Cucsa.142670.1 (mRNA) 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.CTACGGATCACTGTGATTACTATCAGCTTAGAGAAGGCCTACAGGATTTGAAGGTCATCACAAAAATTTTCTCAAAAATTGGGAGGAGATTAGACATCCATTGACAAGAGAATGAAGACCATCCCTTTGATTCTGATGGGCTGCGGCGGTGTTGGCCGTCAGCTCCTTCACCACATCGTATCCTGCCGACCACTTCACGCTAAACAGGCATTTCTCCTCCTCTCTTTTTTGCCTGTTTCTGACGTTCTTTCGAAATATACAGCCAATAATTTTACTGGGTTACGATAATGTTTAGAGCTATATCCATATATTTTGATCTTAAGTATATTTGGTGTTGAGCTTCGTTATCAACAGTGTGATTCCTTTGGATGCATGGTATTATTGTCCTCCTAGGATTGTTGGCTGAAGATTCTAATTGTTATGTGAACAAATGTTTCTCGATGTATGTTTGGGAAATGGAAATTGTTGTTGCGAGAATTTGGTTGGAGAGTTGATTGGACTAATCATGTGCATGATAATCGAAAACTTGGTTGGAGATGTTAAGAATGGAGATATGATGCTTGAGGAGTGTCCCTAGTTGGAGCTTAATTAGAAAGAGAAGAGCTGTTGGACGCCGTTTGAACATCTTTATAAGTTTGAAAGTTTAAGTTAGTTTGGTCTTGAGCTTGACAGAGTTTCACTGCTGTAGGGAGCCTAATATCCATCTAGTTTTTTTCTTCCCTCTTTAAACTTTTTATATATTGAGAAAAAAGATGCTATATTGCCATCGCTAGTTGTAGGTTGCTAGTTGTTGGATTTTGCTATATGGTCACCACTCACCAGTTTCTAACTTAACAGGTAGTTTGCATAGCTTCAACTGCGAAGGATATTGTAGGTGATTCAGTGACTTCTATGAGTGGTTGTGGTGTCACTACAATTACAACAGCGTGGGATGTGTTAGGTTGGGGTTAAAATACAATCCCACCTTACAGACAGATATGTCCTTGAGTTTTTTTTGTTTGTGTGTGTGTGCATTGGCTAGACAATTCGGGTCGAGCAAGAAAACAATTCATCTCACATAGGTCAAGTTTTGAACTCTTGGTCTCACTTGGTTCAAGCTACCATACAATCAGGTTGAGTTACAAGCCTGAACTCACTTTGGTTTATGTATTTATATATTTTATTTTACCATTGTAGGCCAAGTGGTCTTAAATCACCAATCGACCCAAAAGCTTAAGCTAGTGAGTGACAACAAATTTAATTAAATATGTAACACTCGTCCTCACTTCTGGGCTTGAAATATCAAGAAAGACCAAACAAGTGAAAATCAAACATAGGACCTCTCTGGACCACCTGCTCGAATACCATCTTAAATCACCAATTGACCTAGAAGCTTGAGCTAGTGGTGAGGGTAAATTTAATATAATATCTAACCACTCCCCCTCACTTATGGGTTTGACACCCCCTTAGAGACCTCATCATATCCATAATAACAAAAACAAAAATGGGAAAACAAACTCAAAACTAAGTCATAATAATGAGTCTTTACTAGTTCATGACTAATGAGGAGTTTGACACAAAAAGAAGTAACCATAATAGAGAAGAAATCAAACGAAAGAAATGAAAGCAACAAAAATAAGGTGGAAAGATAAAAGCCCTTCAATTTAAGTTGAGATCTAGAATTGAGTAGCTTCCAAAAAGTTTTGAGAGGGTGCACCGAGAAGAAGCATTTTTGTGTGCTATATCAAAGCGATCAAAACAGCCCATCGATTTATCATGGAAGACTCTTTGATTCCTTTCAAACCCTATTTCTGCCAAGATAGTTTTCACAGCATTTTCCCAAAGTAGTGTGGCTTCTTTATGCAAGTTGGATCCTCTTAATAAGGCCTTCACATTGTCTTTAAAATCTGCTCCAAAAACCCAAGATAGATTGAACTCTTTTAACAGACTTTCCCAACATGAAGCCTAATATTTGCAGAAAATGAATAGGTGCAGTGGGTCTTCTTTGTCCCGTAGACAACAGGCAAATGGAGGGGAGAGGCATCTGTAGGCAGTTTATGTTGCATAACTGAGGATACGTTCAAATTTCCCACCATCATAATCCAAAACAGAATATTCACCCTTCTCGGGCTAGCCGGATTTCCAAATGGCTTTAGAAAGAGGTTTGTCCAAAGGGGAGGAGGGGGATAAGTGATGCGTAAGGGACTTTACCATGAACTTCCCACTGCCATTTAAAGACCATACCCAACTGTTGAGATTCCGAAGGGCTTTTATATGCAATTTTGCTGAGAAGTGATTGGAATTCTGTGATGTCCTCATCTTTTAGTAAACAATGGAAAATAATTGACCATGATGCCATTGAAAAGTCCCAGTGATCAGCAATCGAGCCATTGGGGAGTATGGCAATTTTTAAAGTCGAGGGAAGGAAGAGGAATCTCACTCTCCCATGGATCTAGCCAAAAGGCCTTCTACCATTTCCCAATCTAAAAGTTGTTAGAGCATCTATTTTGAGCCATGATCTGGAAATGCTGACCCATGGGCTTCTCAAACATTTTTCTTCTTTGCCTGTAGTGTGCCAATTAAAAATATCTTTGCCATGTATGCTTCTTACCACTTTGCACCACAGAGAATCTTCTTCCTCCAAGTATCTCCAGCCCCATTCCGCTAAAAGGGCCATATTTCTTGCTTTATAGCCTCCTAAGTCAAGACCTTCATCCACCAAATCTCTTGCGACTGTTTACCATCTAACAAGGTGATTAATTCTACTACCTTTCTGCCCCTCCCAAAAAAAATCCTAAGGATTCTTTCAAGTTTTGAGATGACTCTCTCCCGAAAGGAGCCAGTCCATTTTGTTCTCAGTAAATCAAGGTGCTAATCTCTCAGTAGAGGGTTGGTACAAAAACCTGGAGTGGGAGGGTCCCAGCTTAAGGAACCAGCCTTAAGCAAGATAGGGAAGTGATCAGAAAATAGGCGAGCTTGCCTATAAGCTCTTGTATTTTCAAATTCATCATCCCATGCTTTATTTACAAAGAATCTATCTCAAAAGTGGGCTTGAATTATGAAGAAAGATACAACAAATGGATCTATTAAATGGGGAGGAAACAACTATGTAGAAGCTAGAACACGGGACCCCCCTAGACTATCTGCTCTTATACTATTTAAATCACCAATCGACCCAAAAGCTTAACTTAGTAGGTGAGGGTAAATTTAATATAATATCTAGCAAATGGCTTCCTGTCTCACTAAATGTGTTACTAGATACCTAGAATTCCTTAGAGGGTGTTTGGACCAAGATGTCGGTGAAGTAGGAGTTGGAAAGTGTGGAGTTATGAACCACTCCTTGTTTGGCCCAAGGAGTTCGTGGGCTTGTGACTAAAAACATCAATTTTATGCCTTCTTTACACTGTGGGGCTCCAAATTTCACGACCCTTTGGAGTTCACAACTCCACTTTGCCCCAAACACTCCCTTAGGCTTTACATTGACACACCCAATTAGTCAGTTGTGCGGCCTTGCTTCAATCTTGAAGCTGAAGAATAAATAAATCTTCAATGATGCTCTTTGAAAGTTGATGTAGGCACTCTGAACATATGAATCACCCCTCACCTAGAAGCTATGTTTATGAGTTATACATGATCTGTTGCTTTGGATAAAAAGAAAAAAAAGGTATTTAGATTAGAACATGGGATACCTAGGAGTAAATGAGCATGTTTTCATTGAGGCAAACTTGTTGGTATTTTTATTTAAGTTATGTTTCACCTTCAATTTTGAGGTAAATAATTCATGATTGCTTCATCCTTTATACTCGAACTTTAGAAAATTTTGACAAATTTGCTTGCAGGGGGTCCACTTGCGGGTTATAGGGGTTGGTGATAGTAGATCACTAGTTGTTGCATCTGATGTACTCACAACCGAGTTAAATGACAAGATTTTATTGGAAACTTGCCGTATCAAGTTGGGCGGTGGCTCTTTATCCGATCTTAGTAATTTTGGTAATTCCTCACTTCTTAATCTAGTAGAGATGGTGAAAAACAAAACAGCGTATAAATTGCCAATGTTACTTCAAGTTATAATACATCTCATACACACACACACACACACATTGTGTGTGTATATATAAACTTCTAATATTAATGAACTATGATATAGTAATCTGATTTTGGGGTATACTTAACTTGTTTTGGTGGTTGGATAGCATTATTTTTAGCTTGCTTATTTTTTGGAGGCTGTCTCTAGGCCATGCCCTCTTTTAAGTTTTCCCTTTATTCCTTCTCCTATATCAACTAATGAATATTTATAGCTTTGGAACAAAGATTATTTTAATAAACTGTGAAAAGTACAAAAAAGATAATCAAGCAATATCACCAAAACTCCAAAAGAATTCTCCATTCAGGATATTTACAGAAACTGGAACTCTTTCATTTTTCCTATTTAGTGTTTACTGTTTGGGTTAATTTTCTTGGTTATGTTCTTGTTTTTGTCCTTCATATTTTTTCTTTATGTTCTCTGTTAGTGGTTGTATTTGTTTTGTTTTGTATTGTTACTTGGTGCTCCGTTACTCCTTTTAGGTTTTGTTTCCTCTAGCATTAGTCTCTTTTCATTTTCTTAACGAAAAGCGTCATATCTTGTTTTTCTAAAAAATAAAACAAACCAATATAACCAAAAGAATTAAAATTCCTTATGTTACCACTAATCACAAAAGAATTTAGTTTTATTTTAAATACATACTGGTACGAAGATTTTTGGTTAAAAAGTTTCCAAGGGGAAGCTGCATAATAAACATTCCCCCAAATCTATCCTTTCCTGGAAATGTGAAAAACTCTTCACTGCCTTTCAAGTCAAACTTTTGAAAGATAGCATCATAGATCTCATTCTCAATGCATCTCTAGGCGTTTGAAAGAATGATCCATGAGCTGTTATTTATCTAGGCTTCATAGAATTGAAAATGGGGCACACTGGGCAAGGTTTAATATATTTCATATCATTCATCATCAATCTATGTTTTTTGAATGAGATATCTTTTGGCAGGTGAGAGAAAACTATTCTTGAACACAGAAGCGACTAAAAAAGTCATTGATATTGCGACTCTTCTTGGTAAATCGACAGGTTTGTGGTTTATGTGAACTGCTAAACATTTTAGTTGAGTACAATCTTGGTCCTTGAGCGTTCCCTCGTACTGTATCTCACACCATTTGAATGCTAGTTCCACTCTCATACGCTGTGTTTCGATTTATTTTTACTTATTTCAATATTTTCTTCATCTATTGTTGTAGGTCTCACCTGTGTTGATTGCTCTGCCAGTTCTGACACTGTTAATCTGTTAAAGCAAGTGGTTGACTTGGGTTGTTGCATTGTCTTGGCAAATAAGAAGCCTTTGACTTCTACAATCGTAATACACACTTTTGTCTTCAATAAATAAAATGCAGCAACATTTTGATTTTGGTCAATTGAGATCCCTAGGCTACGTCCATCCTTTTTCTTTTTAATTAAAGTTTTGGTATTGACCAATATCATTGCCATTCTCTTAAAATGAGAAAAGGTTCCTCAAGTTCCTTGACTACCAAATTAATCTACTCTTTCAAAATTCGCCAACACTGAATTTTGAGATTTTAAGGGGTCAGGAAACTGTGGAAGGGACCAATGTGTTAGGTCACAAAGCCTTTTGCAAGGGATATGTGCTTACATTCACTATCATTGTCAAAAGGATCTTGATGAATTTATGGAGAGATGCCTGGCAATTATTTTCTTGTATATTGTTTTGAGATATTGGCTGAAAAGCCTAAATAATAGAAAATTTAAAATATTTATTATTTTGTGGTTGCAGGAGGATTTTAACAAACTGATTATGCACCCTCGTCGTATTCGACATGAATCAACTGTAAGTAATATATCGGATTTATGTTTAAGAATTTTTTTCTTGGTGAAGAATTTGCAATTGAAAGAAAGCATGTCAAAGAGTTGTGACAGACTTGCAATGTCTCTGAAGGGGAATGTAATACGTTTTACCAAAATTTGCATGACACCATGGCCTAGTCAGTTGAGGTTCCTAACAAGTGGAATATTTGTATAATTGGTAGCTAGTTGGAAGATCAACACAAAGACATGATATGATTCAACAAAGTTACTGTTTTATACTTGAACCTTTAGAACAACAATACGGAAAGCTGTTCTCTTTGGATATTAAAAAAAGTTACTTTTATATACTTTAACCATTTGAATGGGTTTCACTCTTGGACCTGTATCAAAGAGAGAAAAAAAATGGAGGAATAATTCTTAGGATTCTTTTTTTGCCTTAGAACATCATAAATATGTAAATTGTTGCACAATAACCTAACATGAGCATTGCTTAACTGGTTAAGATACATATTATCAATTAAAAGGCTAGATGTCTGTATCCCCTCATACCCCACCCATTTGTTGTTGAAATACGAAAAAATTTGCATGCTATCCTTCATATTTTCCAACCACCAAATAACGTTCTAAATAGTAATAGTTTTATTGTATAAAAGTTCTACAGGACAAGCCTCCAAAGCAGAAAATTGTTTCTTTTGTCAAAATTATTTTTATGCCTTATCATTGGATACTTCATAAAATAATTAGCAAAACGTGTTTTGATTTATTTTTATTATTCTAAAAACTGAAAGCTTGGATGCCACTTTTTCGTTCATCATTTCATTTAGGGCTTTGAGTAAGAATGTAAGATTGAGGTGAAATTTACTTCCTTGAAGAAATACTAATTGCTTCTAACTTACGCTGGAATGATGTACCATGTTCCCTGATTGAGCAATGAGTGTATAAGTGGGAAGTAATTTATGCAATTATATAATACTTGATTTTCTTGTGATAGGTTGGTGCTGGCCTTCCTGTTATAGCTTCCTTAACTCGTATCCTATCTTCTGGAGATCCTGTCCATCACATCATTGGGAGTTTGAGTGGTATCAAATTCTTCAATGCATAATTTCTTTTATACACCAATACTATGTTTCTCCCAAGGATTTGTGGTATTAGTGAAATTCTTTGATCATATCTTTCTTATTCAGGCAATATTAATGTTTTCATCCTGTATGTTTGTTAAGGTACACTTGGGTACATAATGAGCGAAGTTGAAGAAGGAAAGCCTTTGAGCCAAGTTGTTAAAGTTGCTAAAAGCCTAGGCTACACAGAACCAGGTTTATAGTAATATTTCAATTAGTTATTTTTATTTAAAAAAATAACTTTACAAGTAGTATCTTTACATTTAATTCACGACATGAAAGAAATGAATCATTACTTGCTGTTAGGAAAAGGAAAACTACAGAATCATTCTTTTCAAATTAAGATGGCTTTTGTGGCCCCATCACTAAATATCTTTCCCTTTAGTTTTGTTCCTCGACCATGGTTGAGTGAGCAAGGCCATAATATTGCCAAGAAACCAGTCTCTGGATGAATCACTCGTCACAAGAGAACATTTAGTCTCTCCACAGTGTTAAAATTTTGATTTTATGAATGCTTGAATTTGCCAAGGACTGGGACATTACTACTCCGGTTGACACCCTCCATATTGGGTAGGGTAGCTAGTGATTTCCACTTACTCAACCCACCTTCCTTTTTCTAGCTTATTAGGTTTGTACTTTTAGATGGAGCTGATGTTCGAGTACAAAAAGATGTGCACTCGTGCAAACACTTGTTACAGTGTTGTACATTATATATCTATAATAAGAAAATTCAATGTACTTAACGAGTTTTATATAATGTCACTGTTGCAGATCCACGTGATGACCTCAGTGGTATGGATGTTGCAAGAAAGGTCTGTTTTTAATGCATGATTTGTGATATTTAGGGCCTGTGCTTAGTGCATGAGTTCTGTTGCCAAATTCTTTTATGTTATCGTTTAAACTTCAAACAATCTCATACCGTACTTCTCTGGAATTATGTATTGGTCCACAATAATCCATCACAAGAGATGTGAATGGAGATGTGGCAGGCAGAGAAGAAAAGCCGTCTCATTTGCGCAAGGAGCAGGGTGTACGAAGGAAAGTACGTGAATGAGGGAGGAATAGTTACATGTGCCAGAAGTTAATATTTTGTTGTAGGGAATATGTGATCTCTAGGAAGGCAATCTGTTAGAAGCATATATAGGGAAGTAGTATAACAAGAATAAGGAGGTAGTCATCTGGCTTTTTGTGGAGCGCTCCAGATATCTTGGAAGGCTGGAACTGTCGTGATTGCTTTTCTTTCATTCATTTTGTGCAAACACAGGAGGCTATCTTCTCTATTGCCATATCAAAATGTGTGACAATATATTTTCCTTGTTACATACACAAAATCATTTTTATGCATCAAGTGTTAGATATAGCAATGTTTTTTGTATAGAAGAAACAATGCCATTGATTAATGAAATAGAGGAAATCTCCAACCACCCTATTATTGGTGAATTACAAAAAAGAAATCCAATTGGAAATGAAAAAGAGGTGGGCTATAAAGAACAAAAGGGTGTTGATTCTTTCACCAAAAGACAGCAATGTTGATTTTTATAGCAATGTTGATGCCTGATGGTGTCTAAACTCTTAAAACATCAAATTAAGCTATTATCATGTTCTAATTCCTTATGGTCCCAATACTTGGAGATTGGACGTGGCTCTTCCATTTTATCACTGTTTTTGTCCTTTGATTAACAATGGCAGAAATCTGGTGCTCTGTTGGGTGTCATGTAGTCAAATTTTAGACCTTTGAGCAAATTATCTTGCAGTCTGGTCCTATAAGTTTTATCTGCTAACAGTTATGATGTAAACTCTGCATTGTTTCTTGCATTTTATGTTCTGCTAACTTATTTATGTTTATAAACAGGCTCTGATACTTGCTCGACTTCTTGGACAGCAGATCAACTTGAGTGATATTAAGGTCAGTTTTAGAAGTTCTATTCCTTCCTTTAGAGAACTTTGATGTTTTTATGGTTAAAATTCTCAAGTAATATTCTGAATTGAATTATGAAATACGTACACAATGTGTATCCATCTTTGAGAAATTTATATGGGCGTATACAAGTATACAACATCACAGTTTCATAAAAAAAAGTGTATAAGATATTGATGTTTCTCGTAGAAATAAATATGTCTACATGATTGTCTTTTATACCTATCCATTGTCCTGCCCTAATCGTAGTTCTCCATAGGTTGAAAGCTTGTTTCCAAAAGAAATGGGACCTGATGTTATGCCTATTAACGACTTCTTAGACAGTGGAGTTTTAGCTCTAGACAGTGACATTCAGGAGAGAGTTACCAAGGCTTCCTCAAGAGGAAATGTGTTACGTTATGCCTGTGTGATTGAAAGCTCGAGCTCAAGGTATTATTATTTGTAGATTTGATTTTGTCTTTTATGTTACAGGTATTTCATATGTTCTATTTTTCCCTGAGTAGAAAAAATCGTTATTTAACTATGAACTATGATTGTTTTATCCTCGTCTAATCTGCTAGATTGTTTAGAAGGAAACTGAAAGCAATCAAAAATGAAAGAGTTTAACTTTTATGTGGTTGAAAGCACCAATTAATTTGTTTTACATGCTTAAAGATTATTTACTACTTCCCTCTTCATTTCTGAACAAACTGCAAGGAAGTAGATATTGCTTTCTCACAAATTTGTTTTTGTGGCTATTGTCACATAGTTTGGTCTATCCTTGGGAACATGCTTCCTTCGAATCAGTTCCTAGTTAATTCTATCTATCAGAAAAGGAGGGTCTTGCTGTCATTTCTTCAACAATTACTATAGATAATGGTAGAGAAGTACACATTCATGCGGTCATGTTATCTTTTGGAAAAATATTTGTTAGGTGTGAAGTTGGACTTCAAGAGTTTCCCAAAGATTCTCCATTGGGAAGATTGAAAGGAAGTGACAATGTGGTAAGTACCTTCCTCCCCACCCCACCCCACACTCACATGCATGAACGCACACACGCACAAAGATCACATCCCAGCCCTAGAATTACCATGAGTTGATTAATTTTTTTGTATACTGTTTTAAGTTAAATGAAAATGATATAGACGTGGGAAATGGGTAAGACACAATATACGAGGCTTATACTTCCTAATATACTATGGTTATGGAAGGTTAAGATGTGCATCACATTAGACTACGTTTTAACCAGAATTGGAAGCCTTCAGGATGTGCATCGCTTTAGACTAATCTTTTTGAATGTCAAATGCTTAGCTACAAAAAATCATGTAAGCATTATGCAAAAAAAATGAGGAAAAGGAACACCTTTCCCTTTTTCTATCATGGTCTTCATTGTATACTCCATTATTGCATTTCCTTGTATAAAATGTGCATAGAAATTGATTCACTCGTTCCGTGCAATTACAGCTGGTGGTATACAGCCGATGCTACAACGAACGACCTCTTGTCATTCAAGGCGCTGGGGCGGGTAATGACACGACAGCAGCTGGTGTCTTAGCTGATATCCTTGACCTTCAGGATTTATTTTGAAGGGATATCTGTGTCTACTTGGATGAACCCTGAAGTTAAAAGCTCCATGTGAGATGCGACACTCATCCTTGAAAGCAATTATTTTCATTGTTACTTCAGTTTGCTGATAGCTCAAGAGAGAGGTTACTAACTGAAATTTCAGTTTTTGCAGTGGGAGTTCGTTTCCCCAACAAATGACCTGTGGTTCTCTTTCAATTCAAGAATGCTGGAGGAACTTAGGATTGCAAATTTTGTAAGAAATATTGTTGGTGAAACTTTTGGTTTGGAACCTGCTGTTTCAGCCATTCGGCACTGAGAATTTGATGAGTTAAAACTTTACAAATTACTTAGGAAATAGTATCAAAATTCTTGATTCAATGTGTAATGAAGCTTGTTTTAGTTCAAACAAGGGTTGAGGGTGGATGGTTTATTATTATTGGCATGA CTACGGATCACTGTGATTACTATCAGCTTAGAGAAGGCCTACAGGATTTGAAGGTCATCACAAAAATTTTCTCAAAAATTGGGAGGAGATTAGACATCCATTGACAAGAGAATGAAGACCATCCCTTTGATTCTGATGGGCTGCGGCGGTGTTGGCCGTCAGCTCCTTCACCACATCGTATCCTGCCGACCACTTCACGCTAAACAGGGGGTCCACTTGCGGGTTATAGGGGTTGGTGATAGTAGATCACTAGTTGTTGCATCTGATGTACTCACAACCGAGTTAAATGACAAGATTTTATTGGAAACTTGCCGTATCAAGTTGGGCGGTGGCTCTTTATCCGATCTTAGTAATTTTGGTGAGAGAAAACTATTCTTGAACACAGAAGCGACTAAAAAAGTCATTGATATTGCGACTCTTCTTGGTAAATCGACAGGTCTCACCTGTGTTGATTGCTCTGCCAGTTCTGACACTGTTAATCTGTTAAAGCAAGTGGTTGACTTGGGTTGTTGCATTGTCTTGGCAAATAAGAAGCCTTTGACTTCTACAATCGAGGATTTTAACAAACTGATTATGCACCCTCGTCGTATTCGACATGAATCAACTGTTGGTGCTGGCCTTCCTGTTATAGCTTCCTTAACTCGTATCCTATCTTCTGGAGATCCTGTCCATCACATCATTGGGAGTTTGAGTGGTACACTTGGGTACATAATGAGCGAAGTTGAAGAAGGAAAGCCTTTGAGCCAAGTTGTTAAAGTTGCTAAAAGCCTAGGCTACACAGAACCAGATCCACGTGATGACCTCAGTGGTATGGATGTTGCAAGAAAGGCTCTGATACTTGCTCGACTTCTTGGACAGCAGATCAACTTGAGTGATATTAAGGTTGAAAGCTTGTTTCCAAAAGAAATGGGACCTGATGTTATGCCTATTAACGACTTCTTAGACAGTGGAGTTTTAGCTCTAGACAGTGACATTCAGGAGAGAGTTACCAAGGCTTCCTCAAGAGGAAATGTGTTACGTTATGCCTGTGTGATTGAAAGCTCGAGCTCAAGGTGTGAAGTTGGACTTCAAGAGTTTCCCAAAGATTCTCCATTGGGAAGATTGAAAGGAAGTGACAATGTGCTGGTGGTATACAGCCGATGCTACAACGAACGACCTCTTGTCATTCAAGGCGCTGGGGCGGGTAATGACACGACAGCAGCTGGTGTCTTAGCTGATATCCTTGACCTTCAGGATTTATTTTGAAGGGATATCTGTGTCTACTTGGATGAACCCTGAAGTTAAAAGCTCCATTTTTTGCAGTGGGAGTTCGTTTCCCCAACAAATGACCTGTGGTTCTCTTTCAATTCAAGAATGCTGGAGGAACTTAGGATTGCAAATTTTGTAAGAAATATTGTTGGTGAAACTTTTGGTTTGGAACCTGCTGTTTCAGCCATTCGGCACTGAGAATTTGATGAGTTAAAACTTTACAAATTACTTAGGAAATAGTATCAAAATTCTTGATTCAATGTGTAATGAAGCTTGTTTTAGTTCAAACAAGGGTTGAGGGTGGATGGTTTATTATTATTGGCATGA ATGAAGACCATCCCTTTGATTCTGATGGGCTGCGGCGGTGTTGGCCGTCAGCTCCTTCACCACATCGTATCCTGCCGACCACTTCACGCTAAACAGGGGGTCCACTTGCGGGTTATAGGGGTTGGTGATAGTAGATCACTAGTTGTTGCATCTGATGTACTCACAACCGAGTTAAATGACAAGATTTTATTGGAAACTTGCCGTATCAAGTTGGGCGGTGGCTCTTTATCCGATCTTAGTAATTTTGGTGAGAGAAAACTATTCTTGAACACAGAAGCGACTAAAAAAGTCATTGATATTGCGACTCTTCTTGGTAAATCGACAGGTCTCACCTGTGTTGATTGCTCTGCCAGTTCTGACACTGTTAATCTGTTAAAGCAAGTGGTTGACTTGGGTTGTTGCATTGTCTTGGCAAATAAGAAGCCTTTGACTTCTACAATCGAGGATTTTAACAAACTGATTATGCACCCTCGTCGTATTCGACATGAATCAACTGTTGGTGCTGGCCTTCCTGTTATAGCTTCCTTAACTCGTATCCTATCTTCTGGAGATCCTGTCCATCACATCATTGGGAGTTTGAGTGGTACACTTGGGTACATAATGAGCGAAGTTGAAGAAGGAAAGCCTTTGAGCCAAGTTGTTAAAGTTGCTAAAAGCCTAGGCTACACAGAACCAGATCCACGTGATGACCTCAGTGGTATGGATGTTGCAAGAAAGGCTCTGATACTTGCTCGACTTCTTGGACAGCAGATCAACTTGAGTGATATTAAGGTTGAAAGCTTGTTTCCAAAAGAAATGGGACCTGATGTTATGCCTATTAACGACTTCTTAGACAGTGGAGTTTTAGCTCTAGACAGTGACATTCAGGAGAGAGTTACCAAGGCTTCCTCAAGAGGAAATGTGTTACGTTATGCCTGTGTGATTGAAAGCTCGAGCTCAAGGTGTGAAGTTGGACTTCAAGAGTTTCCCAAAGATTCTCCATTGGGAAGATTGAAAGGAAGTGACAATGTGCTGGTGGTATACAGCCGATGCTACAACGAACGACCTCTTGTCATTCAAGGCGCTGGGGCGGGTAATGACACGACAGCAGCTGGTGTCTTAGCTGATATCCTTGACCTTCAGGATTTATTTTGA MKTIPLILMGCGGVGRQLLHHIVSCRPLHAKQGVHLRVIGVGDSRSLVVASDVLTTELNDKILLETCRIKLGGGSLSDLSNFGERKLFLNTEATKKVIDIATLLGKSTGLTCVDCSASSDTVNLLKQVVDLGCCIVLANKKPLTSTIEDFNKLIMHPRRIRHESTVGAGLPVIASLTRILSSGDPVHHIIGSLSGTLGYIMSEVEEGKPLSQVVKVAKSLGYTEPDPRDDLSGMDVARKALILARLLGQQINLSDIKVESLFPKEMGPDVMPINDFLDSGVLALDSDIQERVTKASSRGNVLRYACVIESSSSRCEVGLQEFPKDSPLGRLKGSDNVLVVYSRCYNERPLVIQGAGAGNDTTAAGVLADILDLQDLF*
BLAST of Cucsa.142670.1 vs. Swiss-Prot
Match: AKH_HAEIN (Bifunctional aspartokinase/homoserine dehydrogenase OS=Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd) GN=thrA PE=3 SV=1) HSP 1 Score: 203.0 bits (515), Expect = 5.9e-51 Identity = 130/374 (34.76%), Postives = 202/374 (54.01%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. Swiss-Prot
Match: AK1H_SERMA (Bifunctional aspartokinase/homoserine dehydrogenase 1 OS=Serratia marcescens GN=thrA PE=3 SV=1) HSP 1 Score: 199.1 bits (505), Expect = 8.5e-50 Identity = 136/375 (36.27%), Postives = 200/375 (53.33%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. Swiss-Prot
Match: AK1H_ECOLI (Bifunctional aspartokinase/homoserine dehydrogenase 1 OS=Escherichia coli (strain K12) GN=thrA PE=1 SV=2) HSP 1 Score: 194.9 bits (494), Expect = 1.6e-48 Identity = 131/375 (34.93%), Postives = 196/375 (52.27%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. Swiss-Prot
Match: AKH_BUCBP (Bifunctional aspartokinase/homoserine dehydrogenase OS=Buchnera aphidicola subsp. Baizongia pistaciae (strain Bp) GN=thrA PE=3 SV=1) HSP 1 Score: 194.1 bits (492), Expect = 2.7e-48 Identity = 121/373 (32.44%), Postives = 195/373 (52.28%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. Swiss-Prot
Match: AKH_BUCAP (Bifunctional aspartokinase/homoserine dehydrogenase OS=Buchnera aphidicola subsp. Schizaphis graminum (strain Sg) GN=thrA PE=3 SV=1) HSP 1 Score: 188.7 bits (478), Expect = 1.1e-46 Identity = 126/378 (33.33%), Postives = 203/378 (53.70%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. TrEMBL
Match: A0A0A0LXA2_CUCSA (Homoserine dehydrogenase OS=Cucumis sativus GN=Csa_1G600930 PE=3 SV=1) HSP 1 Score: 737.3 bits (1902), Expect = 9.6e-210 Identity = 377/377 (100.00%), Postives = 377/377 (100.00%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. TrEMBL
Match: B9MYR6_POPTR (Homoserine dehydrogenase OS=Populus trichocarpa GN=POPTR_0004s20700g PE=3 SV=1) HSP 1 Score: 576.6 bits (1485), Expect = 2.2e-161 Identity = 285/377 (75.60%), Postives = 331/377 (87.80%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. TrEMBL
Match: B9S6K6_RICCO (Homoserine dehydrogenase OS=Ricinus communis GN=RCOM_1108890 PE=3 SV=1) HSP 1 Score: 575.5 bits (1482), Expect = 4.8e-161 Identity = 289/377 (76.66%), Postives = 328/377 (87.00%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. TrEMBL
Match: A0A067LEG8_JATCU (Homoserine dehydrogenase OS=Jatropha curcas GN=JCGZ_23847 PE=3 SV=1) HSP 1 Score: 571.2 bits (1471), Expect = 9.1e-160 Identity = 287/377 (76.13%), Postives = 328/377 (87.00%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. TrEMBL
Match: A0A0D2MNK2_GOSRA (Homoserine dehydrogenase OS=Gossypium raimondii GN=B456_003G140000 PE=3 SV=1) HSP 1 Score: 567.8 bits (1462), Expect = 1.0e-158 Identity = 277/377 (73.47%), Postives = 332/377 (88.06%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. TAIR10
