Cucsa.061610 (gene) Cucumber (Gy14) v1
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATATGTTTTAAGACTTACTACTAAGCCCAACACATAGAAGACGAGCAGCAGCAGCAGTGACCCGCCCGCCTGCCCTCTCGTCTCTCCAACGGAGGAAGTTCTAAGCCATGGAAGACATAGAAGACTTGCTCATCGGCGGCGGCGGCGGAGCTCCCCCTGGTTACCGTCTTCCGTTAACCGCAGTGGGTGTAAAGCCGAAGAAAAAGAACATGTTCAAATCTAATGCAAGTGCTGATGATTCCAGCAACGAGCCCTCTCCGATCCAAAATCCACTTGTACCTAAGATTCCAGGCACACAGGTCTTCCTCTTCAGGCCTCCTTGTATCGCGTTAAATGTATCTTTTTTGTTTTTGATTTTCACATTTCTTTCGCGGACACTAATAAGTGTCTACTTCGATGTAATTTGGCAGACAATTTATGTCAAAACCTTTGGATGCTCTCACAACCAGGTTAGTTCTTCATCCCCGCATATTCAATTGATTTTGTCATTTCACGGGCTTAAATGCAGGTCCAAGCCTTTAACTCCTTTAGAGTTTGTTTGTTATCTGATGAACACTTAATCCAGTTAGAGGTTGATTGGTCATTAGCTTTTTATCCTTGCTATTTATTGCGTTCTTTAACTGGATTTTACTTTTCCATCCTGTATTCATTGTTTTGGCTTTTATGGGTTTTACCTAAGGCTTTCAAATGATGCAAATTGATTAGAATCAAGCTTTCAGATGTGATAAATATATAACAATAAAACTAGAAATTTTTTTCAGCAGATTTAATGGGTGACGCGGACACATCACACACACATATATTTTTTCTCTTCCTAATGAAGAACAAATTTTTCTCCTTAATCATGATGTGATCCAAATTTGCAAGAGGAAAAGTCCTGGAAAAGAAAGCTTTGATTCTAGCTGAATGGAAGAAGATTGAAATCATCAAATTATATTTCTACGAAGACACTCTATGCACACTGCCTAGATTTTCATAATACTACAATAGAAAGCCCTTTGATAGCATTCTAAGCATTAAAAAGTTTGCAGTCTTTATGAATTAACTTTATCTTTATGAATTATGAGCAGTGCCCAAGGAACTCGGTTCTTGATTCTGTGGAAATCTACAATACTCTATTTGCAAAACAAAAGCACAAACGTTTAATATACGATTCTCGTCATGTTATCCCTTTTACATAGAATGCATCGGGCATCATGGAGGAAAATTGAACAAGAAGTCCTTTGTTTGCATCATTGGTGATTAACTTTAAGTAGTTTAATAAAATACATGTGGAAATTTGTATGGAGGACGACCCAAATTTTTGGGGAGAAAATGAAATGTCTTTTATTTATTTATCTTCTATTCTTTAACTAGGGTTTCCCTTAAGGAAGTATATGGAATGCATAATTGGTCTCCTTTAAAGAGAAAACCTTCCACCAAATGATAATCTCGATCATGGATATGAGCAGTACAATGACTCCAAATCTCACCAAAGTCTTCATCAGTCTCATATAGCATTGGAAGATGGTTAAAGGCTGTAATTTCAGCTGAGAGCATAATGAGGAGAGTCTCTTTTCTGCTTAAGGCATCTGCAACTCCGTTTTCTTTCCCCGCTTGATGCTTGATTAAGAAATCAAATCTTTGGATATAAGATACCCATCTGGCATGCATCTTGTTAATGTTTTTTTGTGCTTGGAGATACTTCAAGGAGAAATGATCAGTGAGCAGCACAAACTCCTTAGATAATAAGTAATGCTCCCACTGTTTTAAGGCCCTAACAAGTGCATAAAGTTCCTGCTCATATGTGCTCCAGTTTTGCCGAGAATGACTCAATTTTTCACTAAAGAATTCTACCGGATGACCTTCTTGGGAAAGGACAGCACCAATTCCCACTCCACTGGCGTCTACTGCCACTTTAAAAGGGCTGTCAAACTTCGGTAATTTGAGGACTGGTTGGCTGGCAAGCTTTCTTTTGAGGGAGTCAAAACTGTGCTGCTGTTTTTCTCCCCAATAAAAGGCTCCCTTCTTGAAATAATGAGTCATAGGAGTTGTTATAGAACTAAAGTTCTTAATAAACGTCCTGTAAAGATGCCAACCCCATAAAAGCTTGAATCTCCTTTACTGATTTAGGTATCGGCCATTTAGTTACAGCTTCCACCTCGCTTTCATCCATCTTCACTTGATTTTCAGATATAATAAAGCATAGGAAAGATATTTCTTCCGTGCAGAAAATACATTTCTTCAAATTAGTGAACAACTTACTCTTTTGAAGGGCTTCAAAAACTAGCTTCAGGTGCTGCATATGATCTTGTTCATTCTTGCTATAGATTAAGATATCATCAAAGTAGACTACTACGAATTTGTTTAAGAATAAATGTAGCACTTGGTGCATCAACCGCATAAAGGTACTTGGGGCATTTGATAAGCCAAAAGGCATCACTAACCATTCGAATAACCCCTCATTAGTCTTGAAGGCCGTCTTCCACTCATCTCCTGACCGTATTCTAATTTGATGATATCTGCTTCTTAGGTCTACCTTTGAAAAAACAAGAGCTCCTCCAAGTTGATCAAGGAGATCATTAATTCTTGGAATAGGGAAGCGATACTTGACCGTGATTTTGCAGAAGTTGGTATGGTGTAAATCCAAGTATGTTTTCTGGAAATTTTCTCTTATCTTCCCAATGTGGTGAAGATGTTTATTTATACTAGAATTTTACAGTTGGGTAATTGCTTAGTTGTAACAACTTTAACAGCTTTTGGTTAGTTATCTAGGTGGCCTATTTAGTTACATCATGGTATGTTGGAAGTTGTGGTCGGCCGGAGAAGAAGTTGGAAAGAGGAAGAAAGAAATCAATGGCAAGTTCGTAACTTCACTTACCATGACGTCAACAGGAGGTCAATTAACACTGTTTTAAAAAAGTGGGACGTTTTTCATTTTGGATTTCTAAAATAGGTCGGTCGTGCAATTATTCCAGATACATGGATCTTAGGGTGAATCCTTAAACCAAGTCAACATATGAAATTATGAGATTAGTGTTTTGAATTGGAAAAGGAAGTTACCAATATTTGGACTTTGGTATTAATACGCCAATTTTTTCTATTATTAATCTTAACAATAACTTTAATTTGTGAGGTTGCTTATATTATCTGGATTAGTTGTGTCATCATTGCTAAAATAAAAATTTGATACAATTTTCTCATTGTTGTGCTCATTGACAGAGTGACAGCGAATACATGGCTGGTCAGCTTTCAGCATTTGGTTATTTGTTAAGCGACAATCCTGAAGATGCAGACTTGTGGCTTATAAATACGTATGATCTGCTCCTTCAAGTTTAAAAGTTGTGTCATCATAAATTGCCTGTGAATGCTTGCAGGTGCTGTAATTGATTCTGTGATCAAAGAAATTATGTGCCTCTAATAACGTGGATTGTTACTTTGGGTGTGGGGTGTGGGCCTTAGCATGCTCTTGACAGCAATTATTCAATAATTTTTTGTTTCTTTCCCTTGTTGGTTATTACATCTTCTTGAAGACATTTACCTTCAACGTTCTCTTCATAGTGCTCCACATTTATTTGCTTTGTTGTAGATAGCTGTGCACATATTTGCTTTACCACAGACCTATAATTTTGCATATAAATCATGAAATATTTTTCTTCCTCATGTACAAAAGGCTCAATATTTGGAATATAGCCTGATAAATATTTCTGCAGTTGCACAGTTAAATCCCCTAGTCAGTCTGCTATGGACACTCTAATAACAAAATGCAAAAATGCAAAAAAGCCTCTTGTGGTAGCTGGGTGTGTACCACAAGGTAGTCGAGATTTAAAGGAGTTAGAAGGGGTCAGTATCGTAGGAGTTCAGCAGATTGATCGCGTGGTAGAAGTTGTGGAAGAGACACTAAAAGGTCATGAAGTAAGGCTGTTAAATCGCAAGACACTGCCAGCACTTGACCTTCCAAAAGTGTGAATTGTTTCCTTTTCAAGCTGTTTGAGACTTTTTATTTATTCATGTATTTATTTTTAAATAAAAGCTTTCGTAGCTTATATTTTCTTTTTACCCTTTGGCTAACTATATAAATAAATGATTTATATTTGATATTTGAACAGGTGAGAAAGAACAAGTTCATTGAAATACTTCCAATCAATGTTGGCTGTTTAGGTGCTTGCACATATTGCAAGACAAAACATGCTCGTGGTCACTTGGGAAGTTACACTGTTGATAGCCTTGTAAGGACTTTAAACTAATGTATGGCTTTTGTAAGACATGTATACTCCAGTTTTCAGTCGGAAACTTTATGTTGTTCTGTCTGAAAAATGATTTGTGAAAACTGTATTTGTAGGTAAGGCGTGTAAGATCTGTCATCAATGAAGGAGTCAGGGAAATATGGTTGAGCAGTGAAGACACGGGGGCCTATGGTACATTGCACTACATCCATCTGAGATTGCTTTTCATTTTTATAGGATATGACAAACTGATACTTTTTTTATTGTAAATTTTTGTTGTGTCGATTGAGTTGTTGTGATGGAAGATTGGAAGATTACATTGAATCCACCTAAATATAAGTTGGATTTTCTAAAAAAGTTAATCTTGATGAAAATTTGTATGAAGATTATGTTCTTTCATCATAGTGGACATTTATCAGTTCTTCAAATTATCAATTTTGATGCGCATTATAAAAATTTATAAGAAATAGTTAAATTGTAGTTTCCAGGTTAAAGAAGAAATTAAGTGTAAAACTAAAGCCAAGATTACAGAGCTTGAAAACTTTGATTCATCCGCCAATTTGATTAGTTTTTCTTCCAAAAGCACAATAAAAGGTTTATTGTGGAGTTTTACATGTCTTTTCGAGGAGAGTTTTGACTGTTGATTATTATTTTGTTATTCTTCTTTCCTAGTGCTTTCCTGTGCTTCTGTTTGTACTATCGTATTTTCAAACAGGTTAGCCTAATGATCAAAATGAAGCTACAATTGAGATACAATTAGCCAACGACTGTAGGTCTAGATCCTTATGTCGATTTTCTTGGCGCTCGTAAGAATAATAAAAAAAAATGGACAAGTTGGCCGACTAACCATTGACTGGTTTTGTATCATGAATCTTACGATAATTTTTAAATATTGGCTGATATATCTTTTATGATACTATTGAATTTGAATGTTGAAATAATGTATATTATCCAAGGTTGCTAAAATTGTAAAACATTTGTTCTTGCTAATGCCGTATAATGAAATTTCAGGCCGTGACATCGGGGTCACTCTTCCAATTTTATTAAATGCAATTGTTTCTGAGCTTCCATCTGATGCAAGCACAATGCTTCGGATTGGGATGACAAATCCTCCTTTCATTCTTGAGCACTTGAAAGAGATAGCAAAGGTCTTGTCTCATCCATGTGTATACTCCTTTTTGCATGTGCCAGTTCAATCCGGAAGCGATGCAATCTTAAGTGTAAGCATTGTCTCCACATTAATTTCCTTATATATATTTGAATTCCTGATGCCAGAACAGTTCTAAGGAACAATGGTTATATTTTCTCCCAGGCAATGAATCGAGAATATACAGTCAGTGAGTTCAGGACTGTAGTAGATACCTTAACTGAGCTTGTTCCTGGGATGCAGATTGCTACTGATATAATATGTGGATTTCCCGGTTAGTAAGTGGGTTCAAGGCTATGTATTGATTTTCTTGTACTCATATCTTTGTCTCTCTGTAGGTGTGCATGGTTTTTTTGTTCTTTGCATACTGTTTTGGATTGGGAATATATGCTTCCACATTCATTGATTTCTATGTTACAAGATATCAACTACTGGAACAGTGTAATCTATAAATTATTGTCTTTGAATGCAATATTTGAACCTAACATAAAAACGTTTTAAAATATAAATTTGTCCTAATGATGAAACCATATCTGATTAATATGGAAATGTAACCCTTTGGCCTTATGGAGACATCTCATATCCCCTTTTTTTAGCAGTGGAACTCTGGTTAATCCCACTCTCTTTACCATACACAAAATAATTATATTATTTTGGAAACACCTGGAAAATACATCGGAGTCCCTGATTGTTGAAAGGTCAAGCCTGAATGGTTTGTTTTGGTCTTCATGCGGCAGTGTGAAGATTTATTGTTTGCATAACCATTTCCTGCCATTTGTGTCTTTGTATCATCTTGAATTTGTTTCTCCATCAATGTTTGCATACACAGTATTACTCACATTTGGGTAGCCTGTAATATACTAATATTTGAGTTGTTTTCCCCTTTTTGTGGGGTATCTGAATTGAGAGAAATAACAGGATTATCGGAGAGAGAGAGAGAGAGAGAGAGAGAGATAGATCGTGTGAGGAGGTTTGGGAGAGGGCTAGATACTATGCCTTCTTGTCAGGGCCAGGTCATGGACCTTTTTGTAATTTTGATCTTTGTTTGATTTTATCACATTAAAGTACCTTTCTGTGGTAAGTTTTTAGGCTTTATTTTTCAATTATTATTATTATTATTATTATCTTATGTATTTGTCAATTCTTGTGCTTTTCAGGGGAAACAGATGAAGATTTTTGTGAAACTATCAACCTTATTAAAGAGTACAATTTACCTCAAGTTCACATCTCACAGTTCTATCCTCGACCCGGTATGCAAATGCGATCATTTATTACCTCTTTATTTCTTTGCTTAGAATTTAAATATGGGAATGATTTGACATGAATGCGGACTAGCTTAAGATTCCACACACGCACGCACACATTGTGTTAGTCCAAACACTTTTTGAACCCATCCCATTTAGTTATATTATTTTTGCTTGCAGCTTATTTAATTAGGTGAGGAAAAAGGGATTTTTCCCATATTAATGTATTTGATTCTTTTTCTTTTAAGTGGAAAAACAGAGCTTGAAAAAAAAAGAAGAGTGTAGAGAAACAACCTTAAAGGTCAGTTTAAAGGGTGGAATAGATATGTTTATCGAGATGTTCAGATTAAAAAGAAGGAAACAATTGCTAGGATTGATGAGATTGTTGCCATGGATTTGGAAGGTCTCTTGGATAGTCCCCTTAAAGAGGAGAGAGTTATTCTAAAATTGGATCTTGCAGAGATGATTAGGAAGGAAAATGTTAGTTGGAACCAAAAGTCTAAAATTAAGTGGGCTAAGGAAGGGGATTGTAATATTGGTTTTTTCCATAAAGTGGAAAATGGTAGAAGGAACTAGAATCATATAGGTCTTTTGCTTTTAGAGTCAGACAATGGTGAAAGCACAAGGGATGGAATGGAGATTGAGGAGGAAATCATTAGTTTTTTCTCAAATCTTTATAGCTCGGATGTCAGGGCCGTTTGTGGAGGGCATTGATTGGAACCCTATCTTGACAAGGGAAGATGAGGATTTGGTGGCCCTGTTTACTTTGGACGAGATTAAATAGGCTGTATTCAGCTGTGATAGAAGCAAATCTCTAGGTGTTGATAGCTTTTCTATGGCTTTCTTCCAGGATAATTAGTTGGACCCCCTTTTAGTTTGGGTGTTTTTTGGTGGGCTTGTTTTTTTGTTTGTCCTTGTATTCTTTCATTTTTTTTCTCAATGAAACATGCTGTTTCTATGAAAAAATAAATAAGTAAAGAGAAACAACCTCAAAAAAGAGCTCAACAAATATCCAAAAAGTATTTTGGGTTGAATGGCAGAATTTTCAAATTTCAATCGCTAGTTTTGGATCTCTGCATTATTAAATCAACTTTTTGAGATGAAGTGGTGTGATAATAGCCACAGTATGACAAGTTATGTATGCGTATGCAAACCAATTCGAGCTATCTCCACCCTTGTAATTGGTGAACTAGAAAATAAATAATAATAATATGCATGTGGATTAATTAAAGAGTTTGGATATATCTTACCTTAGAACCCTGGTTGTAGCAATATCTTTCAATAAATTGATTGTCTTGATATATCCGTCTAAACTATGCTTAATGTTTTTGGAACTTTTCCCTTATCTATAAAACTAAATAGAACGTGATTGTAAAACTAATATTTCCAGCAGCCAGACATTTAAAATGAAAAAACACTCTATTATCATTCAGGGACACCTGCTGCCAGGATGAAGAAAGTTCCAAGTGCTATTGTCAAGAAACGAAGCCGTGAATTGACTTCAGTTTTTGAAGCTTTTACACCATATAATGGAATGGAGGGCAGAGTGGAAAGAATTTGGATAACAGAAATTGCTGCAGATGGCATTCACTTGGTAAGATAGTCATACTGCCTAATGTCTATCTTTTCTAAGTCTACCAACTTGTAATTTGCCTACAGTTTAGTGGCTAGTTTCAGGTGACTACTAAGTACTATTAGTTCCAGCCATGGTAAGAAATTTGCTTCGATCAGTTTTGGCCTAAATTTTTAGACAGCTAGGTTTTTAATTGGTCTTTTTAGGTTAATGGAAATGATATTTTATTTACAATTACAGACAAAACAGGGAGAAAATAGAATAGTGAACTGATAGAATCCACTGTTACAGTTTTAGAATCTAAATATTTTAGATTCGAGTCTGTGTTCTTTAACAAATTAACATTAGAAAATATCTACTGCAAATGTAATTAAACATTTAAACCCACCGTGTAGTGTTCTACATGCGTTTGGACGGAGGGAAAAAGCCCAGCTGAACGGTGTCGGTAATCATCTGTTGATCTTGGAGTGAATTAGAATTGGTTAACCTATTCCAAATTATGATTTCAAGACATTAAGGTGGTATTTGATTGGTCCTTTGTTTGTAAATGGGTTTTACTTAGCTTGTCAGTTGGATCCAAAGGATGTATTTTGATTGAAGAGCTCTGAATAGTAATAGAAATAATTTGTTTATCCTTGGGGTTCTATTTTTTGGATACGAGGTTTCATTATTTTTTTTAGTGGACCGCCGAATGTAGTTGACCAAGTAATAAGGAAGAAGCCAAAGTCCAAACGTTAGGACATGAAATATCAGTGACCTTTCAATGGTACTAGGGGAGTACTCAAAAGTTTAGACCCATAAGTCATTATCATAAAAATGGATCATAGACTCACACGTAGTAGTATGAGCATAGGTTTGGAAAGCGGAATCAACGGGATGGTAAGAGGTACAAAGAGTCAATCAAGAATTGAGCTATACAGTATACAGTCATGGACCAAGGCCATGAAACAAAGGAAACATAAATTTATTCCCCACAACTACTTGACGTTGGAAGAAAGATGGTCCGAAGCATCGACCTTTATTAAGCAAGGCTGGTATACTTGCATCAAGGATATTAATTTTAAATTTGTGAAATTATTTTTGCGATTAAATCCTCTCTCTTCTTTTCTCTGTTTCTTAATGGCAGCTGTGTTTGTTCTTCCTCTGTGAAAATGAAACCATTGTCATTAAGTTCTTTTTAATAAATGTCAATTCCCAATGGAACTAGATTTTCTGATCTGTACTCTTAAAATTGCTGTTTCTGTAAGCTGTGATCTAATGTTTCAAAGAACTTCTGTTTCTTTTCTTGATTAACTCAATTTATTTTGCTTCCCTAGGTTGGCCATACCAAGGGGTACATCCAAGTGCTTGTAATTGCCTCGGAAACTATGCTGGGAACTTCTGCTACGGTGAAGATAACATCCATTGGAAGGTGGTCTGTTTTTGGGGAAGTGATTAAAATCATCAGTACCAAACATCATAAAACAACTACTCTGGAAGACACGCTGACTCAAGACAAAGTTTCTCCCTGCTCTAACACTCACGAAACTTGTGCATGTTCCACGGAGCCTGAATCTTGTGCATGTGGACTGGAGAGCTGCAAAGGAGCAGTCGCTGTGGGTGATAAAGTTAATTCCTCAAGGAATATCCCTTCGCCTGAAGAGCCAAAAAGGAAGAATCTGATTGAATGGGTATTGAGGAGACGGAAGAGCCATGTGCTGCCCAAAAGGGAGGAGACAGAAAATCCCATAGTAACTGAAAGAAAGCAAACATTGGCTGGAGGAAGACTGGATGAGTGGGGCGTGGTTGATAAGATTCTTGTTGGTGGAATACTAATCAGTACCTTCACAATTTTTGGTCTACTGTTTCATCTTGGATCCACAACATTCTCCTCCAGTTGGTGATACTATACAATGCCAATTTGTATTTAATCATGTTTAAGAAAGTTTGTAACAATTTTTGTTTCATCTTTTCATCCAGAGATGTGATATTTTTCGCGGTCACCATCTCGAATGTAACTTGAGATCTCAGCGATTTTGTTTCCATATCACAGTTCTGTTTAGAGTTGCATTGACTTTGAATTT ATATGTTTTAAGACTTACTACTAAGCCCAACACATAGAAGACGAGCAGCAGCAGCAGTGACCCGCCCGCCTGCCCTCTCGTCTCTCCAACGGAGGAAGTTCTAAGCCATGGAAGACATAGAAGACTTGCTCATCGGCGGCGGCGGCGGAGCTCCCCCTGGTTACCGTCTTCCGTTAACCGCAGTGGGTGTAAAGCCGAAGAAAAAGAACATGTTCAAATCTAATGCAAGTGCTGATGATTCCAGCAACGAGCCCTCTCCGATCCAAAATCCACTTGTACCTAAGATTCCAGGCACACAGACAATTTATGTCAAAACCTTTGGATGCTCTCACAACCAGAGTGACAGCGAATACATGGCTGGTCAGCTTTCAGCATTTGGTTATTTGTTAAGCGACAATCCTGAAGATGCAGACTTGTGGCTTATAAATACTTGCACAGTTAAATCCCCTAGTCAGTCTGCTATGGACACTCTAATAACAAAATGCAAAAATGCAAAAAAGCCTCTTGTGGTAGCTGGGTGTGTACCACAAGGTAGTCGAGATTTAAAGGAGTTAGAAGGGGTCAGTATCGTAGGAGTTCAGCAGATTGATCGCGTGGTAGAAGTTGTGGAAGAGACACTAAAAGGTCATGAAGTAAGGCTGTTAAATCGCAAGACACTGCCAGCACTTGACCTTCCAAAAGTGAGAAAGAACAAGTTCATTGAAATACTTCCAATCAATGTTGGCTGTTTAGGTGCTTGCACATATTGCAAGACAAAACATGCTCGTGGTCACTTGGGAAGTTACACTGTTGATAGCCTTGTAAGGCGTGTAAGATCTGTCATCAATGAAGGAGTCAGGGAAATATGGTTGAGCAGTGAAGACACGGGGGCCTATGGCCGTGACATCGGGGTCACTCTTCCAATTTTATTAAATGCAATTGTTTCTGAGCTTCCATCTGATGCAAGCACAATGCTTCGGATTGGGATGACAAATCCTCCTTTCATTCTTGAGCACTTGAAAGAGATAGCAAAGGTCTTGTCTCATCCATGTGTATACTCCTTTTTGCATGTGCCAGTTCAATCCGGAAGCGATGCAATCTTAAGTGCAATGAATCGAGAATATACAGTCAGTGAGTTCAGGACTGTAGTAGATACCTTAACTGAGCTTGTTCCTGGGATGCAGATTGCTACTGATATAATATGTGGATTTCCCGGGGAAACAGATGAAGATTTTTGTGAAACTATCAACCTTATTAAAGAGTACAATTTACCTCAAGTTCACATCTCACAGTTCTATCCTCGACCCGGGACACCTGCTGCCAGGATGAAGAAAGTTCCAAGTGCTATTGTCAAGAAACGAAGCCGTGAATTGACTTCAGTTTTTGAAGCTTTTACACCATATAATGGAATGGAGGGCAGAGTGGAAAGAATTTGGATAACAGAAATTGCTGCAGATGGCATTCACTTGGTTGGCCATACCAAGGGGTACATCCAAGTGCTTGTAATTGCCTCGGAAACTATGCTGGGAACTTCTGCTACGGTGAAGATAACATCCATTGGAAGGTGGTCTGTTTTTGGGGAAGTGATTAAAATCATCAGTACCAAACATCATAAAACAACTACTCTGGAAGACACGCTGACTCAAGACAAAGTTTCTCCCTGCTCTAACACTCACGAAACTTGTGCATGTTCCACGGAGCCTGAATCTTGTGCATGTGGACTGGAGAGCTGCAAAGGAGCAGTCGCTGTGGGTGATAAAGTTAATTCCTCAAGGAATATCCCTTCGCCTGAAGAGCCAAAAAGGAAGAATCTGATTGAATGGGTATTGAGGAGACGGAAGAGCCATGTGCTGCCCAAAAGGGAGGAGACAGAAAATCCCATAGTAACTGAAAGAAAGCAAACATTGGCTGGAGGAAGACTGGATGAGTGGGGCGTGGTTGATAAGATTCTTGTTGGTGGAATACTAATCAGTACCTTCACAATTTTTGGTCTACTGTTTCATCTTGGATCCACAACATTCTCCTCCAGTTGGTGATACTATACAATGCCAATTTGTATTTAATCATGTTTAAGAAAGTTTGTAACAATTTTTGTTTCATCTTTTCATCCAGAGATGTGATATTTTTCGCGGTCACCATCTCGAATGTAACTTGAGATCTCAGCGATTTTGTTTCCATATCACAGTTCTGTTTAGAGTTGCATTGACTTTGAATTT