Cucsa.178880 (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.CTTTCACTCCAACTCTCCAACCTCATTCACGAGAGGGAAGAACTTTCCATTTCTTCCTTTCTCTCTCAGCAATGCCCACTTCAATTCCTTCTTGAATTTTGATCTCATTCAGTTCTTTCCCTTGTCTTCTCCATGTTCAATAACATCATCTATATACAATACAACAATTCTTTCTTTCATTTCTCTCATTTCTTCTGAATTACCCTGCATTTTTCTGTTTTGTAAACCCCCAAAATGTGGGTTTATCCTCATGTTCTTGATGAGCACTTCAATGCTATTACCCCACCACTTTATCTTTCATGACTGCACCAAGCTATCTTCTTCTCTTTCTAATTTTCCTTCCTGCAATTCATTTCATGAATTTTCTGCTTTCGGTCGTAAGGGAAAAGGGTTTTATCGGCATGTTCTTAATGCTAAGAAAAACGGGTATTCGAGGAAAAGGAGTTGGTGGCAGAGGTTTTTCTTTGACGATGATGGAAATTGGCTGGGTTTGAAGGATGATGGAATGTTGGAGGATGAGTTGGAGAGTATTGCGAGTGATGAAGATTTGTCTGATGATAAAAAATTTGAGGCCTGGAAGAAGAGAGCTGAAGCTATTATAGAGTTGAAGGAAGCACAGGAAGATGTGAGGAATGAACAAGGGCAGAGGTGGACTGATTGGCTTTATGAGGACACAAACCATGCTCGAACTTCGTGGAGTCAAGATTGGGATAATGGTCTTGGGGAATTGAATGAAGAATCGTCTGATGCTACTGATTTAGTTCCTGAGAAGGGATTTGTTGAGTCTGTTAGAGATTTGGTTCTTGGGAAGGAAGAGGATGACATGCTCTATGAAGATCGTGTATTCCAGTATGCCTCTTTAAATTCGGTAAGCTCGTGTATTTAATGTTGTATAACCTTAAATGGACAGGTTCTTACTAGTATTAATATCATTCACGATCAACTTAGTTTACTACTCTATTGAGATTTTATTCTAGTAACTTGTGCAAAATACAGGCCGAGGCTGCCCTGTTCTTATATATACATACATACATACATACACACACAATCATATAGATGTGCTTCACGGAAAAATCAAAGCAAGTTCCTCAATTACATTAAGCAAATAAGAAATCCCAGAGCTGAGCTATCCTTTCTTTGCTCCCACTCAATTTCTTCACACCCTTCCGTACACCCTAAAACCCCTACTAAAACCCTTGCTCACTCCCATAGTTCCTTCACACTGAAAGAGTCTCACCGTTCCCTTTCATTTCTGGGGAAAGTTCATTTATTTTGCCATCTTAGGCAATTACCTCTACCGGTTCGTGAGAAATAATTTATGTAAGCTGATTCTTTATTGTATTTGCATAACTTTTTTTTCCTTGATCTTGACCTTGCTACTGTATAGATTCCTCTGGCACCATCTTAGGTGGCATTTCATTTGCCCAATGTCTTCAATATTTAGGTAGTAAAGACAATTTCTTTATTAGGCTTGTTGATAGCTGAAGAAGTATTTGTGTTTATGGAATAGAGATTGTCAACAATTTCTTAAATTGGGCCATATCAGCAGAAGGGGTCTACTTCTATTTCTTAGTCAGGTTTTACTGGATGTAAAAGAAAAAAAATCAAGGGTTTTAAATGGACTTGCATTATGAGGTTGGAAGATACAGACTTTTATTGTGCTGATTCACATTCCCTCGTGTGGTGTGATCTATGTCTATCACCTACCTAGTTACCTTGCCTCGTGGTTCTCATTTCTCAGGTAAGAATTTACCTAAGGTCCGGAGATGGGGTTAGACAAATGAAACTCAATAAACCCAAAATCTCTGTGAGAAAAGTTTATGTAAGCTCTGTCCCAATTTTTGTTGTAGATAATTTCATGGGAAAAAGCCTCTTGACTAGTGCTTTTCTGGTCTGTATTCCATTTCACTCGGAAATGATGCTTCTATAGCTGGCTTTTAGATGCCTCAATAATAAATTTGGGATCATGGGCTGAGAAGGGGACTGTTTGATTGGGAGATGGGGACAAGATAAAGAGTTTGGTGTGCGTTTTGGCCGAGACAAAATCAGGTGGTCTGGTTGGATTTTAGAACACTATTTGGGTGCTTGTTTTTGACACCATCCTACTCTTGAGAAAGACCACCTGCCGATCTACAAAACCAGCCACTAGATCACCTCCACACATCATACTGGCCTGCAAATCCTTTGCATTTAACGTTTTTAAAATAAAAGGATTGCATTTAACATTTTTAAAATAAAAGGATAAAATAAAGTAAAAATAAAATAAAACAAACCCTCTCATTTTTCTTTCAGTCTCTGTGTATACTTTCTTAGACATAAGAATTCTAGGAAGGCTGGCATACTTGTTAAGAATGCATCAGTTTTCTGCTAGATATAAATAGGATGCATGTTTTGCTCTTTTACAGTGTGTTCAAATCTTCTATTACAATATGTTCAAAACTTTTTGAGAACATTGGTCTCTCACGGAGCAGTGATTATACATTTAAGCTGATTGGATCCCTTTCAAATATACAACTGAACAGGGAACTGCCTTGATCTTTGAAATTATTGGTTTTCACATTGTTTTCAGAATGAAACCACTCCTATTCTGAGCTCTTTTCATTTTCATCTTTGCAGGCAAAATTTCTCACAGTTTTAATAATTATACCTTGGGCATTGGATTTCGTGGTTCATGATTATGTTCTCATGCCCTTTCTTGATAGGTAATAGATGAGTAGTTTTACATTATGACATGTCCTGCCTAAAAATAATAGATGTTATCAAATGATGCATAAAACTTTTACTTCACTTCATTATACGATGAAAAATGATGTATCTAGCACGTGGCCATAGGCAAACAATACACTTGCTGACTGATGAGCTTGACAACCATACCCTATGCTCTTTACTTTTCCAAATATTCTTCTGAATCCTTTCATATGTATATATGCATATAAAAGCGCAGTTTTGAATCAAAATTTGTTTCTTTTTTGGGGGAAAAAAAGAATTGTGCTTCATTTGGAGCTGCTATTATTCATTGCTATAATTGAAATTGAAAGGTATATTTTTTTTTCCAATTTCTCTCTTTTTTACTTATGATATATTTCCATTGTTATGTAGATGGGAAATCTAAAATTTAAATAATTGGACTACAATGAAAGAAAAGAAAAAGACTAGTCATGCTCAAAGCATGAAATTTGGTATTTTAGATTCTTCAATGGTTCTTTGATAATTAATCTCATAAATATCTCTATCTGTAGGTTCTTAAGTTCACGTTGAAATCATTTTTAAAGATTCCCTTTGGTAACAGTTCTGAATCTCTCAAATTATCTCTGTCAACTTCTGTAATGTTCCTACATTAACAGGTATGTCAAGAAAGTGCCACTGGCAGCTGAGATGCTTGATGTGAGAAGAAACCAGAAGCTCGAGATGGTTGAGGAACTGAAAATTGAGAAAGAAAGATTCAAACTTGAGATGGAAATTGGAAAGTCTCCTCCCCTTTCCGATGAAGAGTTATGGTGGGAATTACGGCATAGAGCGTAAGTTTTGCATCATGATTTTTTTCTTTGGAGGAGAAACTAAAGTTTGTTCATGAGAAGGAAATACTGAATATTGATTCTAGAGAGAAGTTAAACATCCTAGTCCTTTTATATTTTCATTATGATTGTGGCACGTCTGAGAGACTAATTCATTGCAAAACATGCGTTAGACTAGACAGCCTAAGATTTGTTTGCTGTTTAATGATTTATGCGGTTCCTTGGTCTTCTCATTGGTCATAACCCTCGCCTTGGAACATCTTAGAGTAAAACAAAATCTTGGAGAAATCTTGAATGAATCTTTGTTTGAATAATATCTAATTACAACCTAGGAACTCCTATTTAAAGCCTACAAATCAGCCTTTTACTCCATAGAAAACATGCTTTTCTAGGATGAAGGCAATTAAAACACTTATGGTAAAAAATAAAAGAGAACTTGCTGAAAAATAGTGGCTTCCTAAAGTAACTACCCAGCTATGAAGCACAAACACTTCATTTTGAATGGAGTGTCCATGTCAGACACGTGTCCAACACCAACACAGGTTAGGCCTCATTGTTGTATTTTAAGGTAGCTGTGGATGTTGGTTATATCCTCTGGAGTTGTGTTTTCGCTTGGGCTATTTTTGGTGTGGTTTCTTTGAGGTTTTGATTTTCTGCCTTATTAGTTCCCAGGCTTCAAGGAGTCATTTAAGGAGTTATTCTTCGATTCACCCTTTCTAGAGAAAGGGTTGATTTTGTCATAGGCTGGGGTGTGTGCTATTCAATAGAATTTTCAAGGGGAGCGAGAGCTCTAGTAATGATTTTGATGTCTTTGTTTGATCTTTGTCTCTCTAGGCCTTAGAGTTCGGACTTTTTTTTTAATTACTCGTTAATTTTACTTGATTGGAGTCCCTTCTTGTAGTGGCTCCCTTTTGTGGGCTTTCTTTTTGTAAGCTCCTATATTCATTCTTTATTTTCTCAACGACAGTCAGGTATTCCATTAAAAAATGATGAATGAGGTTTCCTTTTACCTGCTATTTTAGTTTTGAGACAAGGTATATCTTCGTTGTTTAGAGCTTTTCTTTTGCTGTATTATGGAGCAGTTATTGGGAATGTGTAGGTGGTCAAAATAGAGAGATTTTGTATCTTGCTAGATCTAATGCCTCCCTTTGGATTTCCATTTTGTTTACATTTTTGCGCTTGAAAATAATCAGCATGTCTACGCTCATAGTGTTCCTATGCAAATAAAATAGAAGGGTCTTTCGTATGTGTTGTTTTGTTGTGGCTTTTGGTTGAGTTTACACACATACTAAAAAACACCTCTTCTGCACTCATACACCTTCCGTATATGCACATCATTGTGTATTTTAGTTTATGTAAGTGATTTCTGTATGCAGGCTATTCCATTTGATATGAAAAACTACAATTTTTTTTTCTGGCTGAATTATTGTTGCTTCAACAGGTTAACATTGAGAGATGAGTGGAGGTTAGAGAATCGTAAAGCATTTGCCAACATATGGTCAGACATGGTATTTGGGATCTCATTATTCATTCTTTTGTACTTCAACCAAAGTAAAGTAAGTTGTTACCTGCTCTTTCCCTCTCTGACTTTTATCAGTGATTGAAATTTTGCCATACCGTTTACCCTTTATCATCATAATATTATTTTCCAGTCATCATAAAAAAATAATGAATGCATAAATACCATCCGAAAGTTGAGCATAAATTAAGAAAATGCAGAAAAAAGTGCTGCAGTAACCATTCTATCTTCATTCTTCTTGGAAGCCCCCCCTTGATTCACCCGTTGTAATGAATAAAATTTGATTAACTACTGAGTGGATTTTGCAGCAGATCCACACCATAGAAACTTTTTTACACACTGATTAAAATCTTTGTGCAAGCATGGACTCTCTGTTCATACCTTCTTGACTACAAAAATTTCTTCTAACCCCAAGCACTTCTTTGGACAAACAAAAAAAGGTCTCCTCTACTCCTCAACTATAGTGGCATCTCCCGAGATCATTACTCAATCTAACCAAAAAAAACTTGCTTTCCATTTGACAATAACTAAAATCCATGGAGTTTCTCACTTATTAGTTCTCATAATTAATAATGAAAAGATTAAGGGTATGCTCGGGAATGATCTTGAATGGATATAAATAACTTTGTTATGTTCAAAATCACTCCAAAACATGTTTTTAATAATTCAAAATCATTTTTGATAGTATGAAACCGTGTTTAAAAATGTTAAATCAAACATTAAATTGATTTTGAATGATAATTATAGGCATGTTGAATTTACAAAAATGAATTTAACAATATCAAAATCAATTCCAAACATGCAAAGCTAAAAAGGAAATGTTTGTCATGGGATTTAGTAGTTGCCATGCAAGTCCTTATGTGAGTTTCAAACTCCACTGATGGTGTTGCATAAAGATTTTCCTGATGCTAACTTTTTGGGCAAAAATTGTAAGGATCTAATACTGCTTCAGTTATTGAACGAGTCCTCCATGGTCTGGATCTATTCTTAATAGCCTCTTTCAATAGCACCAGTTTTTTTATTGAACATTGCCAAAATATGTCACAAATACCCGCATCAACTCCATTATAATATTGCTAAATTGATACTCACTAACAGTAGGAGTGGACTGTGAGGCAAAACTACATTTGTGGGAAAAAATATCTTGGAAGTCTAAGTATCATAACATTTATGATGTTTTGAATAGTCTTGAATAGTTTACAAACTATTTTAGCTAAAACATTAGCTATAGTTTTTTATTGATTTCTTATTATTTTTTGCTTATGCTATATTGTTAATTGTGCGATTAAAATGTTCTACAACTTATCAATTCTTTTTCATCCTTGGATTTTGCAGGTAGCTTTGCTGAAATTTACAGGTTATAAAATAATAAGTAATATATCAGATACTGGGAAGGCATTTTTAATTATATTAATTACAGATATTTTTTTAGGGTAACTATTCAGTCTTTACTATTGTTCTACCAATTCTTTTCATACATGATCGTGGTTCTAAACTTACTATTCGTTTTGTGCCAGATATGATAATGGATATTACTTATCTATAGTACTTCTGCATAGAGAGAGAGCCTGATGACATATTTTGTGATCTTAAGATCTAGCCTACTGGCTTGGCCAGCTTTTGACCTCCTTAAATTATGGAGATATAGAATTTACTGAGACAATGCTTGTACAATATGGCAAAGGAATTTGAGGCCCTTAATTAGAAGAGCTAGAATAATTGAGGCATTCTATATTAGGTAGTTCAATGTAGAAAATAACAAGTAGGAATTAGTGATCATGAATGATCATATTCTATAGCATGCAAAGCTCAGAGCTAGCATATCAATATTATGTTATCCATAGGTTGTGTGTATTTATCCCAATATCTTGTACAATTCGCTTATGGATTTAGTTCGAGGCGTGCAGAAATTATATTTTCAATTTTAACGTGTTATTAAAATGTTTTTCTTTTTTGTGGCAGTTATCATTCTGAATCCGGTTGGCAGACTTTGTTAGAGATAATTGTTGAACACTATGGCCTTGAGGTTGATCAGTCTTTGATAACCATCTTTATATGCCTGGTTCCGGTTATGATGGATGCATGCGTGAAACTTTGGGTATGACCAAAAATATTTTTCCATTACCTATATTGTTTTCCATATTCCAACTGCACTTAGGGTTACAGCATATTGCCAACATGAACGTAGCTTGTTCAGTGGATAAATGGTATATATACTTTGTTCTGATGTAGCCTAAAGGGTAAAAGGAAAGAAATCTCCAATAATAAAATCACAATTTCTCTTTGGAGAAAGCAAACTAATCTTAATCCTAATCCTAGTTAATCTAAGAAACTAATCTTAATCCTAATCCTAGTTAATCTAAGAAACTAATCCTAATCCTAACTAATTAAGGAACTAATGCTAATCCCAATAAACTAACAAAAATAATTCTAATCCCAATATTAATTAAGGATTTGACTAAGACAGCCTGATATATTCTAATCCTGTAATTTCGGTTTTCCCATAAGATTGTGAAGGACGTAATGTTGATAAACTGTAGCCAAGTCTATCAAGTTTTTAATATTCGTAACTTCTATTTGATGGATTTACATCCATCCTTCAAGTTAGGAAAATATTGCAATTATAAAACTTTATTATTATTATTAATTTATAAAAAACAAGCCAACGCATTCATTAGGCACTGACCGATGGGCCAAGACAGCCTAACCAACCAAGGGACAAGGTGCCCCTTTTCCAAAAGGGGGGATTACAAAAAACGTCCTCCAATCTAAATTGACATTAATGTGAGTATATTAATTACAAAAAAGGCCTTGTGTTGGCTGAGGCTATAAACTGTACAAATTCACAAATTTAAGCAAAAGTGGGTAGCGTTATCTGAAAAAAATTCTAGCATTGCTCTCTGTAATCATAAACCCTTTTTATGTGTTATAATTAACCGTAGATGAGTGATATGAATTAAAAAAGATCATGACTTTTCTTCCTTATTGGGATGAAAAGTATGTTTAGATTGTGATTGGGTTGAAATTTCAGCTAAATTTGTTTGGGATGAAAACTGAAAAGTATGTTTAGATTGTGATGTATTTTAATTTGTATCATTACTTTTTTCTTCCTTCTGGACATTTATTATTGGCTTTTTCCATGGAACAGCTGTTTAAATATCTGCCAAGATTATCACCTAGAGTGTCGAATTTATTCCAGGAAATGAAGCGCCATTAATTTTTGAAATTTGGGCTGAGTCATTTGAGTAAGGTATAATATTGTATGAAGAATGCAGTTTTTTCCCTTGTCTCTTTTATTATAACATGATATGTGGATACTGGACTATTTGGCAGCAATAAAATCTTCATCCCAAGCAAGTTATCAAATCTCACATTAGATTGACTTACGAACTTCGAAAGTTACTTCGTTTTTTCTTTCCAATTTATGTTCCCGTATTTTTCCTTTACAATTGTATGAACACCAAATAGAGGGAGTCTTCTTGCAATATGGAAATGGGAATATCTTGTTACCGTTGCACCAAACCCTAAGCTAAGCCTCCCTATGTTTTTTTTTCTTCTCTTAGTTTTTAGCTTTTAAGCTTATTACATGGTTGATTTGTTATTTTTTAAAGCTTATTTACATGATAAAATGTCGGTATCATTAGATTAACATTAATAGACATTTATTATTGTCTATCACTGACATTAATAAATGTGTATTAGTGTTTATCATGCCTAGACAATGATACTTTGATATATTGAAAATATTTTCAACATTTCGGTCATTTAAAACAACTACCTTTAAAGTAACTTACTTAAAATCCTTCGAATTTTGGTCTTTAGAATAGTTTGCTTTCTCTTTCTCTTTGCTCTTGTTTTAGTTGGTGAAATTGATGTATAAGAATTGAATGCACAAGTAAACTTGTTACATCTTAATACACACCTTGTATATAATAATAACGTTCAGGTCCAGACAAATAAGCCTATTATTAGTCAAACAAGTGTTGAAGATTTTAGAAGTTGGTTTCATATTTTTCAAAAAGCAACATCTCATTCAGTTGTCTCGCATAAAGTCTTTACATCCGATTTTAACCTTAGAAGATTCATTTCTTTTATGGATGAGATTATTTAAAAAAAATTATGAAACCCTTTTAGGGTTGCCAAATTTGTTTATTGTGCAGGAAAAGCAGTGTTCTTCATGCAAACATGTTTGTTCTTTGAGCAAGAGTTGTTTTTTCTACAGCTATTGTGCTCTCGTTAGTTGCTCAATGTGTTTCATAGCTTCCACCGTAAGTTTCTTCATATGTTGTCTGCAACATATGGAAGATTATTCTTGTTTAGGAGGAGCCTAAACCATTGTTGTCGATAATAAATTTTTGGTCTTAGGAGGAGCCTAAGATACAAGGACGAGAAAGAATTCTCTATCCTAGGAGAGCCTAAGATTCATCAATGAAGGAAGTTTGTTGAATTGAAGGAAAAAATATTTTCGTGAGAGGAAGTCTCACACCACTATTGGAAGCTGAAGTGAAGACACTAGTATTACCATTCTTAGGGGGAGCATAAGCACGTGGAGAGTGAGGGCAACTCACATTTAGGGGAGTCTAAATATACTTGCGAGAGAGTCTCACGTTTAGGATAGCCTAGGTGATCATTTAGTTAAGCTCTACGTGAGTCAATGTAGTAGGAGTATTGCATTTAAATACTATATTGTAAACTGCTTAACTTTTAATATTAGTGGATTATCTTTCCTGGATACAGTGCCCTCAAGATGTAGGTGGTAT CTTTCACTCCAACTCTCCAACCTCATTCACGAGAGGGAAGAACTTTCCATTTCTTCCTTTCTCTCTCAGCAATGCCCACTTCAATTCCTTCTTGAATTTTGATCTCATTCAGTTCTTTCCCTTGTCTTCTCCATGTTCAATAACATCATCTATATACAATACAACAATTCTTTCTTTCATTTCTCTCATTTCTTCTGAATTACCCTGCATTTTTCTGTTTTGTAAACCCCCAAAATGTGGGTTTATCCTCATGTTCTTGATGAGCACTTCAATGCTATTACCCCACCACTTTATCTTTCATGACTGCACCAAGCTATCTTCTTCTCTTTCTAATTTTCCTTCCTGCAATTCATTTCATGAATTTTCTGCTTTCGGTCGTAAGGGAAAAGGGTTTTATCGGCATGTTCTTAATGCTAAGAAAAACGGGTATTCGAGGAAAAGGAGTTGGTGGCAGAGGTTTTTCTTTGACGATGATGGAAATTGGCTGGGTTTGAAGGATGATGGAATGTTGGAGGATGAGTTGGAGAGTATTGCGAGTGATGAAGATTTGTCTGATGATAAAAAATTTGAGGCCTGGAAGAAGAGAGCTGAAGCTATTATAGAGTTGAAGGAAGCACAGGAAGATGTGAGGAATGAACAAGGGCAGAGGTGGACTGATTGGCTTTATGAGGACACAAACCATGCTCGAACTTCGTGGAGTCAAGATTGGGATAATGGTCTTGGGGAATTGAATGAAGAATCGTCTGATGCTACTGATTTAGTTCCTGAGAAGGGATTTGTTGAGTCTGTTAGAGATTTGGTTCTTGGGAAGGAAGAGGATGACATGCTCTATGAAGATCGTGTATTCCAGTATGCCTCTTTAAATTCGGCAAAATTTCTCACAGTTTTAATAATTATACCTTGGGCATTGGATTTCGTGGTTCATGATTATGTTCTCATGCCCTTTCTTGATAGGTATGTCAAGAAAGTGCCACTGGCAGCTGAGATGCTTGATGTGAGAAGAAACCAGAAGCTCGAGATGGTTGAGGAACTGAAAATTGAGAAAGAAAGATTCAAACTTGAGATGGAAATTGGAAAGTCTCCTCCCCTTTCCGATGAAGAGTTATGGTGGGAATTACGGCATAGAGCGTTAACATTGAGAGATGAGTGGAGGTTAGAGAATCGTAAAGCATTTGCCAACATATGGTCAGACATGGTATTTGGGATCTCATTATTCATTCTTTTGTACTTCAACCAAAGTAAAGTAGCTTTGCTGAAATTTACAGGTTATAAAATAATAAGTAATATATCAGATACTGGGAAGGCATTTTTAATTATATTAATTACAGATATTTTTTTAGGTTATCATTCTGAATCCGGTTGGCAGACTTTGTTAGAGATAATTGTTGAACACTATGGCCTTGAGGTTGATCAGTCTTTGATAACCATCTTTATATGCCTGGTTCCGGTTATGATGGATGCATGCGTGAAACTTTGGCTGTTTAAATATCTGCCAAGATTATCACCTAGAGTGTCGAATTTATTCCAGGAAATGAAGCGCCATTAATTTTTGAAATTTGGGCTGAGTCATTTGAGTAAGggttgccaaatttgtttattgtgcaggaaaagcagtgttcttcatgcaaacatgtttgttctttgagcaagagttgttttttctacagctattgtgctctcgttagttgctcaatgtgtttcatagcttccaccgtaagtttcttcatatgttgtctgcaacatatggaagattattcttgtttaggaggagcctaaaccattgttgtcgataataaatttttggtcttaggaggagcctaagatacaaggacgagaaagaattctctatcctaggagagcctaagattcatcaatgaaggaagtttgttgaattgaaggaaaaaatattttcgtgagaggaagtctcacaccactattggaagctgaagtgaagacactagtattaccattcttagggggagcataagcacgtggagagtgagggcaactcacatttaggggagtctaaatatacttgcgagagagtctcacgtttaggatagcctaggtgatcatttagttaagctctacgtgagtcaatgtagtaggagtattgcatttaaatactatattgtaaactgcttaacttttaatattagtggattatctttcctggatacagtgccctcaagatgtaggtggtat ATGTTCTTGATGAGCACTTCAATGCTATTACCCCACCACTTTATCTTTCATGACTGCACCAAGCTATCTTCTTCTCTTTCTAATTTTCCTTCCTGCAATTCATTTCATGAATTTTCTGCTTTCGGTCGTAAGGGAAAAGGGTTTTATCGGCATGTTCTTAATGCTAAGAAAAACGGGTATTCGAGGAAAAGGAGTTGGTGGCAGAGGTTTTTCTTTGACGATGATGGAAATTGGCTGGGTTTGAAGGATGATGGAATGTTGGAGGATGAGTTGGAGAGTATTGCGAGTGATGAAGATTTGTCTGATGATAAAAAATTTGAGGCCTGGAAGAAGAGAGCTGAAGCTATTATAGAGTTGAAGGAAGCACAGGAAGATGTGAGGAATGAACAAGGGCAGAGGTGGACTGATTGGCTTTATGAGGACACAAACCATGCTCGAACTTCGTGGAGTCAAGATTGGGATAATGGTCTTGGGGAATTGAATGAAGAATCGTCTGATGCTACTGATTTAGTTCCTGAGAAGGGATTTGTTGAGTCTGTTAGAGATTTGGTTCTTGGGAAGGAAGAGGATGACATGCTCTATGAAGATCGTGTATTCCAGTATGCCTCTTTAAATTCGGCAAAATTTCTCACAGTTTTAATAATTATACCTTGGGCATTGGATTTCGTGGTTCATGATTATGTTCTCATGCCCTTTCTTGATAGGTATGTCAAGAAAGTGCCACTGGCAGCTGAGATGCTTGATGTGAGAAGAAACCAGAAGCTCGAGATGGTTGAGGAACTGAAAATTGAGAAAGAAAGATTCAAACTTGAGATGGAAATTGGAAAGTCTCCTCCCCTTTCCGATGAAGAGTTATGGTGGGAATTACGGCATAGAGCGTTAACATTGAGAGATGAGTGGAGGTTAGAGAATCGTAAAGCATTTGCCAACATATGGTCAGACATGGTATTTGGGATCTCATTATTCATTCTTTTGTACTTCAACCAAAGTAAAGTAGCTTTGCTGAAATTTACAGGTTATAAAATAATAAGTAATATATCAGATACTGGGAAGGCATTTTTAATTATATTAATTACAGATATTTTTTTAGGTTATCATTCTGAATCCGGTTGGCAGACTTTGTTAGAGATAATTGTTGAACACTATGGCCTTGAGGTTGATCAGTCTTTGATAACCATCTTTATATGCCTGGTTCCGGTTATGATGGATGCATGCGTGAAACTTTGGCTGTTTAAATATCTGCCAAGATTATCACCTAGAGTGTCGAATTTATTCCAGGAAATGAAGCGCCATTAA MFLMSTSMLLPHHFIFHDCTKLSSSLSNFPSCNSFHEFSAFGRKGKGFYRHVLNAKKNGYSRKRSWWQRFFFDDDGNWLGLKDDGMLEDELESIASDEDLSDDKKFEAWKKRAEAIIELKEAQEDVRNEQGQRWTDWLYEDTNHARTSWSQDWDNGLGELNEESSDATDLVPEKGFVESVRDLVLGKEEDDMLYEDRVFQYASLNSAKFLTVLIIIPWALDFVVHDYVLMPFLDRYVKKVPLAAEMLDVRRNQKLEMVEELKIEKERFKLEMEIGKSPPLSDEELWWELRHRALTLRDEWRLENRKAFANIWSDMVFGISLFILLYFNQSKVALLKFTGYKIISNISDTGKAFLIILITDIFLGYHSESGWQTLLEIIVEHYGLEVDQSLITIFICLVPVMMDACVKLWLFKYLPRLSPRVSNLFQEMKRH*