Match: AT5G21060.2 (AT5G21060.2 Glyceraldehyde-3-phosphate dehydrogenase-like family protein) HSP 1 Score: 517.3 bits (1331), Expect = 7.9e-147 Identity = 260/379 (68.60%), Postives = 313/379 (82.59%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. TAIR10
Match: AT4G19710.2 (AT4G19710.2 aspartate kinase-homoserine dehydrogenase ii) HSP 1 Score: 177.9 bits (450), Expect = 1.1e-44 Identity = 117/376 (31.12%), Postives = 200/376 (53.19%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. TAIR10
Match: AT1G31230.1 (AT1G31230.1 aspartate kinase-homoserine dehydrogenase i) HSP 1 Score: 175.6 bits (444), Expect = 5.6e-44 Identity = 122/381 (32.02%), Postives = 196/381 (51.44%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. NCBI nr
Match: gi|449452676|ref|XP_004144085.1| (PREDICTED: homoserine dehydrogenase isoform X1 [Cucumis sativus]) HSP 1 Score: 737.3 bits (1902), Expect = 1.4e-209 Identity = 377/377 (100.00%), Postives = 377/377 (100.00%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. NCBI nr
Match: gi|659100400|ref|XP_008451080.1| (PREDICTED: homoserine dehydrogenase isoform X1 [Cucumis melo]) HSP 1 Score: 718.4 bits (1853), Expect = 6.6e-204 Identity = 367/377 (97.35%), Postives = 370/377 (98.14%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. NCBI nr
Match: gi|778663449|ref|XP_011660087.1| (PREDICTED: homoserine dehydrogenase isoform X2 [Cucumis sativus]) HSP 1 Score: 609.8 bits (1571), Expect = 3.3e-171 Identity = 313/313 (100.00%), Postives = 313/313 (100.00%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. NCBI nr
Match: gi|659100404|ref|XP_008451082.1| (PREDICTED: homoserine dehydrogenase isoform X2 [Cucumis melo]) HSP 1 Score: 592.4 bits (1526), Expect = 5.5e-166 Identity = 304/313 (97.12%), Postives = 306/313 (97.76%), Query Frame = 1
BLAST of Cucsa.142670.1 vs. NCBI nr
Match: gi|645265059|ref|XP_008237972.1| (PREDICTED: bifunctional aspartokinase/homoserine dehydrogenase 2, chloroplastic [Prunus mume]) HSP 1 Score: 581.6 bits (1498), Expect = 9.7e-163 Identity = 286/376 (76.06%), Postives = 331/376 (88.03%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this mRNA:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
Analysis Name: InterPro Annotations of cucumber (Gy14)
Date Performed: 2017-01-17
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