CSPI02G02270 (gene) Cucumber (PI 183967) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CTTCAAAATTTAGTTGAAATTGATTGTATGAATTTTCTCATTCCTTTCTCTTTTGAGTATACACCACTGAATATCTTCACCGTTATCCTCAACCTTCAACTCACTTCCATTTGCAGTTTCTTCATGGTTTGATCAAAGCTCAACCCAACCAACAATGGCCATCACTTCACTTTCTTCCCTACAATCCACCAATGTCTCTTCCACACCTTCCATCTCCCCTCTTTCCATGTCTTCTCCTTCTTCTTCTTCTACCTCTCTTTCTCTCCAACTATCCTCATTTCGTCCTACTCGCCTTCGCTCCTCCTCTGTCTTTACCCACCCCCATTTGACTCGAACCCCTAAATTGAAGGTTTGATTTCTGAAATTTTGTTCTTCTTTGTGTTTTTCGTTTTTTTATTTGAGATTATGTGTTTCTTTAGGGCCTGAAGGTGAATTGTGCAGCTGCGGAGCCGTTGAAGGTGATGATATCGGGTGCGCCAGCCTCCGGTAAAGGAACTCAGTGTGAGTTGATAGTTCAGAAGGTAATTGAAATTTACATGAATAGAAGGAAATCCCATTAGTGTCTGGAACATCCTCAAAAATGCTTGTTGGAGTATATGTGATTTATCCTGCAATGTGAATTGCGAACACTTAATGCTTGGGTTTTTACTTAATTTGGGACGAAGTTCGAGTTGCAATGAGAGTTGTTTAATCTGAAGTAAATGGTGGTTCTATTCTAACTTGTATGTGCCTTTTGTCTTCTACTCAACGTAATAGATTGATATTTATGTCCGTAGTTAAAGTTTGTTTGTTAGCCATATAAAATATTCAAATAAAATAGTTTCAATATCACGTAAATAAATTAATGAGTAAGTTTTAAACTATGACATGATTGGTTTTATAATAATGCCTTTGCTCACTACGATACAACCGTGGTGGAATTGGTCTAGTGGTCAACCGTAAATAATAGGCGGTTTACCATTGCCTAATAGTAAATGAGAGCATGAGTTTACCCTTTAATAAAGGGCTAAAAGTTAATGAGTTCAATATAACGGTGGTCACTTCTTTAGAACTTAATATTTTTTTGGCCACCTAGTGGCCACCTAGACTTTGTAGAATTAAACGAGTTGATATATAATATCAGTCAAAATGTCAGTAAGTTGATCACCATACTCACCCATAATATTAATAATAATTACAACTAAGTGCTTTGGGTGGAGAAGTTTAAGTTGTCGTGGCCATATGCTTAGAATTTCATATCCTATAAATTACCCTGGTAACCAAATTCAGCAGGCAAGCACGTACACTTTTTGGACCAAGTTGTCAGGTTTTATCAATGTGTCCGGGTTCCGGTCTGAATTCATGTTTGATTGAAGAATGTTAGTTGTCTTGCTGAAGTTCTGCTCTATAGGTAGAAAATTATATTGCCGATAATGTTAATGTTAGCACAGGCATGATATTTCAGTATTGTCATATTTTGGTGGAGAGTAAAAGGGTGCAATTGTTATTACGCAATAATGTTGGCGTAATTCAAAATGGGAATTGAGAATTGAGATTACCAGCAATTCAGCATTTACTTATACCGGTACAAAAGAAAGGAGAGAAAAAAGGAAACCACACGTTTAGAAAACTGGTTTTAGATCATTCTTAATTTATCTTGAAGAAAATGTCAAGAAGCTATTCTATCATAGTTCATAAGTTTTCAAAGTATCATGTCTACTTCATTGACTGATTTCGACTCATTCTTCAGTTTGGCCTCGTGCACATATCAACTGGTGATATATTAAGAGCAGAAATTTCAGCTGGGTCAGAAATTGGAAACAAAGCGAAAGAGTTCATGAATTCTGGACGGCTTGTTCCTGATGAAATTGTGACTACTGTAAGACGTGGATCAATGCTCTTTCGAGCTCAAAATTGATTTTCTTATCTGTGTGGTGTTCGTGATGTGAGCTTTTTTTGTTTTGTAGATGGTGACAACACGGTTATCAGGCAAGGATGCAACAGAAAAGGGATGGCTTTTAGATGGATATCCGCGGACCCTTTTGCAAGCGGAAAGTTTGCAGAAGTTGCAAATCAGACCAGATATTTATCTTATTTTGGACGTATGTACTTCATGCACTAATTTTCATTTGTTGGGGCATACATTTGATCATCATCGTCATCATTTAAAATAATAATTAAACTAAATATCTTAGACTTCTAAATATTTTGATATCCTGGAGTACTACACTACGTTCAGGTTCACGATAGGATATTACTATTGGACTTGGTATTCCAATCATGGTTCTATCTTAAAGTTAGGGAAGAATTAGACCATTTATACAGCAATAGCCGCCCATTTATACTACAACTTGTGGATCAATCTCTTGAACTTTTTGGTCATCTCTTTAATCTGTTATTCCAATTGTGATACTGCCTAGAAAGAGCATTTGAGATAATTCCTTAGAAAAAGATGCATGACTTTTAATTTCATCAACAATGTACTTTATCCATATGTTTGAAATAAGTTCCGGTTCAATGCGTTAACACTCATGGGCCTTAAGTATAATAGAATCTAGAAATGTTCCTTTTCTCTTTTTCTCAGATCTCTATGTAGATCTATTTTTTCCCTTTTGGAGGGATGCTTCCGATTAAACAGCTCTGTTCCAATAAAATTGTGAATTGTCCACAAGTGTATTTGGGGTAGATGTTTTATATATTAATTGCACAATAAGTTGGCTCACATTTTGAGCAAATGAAAATTTCTTATACCAGTGATGATGAACTTTTTATTTTAGTGTTTAGAGGTTTGATTGTACATTTCTAATACTCAGGTTCCTGACGAAATTCTAATCGACAGATGCATTGGTCGAAGGCTTGACCCAGAGACAGGGAAGATTTACCATCTGAAATATTTCCCCCCAGAAACGGAGGAAATTAAAGGGAGACTTGTCGTTCGACCTGATGACACTGAGGAAAAGGTTAGTTACTTTTAAGAAATTGTTTAAATATTTACAGAACACGATCCTGTGTGCTTACTTTTTGTATGACTGCTTATTATGTTCTTATAGGCATTCTAACATTTATTTAATGTAATTTCTGTTTAGGTAAAGCAGCGTTTGGAAATTTATAAGCGTAATGCAGAAGCGATAGCACCAGTGTACTTAAATATTGCAAAGAAGGTAGTTAATTACGAGTGTGCTTGTCAGAATTATGCATATACGTGTCTTCTGTTGTGTTTATTTCTTACCTTCATTTCTTCCTTGCATATAAATTCTAACGATATTTCTTAACAATCCTATAAATATAGATTGATGGAAGCCGTCCTAAAGAAGAAATTTTTGAAGAATTATCATCATTGTTATCACAGATACAAAAAGAAAAGGCTATGAAGTCAGGTATTGCTTCGTTTTCTGTGGAATTCGCCACAATTTTTACCAGAGAATAAAGGAACCGTTCACAGGGTGGCTTGTAATTACAATTACAATTTAATGATAGTCCCTGCTGATTCTTCAAAATGGTTAATCTGATATTTCTCAGACATTTTTTTCCTTGTATATGAGAAGCTATTTACTATCGCATGCCTAAGCCATTTATCTGTACATTTATCAAATCACACCCTACATTTTCTTTGTATTAGGTAAATCAACCCTCGGAATCAAGAGTACTTCAACTCAGGTTTGCTCTGTATGATTAAGAAGAGGAATTTTGAAATATTCATTATTTTCTGCAAATCATGTGTTTGTAGTTGACATTAAAATAAGATTCGTCAGAAAAAAAATAATTAGAAGATTCCCTTAAATATATAAGATTTATAATAACTAGAAAAATCCCTCTAAATATGTGTTTACGTATTTATCTATTCTCTTTTTACAGGATAGCTGGAGAGGGATACCAACTAGATTGAATAACATTCCTCACTCGAGAGAAATCAGGAAATACTTCTACGATGATGTGCTTCAAGCTACCAAGCGTGCTGTACAAGCCGGCAGAACTAGATTAAAGGTTCCGTGTTATACTTACTTTTATTCAGACAAGTTTATCTTCCTATGTTATAGAATTCATCCATGGTTTGTTTTTTTTAAAATGAAGTATCAATAACCTAACAGTTATATTTTTAGTCAAATTTGAGATTAAACATTCCCATAAGCTCTGGATGAGTCATAATTTCTAGAGCTGCACAATTTGACTGTTATATCCATAACAAGTTCATTGTCTCGTTCAATTATTAGTTGGATCCTGTTATTATTTCCATGTCTTGTAGTCTTACTGGAATATATCTTTTCTGCGTTTCTGGTGGGTGGAGTTCAAGAGCTTGGATCATTAAGACTCGCACTCTTGACTGCAAGTTTAGCAATATGAAAGAAGTGGATGTATTTCATAAAAGTATGACACTACGAAGTGAAGCCTTGAATGGTATACTTCTGCAAGTGCAAAGTATAGGAAATTCAAAGATGATGTTAGGGCATTCATAAGTTGCAGATTTACCACATAGATTTTCACATTGTCATCAAAATGTGTATCTTCAGAGGCTGATAATTTTTTGCTTGTTTTGAATCCCAATCAACAGGTGGAGAATAATATTCCTGAGCTTAATCCTGAAATGGTAGGAAGCTTATTCCTCCTGATTCCCCTAAAAATAATCCTGAGTTAACCGCGTCTGCCATCCACAGGATGTTTATCGAATAGGTACACTTATGGAACTTGTTCGGACCATTGCTCTTTCATTTGCTGATGATGGAAGACGTGTAAAGGTAATTTTTCTGATTTCTCTCGAGACCAGAATGCTGGTACCCACCATCTGACATTTTATCTCCAAGGTATGCATACAAGGGTCCATGGGGGAAGGTGCACTTTCTGGAATGCCACTGCAGCTTGCTGGGACTCGGAGAATCTTAGAATACATGGACTGGGGAGAGTATGGGGCTCTGGGGACCTTTGTCAAGATTGGTTCAATTGGTACTGATCTCAACATATGAAACATTAGTTTATGCACTTTGTTTGCACCTGCATGTTAATCTCGCTGGACTGGAGTGTGTACTTTCGGGAAAGTCATCAGGGGAAAGGTACGTCAAGAGGCGAGGATGATGACAGGAGGTTGAGCGACTTTGAGTCTTTGACCCATGATTCATTTTTATTCTAGACTCCATGATTCTCCCGCCTGTTCTCCTTCCTAATCAGTTTCTTTTAGCTGTATATTTCGTTCGAGTTGTAAAGAATTAGGAACAATTCAAGTTTCTTTCTGTTGTTAGCATTAATGTTTTAGCTCGGATTTCATTTATTTCAAAAGGAAGTACGATGAAATTTTCTAAGTTCAACAGGGATGAGGTCATCCTTCTCAGTAGAACAAAGGCATTCCGTGTACGTAGTTTCTTAGACTCCCTTTCTTCCTCTTTGGAATTCTTTGGACCAGCCTCCTTTATGTTTATATGTTTCCAATAGTCGGTGGAAAGAGGTCTATCTTTTATGAAATTTTAAAATTTGAGAACCCTCGTAAGGGTAGTTTTTAATTCTTGTAGGCAAGAATCAACATGAATATGTAGTGTTTGTGGCTAAGTTGGAGGAGTTGTAATGGAAAATCGTCGACATATTATTTAGGAAGGTAAGGCTCTGCCAAATTTGATAGTAAGGGCCTTTTGCAATATGCTGTGCAACAGAGTCTGGAAGGGAAGTATATCTTAAGTCACCTTCTCTGAAAAGACAACTCGTTTTGGACTCTTTAGAAAGCCACTCATAATGCCATTCGTGAAAATCAAGACCTAAGGGGTTAGAACTAAGCATGTCATAATTAAACTTGAACAATGCAGCTAAGAGCCCAACAAGACGTATGCACTTTAAGTCAAAAAAACCAAGTCTTTCACGGCCACGTGGATTTCCTATGATTCAAAAAGTCCTTCAAGTCAAAGACTACATAATACATAATACATGGATATTCTCACACTATAGTACATTAATTGGATTTCTTTTTATTTGCAGAAGATTTTATACTTTCAAATGATTCATGTTCATTTTGTAATTACAGGTGCAAAAGAAGTTGACGATGAAGATGACATGTTCATCTTAGTAGCTCCTCAGAATGCTGTTGGAAATTGTATCATAGATGTAAGCAACAACGTGGACATTATCAACTCTTAATATGAAAATGGGAGCTCTTTGATTTAGGATGAAGCTTTATAAATTATGAAGCTCATATTGTCAAGTAAATGCAGGATATGAAAGCGATGACAGATGCAGCAGGTGACCGACCTGTAATTCTTGTAAATCCCAGGCTCAAGGTTCGTTTCTAACTGACCCTAAATTATAATCCATCGATATTTGTTCATTTCTATTGGGATCTCTATCGTACATTTGGGAATGAAGTAGAAATTCGAATCTATCAATACTTCGTTTACTTGGATCATCTTGCCAAACGTGTTGGATAATCGAGCTTCATTATTATTAATGATCCGTTGATTTGTGAACCATCAACAAAAGAAATATTGGCAAGAAATAACTGGAGATCTAAGTTAATTGCAGCAGGCCATTGGAACATCACCCGACATTAAAAATTATTGAGAATTTTTTTAAAAAGAGGCATCGCGCATCTGTTTTAAGCAGAAATTCATTATATGAGTTGGTTCATTGACCCTGCTACTCTATATTTTTTGTATCGTGTAATTTGATGAACTTATTTCAATTCTTCAGGACTTACCTGGTTCGAGTGGAATAATGCAAGTGAGTATTAAAAACATCATTTGGAATGAAGTTTTGAGCAGAGTACATGTCTGATGCTTCACATTCTTGTTAGACAATGGGGCGTGAGAAAAGGCTGGAGTATGCAGCATCGTTTGAAATCTGCTACTTCTTCCGGCTTCTCTATTATGCAGGGACACAGTATCCAATCATGGGGGCTCTGAGGTAAACAAAGGGTTGAAAATTGAAATGTTTTTGAGTGTATTTCCCTCTTTTTATATGAAAAAAACCCGCAACAATTTCAAGCTCACAGATTTATATGAATTTGTTTATGATTTTGAACTTCATTTTAGGAGGTGGCTTTAAGGCTGCCTCCCATTGGAATCTAGAATGAAATTTAGAAGCAGTATTCAAATTGATTTCATCCTCGTGTTTGTCTTAGGATGTCTTATCCATATGGGTACGAACTCTACAGAAGGGTGGATGAACCTTCAGGAAAGGAAAAATATATTGAACTATCCAAGTATCCCAAAAGGCCATCCACAGATGATATCAATGATGCTTTTCAAGGAAACAAAAGGTAAAAGAAGAAGAAAAAAATGAGAACCTTCATCTTCTTCACCCTTCTATTTACAAACTCTGTTGTCTGATCTTGATCCAATTTATGCTATATGTCGCTTGCAGAAAAGAAGCGAAGAGCTCGTCAGGAATCTGGTAAGGAAAAAAAAAAACTGCAAGTCCAAATTTTCTAGTAGTCTTTGTTGAGAAAGTCAAGTTACATTCAAATGTTTTACAAATTCAGGGGCTTCCTGAGTGGGATTCTTTGAGCTCATGATGAACGGTTAAGCAATTGGAGATGGGAGATAAAATGAAAGCAAGATAAATTTGAAGGTACAATCATGTACATAAAAGAAAGCAAATTCTGTATTTATACATTGAAATCTGTCGGAAGAAACAAAGCACAAGGTACAAACAACTTCAAATTCTGGACACGTAGCATATTCGAACTTTTACACCTATATCATAATATCTAAGAACACCTAAATTGTAAGGGAAAAGAGAAACCCACACACAAATTCAAACAACACCCACCCACTACAGTGAAACAATGAAATGGTTATATTGCTATATAGAAGAAACCCACCTATAAACCCTAGTCGTTATGAGTAATAGAAACCTAGAAGAACGAACTGTCAGCTTCACTTCAGTCAGTTCATCTGCTCGAAAACTCAAACATCTCCCTGTTGAAAAAATAAAGGAAGATGCCGAGGTAAACCAAGCAATCACCTTCGAAAGTAAGAGCACACCAATCTCAAACCATTGCCCAATCATTCCATTCATCCCAAATCATTTAAGGAATTGCTCACTTCTTTGACTCGAAGTGATCATTCTAAATCAAGTCGTAGCAACCGCCTAAGATCGGTTGTTGCAATCCCGTTCTTAACTGCAAAAGACGGCAAGGGCACCGAACTCGGAGGCGGCGAAGCGAAGAACGCACCCGATCCAGCATACATACCATCCTTGAAGTCCGTTAACACAACCTGCTTCTGCATCAAATCAGCGTCTGGACCCAACCGATCAGTAGATCCCAAAACCAAATCCACCTCCTCACCTTTCGATTCTAATCTCCTCTTACCACAAGAATCATCACCACCAGCACCAACTCCTCGATCAGGAGTCAATATTTCTCCACGCTTCAGGATCTTAACCTGTCCCATAACCAAACTCCTCGTTGCCATCTTCGCCGTAGTAGATGACTCCCTCACCCGGCTCCGCTCTCTGTTAGCTTGACGGTTAGCCTTCAATCCCACCGATGCACTCCTCCTCCGTCTGCCTGAACAACTCCTAGCATCATGATTCAAGTTAGGGTTTGAAGAAGTACTAGTACTATTAGGGTTAGAATTTCGCCGAGAACTCAACGGTGCTGATAGCACCAATCCTTGGTGGCGTAAGCCTTTCCCAAGGCAGTCCTGTGGCGGAAGAATCACGGTTGCCATAGATTCAAATTCACAAAAGAACAAGAACAAGGAAGAAAAAAAAGGGGGGGGAGGGGGAGAGAGAAAGAAAAAGTGTCGCCTTCTTCGTCTAAGAGAGTTTTTTAGGGAT CTTCAAAATTTAGTTGAAATTGATTGTATGAATTTTCTCATTCCTTTCTCTTTTGAGTATACACCACTGAATATCTTCACCGTTATCCTCAACCTTCAACTCACTTCCATTTGCAGTTTCTTCATGGTTTGATCAAAGCTCAACCCAACCAACAATGGCCATCACTTCACTTTCTTCCCTACAATCCACCAATGTCTCTTCCACACCTTCCATCTCCCCTCTTTCCATGTCTTCTCCTTCTTCTTCTTCTACCTCTCTTTCTCTCCAACTATCCTCATTTCGTCCTACTCGCCTTCGCTCCTCCTCTGTCTTTACCCACCCCCATTTGACTCGAACCCCTAAATTGAAGGGCCTGAAGGTGAATTGTGCAGCTGCGGAGCCGTTGAAGGTGATGATATCGGGTGCGCCAGCCTCCGGTAAAGGAACTCAGTGTGAGTTGATAGTTCAGAAGTTTGGCCTCGTGCACATATCAACTGGTGATATATTAAGAGCAGAAATTTCAGCTGGGTCAGAAATTGGAAACAAAGCGAAAGAGTTCATGAATTCTGGACGGCTTGTTCCTGATGAAATTGTGACTACTATGGTGACAACACGGTTATCAGGCAAGGATGCAACAGAAAAGGGATGGCTTTTAGATGGATATCCGCGGACCCTTTTGCAAGCGGAAAGTTTGCAGAAGTTGCAAATCAGACCAGATATTTATCTTATTTTGGACGTTCCTGACGAAATTCTAATCGACAGATGCATTGGTCGAAGGCTTGACCCAGAGACAGGGAAGATTTACCATCTGAAATATTTCCCCCCAGAAACGGAGGAAATTAAAGGGAGACTTGTCGTTCGACCTGATGACACTGAGGAAAAGGTAAAGCAGCGTTTGGAAATTTATAAGCGTAATGCAGAAGCGATAGCACCAGTGTACTTAAATATTGCAAAGAAGATTGATGGAAGCCGTCCTAAAGAAGAAATTTTTGAAGAATTATCATCATTGTTATCACAGATACAAAAAGAAAAGGCTATGAAGTCAGGTAAATCAACCCTCGGAATCAAGAGTACTTCAACTCAGGATAGCTGGAGAGGGATACCAACTAGATTGAATAACATTCCTCACTCGAGAGAAATCAGGAAATACTTCTACGATGATGTGCTTCAAGCTACCAAGCGTGCTGTACAAGCCGGCAGAACTAGATTAAAGGTGGAGAATAATATTCCTGAGCTTAATCCTGAAATGGATGTTTATCGAATAGGTACACTTATGGAACTTGTTCGGACCATTGCTCTTTCATTTGCTGATGATGGAAGACGTGTAAAGGTATGCATACAAGGGTCCATGGGGGAAGGTGCACTTTCTGGAATGCCACTGCAGCTTGCTGGGACTCGGAGAATCTTAGAATACATGGACTGGGGAGAGTATGGGGCTCTGGGGACCTTTGTCAAGATTGGTTCAATTGGTGCAAAAGAAGTTGACGATGAAGATGACATGTTCATCTTAGTAGCTCCTCAGAATGCTGTTGGAAATTGTATCATAGATGATATGAAAGCGATGACAGATGCAGCAGGTGACCGACCTGTAATTCTTGTAAATCCCAGGCTCAAGGACTTACCTGGTTCGAGTGGAATAATGCAAACAATGGGGCGTGAGAAAAGGCTGGAGTATGCAGCATCGTTTGAAATCTGCTACTTCTTCCGGCTTCTCTATTATGCAGGGACACAGTATCCAATCATGGGGGCTCTGAGGATGTCTTATCCATATGGGTACGAACTCTACAGAAGGGTGGATGAACCTTCAGGAAAGGAAAAATATATTGAACTATCCAAGTATCCCAAAAGGCCATCCACAGATGATATCAATGATGCTTTTCAAGGAAACAAAAGAAAAGAAGCGAAGAGCTCGTCAGGAATCTGGGGCTTCCTGAGTGGGATTCTTTGAGCTCATGATGAACGGTTAAGCAATTGGAGATGGGAGATAAAATGAAAGCAAGATAAATTTGAAGGTACAATCATGTACATAAAAGAAAGCAAATTCTGTATTTATACATTGAAATCTGTCGGAAGAAACAAAGCACAAGGTACAAACAACTTCAAATTCTGGACACGTAGCATATTCGAACTTTTACACCTATATCATAATATCTAAGAACACCTAAATTGTAAGGGAAAAGAGAAACCCACACACAAATTCAAACAACACCCACCCACTACAGTGAAACAATGAAATGGTTATATTGCTATATAGAAGAAACCCACCTATAAACCCTAGTCGTTATGAGTAATAGAAACCTAGAAGAACGAACTGTCAGCTTCACTTCAGTCAGTTCATCTGCTCGAAAACTCAAACATCTCCCTGTTGAAAAAATAAAGGAAGATGCCGAGGTAAACCAAGCAATCACCTTCGAAAGTAAGAGCACACCAATCTCAAACCATTGCCCAATCATTCCATTCATCCCAAATCATTTAAGGAATTGCTCACTTCTTTGACTCGAAGTGATCATTCTAAATCAAGTCGTAGCAACCGCCTAAGATCGGTTGTTGCAATCCCGTTCTTAACTGCAAAAGACGGCAAGGGCACCGAACTCGGAGGCGGCGAAGCGAAGAACGCACCCGATCCAGCATACATACCATCCTTGAAGTCCGTTAACACAACCTGCTTCTGCATCAAATCAGCGTCTGGACCCAACCGATCAGTAGATCCCAAAACCAAATCCACCTCCTCACCTTTCGATTCTAATCTCCTCTTACCACAAGAATCATCACCACCAGCACCAACTCCTCGATCAGGAGTCAATATTTCTCCACGCTTCAGGATCTTAACCTGTCCCATAACCAAACTCCTCGTTGCCATCTTCGCCGTAGTAGATGACTCCCTCACCCGGCTCCGCTCTCTGTTAGCTTGACGGTTAGCCTTCAATCCCACCGATGCACTCCTCCTCCGTCTGCCTGAACAACTCCTAGCATCATGATTCAAGTTAGGGTTTGAAGAAGTACTAGTACTATTAGGGTTAGAATTTCGCCGAGAACTCAACGGTGCTGATAGCACCAATCCTTGGTGGCGTAAGCCTTTCCCAAGGCAGTCCTGTGGCGGAAGAATCACGGTTGCCATAGATTCAAATTCACAAAAGAACAAGAACAAGGAAGAAAAAAAAGGGGGGGGAGGGGGAGAGAGAAAGAAAAAGTGTCGCCTTCTTCGTCTAAGAGAGTTTTTTAGGGAT