGLQ 701
           SDCC+DWL DDD D+NPW D KG         G+GEDVQ S DQSGPH++ISA  GVGL 
Sbjct: 565 SDCCDDWLEDDDEDKNPWAD-KG--------KGIGEDVQASLDQSGPHVRISARLGVGLG 596

Query: 702 ELLQLIDNKLKVQDEKLKAQNVLENNVFERKWRPSQIEAD 737
           ELLQLIDNKLKVQDEKL+AQNVLE NVF+RKWRPSQ+EAD
Sbjct: 625 ELLQLIDNKLKVQDEKLQAQNVLERNVFDRKWRPSQMEAD 596

[Close]
BLAST of CmUC07G135240 vs. ExPASy TrEMBL
Match: A0A5A7UNJ1 (GTP-binding protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold288G001900 PE=4 SV=1)

HSP 1 Score: 587.0 bits (1512), Expect = 1.1e-163
Identity = 333/445 (74.83%), Postives = 349/445 (78.43%), Query Frame = 0 

Query: 297 MYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAGETELQLQQRRILERR 356
           MYKKSRLVRVRGLDGRYTFG  GEAEVVSARGRGSGGRGFISGAGETELQLQ+RRILERR
Sbjct: 1   MYKKSRLVRVRGLDGRYTFGGKGEAEVVSARGRGSGGRGFISGAGETELQLQRRRILERR 60

Query: 357 NHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGKSTLVSALSDNDLYSD 416
           NHLYSQIEEVRRTR+LQRASRKRHGGSNGQHLATVAVVGYTNAGKSTLVSALSDNDLYSD
Sbjct: 61  NHLYSQIEEVRRTRSLQRASRKRHGGSNGQHLATVAVVGYTNAGKSTLVSALSDNDLYSD 120

Query: 417 SRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHATLEEVVEADLLVPPSR 476
           SRLFATVDPRLRSV LPSGRKV+LSDTVGFISDLPVQLVEAFHATLEEVVEADLLV    
Sbjct: 121 SRLFATVDPRLRSVFLPSGRKVVLSDTVGFISDLPVQLVEAFHATLEEVVEADLLV---- 180

Query: 477 HVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRVHSLMHVVDCTAPNLN 536
                                                            HVVDCTAPNL+
Sbjct: 181 -------------------------------------------------HVVDCTAPNLD 240

Query: 537 EHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDDANKYNGEAGDSSGED 596
           EHRSTVFQVLQQIGVSK KLQDMIEVWNKIDYHEEGK IDESCDD    NGEA +SSGED
Sbjct: 241 EHRSTVFQVLQQIGVSKMKLQDMIEVWNKIDYHEEGKGIDESCDDD---NGEAANSSGED 300

Query: 597 SI----IDAGTNNFIEMEKGDITKKQATEEVISQENLGNRMKGQESDCCEDWLADDD-DQ 656
           SI      AGTNN IEMEKGDIT +QATEE +     GNRM+GQESDCC+DWL DDD D+
Sbjct: 301 SIEGKLSSAGTNNIIEMEKGDITIEQATEEDLGN---GNRMEGQESDCCDDWLEDDDEDK 360

Query: 657 NPWVDEKGYYEGQGMRMGMGEDVQPSGDQSGPHLKISATFGVGLQELLQLIDNKLKVQDE 716
           NPW D KG         G+GEDVQ S DQSGPH++ISA  GVGL ELLQLIDNKLKVQDE
Sbjct: 361 NPWAD-KG--------KGIGEDVQASLDQSGPHVRISARLGVGLGELLQLIDNKLKVQDE 377

Query: 717 KLKAQNVLENNVFERKWRPSQIEAD 737
           KL+AQNVLE NVF+RKWRPSQ+EAD
Sbjct: 421 KLQAQNVLERNVFDRKWRPSQMEAD 377

[Close]
BLAST of CmUC07G135240 vs. ExPASy TrEMBL
Match: A0A6J1CM56 (GTP-binding protein At3g49725, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111012389 PE=4 SV=1)