BLAST of Cucsa.178880 vs. Swiss-Prot
Match: CEMA_RHDSA (Chloroplast envelope membrane protein OS=Rhodomonas salina GN=cemA PE=3 SV=1) HSP 1 Score: 150.2 bits (378), Expect = 5.1e-35 Identity = 79/240 (32.92%), Postives = 142/240 (59.17%), Query Frame = 1
BLAST of Cucsa.178880 vs. Swiss-Prot
Match: CEMA_GUITH (Chloroplast envelope membrane protein OS=Guillardia theta GN=cemA PE=3 SV=1) HSP 1 Score: 149.4 bits (376), Expect = 8.8e-35 Identity = 87/275 (31.64%), Postives = 154/275 (56.00%), Query Frame = 1
BLAST of Cucsa.178880 vs. Swiss-Prot
Match: PCXA_ACAM1 (Proton extrusion protein PcxA OS=Acaryochloris marina (strain MBIC 11017) GN=pcxA PE=3 SV=1) HSP 1 Score: 146.4 bits (368), Expect = 7.4e-34 Identity = 83/242 (34.30%), Postives = 144/242 (59.50%), Query Frame = 1
BLAST of Cucsa.178880 vs. Swiss-Prot
Match: PCXA_CYAP8 (Proton extrusion protein PcxA OS=Cyanothece sp. (strain PCC 8801) GN=pcxA PE=3 SV=1) HSP 1 Score: 145.6 bits (366), Expect = 1.3e-33 Identity = 82/273 (30.04%), Postives = 156/273 (57.14%), Query Frame = 1
BLAST of Cucsa.178880 vs. Swiss-Prot
Match: PCXA_MICAN (Proton extrusion protein PcxA OS=Microcystis aeruginosa (strain NIES-843) GN=pcxA PE=3 SV=1) HSP 1 Score: 142.9 bits (359), Expect = 8.2e-33 Identity = 76/242 (31.40%), Postives = 141/242 (58.26%), Query Frame = 1
BLAST of Cucsa.178880 vs. TrEMBL
Match: A0A0A0LGZ0_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_2G070860 PE=4 SV=1) HSP 1 Score: 882.1 bits (2278), Expect = 2.8e-253 Identity = 430/431 (99.77%), Postives = 431/431 (100.00%), Query Frame = 1
BLAST of Cucsa.178880 vs. TrEMBL
Match: B9N815_POPTR (Proton extrusion family protein OS=Populus trichocarpa GN=POPTR_0018s14690g PE=4 SV=1) HSP 1 Score: 607.1 bits (1564), Expect = 1.7e-170 Identity = 300/415 (72.29%), Postives = 351/415 (84.58%), Query Frame = 1
BLAST of Cucsa.178880 vs. TrEMBL
Match: B9HBC6_POPTR (Proton extrusion family protein OS=Populus trichocarpa GN=POPTR_0006s07980g PE=4 SV=1) HSP 1 Score: 605.1 bits (1559), Expect = 6.5e-170 Identity = 305/445 (68.54%), Postives = 365/445 (82.02%), Query Frame = 1
BLAST of Cucsa.178880 vs. TrEMBL
Match: V7C7V6_PHAVU (Uncharacterized protein OS=Phaseolus vulgaris GN=PHAVU_004G178700g PE=4 SV=1) HSP 1 Score: 589.3 bits (1518), Expect = 3.7e-165 Identity = 293/441 (66.44%), Postives = 357/441 (80.95%), Query Frame = 1