ATGGCCATCACTTCACTTTCTTCCCTACAATCCACCAATGTCTCTTCCACACCTTCCATCTCCCCTCTTTCCATGTCTTCTCCTTCTTCTTCTTCTACCTCTCTTTCTCTCCAACTATCCTCATTTCGTCCTACTCGCCTTCGCTCCTCCTCTGTCTTTACCCACCCCCATTTGACTCGAACCCCTAAATTGAAGGGCCTGAAGGTGAATTGTGCAGCTGCGGAGCCGTTGAAGGTGATGATATCGGGTGCGCCAGCCTCCGGTAAAGGAACTCAGTGTGAGTTGATAGTTCAGAAGTTTGGCCTCGTGCACATATCAACTGGTGATATATTAAGAGCAGAAATTTCAGCTGGGTCAGAAATTGGAAACAAAGCGAAAGAGTTCATGAATTCTGGACGGCTTGTTCCTGATGAAATTGTGACTACTATGGTGACAACACGGTTATCAGGCAAGGATGCAACAGAAAAGGGATGGCTTTTAGATGGATATCCGCGGACCCTTTTGCAAGCGGAAAGTTTGCAGAAGTTGCAAATCAGACCAGATATTTATCTTATTTTGGACGTTCCTGACGAAATTCTAATCGACAGATGCATTGGTCGAAGGCTTGACCCAGAGACAGGGAAGATTTACCATCTGAAATATTTCCCCCCAGAAACGGAGGAAATTAAAGGGAGACTTGTCGTTCGACCTGATGACACTGAGGAAAAGGTAAAGCAGCGTTTGGAAATTTATAAGCGTAATGCAGAAGCGATAGCACCAGTGTACTTAAATATTGCAAAGAAGATTGATGGAAGCCGTCCTAAAGAAGAAATTTTTGAAGAATTATCATCATTGTTATCACAGATACAAAAAGAAAAGGCTATGAAGTCAGGTAAATCAACCCTCGGAATCAAGAGTACTTCAACTCAGGATAGCTGGAGAGGGATACCAACTAGATTGAATAACATTCCTCACTCGAGAGAAATCAGGAAATACTTCTACGATGATGTGCTTCAAGCTACCAAGCGTGCTGTACAAGCCGGCAGAACTAGATTAAAGGTGGAGAATAATATTCCTGAGCTTAATCCTGAAATGGATGTTTATCGAATAGGTACACTTATGGAACTTGTTCGGACCATTGCTCTTTCATTTGCTGATGATGGAAGACGTGTAAAGGTATGCATACAAGGGTCCATGGGGGAAGGTGCACTTTCTGGAATGCCACTGCAGCTTGCTGGGACTCGGAGAATCTTAGAATACATGGACTGGGGAGAGTATGGGGCTCTGGGGACCTTTGTCAAGATTGGTTCAATTGGTGCAAAAGAAGTTGACGATGAAGATGACATGTTCATCTTAGTAGCTCCTCAGAATGCTGTTGGAAATTGTATCATAGATGATATGAAAGCGATGACAGATGCAGCAGGTGACCGACCTGTAATTCTTGTAAATCCCAGGCTCAAGGACTTACCTGGTTCGAGTGGAATAATGCAAACAATGGGGCGTGAGAAAAGGCTGGAGTATGCAGCATCGTTTGAAATCTGCTACTTCTTCCGGCTTCTCTATTATGCAGGGACACAGTATCCAATCATGGGGGCTCTGAGGATGTCTTATCCATATGGGTACGAACTCTACAGAAGGGTGGATGAACCTTCAGGAAAGGAAAAATATATTGAACTATCCAAGTATCCCAAAAGGCCATCCACAGATGATATCAATGATGCTTTTCAAGGAAACAAAAGAAAAGAAGCGAAGAGCTCGTCAGGAATCTGGGGCTTCCTGAGTGGGATTCTTTGA MAITSLSSLQSTNVSSTPSISPLSMSSPSSSSTSLSLQLSSFRPTRLRSSSVFTHPHLTRTPKLKGLKVNCAAAEPLKVMISGAPASGKGTQCELIVQKFGLVHISTGDILRAEISAGSEIGNKAKEFMNSGRLVPDEIVTTMVTTRLSGKDATEKGWLLDGYPRTLLQAESLQKLQIRPDIYLILDVPDEILIDRCIGRRLDPETGKIYHLKYFPPETEEIKGRLVVRPDDTEEKVKQRLEIYKRNAEAIAPVYLNIAKKIDGSRPKEEIFEELSSLLSQIQKEKAMKSGKSTLGIKSTSTQDSWRGIPTRLNNIPHSREIRKYFYDDVLQATKRAVQAGRTRLKVENNIPELNPEMDVYRIGTLMELVRTIALSFADDGRRVKVCIQGSMGEGALSGMPLQLAGTRRILEYMDWGEYGALGTFVKIGSIGAKEVDDEDDMFILVAPQNAVGNCIIDDMKAMTDAAGDRPVILVNPRLKDLPGSSGIMQTMGREKRLEYAASFEICYFFRLLYYAGTQYPIMGALRMSYPYGYELYRRVDEPSGKEKYIELSKYPKRPSTDDINDAFQGNKRKEAKSSSGIWGFLSGIL* Homology
BLAST of CSPI02G02270 vs. ExPASy Swiss-Prot
Match: Q8VYL1 (Adenylate kinase 5, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=At5g35170 PE=1 SV=1) HSP 1 Score: 783.5 bits (2022), Expect = 1.7e-225 Identity = 400/593 (67.45%), Postives = 481/593 (81.11%), Query Frame = 0