HSP 1 Score: 567.8 bits (1462), Expect = 6.7e-158
Identity = 324/475 (68.21%), Postives = 355/475 (74.74%), Query Frame = 0 

Query: 282 AYWKTRIGKAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAG 341
           AY K    +AELAALMYKKSRLVRVRGLDGRYTFGATGE+EVVSARGRGSGGRGFISGAG
Sbjct: 204 AYTKEAKLQAELAALMYKKSRLVRVRGLDGRYTFGATGESEVVSARGRGSGGRGFISGAG 263

Query: 342 ETELQLQQRRILERRNHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGK 401
           ETELQLQ+RR+  RRNHL SQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGK
Sbjct: 264 ETELQLQRRRLXIRRNHLLSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGK 323

Query: 402 STLVSALSDNDLYSDSRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHAT 461
           STLV ALS NDLYSDSRLFATVDPRLRSV LPSGRK+LLSDTVGFISDLPVQLVEAFHAT
Sbjct: 324 STLVGALSGNDLYSDSRLFATVDPRLRSVLLPSGRKILLSDTVGFISDLPVQLVEAFHAT 383

Query: 462 LEEVVEADLLVPPSRHVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRV 521
           LEEVVEADLLV                                                 
Sbjct: 384 LEEVVEADLLV------------------------------------------------- 443

Query: 522 HSLMHVVDCTAPNLNEHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDD 581
               HVVDCTAPNL+EHR TVFQVL++IGVSKTKLQDM+EVWNKIDYHEEGKSIDE  D+
Sbjct: 444 ----HVVDCTAPNLDEHRLTVFQVLEKIGVSKTKLQDMVEVWNKIDYHEEGKSIDEYYDE 503

Query: 582 ANKYNGEAGDSSGEDS----IIDAGTNNFIEMEKGDITKKQATEEV----------ISQE 641
               N EAG+ SGEDS    + ++ TNNFIE+EKGDIT KQAT  V          +SQ 
Sbjct: 504 D---NSEAGNLSGEDSTMAKLSNSKTNNFIEIEKGDITTKQATGLVRRSSIGNVCQLSQG 563

Query: 642 NLGNRMKGQESDCCEDWLADDDDQNPWVDEKGYYEGQGMR------MGMGEDVQPSGDQS 701
            LGN M+GQ+SDC +DWLA+DDDQN WVDE GY E +          GM   VQP GDQ 
Sbjct: 564 VLGNTMEGQDSDCSDDWLAEDDDQNHWVDENGYSEAEAEAWETSEGRGMVNVVQPPGDQC 622

Query: 702 GPHLKISATFGVGLQELLQLIDNKLKVQDEKLKAQNVLENNVFERKWRPSQIEAD 737
            PH++ISA FGVGL+ELL+LID+KLKVQDE+LK +NVLE ++FERKWRPSQ EA+
Sbjct: 624 SPHVRISARFGVGLRELLELIDDKLKVQDERLKTRNVLERSIFERKWRPSQAEAE 622

[Close]
BLAST of CmUC07G135240 vs. ExPASy TrEMBL
Match: A0A6J1FZN1 (GTP-binding protein At3g49725, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111449388 PE=4 SV=1)

HSP 1 Score: 563.5 bits (1451), Expect = 1.3e-156
Identity = 325/470 (69.15%), Postives = 359/470 (76.38%), Query Frame = 0 

Query: 282 AYWKTRIGKAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGRGSGGRGFISGAG 341
           AY K    +AELAALMYKKSRLVRVRGLDGR TFGATGEAEVVSARGRGSGGRGFISGAG
Sbjct: 204 AYTKEAKLQAELAALMYKKSRLVRVRGLDGRLTFGATGEAEVVSARGRGSGGRGFISGAG 263

Query: 342 ETELQLQQRRILERRNHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGK 401
           ETELQLQ+RRILERRNHL SQIEEVRRTRALQR+SRKRHGGSNG+ LATVA+VGYTNAGK
Sbjct: 264 ETELQLQRRRILERRNHLLSQIEEVRRTRALQRSSRKRHGGSNGEQLATVAIVGYTNAGK 323

Query: 402 STLVSALSDNDLYSDSRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHAT 461
           STLVSALS+NDLYSDSRLFATVDP LRSV LPSGRKVL+SDTVGFISDLPVQLVEAFHAT
Sbjct: 324 STLVSALSNNDLYSDSRLFATVDPVLRSVFLPSGRKVLVSDTVGFISDLPVQLVEAFHAT 383

Query: 462 LEEVVEADLLVPPSRHVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRV 521
           LE+VVEADLLV                                                 
Sbjct: 384 LEDVVEADLLV------------------------------------------------- 443

Query: 522 HSLMHVVDCTAPNLNEHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDD 581
               HVVDCTAPNL+EHR TVFQVL+QIGVSKTKL DMIEVWNKIDY EE +S+DE CDD
Sbjct: 444 ----HVVDCTAPNLDEHRLTVFQVLKQIGVSKTKLDDMIEVWNKIDYREEDESVDEYCDD 503

Query: 582 ANKYNGEAGDSS-GEDSIIDAGTNNFIEMEKGDITKKQATEEV----------ISQENLG 641
                GEAG+SS G+    +AG NNF++MEKGDITKKQAT EV          +SQ++LG
Sbjct: 504 D---IGEAGNSSVGDGRKGNAGCNNFMKMEKGDITKKQATREVGGFPSGDVSQLSQKDLG 563

Query: 642 NRMKGQESDCCEDWLA-DDDDQNPWVDEKGYYEGQ--GMRMGMGEDVQPSGDQSGPHLKI 701
           N ++G+ESD CEDWLA DDDDQNPWVDE  Y E Q      GM +DVQP G Q GPH++I
Sbjct: 564 NTIEGEESDWCEDWLAEDDDDQNPWVDENCYSEAQEASEDQGMRKDVQPPGGQFGPHVRI 617

Query: 702 SATFGVGLQELLQLIDNKLKV-QDEKLKAQNVLENNVFERKWRPSQIEAD 737
           SA FGVGL+ELL+LID+KLKV QDE+LK QNVLE ++FERKWRPSQ+EA+
Sbjct: 624 SAKFGVGLRELLELIDDKLKVDQDERLKTQNVLERSIFERKWRPSQMEAN 617

[Close]
BLAST of CmUC07G135240 vs. TAIR 10
Match: AT3G49725.1 (GTP-binding protein, HflX )

HSP 1 Score: 311.6 bits (797), Expect = 1.7e-84
Identity = 205/449 (45.66%), Postives = 270/449 (60.13%), Query Frame = 0 

Query: 290 KAELAALMYKKSRLVRVRGLDGRYTFGATGEAEVVSARGR----GSGGRGFISGAGETEL 349
           +AELAALMY KSRLVRVRG DGR+TFG  GEAEVVSARGR    G+GG GF+ GAGETEL
Sbjct: 244 QAELAALMYNKSRLVRVRGTDGRHTFGQFGEAEVVSARGRAGSKGTGG-GFVGGAGETEL 303

Query: 350 QLQQRRILERRNHLYSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGKSTLV 409
           QLQ+RRI +RR  L SQI+E +RTR LQRA RK+  G  G+   T+AVVGYTNAGKSTL+
Sbjct: 304 QLQRRRISDRRIRLLSQIKEAQRTRLLQRAGRKKRVGLEGESSGTIAVVGYTNAGKSTLI 363

Query: 410 SALSDNDLYSDSRLFATVDPRLRSVCLPSGRKVLLSDTVGFISDLPVQLVEAFHATLEEV 469
           SAL+   LY + RLFAT+DP L+S  LPSG  VLLSDTVGFISDLP+QLV+AF +TLEEV
Sbjct: 364 SALTKTALYCNERLFATLDPTLKSAHLPSGNFVLLSDTVGFISDLPIQLVKAFQSTLEEV 423

Query: 470 VEADLLVPPSRHVFSISSQFHIRWLHANSLFKSHINLPSPTFLRVFIYHHSSSLRVHSLM 529
           VEADL                                                     L+
Sbjct: 424 VEADL-----------------------------------------------------LL 483