ATGGAAGACATAGAAGACTTGCTCATCGGCGGCGGCGGCGGAGCTCCCCCTGGTTACCGTCTTCCGTTAACCGCAGTGGGTGTAAAGCCGAAGAAAAAGAACATGTTCAAATCTAATGCAAGTGCTGATGATTCCAGCAACGAGCCCTCTCCGATCCAAAATCCACTTGTACCTAAGATTCCAGGCACACAGACAATTTATGTCAAAACCTTTGGATGCTCTCACAACCAGAGTGACAGCGAATACATGGCTGGTCAGCTTTCAGCATTTGGTTATTTGTTAAGCGACAATCCTGAAGATGCAGACTTGTGGCTTATAAATACTTGCACAGTTAAATCCCCTAGTCAGTCTGCTATGGACACTCTAATAACAAAATGCAAAAATGCAAAAAAGCCTCTTGTGGTAGCTGGGTGTGTACCACAAGGTAGTCGAGATTTAAAGGAGTTAGAAGGGGTCAGTATCGTAGGAGTTCAGCAGATTGATCGCGTGGTAGAAGTTGTGGAAGAGACACTAAAAGGTCATGAAGTAAGGCTGTTAAATCGCAAGACACTGCCAGCACTTGACCTTCCAAAAGTGAGAAAGAACAAGTTCATTGAAATACTTCCAATCAATGTTGGCTGTTTAGGTGCTTGCACATATTGCAAGACAAAACATGCTCGTGGTCACTTGGGAAGTTACACTGTTGATAGCCTTGTAAGGCGTGTAAGATCTGTCATCAATGAAGGAGTCAGGGAAATATGGTTGAGCAGTGAAGACACGGGGGCCTATGGCCGTGACATCGGGGTCACTCTTCCAATTTTATTAAATGCAATTGTTTCTGAGCTTCCATCTGATGCAAGCACAATGCTTCGGATTGGGATGACAAATCCTCCTTTCATTCTTGAGCACTTGAAAGAGATAGCAAAGGTCTTGTCTCATCCATGTGTATACTCCTTTTTGCATGTGCCAGTTCAATCCGGAAGCGATGCAATCTTAAGTGCAATGAATCGAGAATATACAGTCAGTGAGTTCAGGACTGTAGTAGATACCTTAACTGAGCTTGTTCCTGGGATGCAGATTGCTACTGATATAATATGTGGATTTCCCGGGGAAACAGATGAAGATTTTTGTGAAACTATCAACCTTATTAAAGAGTACAATTTACCTCAAGTTCACATCTCACAGTTCTATCCTCGACCCGGGACACCTGCTGCCAGGATGAAGAAAGTTCCAAGTGCTATTGTCAAGAAACGAAGCCGTGAATTGACTTCAGTTTTTGAAGCTTTTACACCATATAATGGAATGGAGGGCAGAGTGGAAAGAATTTGGATAACAGAAATTGCTGCAGATGGCATTCACTTGGTTGGCCATACCAAGGGGTACATCCAAGTGCTTGTAATTGCCTCGGAAACTATGCTGGGAACTTCTGCTACGGTGAAGATAACATCCATTGGAAGGTGGTCTGTTTTTGGGGAAGTGATTAAAATCATCAGTACCAAACATCATAAAACAACTACTCTGGAAGACACGCTGACTCAAGACAAAGTTTCTCCCTGCTCTAACACTCACGAAACTTGTGCATGTTCCACGGAGCCTGAATCTTGTGCATGTGGACTGGAGAGCTGCAAAGGAGCAGTCGCTGTGGGTGATAAAGTTAATTCCTCAAGGAATATCCCTTCGCCTGAAGAGCCAAAAAGGAAGAATCTGATTGAATGGGTATTGAGGAGACGGAAGAGCCATGTGCTGCCCAAAAGGGAGGAGACAGAAAATCCCATAGTAACTGAAAGAAAGCAAACATTGGCTGGAGGAAGACTGGATGAGTGGGGCGTGGTTGATAAGATTCTTGTTGGTGGAATACTAATCAGTACCTTCACAATTTTTGGTCTACTGTTTCATCTTGGATCCACAACATTCTCCTCCAGTTGGTGA MEDIEDLLIGGGGGAPPGYRLPLTAVGVKPKKKNMFKSNASADDSSNEPSPIQNPLVPKIPGTQTIYVKTFGCSHNQSDSEYMAGQLSAFGYLLSDNPEDADLWLINTCTVKSPSQSAMDTLITKCKNAKKPLVVAGCVPQGSRDLKELEGVSIVGVQQIDRVVEVVEETLKGHEVRLLNRKTLPALDLPKVRKNKFIEILPINVGCLGACTYCKTKHARGHLGSYTVDSLVRRVRSVINEGVREIWLSSEDTGAYGRDIGVTLPILLNAIVSELPSDASTMLRIGMTNPPFILEHLKEIAKVLSHPCVYSFLHVPVQSGSDAILSAMNREYTVSEFRTVVDTLTELVPGMQIATDIICGFPGETDEDFCETINLIKEYNLPQVHISQFYPRPGTPAARMKKVPSAIVKKRSRELTSVFEAFTPYNGMEGRVERIWITEIAADGIHLVGHTKGYIQVLVIASETMLGTSATVKITSIGRWSVFGEVIKIISTKHHKTTTLEDTLTQDKVSPCSNTHETCACSTEPESCACGLESCKGAVAVGDKVNSSRNIPSPEEPKRKNLIEWVLRRRKSHVLPKREETENPIVTERKQTLAGGRLDEWGVVDKILVGGILISTFTIFGLLFHLGSTTFSSSW*
