CsaV3_1G003220 (gene) Cucumber (Chinese Long) v3
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.GTAGGTTGTTGTCAACCATAGCATTGCTCTAAAAATGTAATTTAAGATGAGGACATAAATTAAACAACAATTCCTTAAGTCATTCATTTTTTTCTTTTTCTTTTTCTTTTTCCTTTTTCACAAATTAAAATCTAAAAAAGAAAAAGAAAAACGATGCTTTTGTTGTTGGCTTCGATAAGCAGAGAGTGGAGAAAAATCGGTTAGCTGTGTGCAGAGAAATGGCGAAGCTGCTTCTCCATCTTCAAGCTCCTCATCTAGCTTCTTCCTTCAATCGCCGAACTCTCTCATTCATAATCTCCAACTCAAACTCTTCTTCTTATTCTTCCTTACAATGCCGTTTCGCTCTCCCTCTCTCCTCCTCCTCCTCCTCCTCTTCTTCTTTACGCCGCTGCTTCTCTCTTCGAGCATTCGACGACAATGCACCAGAGACCAAACGCGTTGAAAAAGAAGAAACAGATGCTTCAAACGAGGCTCCCATGAGTAGCGATGTCGTCAGGACTCGCGATGAGGATTATCCAAGTGGAGAGTTTGAGTTCCAGAAATTTGGACCGTGGAGGAGCTTTTTGGTTAAGCTTAAGATGCTGGTGGCTTTTCCTTGGGAGCGCGTCCGCAAGGGAAGTGTCTTGACTATGAAATTGCGAGGGCAGGTTCTGTTTCTTAATTTGATTTCTTGCTCAGCTTTTTAGTTTGTAAATGAGTTATTTGTGTGAGTGGATTGTTCGTTACGTTTTGTTTTTATGTTACTCTCTTTCCGTAAGTAATTAGCTACGGAAACACTACAATTTTCTGGAAGAAAATAGATGTTGATCTCCATTAATGCTTTGCTGGTGGAAACATTGTTTTCGTTTTGATGTCACACTCTAAGTGATTAGCTATGAAATACTTCAATATTGCTTGAATGAAATGGATATTTGTCTATTCATGCTTCGCAACTGGAAACAGTGTTTTCGTTCTATTGTTACACTTTGTGGAAATACTTCAATGTTTCTCGAATGTAATTTTTGTTGGTCGCTATTCAGGCTTCGCGGCTGGAAATAATTTTTTTTTTTTGGTTTCTTAATAATTGCAATTTTGTTGATGATATTTGATGAGGAATGTCTTAACGACTTGTTCTGGATTTGTCGTTGTTGATAACTAACATTTTAGCTTTAATTGGATGTCTCTTTCTCCCTCCTGAAATATTTTAAAATGTTTGCGTCAAATTTTGGAGTTGAGATTGCTCTGTCTTTCTCATGTTCAGATATCTGATCAGCTAAAGAGCCGTTTCTCTTCAGGGCTTTCTCTACCTCAAATCTGCGAGAACTTTGTCAAAGCTGCATACGATCCTCGTATTTCTGGGATCTATTTGCAAATTGAGGCTCTAAATTGTGGGTGGGGTAAAGTTGAGGAAATTCGAAGGCATATCCTCGATTTCAAAAAATCAGGTAATGCAACTCTTTTAAGCAGCCCAAATGAATCTCTGTAAACAATGCAAATTTTTATTAGAGCCATCTGCATTGAGCTTATACGGATGTAAAACAGTGGTCAACCTTTATGGGAACTTTAATTAATGTGATTAATTCGGTGGATTTCATGCAAATAGTTGAGTGAATATCTCGGGGGCACTGTGCGGCATGAATCTATACCATGTCTTCTATTGTTTTCTACTTTCTATCTAATCTCACCATTATTTAGTCTATGGTTATAATTCAGAGAGTAGCATACAATATCCATAACTTATAAAATGATAGATTGAAATTTTAACCTGCAATAGATAATAGTAAGTAGAGCATGAAAATACAAGAGGATACTAACAAGTAAATCCTATGTCTATAGCAGTGGAAATTTACTGTCGGTCGAACGTTCTTGGAAAACCTAAGTTCCTTTTCTTTTTTTTTGTGAGTTCAACATCTGGGGTGGTAATTCAAACCGCCTTTCGTCAAGGTTAAAATGTCTTGACTAGTTGATTTATGCTCAAGGTTGCTCAATACAAGGAACAAAATGAACATTTTAAAAGTATGGAAACCTATTTTATGAGTACAGCTCACACAGTCTTTCCCCTTAATAAAGGGCCTTGGGGAAATCATTATTTTCATCAAACAGCTGCTTGTGTATATTTTAAATTTAGATGAATGAAATTATCAAATTCAATATGTACTGGCTTTCAGGTAAGTTTGTTGTTGCCTATATTCCTACATGCCAAGAGAAAGAGTACTACCTGGCATGTGCATGTGAGGAAATATATGCCCCGCCAAGTGCTTATGTTTCTTTGTTTGGTCTGACTGTTCAAGCTTCATTTCTCAGAGGTAAGGTGACTTCTTTCCTCTGCTTTATTTCCTACTCAGACTTTGGTTTTAAGAGGTTGAACAAGGTGTCTGCTTTTCAGGTATTTTTGACAAAGTAGGGATTGAACCACAAGTGGAAAGGATAGGTAAATATAAAAGTGCTGGTGATCAACTAGCACGGAGAAATATGTCAGAAGAAAATTGTGAAATGCTGACGACATTGCTTGATAACATTTATGGCAACTGGCTGGATAAAGTTTCTTCAACAAATGGTACTAAAGTCAACATGAAACTTTTAGCTATTTTCTATTAACGAATTTCAAACATTTATTCTTTTCTTTGATAGGAAAGAAAAAAGATGATGTTGAAAACTTCATTAATGAAGGAGTGTACCAAATTGAAAAACTAAAAGAAGATGGCTGGATCACCAACATACAGTACGAGGATGAGGTACTGAATGTGCTCATCCTGTCTGGGCTTGAAATAAATATTTGCTGATGCATTTGAGTTTGGGATTTCGAGTTAGGGGTAGCAAAGATTTTGTGTACTTTACGGAAGATAAATTATTTGGAGAGTAACGAGTTTCAGTGGAGATTAACAAAAGTGGGAATGCAAAGTGAACTAAAAGCTAAAGAAGCTTTAAATAATTACTCTAATCGGCACAAGAAAATAACGGCATTTGCAAAATCTACTAGTAGAATACTCCAAGGGGAGGCTACTAGCGTTTAATTTGTGTTTTTCACTTTAAAGATTGGGTTTTGTCATCTGTAATTTACAGGTTCTCTCTATGCTAAGTGAAAGACTTGGTCTGCCGAAGGACAAAAAGGTTCCCATGGTTGATTACAGGTTATTAAATTCAGAGATATTCTGTCACATTACTTATTTTGGTTTCTATTAGGTTTTCATGCTGTCTCGTACATTGTTCTCCCCTCTCCCTTTGTACTTTCCGTACTTCTTGTAATTTTAAATTAAAAAAACTAATGTTTGTTATTCTATTAAATTGTTATGGTACTTGCAGTTGTACAATAGATCACAATATCTCTCAAACTCCATTTTTTAAGACCTTAATTCATTCATCATACTTAGTTGCGACTTTTGAGCCTTCCGTGTTAAATTCCAATTATTGCATTTTACTTTTGTGCCCTTCAATTCCATATAGAAAGAGGTTTTGTAGGCACAGAACTCAGCCTTTTGAGGTGTGACGGGAAATTTCGAAGATTCTTGCCTTAAGAGTCAATTTTACATTGTTATCATCTTTCAGCTGGCTGTTATGGTTATTGTTCTTCTTCTTTTCTTTGTGTAGCTAGAAAAGAAAAGAAAAATCTCAAACACCTTTAAAATTGTATTTCTTGTCATTTTCTTTTTCAGGTGTGGTGTTCTCAATTATTTTTAGGGATAAATGACAAATTACCTCTTTTGACGTAGTTGTACTGGTACCCACAGAGTATCGTAATTGTGTCCTTTTTTTTTTGGAGAGGGCGTTTCTTGTGCTTTTATCTTACTTTTAATTTTTTTAATGAAAATATACTTTAATTTTCTTTAAGTGAAATGTTTGTATAATTCTATCATCCGTAGAAATGTGTAAAATGGAAAGTTTCCATTTGCTTGCTCCTATTTTGCATCTTTAGAACTGTGTTATAAAACATATCTTGTTCAAGTAAGGTCGTTGCTTCCATTTGGCTTCTTTGAACTTTATTTTTCTCACTCATTATTGAGCCAGTTCATTTTGCATATTAATATTATTTGGTTACAACTTATGGCTGATTATTTAGTCCATATACATTTGATTTGTTCTCCAATTTCGTACTAATATTATTCCCATTTATGTTGGTTACCACAGGAAGTACTCTAGAGTTAGGCAATGGACCGTTGGTTTATCAGGAGGTGGAGACCAAATAGCTGTGATCAGAGCTGGAGGAAGCATTACTCGTGTAAGAAGTCCTTTAAGTGTTCCTAGTTCTGGTATTATTGGGGAGCAATTCATTGAGAAGATTCGAACTGTTAGAGGTAAGCACAACATTTAAATATCGTTGAATGGTGTATTGGCACGGTGCCATCTTTTATTTATCTCATTACGATCATCGAGCTCATACCTTGTGAACACAGAAAGAGATGGAGACATACGGTTCTATAGTTTATTAGTTTAAGATTATGCCTTGCAAAATGTGCTCGTGAACTTTTAAGAACCACACAATACCACTTTTATCTTACGGGCACAGCATTCCATCATTAAAACTTTAGCAAGCACAAATTGCTTATTATGCATTTCTTTTGTTCAACCCTCTCTTTGTTTGTACTTAGAGTCGAAAAGATTCAAGGCTGCCATCATCAGAATTGACAGTCCTGGAGGTGATGCTCTGGCTTCTGATTTGTAAGTGCTAGTGTACCAGCAATGTCATTCTTTATGTGATACCTGAAGAAATCTATTTCTGATGGCATCATACCTTCGTATTCAAATAATCACAATTTGTTTTGAAACAAAAATATACAATTTTTTGTTTGTTTTATCGTGTATAATAACATCTCATTCTTTCCCTTCAGGTAAACTCACTTATCTTAAAATAATCCCCTCCAACCATAGAAGCCAAAAAAGTTTTCCTTTTAATATCCAAAGAGTTTTCTTCTCATCCCATTTACAGTAATGAGTTATAAACGAAAATAGAGTTGATGAATAAGGTTTATTAGTTTTGATCAATGAAAAGTCCTGCTACCATATCCTCTATAATGTACGTGCCACGTGGTAGATGTCAACTATCAAGTAATGAAAAATGGATTACACTAGACATCTTTGTCAAGGATGCTTATCTGAGTTACCGATGAATTTCAGATACTATAAATGGATTGCATGGATGCTTCAAAAAACATTTCAAATAATTATGTGGTCAGATTGCATGTATTGGAAATTGTTTTGGCCGTTGAAATTATATGAGATAAGACGGAAGATGAAAAATTCTAATTCACCATTCATAGGGCTAATGTTGGTTTTTTTTTAACTAACATTTTTGTTCATTATTTAGGATGGGTTTATAGTTAATTTTTCATTTCCAGAAAAGGCCTTTAATCACGTTTGTTCCTTAGCATTTATTTTGTGATATTGTTAGCGATTTTTCTTTTTCGATGAGAAAGAAGTCAAATTATACTGCCCATTTGAGAACACAGCCGCAAAACCAGGTGATAGATCCTTAAGTCTAAAAACTCTAAACCGAGGGTTAGACAAAGAAAGCCCGCCAATCTACATGAATGAGATAATGTTGTGTATTACAAAGAGAATTATGTAAAGGAAGTCTCCCTCTTTTATGTGGGCTTGGTGTCTATGTATTTTTTCGTTTTTTTTCCTCAGTAAAAGTTGTTTTCGTTAAAAGAAAGAATAATTGCAATGGATAGTACTTGTAGAGTTAATAATTAGGTTTATAAACTTCTATTAATGATATGACCCATCACTGATGGACTCCTACTACTGGTATGGTCTATTATCGATAGATTTTAAGAGTTAAATCTAAATTTTGTTATATTTGCGTTGTGCTATATATATGTGCCTGAAGAACTCTGGAGGACTCATCTAGGGCCAGCTGCCTGTTCCTTTTGTTCCAAATAGATCATATTTGTGAAATCATTAGAACCCAAATTACATCCGACACCGTGCCCTGACAAATGGAATCAATATACTCTGGGTTAATGGGTTTCATTTCCATTCTGAGTGTTGATTTTATGGAATCAATCTATATTTCCTTAATTACTTAATAGAGATACAAGCCTATATATAACCATAGAGAAATACACTTAAGGAAATAATATCAAATAATATCTCCAGAATAATATCTCCTAAGAATAATATCTCCTAAGAATAATATCTCCTAAGAATAATCTAATTATATTAATACCCTCCCTCAAACTCAAGGTTGAAATCACAAACTTGAGTTTGCTAAGAACTAAGAAAAGAAACAATATATCTAGAATAGAATAAAAAACCCGAAGAACAAACACACAAAGAACTTCTAGGCTAAAACAAACCCACGAAGAGCGAAACGAAGAACTTCTGGGATAGAAACATAGATCCTCGTATAGAGATCTATAACAGAACCTAGGAAGAACGAAACAAGAACTCCGGGGGCAAAATGAAAGAGCAAAACTGAAGCAAAGTAGAATCAAATCAGGATGAAAACGTGGTCTGAATTGGGCAGGAGCGTTTCGTCATCAGAATGGAACTGAACGAACTAAACTAAAGCAAGTCAGAATCAAACTGAACAGGAAATCTGGATGAACAGAACGAAAACTGAAGAGAACTGAGAGGTTGAGTAGATAGAGAACTTTGCGGCGTTCTTCGCAAAAAGAGAAGATGCGTTTCATGACGGCGAGCTTCACAAATGGAGAGCGGACAAAGCCGAACCTGTGCGTCGTCGGCTGTGAGTGGAGCGGAGCGGTGGATCATGGATCTGAACAAAGATTCACCCTCTTCAGGATCGGGAGTCTTCAATCTAAAGAGATTGTCTGGTACGAGTAAAGGGCGGCGGCGGCAGGTCGGTCTGATCTTGAACAGTATGATTCGAAGGCGAAAGATGAAATAAAACACGGATCTGGAAGTCGAAGACACGAACAGAGATGCACGAACAAATCGGTGCTTGCAATGTGCGCACAAGTAGATCTAAGTGAGGACGAATGGAGAGCGGATATGGGTCGAGAGTGCGACGAACTGGGTCGAGAGTGCGACGAACTGGGTGGATGGAAGGAGCAGTGATGGCAGAAGGAGTAGTGGCGGCGGCAGCAGAATCAGAGACGAGGATTTTGATCTAGGAGGCAGAGCGAATTACTTGGAGACATGATGTGTATTGATTACTGATGGGTATGGCTCTGCCTCCGTCGACGAATCAACGGAGGCAGACGAGCGGGGATGTGACGGCTAGAATACAAGGAGACTAAAACCCTATAGCTCTGATACCATGTTGATTTTATGGAATCAATCTATATTTCCTTAATTACTTAATAGAGATACAAGCCTATATATAACCATAGAGAAATACACTTAAGGAAATAATATCAAATAATATCTCCAGAATAATATCTCCTAAGAATAATATCTCCTAAGAATAATATCTCCTAAGAATAATCTAATTATATTAATACTGAGAATATTTCTATTTCAGTTGATCGATGCTATATTTGTAGCACACAAGTTGTTGGATATCATTTCTACTCTTGGCTCTGAGAATGGGTATATTGTGTGTTGATTTCTCTATGGCTCACAGGATGTGGAGAGAAATCAGACTTCTGGCTGCATCAAAACCTGTTGTTGCATCCATGGCTGATGTGGCTGCCAGTGGAGGATACTATATGGCAATGGCAGCTGGGACAATTGTTGCAGAAGATCTAACCTTAACTGGTTCTATCGGAGTTGTCACAGGTAAATTAATAAATATCTGCAACGAAGAAAGAATATGTTGAAATGTGCAATACTCTCTCCCTGTTTTGTTTGTTTTCTTTCTTATATTTATCTTTTGTAAAACTGCTGTAGACAAAGGATTTAGTTAAGTTATTTTAAAATTTCTCCAAACGGAGAGAACCCAAGTCTAGGAATAACCTAAAGCTTTTGGAATTTCTTTCCCAAGGTAAAATTTACCATTGAACTTCCTACCTTGAAGCAACTTAAAAGATTTATGGTCCAACCTACAAGAGCAAGGACAAAGGACCGAAACACCATGGTTGCCTACGCTTGCCTATCTAACCTTGGACCTGTTGGGATTCTATCCACGTTCTTGATTTCAAATGGGGGGAATGGATGTATGCTTTAGAGTGACAAATCTGGACCAAAGCCATAGTTGTAGTCAAAGTTTCCATCGATATCCCCCCCTCCTCTTCCATCCTTTTAAATTGTACCAACTTATTTAATAGGAAAGACAAATGAATTCCCTCACCTGCATCATTAAAAATCAAAAGATTTAATAGGAAAGACAAATGAATTCCCTCACCTGCATCATTAAAAATCAAAAGATAATAGAAGCAGTATTGTTTTTGTAGTTGTACATCCTCGGGTGAAATCTGTTTGTGTTATCGTGAACTTTGGTGTTGATGATTTATTTTGGCTGTAGGGAAGTTTAACTTGGGGAAACTATATGAAAAGATTGGCTTTAACAAGGAAATCATTTCAAGGGGAAGGTTTGCTGAGCTTCTTGCGGCTGAACAACGACCTTTCAGGTAAAATATTTCTCAAGAGCAAATAGAATTGTGGTATCCCATATTAATTGTCAAACGAGGTAGACGTGACCAATAGGTGTAGTGGGTACCGAGTCCATCGATACTCTGACATTAGAATTTGTTGGGTTCAACCACATTAATCATTCTTCCATGAAATACCTTAAATAAATTATGCTTGAACTCAAAGTTGAAATTGAACGAATTTTCAACATGAATTTTAGTCGCTTTCAGGCATCCATCAAAACTAGTATCCTGATTTACGATTCACCTCATCTTACCAAATATGCCTGCCTCATTTTTACAGAAGAAGCAAATATATATCACGATTCACACTACTCACCATTGACTATTTAGTACTCTGTTTTACTTCATTTACATCTTGCATCCTTTTTTCGCCAATAATAAAAAGGTCTTAACATCTGATACGGTTTAGAATTAGATCAAGTCGTTTAATTTTTCATTCTTAGTGCTTCTTCCCATCAATAATTAAAGGTTACCAGTTTCTGATCAGACCGGATGAAGCAGAACTCTTTGCCAAATCTGCACAAAATGCGTACAAGCAATTTCGGGACAAAGCAGCCTTTTCCAGATCTATGACTGTATGTTGTTCATCAAGGATCTCTTTCTTTCTTTTTTTCTTTTGTTATTTCTATGAATTTGTCATTTTAATGTCTTAATACCTAATAGGTGGATGAGATGGAGAAAGTTGCACAGGGAAGGGTTTGGACCGGTAAAGATGCAGCATCCCGTGGTTTAGTGGATGCTATTGGTGGCTTTTCTCGGGCTGTTGCAATAGCAAAACTAAAAGCCAACATTTCTCAAGACAGCCAGGTTCAATTTTTTATTAAATTTTTCATTAAATTTTTCTACCACTTGTTTCTTTCCTAATTAGAATTAAGATTTGTTTGGAAGAATAACTTTCTAAAAGAAATGTTTTGAAGTCTTGTTTTGGTATGCCTTCAATCGGTTATCTGGCATTTCGAATAACTAAGAACCGGTCTCACTAGAGTTTAGAATGGTACATTGTATATAAAACCTCTAATCCCACTAGCTACTAGTGCCCCAGCAATTTGTATTATATGATATTCCTCTCTATTAGTAAAATTAGTCTTCCTCTTTCGGTAGATGTAGCTAACACACTCTTGTTTGGAAGGTTGGAATGTAGTGGGTTTTAATATCAAGTCCATGTTTGAATTGAGAGCCTTGGGCTCGATTTGTAATCCCTATTATATTCTCTTGCCACCATTTTCAGCCCGGCCAACCTTCTTTCCCACCATTTTCACTCTTCAGGATTACATTCCAACCTCCCAAACAAGCTAGTAAACCATGCAAATCTGTATACCAATTTTATCGTGTATGTCTTTTACACTTTATTTGTCAATTTCATAACCTTCAAAGAAAAAGTGTTTTTCGAACTTTTAAAAGTCATTCTAAAGAGACTCTTGTGTGAGTAGGTATTTTGTTTCTACTCGAGAAACTGATTAGTGTCTTTTTTTTTCTCTTTTTCCACCATGGTAAAAAAAGGTTAATCTTGTGGAATTATCACGACCGTCGCCAACGCTACCGGAGATACTAAGCGGAGTAGGGAGTACAATTATTGGAGTTGACAGGACAATGAAGGATCTGCTCCAAGACCTTTCTTTGGGAGAAGGAGTCCAAGCTCGTATGGAAGGGATTATGCTGCAGAGAATGGAGGGATTTTCTTATGGTAATCCCATACTTAATTTCATTAAAGATTACTTCACTTCCCTCTAACCTTTTTTGGTGCCGTTATTAAAACCCATATTTAATTTCTCAATTCCCCATTATTTGGAACATACTCTTATGATACGATAATAGGATGTCCCAACTAAACAAGAAATGTATAGATAGATAATATATGTCATTTGATTTAATAAATTAGCATCTTTTCCATGCATAAATATAGTTTTGTTTTCCTTTTT ATGGCGAAGCTGCTTCTCCATCTTCAAGCTCCTCATCTAGCTTCTTCCTTCAATCGCCGAACTCTCTCATTCATAATCTCCAACTCAAACTCTTCTTCTTATTCTTCCTTACAATGCCGTTTCGCTCTCCCTCTCTCCTCCTCCTCCTCCTCCTCTTCTTCTTTACGCCGCTGCTTCTCTCTTCGAGCATTCGACGACAATGCACCAGAGACCAAACGCGTTGAAAAAGAAGAAACAGATGCTTCAAACGAGGCTCCCATGAGTAGCGATGTCGTCAGGACTCGCGATGAGGATTATCCAAGTGGAGAGTTTGAGTTCCAGAAATTTGGACCGTGGAGGAGCTTTTTGGTTAAGCTTAAGATGCTGGTGGCTTTTCCTTGGGAGCGCGTCCGCAAGGGAAGTGTCTTGACTATGAAATTGCGAGGGCAGATATCTGATCAGCTAAAGAGCCGTTTCTCTTCAGGGCTTTCTCTACCTCAAATCTGCGAGAACTTTGTCAAAGCTGCATACGATCCTCGTATTTCTGGGATCTATTTGCAAATTGAGGCTCTAAATTGTGGGTGGGGTAAAGTTGAGGAAATTCGAAGGCATATCCTCGATTTCAAAAAATCAGGTAAGTTTGTTGTTGCCTATATTCCTACATGCCAAGAGAAAGAGTACTACCTGGCATGTGCATGTGAGGAAATATATGCCCCGCCAAGTGCTTATGTTTCTTTGTTTGGTCTGACTGTTCAAGCTTCATTTCTCAGAGGTATTTTTGACAAAGTAGGGATTGAACCACAAGTGGAAAGGATAGGTAAATATAAAAGTGCTGGTGATCAACTAGCACGGAGAAATATGTCAGAAGAAAATTGTGAAATGCTGACGACATTGCTTGATAACATTTATGGCAACTGGCTGGATAAAGTTTCTTCAACAAATGGAAAGAAAAAAGATGATGTTGAAAACTTCATTAATGAAGGAGTGTACCAAATTGAAAAACTAAAAGAAGATGGCTGGATCACCAACATACAGTACGAGGATGAGGTTCTCTCTATGCTAAGTGAAAGACTTGGTCTGCCGAAGGACAAAAAGGTTCCCATGGTTGATTACAGGAAGTACTCTAGAGTTAGGCAATGGACCGTTGGTTTATCAGGAGGTGGAGACCAAATAGCTGTGATCAGAGCTGGAGGAAGCATTACTCGTGTAAGAAGTCCTTTAAGTGTTCCTAGTTCTGGTATTATTGGGGAGCAATTCATTGAGAAGATTCGAACTGTTAGAGAGTCGAAAAGATTCAAGGCTGCCATCATCAGAATTGACAGTCCTGGAGGTGATGCTCTGGCTTCTGATTTGATGTGGAGAGAAATCAGACTTCTGGCTGCATCAAAACCTGTTGTTGCATCCATGGCTGATGTGGCTGCCAGTGGAGGATACTATATGGCAATGGCAGCTGGGACAATTGTTGCAGAAGATCTAACCTTAACTGGTTCTATCGGAGTTGTCACAGGGAAGTTTAACTTGGGGAAACTATATGAAAAGATTGGCTTTAACAAGGAAATCATTTCAAGGGGAAGGTTTGCTGAGCTTCTTGCGGCTGAACAACGACCTTTCAGTTTCTGA ATGGCGAAGCTGCTTCTCCATCTTCAAGCTCCTCATCTAGCTTCTTCCTTCAATCGCCGAACTCTCTCATTCATAATCTCCAACTCAAACTCTTCTTCTTATTCTTCCTTACAATGCCGTTTCGCTCTCCCTCTCTCCTCCTCCTCCTCCTCCTCTTCTTCTTTACGCCGCTGCTTCTCTCTTCGAGCATTCGACGACAATGCACCAGAGACCAAACGCGTTGAAAAAGAAGAAACAGATGCTTCAAACGAGGCTCCCATGAGTAGCGATGTCGTCAGGACTCGCGATGAGGATTATCCAAGTGGAGAGTTTGAGTTCCAGAAATTTGGACCGTGGAGGAGCTTTTTGGTTAAGCTTAAGATGCTGGTGGCTTTTCCTTGGGAGCGCGTCCGCAAGGGAAGTGTCTTGACTATGAAATTGCGAGGGCAGATATCTGATCAGCTAAAGAGCCGTTTCTCTTCAGGGCTTTCTCTACCTCAAATCTGCGAGAACTTTGTCAAAGCTGCATACGATCCTCGTATTTCTGGGATCTATTTGCAAATTGAGGCTCTAAATTGTGGGTGGGGTAAAGTTGAGGAAATTCGAAGGCATATCCTCGATTTCAAAAAATCAGGTAAGTTTGTTGTTGCCTATATTCCTACATGCCAAGAGAAAGAGTACTACCTGGCATGTGCATGTGAGGAAATATATGCCCCGCCAAGTGCTTATGTTTCTTTGTTTGGTCTGACTGTTCAAGCTTCATTTCTCAGAGGTATTTTTGACAAAGTAGGGATTGAACCACAAGTGGAAAGGATAGGTAAATATAAAAGTGCTGGTGATCAACTAGCACGGAGAAATATGTCAGAAGAAAATTGTGAAATGCTGACGACATTGCTTGATAACATTTATGGCAACTGGCTGGATAAAGTTTCTTCAACAAATGGAAAGAAAAAAGATGATGTTGAAAACTTCATTAATGAAGGAGTGTACCAAATTGAAAAACTAAAAGAAGATGGCTGGATCACCAACATACAGTACGAGGATGAGGTTCTCTCTATGCTAAGTGAAAGACTTGGTCTGCCGAAGGACAAAAAGGTTCCCATGGTTGATTACAGGAAGTACTCTAGAGTTAGGCAATGGACCGTTGGTTTATCAGGAGGTGGAGACCAAATAGCTGTGATCAGAGCTGGAGGAAGCATTACTCGTGTAAGAAGTCCTTTAAGTGTTCCTAGTTCTGGTATTATTGGGGAGCAATTCATTGAGAAGATTCGAACTGTTAGAGAGTCGAAAAGATTCAAGGCTGCCATCATCAGAATTGACAGTCCTGGAGGTGATGCTCTGGCTTCTGATTTGATGTGGAGAGAAATCAGACTTCTGGCTGCATCAAAACCTGTTGTTGCATCCATGGCTGATGTGGCTGCCAGTGGAGGATACTATATGGCAATGGCAGCTGGGACAATTGTTGCAGAAGATCTAACCTTAACTGGTTCTATCGGAGTTGTCACAGGGAAGTTTAACTTGGGGAAACTATATGAAAAGATTGGCTTTAACAAGGAAATCATTTCAAGGGGAAGGTTTGCTGAGCTTCTTGCGGCTGAACAACGACCTTTCAGTTTCTGA MAKLLLHLQAPHLASSFNRRTLSFIISNSNSSSYSSLQCRFALPLSSSSSSSSSLRRCFSLRAFDDNAPETKRVEKEETDASNEAPMSSDVVRTRDEDYPSGEFEFQKFGPWRSFLVKLKMLVAFPWERVRKGSVLTMKLRGQISDQLKSRFSSGLSLPQICENFVKAAYDPRISGIYLQIEALNCGWGKVEEIRRHILDFKKSGKFVVAYIPTCQEKEYYLACACEEIYAPPSAYVSLFGLTVQASFLRGIFDKVGIEPQVERIGKYKSAGDQLARRNMSEENCEMLTTLLDNIYGNWLDKVSSTNGKKKDDVENFINEGVYQIEKLKEDGWITNIQYEDEVLSMLSERLGLPKDKKVPMVDYRKYSRVRQWTVGLSGGGDQIAVIRAGGSITRVRSPLSVPSSGIIGEQFIEKIRTVRESKRFKAAIIRIDSPGGDALASDLMWREIRLLAASKPVVASMADVAASGGYYMAMAAGTIVAEDLTLTGSIGVVTGKFNLGKLYEKIGFNKEIISRGRFAELLAAEQRPFSF* Homology
BLAST of CsaV3_1G003220 vs. NCBI nr
Match: KGN63762.2 (hypothetical protein Csa_013861 [Cucumis sativus]) HSP 1 Score: 1036.6 bits (2679), Expect = 7.6e-299 Identity = 532/532 (100.00%), Postives = 532/532 (100.00%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. NCBI nr
Match: XP_004138209.1 (serine protease SPPA, chloroplastic [Cucumis sativus]) HSP 1 Score: 1032.7 bits (2669), Expect = 1.1e-297 Identity = 530/530 (100.00%), Postives = 530/530 (100.00%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. NCBI nr
Match: KAA0058025.1 (serine protease SPPA [Cucumis melo var. makuwa]) HSP 1 Score: 1006.1 bits (2600), Expect = 1.1e-289 Identity = 522/535 (97.57%), Postives = 526/535 (98.32%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. NCBI nr
Match: TYJ98248.1 (serine protease SPPA [Cucumis melo var. makuwa]) HSP 1 Score: 1003.0 bits (2592), Expect = 9.4e-289 Identity = 521/539 (96.66%), Postives = 525/539 (97.40%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. NCBI nr
Match: XP_016901444.1 (PREDICTED: serine protease SPPA, chloroplastic [Cucumis melo]) HSP 1 Score: 986.9 bits (2550), Expect = 6.9e-284 Identity = 515/535 (96.26%), Postives = 519/535 (97.01%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. ExPASy Swiss-Prot
Match: Q9C9C0 (Serine protease SPPA, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=SPPA PE=2 SV=1) HSP 1 Score: 686.8 bits (1771), Expect = 1.9e-196 Identity = 357/536 (66.60%), Postives = 426/536 (79.48%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. ExPASy Swiss-Prot
Match: P73689 (Protease 4 OS=Synechocystis sp. (strain PCC 6803 / Kazusa) OX=1111708 GN=sppA PE=3 SV=1) HSP 1 Score: 193.4 bits (490), Expect = 6.8e-48 Identity = 124/380 (32.63%), Postives = 196/380 (51.58%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. ExPASy Swiss-Prot
Match: P45243 (Protease 4 OS=Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd) OX=71421 GN=sppA PE=1 SV=1) HSP 1 Score: 144.8 bits (364), Expect = 2.8e-33 Identity = 105/373 (28.15%), Postives = 178/373 (47.72%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. ExPASy Swiss-Prot