Query: 530 HVVDCTAPNLNEHRSTVFQVLQQIGVSKTKLQDMIEVWNKIDYHEEGKSIDESCDDANKY 589
           HVVD TAPN+ EHRSTV  VL QIGV + KLQ+MIEVWNKIDY E+    ++  DD    
Sbjct: 484 HVVDSTAPNIEEHRSTVLHVLNQIGVPEEKLQNMIEVWNKIDYEEDEVEEEKYLDD---- 543

Query: 590 NGEAGDSSGEDSIIDAGTNNFIEMEKGDITKKQ---ATEEVISQENLGNRMKGQESDCCE 649
               G+  GE+           + ++ D+  ++   A+E  + ++ + N     + D  +
Sbjct: 544 ----GEGVGEE-----------DEDEADLKAEETVDASEATVDEDQIQN----GDGDDAD 603

Query: 650 DWLADDDDQNPWVDEKGYYEGQGMRMGMGEDVQPSGDQSGPHLKISATFGVGLQELLQLI 709
            WL  +D+     D+  +++   +          + ++ GP +++SA  GVGL+ELL LI
Sbjct: 604 GWLLSEDEN---ADDPEFWKVPEVAK------VDAANKKGPDVRVSALTGVGLKELLYLI 604

Query: 710 DNKLKVQDEKLKAQNVLE-NNVFERKWRP 731
           D+K+K  ++KLK+  ++E + + +RKWRP
Sbjct: 664 DDKMK--EKKLKSPTIVERSELHKRKWRP 604


HSP 2 Score: 60.8 bits (146), Expect = 5.2e-09
Identity = 28/33 (84.85%), Postives = 29/33 (87.88%), Query Frame = 0 

Query: 46  QRAWEKPVLDRVGLIIEIFNAHACTKEAKLQTE 79
           +R W KPVLDRVGLIIEIFNAHA TKEAKLQ E
Sbjct: 214 ERIWAKPVLDRVGLIIEIFNAHAHTKEAKLQAE 246

[Close]
BLAST of CmUC07G135240 vs. TAIR 10
Match: AT5G27850.1 (Ribosomal protein L18e/L15 superfamily protein )

HSP 1 Score: 185.3 bits (469), Expect = 1.8e-46
Identity = 94/114 (82.46%), Postives = 105/114 (92.11%), Query Frame = 0 

Query: 131 GIDLVAGGKSKKTKRTAPKYDDIYLKLLVKLYRFLVRRTGSNFNVVILKRLFMSKVNKPP 190
           GIDL+AGGKSKKTKRTAPK DD+YLKLLVKLYRFLVRR+ SNFN VILKRLFMSKVNK P
Sbjct: 2   GIDLIAGGKSKKTKRTAPKSDDVYLKLLVKLYRFLVRRSNSNFNAVILKRLFMSKVNKAP 61

Query: 191 LSLSRLIQFMKGKESKIAVVVGTITDDIRVYEVPALKVAALRFTETTRARIEKA 245
           LSLSRL++FM GK+ KIAV+VGTITDD+RV+E+PA+KV ALRFTE  RARIEKA
Sbjct: 62  LSLSRLVEFMTGKDDKIAVLVGTITDDLRVHEIPAMKVTALRFTERARARIEKA 115

[Close]
BLAST of CmUC07G135240 vs. TAIR 10
Match: AT3G05590.1 (ribosomal protein L18 )

HSP 1 Score: 182.6 bits (462), Expect = 1.2e-45
Identity = 94/114 (82.46%), Postives = 103/114 (90.35%), Query Frame = 0 

Query: 131 GIDLVAGGKSKKTKRTAPKYDDIYLKLLVKLYRFLVRRTGSNFNVVILKRLFMSKVNKPP 190
           GIDL+AGGKSKKTKRTAPK DD+YLKL VKLYRFLVRRT S FN VILKRLFMSKVNK P
Sbjct: 2   GIDLIAGGKSKKTKRTAPKSDDVYLKLTVKLYRFLVRRTNSKFNGVILKRLFMSKVNKAP 61