BLAST of Cucsa.061610 vs. Swiss-Prot
Match: CDKAL_DROPS (Threonylcarbamoyladenosine tRNA methylthiotransferase OS=Drosophila pseudoobscura pseudoobscura GN=GA19679 PE=3 SV=1) HSP 1 Score: 504.2 bits (1297), Expect = 2.1e-141 Identity = 263/494 (53.24%), Postives = 338/494 (68.42%), Query Frame = 1
BLAST of Cucsa.061610 vs. Swiss-Prot
Match: CDKAL_XENTR (Threonylcarbamoyladenosine tRNA methylthiotransferase OS=Xenopus tropicalis GN=cdkal1 PE=2 SV=1) HSP 1 Score: 499.2 bits (1284), Expect = 6.6e-140 Identity = 253/498 (50.80%), Postives = 337/498 (67.67%), Query Frame = 1
BLAST of Cucsa.061610 vs. Swiss-Prot
Match: CDKAL_DROME (Threonylcarbamoyladenosine tRNA methylthiotransferase OS=Drosophila melanogaster GN=CG6550 PE=2 SV=1) HSP 1 Score: 496.9 bits (1278), Expect = 3.3e-139 Identity = 258/495 (52.12%), Postives = 336/495 (67.88%), Query Frame = 1
BLAST of Cucsa.061610 vs. Swiss-Prot
Match: CDKAL_XENLA (Threonylcarbamoyladenosine tRNA methylthiotransferase OS=Xenopus laevis GN=cdkal1 PE=2 SV=1) HSP 1 Score: 496.1 bits (1276), Expect = 5.6e-139 Identity = 251/495 (50.71%), Postives = 337/495 (68.08%), Query Frame = 1
BLAST of Cucsa.061610 vs. Swiss-Prot
Match: CDKAL_HUMAN (Threonylcarbamoyladenosine tRNA methylthiotransferase OS=Homo sapiens GN=CDKAL1 PE=1 SV=1) HSP 1 Score: 493.8 bits (1270), Expect = 2.8e-138 Identity = 252/494 (51.01%), Postives = 336/494 (68.02%), Query Frame = 1
BLAST of Cucsa.061610 vs. TrEMBL
Match: A0A0A0KSZ4_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G652200 PE=4 SV=1) HSP 1 Score: 1267.7 bits (3279), Expect = 0.0e+00 Identity = 629/635 (99.06%), Postives = 633/635 (99.69%), Query Frame = 1
BLAST of Cucsa.061610 vs. TrEMBL
Match: A0A067KJB8_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_10950 PE=4 SV=1) HSP 1 Score: 936.4 bits (2419), Expect = 1.8e-269 Identity = 479/635 (75.43%), Postives = 531/635 (83.62%), Query Frame = 1
BLAST of Cucsa.061610 vs. TrEMBL
Match: B9S747_RICCO (Radical sam protein, putative OS=Ricinus communis GN=RCOM_1333590 PE=4 SV=1) HSP 1 Score: 932.6 bits (2409), Expect = 2.6e-268 Identity = 482/644 (74.84%), Postives = 531/644 (82.45%), Query Frame = 1
BLAST of Cucsa.061610 vs. TrEMBL