BLAST of Cucsa.178880 vs. TrEMBL
Match: A0A061GQQ1_THECC (CemA-like proton extrusion protein-related isoform 1 OS=Theobroma cacao GN=TCM_038795 PE=4 SV=1) HSP 1 Score: 587.4 bits (1513), Expect = 1.4e-164 Identity = 302/441 (68.48%), Postives = 352/441 (79.82%), Query Frame = 1
BLAST of Cucsa.178880 vs. TAIR10
Match: AT4G31040.1 (AT4G31040.1 CemA-like proton extrusion protein-related) HSP 1 Score: 572.8 bits (1475), Expect = 1.8e-163 Identity = 289/446 (64.80%), Postives = 355/446 (79.60%), Query Frame = 1
BLAST of Cucsa.178880 vs. TAIR10
Match: ATCG00530.1 (ATCG00530.1 CemA-like proton extrusion protein-related) HSP 1 Score: 75.1 bits (183), Expect = 1.2e-13 Identity = 45/207 (21.74%), Postives = 100/207 (48.31%), Query Frame = 1
BLAST of Cucsa.178880 vs. NCBI nr
Match: gi|778667722|ref|XP_011648976.1| (PREDICTED: chloroplast envelope membrane protein isoform X1 [Cucumis sativus]) HSP 1 Score: 882.1 bits (2278), Expect = 4.0e-253 Identity = 430/431 (99.77%), Postives = 431/431 (100.00%), Query Frame = 1
BLAST of Cucsa.178880 vs. NCBI nr
Match: gi|659069510|ref|XP_008450426.1| (PREDICTED: chloroplast envelope membrane protein [Cucumis melo]) HSP 1 Score: 842.0 bits (2174), Expect = 4.5e-241 Identity = 414/431 (96.06%), Postives = 422/431 (97.91%), Query Frame = 1
BLAST of Cucsa.178880 vs. NCBI nr
Match: gi|778667731|ref|XP_011648978.1| (PREDICTED: uncharacterized protein LOC101213957 isoform X2 [Cucumis sativus]) HSP 1 Score: 695.7 bits (1794), Expect = 5.3e-197 Identity = 337/338 (99.70%), Postives = 338/338 (100.00%), Query Frame = 1
BLAST of Cucsa.178880 vs. NCBI nr
Match: gi|1009129353|ref|XP_015881721.1| (PREDICTED: chloroplast envelope membrane protein [Ziziphus jujuba]) HSP 1 Score: 627.9 bits (1618), Expect = 1.3e-176 Identity = 316/438 (72.15%), Postives = 366/438 (83.56%), Query Frame = 1
BLAST of Cucsa.178880 vs. NCBI nr
Match: gi|1000944463|ref|XP_015581610.1| (PREDICTED: chloroplast envelope membrane protein [Ricinus communis]) HSP 1 Score: 626.3 bits (1614), Expect = 3.9e-176 Identity = 314/444 (70.72%), Postives = 376/444 (84.68%), 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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