Query: 191 LSLSRLIQFMKGKESKIAVVVGTITDDIRVYEVPALKVAALRFTETTRARIEKA 245
           LSLSRL++FM GKE KIAV+VGTITDD+RV+E+PA+KV ALRFTE  RARIEKA
Sbjct: 62  LSLSRLVEFMTGKEDKIAVLVGTITDDLRVHEIPAMKVTALRFTERARARIEKA 115

[Close]
BLAST of CmUC07G135240 vs. TAIR 10
Match: AT5G57960.1 (GTP-binding protein, HflX )

HSP 1 Score: 102.8 bits (255), Expect = 1.2e-21
Identity = 68/176 (38.64%), Postives = 105/176 (59.66%), Query Frame = 0 

Query: 329 RGSGGRGFISGAGETELQLQQRRILERRNHLYSQIEEVRRTRALQRASRKRHGGSNGQHL 388
           R SGG+  + G GE ++++ +R +  +   L  ++E VR+ R   R+ R          +
Sbjct: 258 RQSGGQ--VKGMGEKQIEVDKRILRTQIGVLKKELESVRKHRKQYRSRRV------AIPV 317

Query: 389 ATVAVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVCLPSGRKVLLSDTVGFIS 448
             V++VGYTNAGKSTL++ L+  ++ +++RLFAT+DP  R V + +G++ LL+DTVGFI 
Sbjct: 318 PVVSLVGYTNAGKSTLLNQLTGANVLAENRLFATLDPTTRRVQMQNGKEFLLTDTVGFIQ 377

Query: 449 DLPVQLVEAFHATLEEVVEADLLVPPSRHVFSISSQFHIRWLHANSLFKSHINLPS 505
            LP  LV AF ATLEE+ E+ LLV    HV  IS     + + A     S +++ S
Sbjct: 378 KLPTTLVAAFRATLEEIAESSLLV----HVVDISHPLAEQQIEAVEKVMSELDVSS 421

[Close]
BLAST of CmUC07G135240 vs. TAIR 10
Match: AT2G47570.1 (Ribosomal protein L18e/L15 superfamily protein )

HSP 1 Score: 90.5 bits (223), Expect = 6.1e-18
Identity = 44/62 (70.97%), Postives = 54/62 (87.10%), Query Frame = 0 

Query: 183 MSKVNKPPLSLSRLIQFMKGKESKIAVVVGTITDDIRVYEVPALKVAALRFTETTRARIE 242
           MSKVNK PLSLSRL+++M GK+ KIAV+VGT+TDD+R+ +VPAL V ALRFTE+ RARI 
Sbjct: 1   MSKVNKAPLSLSRLVRYMDGKDGKIAVIVGTVTDDVRIEDVPALTVTALRFTESARARIH 60