BLAST of CSPI02G02270 vs. ExPASy Swiss-Prot
Match: Q0J6P7 (Probable adenylate kinase 5, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=Os08g0288200 PE=2 SV=2) HSP 1 Score: 739.6 bits (1908), Expect = 2.8e-212 Identity = 377/608 (62.01%), Postives = 474/608 (77.96%), Query Frame = 0
BLAST of CSPI02G02270 vs. ExPASy Swiss-Prot
Match: P43188 (Adenylate kinase, chloroplastic OS=Zea mays OX=4577 GN=ADK1 PE=1 SV=1) HSP 1 Score: 266.2 bits (679), Expect = 9.1e-70 Identity = 133/215 (61.86%), Postives = 160/215 (74.42%), Query Frame = 0
BLAST of CSPI02G02270 vs. ExPASy Swiss-Prot
Match: Q9FIJ7 (Adenylate kinase 2, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=At5g47840 PE=1 SV=1) HSP 1 Score: 265.0 bits (676), Expect = 2.0e-69 Identity = 146/277 (52.71%), Postives = 191/277 (68.95%), Query Frame = 0
BLAST of CSPI02G02270 vs. ExPASy Swiss-Prot
Match: Q6ZC69 (Probable adenylate kinase 2, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=Os08g0109300 PE=2 SV=1) HSP 1 Score: 259.6 bits (662), Expect = 8.5e-68 Identity = 151/291 (51.89%), Postives = 197/291 (67.70%), Query Frame = 0
BLAST of CSPI02G02270 vs. ExPASy TrEMBL
Match: A0A0A0LJ30 (ATP:AMP phosphotransferase OS=Cucumis sativus OX=3659 GN=Csa_2G008770 PE=3 SV=1) HSP 1 Score: 1140.2 bits (2948), Expect = 0.0e+00 Identity = 589/595 (98.99%), Postives = 590/595 (99.16%), Query Frame = 0
BLAST of CSPI02G02270 vs. ExPASy TrEMBL
Match: A0A1S3C4S3 (ATP:AMP phosphotransferase OS=Cucumis melo OX=3656 GN=LOC103496638 PE=3 SV=1) HSP 1 Score: 1098.2 bits (2839), Expect = 0.0e+00 Identity = 564/595 (94.79%), Postives = 578/595 (97.14%), Query Frame = 0
BLAST of CSPI02G02270 vs. ExPASy TrEMBL
Match: A0A6J1FCJ5 (ATP:AMP phosphotransferase OS=Cucurbita moschata OX=3662 GN=LOC111444160 PE=3 SV=1) HSP 1 Score: 1025.8 bits (2651), Expect = 7.2e-296 Identity = 527/594 (88.72%), Postives = 555/594 (93.43%), Query Frame = 0
BLAST of CSPI02G02270 vs. ExPASy TrEMBL
Match: A0A6J1CNA6 (ATP:AMP phosphotransferase OS=Momordica charantia OX=3673 GN=LOC111013160 PE=3 SV=1) HSP 1 Score: 1020.8 bits (2638), Expect = 2.3e-294 Identity = 523/594 (88.05%), Postives = 553/594 (93.10%), Query Frame = 0
BLAST of CSPI02G02270 vs. ExPASy TrEMBL
Match: A0A6J1HPB0 (ATP:AMP phosphotransferase OS=Cucurbita maxima OX=3661 GN=LOC111465483 PE=3 SV=1) HSP 1 Score: 1015.8 bits (2625), Expect = 7.5e-293 Identity = 523/599 (87.31%), Postives = 552/599 (92.15%), Query Frame = 0
BLAST of CSPI02G02270 vs. NCBI nr