Match: A0A0D2TTM7_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_009G288500 PE=4 SV=1) HSP 1 Score: 930.2 bits (2403), Expect = 1.3e-267 Identity = 472/633 (74.57%), Postives = 524/633 (82.78%), Query Frame = 1
BLAST of Cucsa.061610 vs. TrEMBL
Match: W9RWT6_9ROSA (CDK5 regulatory subunit-associated protein 1-like 1 OS=Morus notabilis GN=L484_025461 PE=4 SV=1) HSP 1 Score: 929.9 bits (2402), Expect = 1.7e-267 Identity = 474/634 (74.76%), Postives = 528/634 (83.28%), Query Frame = 1
BLAST of Cucsa.061610 vs. TAIR10
Match: AT1G72090.1 (AT1G72090.1 Methylthiotransferase) HSP 1 Score: 856.7 bits (2212), Expect = 9.2e-249 Identity = 438/626 (69.97%), Postives = 494/626 (78.91%), Query Frame = 1
BLAST of Cucsa.061610 vs. TAIR10
Match: AT4G36390.1 (AT4G36390.1 Methylthiotransferase) HSP 1 Score: 105.1 bits (261), Expect = 1.6e-22 Identity = 110/480 (22.92%), Postives = 196/480 (40.83%), Query Frame = 1
BLAST of Cucsa.061610 vs. NCBI nr
Match: gi|449447617|ref|XP_004141564.1| (PREDICTED: threonylcarbamoyladenosine tRNA methylthiotransferase isoform X1 [Cucumis sativus]) HSP 1 Score: 1267.7 bits (3279), Expect = 0.0e+00 Identity = 629/635 (99.06%), Postives = 633/635 (99.69%), Query Frame = 1
BLAST of Cucsa.061610 vs. NCBI nr
Match: gi|659119467|ref|XP_008459673.1| (PREDICTED: threonylcarbamoyladenosine tRNA methylthiotransferase isoform X1 [Cucumis melo]) HSP 1 Score: 1216.1 bits (3145), Expect = 0.0e+00 Identity = 607/635 (95.59%), Postives = 619/635 (97.48%), Query Frame = 1
BLAST of Cucsa.061610 vs. NCBI nr
Match: gi|778708092|ref|XP_011656120.1| (PREDICTED: threonylcarbamoyladenosine tRNA methylthiotransferase isoform X2 [Cucumis sativus]) HSP 1 Score: 1100.5 bits (2845), Expect = 0.0e+00 Identity = 548/553 (99.10%), Postives = 551/553 (99.64%), Query Frame = 1
BLAST of Cucsa.061610 vs. NCBI nr
Match: gi|659119469|ref|XP_008459674.1| (PREDICTED: threonylcarbamoyladenosine tRNA methylthiotransferase isoform X2 [Cucumis melo]) HSP 1 Score: 1073.2 bits (2774), Expect = 2.0e-310 Identity = 537/564 (95.21%), Postives = 547/564 (96.99%), Query Frame = 1
BLAST of Cucsa.061610 vs. NCBI nr
Match: gi|659119471|ref|XP_008459676.1| (PREDICTED: threonylcarbamoyladenosine tRNA methylthiotransferase isoform X3 [Cucumis melo]) HSP 1 Score: 1062.0 bits (2745), Expect = 4.1e-307 Identity = 531/553 (96.02%), Postives = 540/553 (97.65%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of cucumber (Gy14)
Date Performed: 2017-01-17
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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