Query: 243 KA 245
           KA
Sbjct: 61  KA 62

The following BLAST results are available for this feature:
BLAST of CmUC07G135240 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_038892869.12.1e-17777.42GTP-binding protein At3g49725, chloroplastic isoform X2 [Benincasa hispida][more]
XP_038892861.12.1e-17777.42GTP-binding protein At3g49725, chloroplastic isoform X1 [Benincasa hispida][more]
XP_008462905.16.7e-16874.78PREDICTED: GTP-binding protein At3g49725, chloroplastic isoform X1 [Cucumis melo... [more]
XP_004137207.12.1e-16673.70GTP-binding protein At3g49725, chloroplastic [Cucumis sativus] >KAE8649266.1 hyp... [more]
KAA0056658.12.2e-16374.83GTP-binding protein [Cucumis melo var. makuwa][more]
BLAST of CmUC07G135240 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q0WTB42.4e-8345.66GTP-binding protein At3g49725, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=... [more]
Q940B02.5e-4582.4660S ribosomal protein L18-3 OS=Arabidopsis thaliana OX=3702 GN=RPL18C PE=2 SV=1[more]
P427911.7e-4482.4660S ribosomal protein L18-2 OS=Arabidopsis thaliana OX=3702 GN=RPL18B PE=1 SV=2[more]
O657296.9e-4380.3660S ribosomal protein L18 (Fragment) OS=Cicer arietinum OX=3827 GN=RPL18 PE=2 SV... [more]
O222541.9e-4075.44Putative 60S ribosomal protein L18-1 OS=Arabidopsis thaliana OX=3702 GN=RPL18A P... [more]
BLAST of CmUC07G135240 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5D3C2J43.2e-16874.78GTP-binding protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold351G... [more]
A0A1S3CIG83.2e-16874.78GTP-binding protein At3g49725, chloroplastic isoform X1 OS=Cucumis melo OX=3656 ... [more]
A0A5A7UNJ11.1e-16374.83GTP-binding protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold288G... [more]
A0A6J1CM566.7e-15868.21GTP-binding protein At3g49725, chloroplastic OS=Momordica charantia OX=3673 GN=L... [more]
A0A6J1FZN11.3e-15669.15GTP-binding protein At3g49725, chloroplastic OS=Cucurbita moschata OX=3662 GN=LO... [more]
BLAST of CmUC07G135240 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G49725.11.7e-8445.66GTP-binding protein, HflX [more]
AT5G27850.11.8e-4682.46Ribosomal protein L18e/L15 superfamily protein [more]
AT3G05590.11.2e-4582.46ribosomal protein L18 [more]
AT5G57960.11.2e-2138.64GTP-binding protein, HflX [more]
AT2G47570.16.1e-1870.97Ribosomal protein L18e/L15 superfamily protein [more]
InterPro
Analysis Name: InterPro Annotations of Watermelon (USVL531) v1
Date Performed: 2022-01-31
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR032305GTP-binding protein, middle domainPFAMPF16360GTP-bdg_Mcoord: 291..377
e-value: 3.5E-11
score: 43.5
IPR006073GTP binding domainPFAMPF01926MMR_HSR1coord: 391..471
e-value: 3.8E-11
score: 43.1
NoneNo IPR availableGENE3D3.100.10.10coord: 130..265
e-value: 7.7E-52
score: 177.5
NoneNo IPR availablePANTHERPTHR10229:SF6OS03G0727900 PROTEINcoord: 291..472
NoneNo IPR availablePANTHERPTHR10229:SF6OS03G0727900 PROTEINcoord: 523..732
NoneNo IPR availablePANTHERPTHR10229:SF6OS03G0727900 PROTEINcoord: 47..78
IPR021131Ribosomal protein L18e/L15PPFAMPF17135Ribosomal_L18coord: 131..244
e-value: 9.8E-48
score: 162.0
IPR042108GTPase HflX, N-terminal domain superfamilyGENE3D3.40.50.11060coord: 29..81
e-value: 2.3E-8
score: 36.0
IPR027417P-loop containing nucleoside triphosphate hydrolaseGENE3D3.40.50.300coord: 388..500
e-value: 1.7E-18
score: 68.7
IPR027417P-loop containing nucleoside triphosphate hydrolaseSUPERFAMILY52540P-loop containing nucleoside triphosphate hydrolasescoord: 389..573
IPR016496GTPase HflXPANTHERPTHR10229GTP-BINDING PROTEIN HFLXcoord: 291..472
coord: 47..78
IPR016496GTPase HflXPANTHERPTHR10229GTP-BINDING PROTEIN HFLXcoord: 523..732
IPR030394HflX-type guanine nucleotide-binding (G) domainPROSITEPS51705G_HFLXcoord: 389..472
score: 34.796001
IPR030394HflX-type guanine nucleotide-binding (G) domainCDDcd01878HflXcoord: 342..577
e-value: 2.16273E-68
score: 221.564
IPR036227Ribosomal L18e/L15P superfamilySUPERFAMILY52080Ribosomal proteins L15p and L18ecoord: 151..244

Relationships

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

Feature NameUnique NameType
CmUC07G135240.1CmUC07G135240.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
molecular_function GO:0005525 GTP binding