Match: P08395 (Protease 4 OS=Escherichia coli (strain K12) OX=83333 GN=sppA PE=1 SV=2) HSP 1 Score: 134.8 bits (338), Expect = 2.9e-30 Identity = 111/407 (27.27%), Postives = 183/407 (44.96%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. ExPASy Swiss-Prot
Match: Q8Z6F3 (Protease 4 OS=Salmonella typhi OX=90370 GN=sppA PE=3 SV=1) HSP 1 Score: 120.9 bits (302), Expect = 4.3e-26 Identity = 107/397 (26.95%), Postives = 175/397 (44.08%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. ExPASy TrEMBL
Match: A0A0A0LSI5 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G015030 PE=3 SV=1) HSP 1 Score: 1032.7 bits (2669), Expect = 5.3e-298 Identity = 530/530 (100.00%), Postives = 530/530 (100.00%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. ExPASy TrEMBL
Match: A0A5A7UWM9 (Serine protease SPPA OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold274G003300 PE=3 SV=1) HSP 1 Score: 1006.1 bits (2600), Expect = 5.4e-290 Identity = 522/535 (97.57%), Postives = 526/535 (98.32%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. ExPASy TrEMBL
Match: A0A5D3BJ91 (Serine protease SPPA OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold346G00200 PE=3 SV=1) HSP 1 Score: 1003.0 bits (2592), Expect = 4.5e-289 Identity = 521/539 (96.66%), Postives = 525/539 (97.40%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. ExPASy TrEMBL
Match: A0A1S4DZQ8 (serine protease SPPA, chloroplastic OS=Cucumis melo OX=3656 GN=LOC103494079 PE=4 SV=1) HSP 1 Score: 986.9 bits (2550), Expect = 3.4e-284 Identity = 515/535 (96.26%), Postives = 519/535 (97.01%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. ExPASy TrEMBL
Match: A0A6J1EZS7 (serine protease SPPA, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111441033 PE=3 SV=1) HSP 1 Score: 919.1 bits (2374), Expect = 8.6e-264 Identity = 472/534 (88.39%), Postives = 502/534 (94.01%), Query Frame = 0
BLAST of CsaV3_1G003220 vs. TAIR 10
Match: AT1G73990.1 (signal peptide peptidase ) HSP 1 Score: 686.8 bits (1771), Expect = 1.4e-197 Identity = 357/536 (66.60%), Postives = 426/536 (79.48%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (Chinese Long) v3
Date Performed: 2021-10-25
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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