Match: XP_011648720.1 (adenylate kinase 5, chloroplastic [Cucumis sativus] >KGN60737.1 hypothetical protein Csa_019392 [Cucumis sativus]) HSP 1 Score: 1140.2 bits (2948), Expect = 0.0e+00 Identity = 589/595 (98.99%), Postives = 590/595 (99.16%), Query Frame = 0
BLAST of CSPI02G02270 vs. NCBI nr
Match: XP_008456801.1 (PREDICTED: adenylate kinase 5, chloroplastic [Cucumis melo]) HSP 1 Score: 1098.2 bits (2839), Expect = 0.0e+00 Identity = 564/595 (94.79%), Postives = 578/595 (97.14%), Query Frame = 0
BLAST of CSPI02G02270 vs. NCBI nr
Match: XP_038890385.1 (adenylate kinase 5, chloroplastic isoform X2 [Benincasa hispida]) HSP 1 Score: 1071.2 bits (2769), Expect = 3.2e-309 Identity = 548/593 (92.41%), Postives = 567/593 (95.62%), Query Frame = 0
BLAST of CSPI02G02270 vs. NCBI nr
Match: XP_038890384.1 (adenylate kinase 5, chloroplastic isoform X1 [Benincasa hispida]) HSP 1 Score: 1061.2 bits (2743), Expect = 3.2e-306 Identity = 548/608 (90.13%), Postives = 567/608 (93.26%), Query Frame = 0
BLAST of CSPI02G02270 vs. NCBI nr
Match: XP_022937909.1 (adenylate kinase 5, chloroplastic isoform X1 [Cucurbita moschata]) HSP 1 Score: 1025.8 bits (2651), Expect = 1.5e-295 Identity = 527/594 (88.72%), Postives = 555/594 (93.43%), Query Frame = 0
BLAST of CSPI02G02270 vs. TAIR 10
Match: AT5G35170.1 (adenylate kinase family protein ) HSP 1 Score: 783.5 bits (2022), Expect = 1.2e-226 Identity = 400/593 (67.45%), Postives = 481/593 (81.11%), Query Frame = 0
BLAST of CSPI02G02270 vs. TAIR 10
Match: AT5G35170.2 (adenylate kinase family protein ) HSP 1 Score: 774.6 bits (1999), Expect = 5.6e-224 Identity = 396/587 (67.46%), Postives = 476/587 (81.09%), Query Frame = 0
BLAST of CSPI02G02270 vs. TAIR 10
Match: AT5G47840.1 (adenosine monophosphate kinase ) HSP 1 Score: 265.0 bits (676), Expect = 1.4e-70 Identity = 146/277 (52.71%), Postives = 191/277 (68.95%), Query Frame = 0
BLAST of CSPI02G02270 vs. TAIR 10
Match: AT5G63400.1 (adenylate kinase 1 ) HSP 1 Score: 130.6 bits (327), Expect = 4.2e-30 Identity = 74/223 (33.18%), Postives = 124/223 (55.61%), Query Frame = 0
BLAST of CSPI02G02270 vs. TAIR 10
Match: AT5G50370.1 (Adenylate kinase family protein ) HSP 1 Score: 129.8 bits (325), Expect = 7.2e-30 Identity = 75/224 (33.48%), Postives = 133/224 (59.38%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (PI 183967) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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