Cucsa.248950 (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.AACTCGCTTGCTCCAATTTTGCTCGCAGACACTGTGCTCAAATTTCCCTTCTCTTTGTTCCTGAATTCCGCAGTTGCTTGAAACTAAGTCATCCATGGCTACCGAGATGGATATAGAGCATAGGGAAACAACCAACAATGTCATGATCCTCTTGACGGACCCCGAAGGCACTCCTTTGGGAGCTCCCATGTATCTTCCCCAAAATGCAGGGCCTCAGCAACTTCAGCAGATGGTCAATAAGCTACTCAGCAATGTAAGCTTCGTTAACACCAACCTTTTCTTATTAAGTTTCGAGGAAACTGGCTCTTTTTTTTTTAAAAAAAAATTGTTTGATCGTCGATATTATAATCTTTCACTAATTGTGGAACTGTTTTTTTTATTCAAAGTGATAATTATGGATAGAAGAAATGGGCATTTGTAATAACCCAATTGGTTATAACTTCTTTTAAACAGAAAGAAACCGATTAATAATTTTCTAACAGGTTTCGTAACCTTTATTAGATAACATCCTCCCTCAAATTTATGACACTTGAGTCATAAGTTTGGATCGCAAAAAATAAAAATGTTTACAAGTCAATGGTTTTGTAAGAATGTAATCCAGTTGTAATTGTGTTGGAACATGTTGAAGGCATGTCTTTTCGAACGATTTTTTCTCTTATAAAATGAAAATAAACTTTTATATGCGTTGTTCTTCCATGAAAAACTGGATCGTGAGCCAACTGAATTTTTGATTTATTATCATATCAAAGAAGAGGACGATGGTTACCAAATATTTGTAAGTCACAGAGTAGTAGACGTATCCAATAGAGATCGGCAGCAGTAAAGGCTAAAAAGCACAATATTCAGCTTCTGGATACTGTACTTTGTTTCTTATCAACCCAAGAGATTGGATTTTCACCAAGAAAAATAGCAAACCCATTTGTTGACCGTTGATCTAATGTGTTGCCTGCCCAATCTGAATCTGAAAATGCATTTATGTTCAAACCAGTTGAAAATTTCTTGAACAGTAGACCATGAGTTGATGTTCCAGCAAGGTAAGAAGAACTCTTTTGGCTGCTGTTAGGTGACTCAGGTTTGGAGAGTGCATATACTGAGATAAATGACTGACTGTATAAGCAATATCAAGTCTAGTAAATGTCAAATACTGCAATACTACAATCATGGTATGATATGCTTTGTAGCAGTGATATCAGTTGAGTGTGAGAGAGATATAGGAGTGTTGCACGTTTCACAACCAGTCATACTGAAACGTTGAAGGACATCTTTTGTATATTTTGTCTGTGTAACAGATATAACGGCTGTAGTTTGTAGTACTTCAAGTCCCAAGTCAGTCATATCAAATTGTAGTTTTAATTGACTCAACAGAGTAGCTGTAATGGGCATCATTTCCTGTCACAATTATGTCGTGAACATATAGAAGAAGATAGGTAATAGATGGTCCAACCTTTCAAATGAATAGAGATGAATCAGCCATTGAAGCAACAAATCCCAAAGTTCACAAATGAGAGGTAAAGCATTCGAACCAAGCCCTTGGAGGTTGTTTGAGACCAAATAGAGACTTTTGCAGCTTGCACACAAGATTTGGTTGTTGAACAAATCCTTGAGGTTGTTGCAAAGAGACTTCTTCTTTAAGTTTTCCACGTAGAAAGACATTTTTGACATCATGTTGCCTTGAGTCCCATCCAAGATTTGCAGCCATGAAAGGGAATTTCTTCTCTTTTGGTCTGTTTAGGAATAGTGGATTCTTCAGCTTTCATCAGGCTATGAAGTTCAGAGAAGGAAACTGATTGTGAACGAGTTCTCATTGACGTGCAAAAAGTATTATATTCATCAGGGAGACCATTCAACGCATAAATTAGCAGGTCTTCATCAAGAGTAGTAATCGAAACATTTGTCAGTTCATCTTTAATTTCTTTAATACACTTAACATACAAATCAATGGATTCATCAGTTTTCTTCGCGACGGACTGTATTTGTCTTCAGCGTAACGATATTTGATTGAGAATTGGAAGAATAATGTTTTTTGAGTGTAGTCCATAACTCATAGGACGAAGTGCATCAAAAAATATATGCTAGGGCTTCTCAGGAGATAGTGTTACATTGACTAACGTCATGAGAGCTTATCCTCAGCAATCCAATCATCATATATTGGATTCGCAACCATAGAAGTAGTGGAGGTTGATGATGATGGTTTGCCAGAAGTAGTTGCCTGGACAGCAATCCTGACGGTCCGAGCTATATTCGAACCATCAACGAACTCAGAGTTCGTATGCTTTCAACATGGAGAAGAATTGAAACTTCCAAAGGACATAGTTGGATGAATCAAGTTGTATAGAGGTGAGACTGCAGCGTTGGTGAGAATGAATAGAGGAGACTAGATTTCTCTTGGTTGAGTATCAGACGTGGAAGCCATAAACAGAATGCCCAGGTCGAAAAAAGATCTTATACCGTATAATCTTTCACTAATTGTGAAAATGTTATTTATTCATAGGGATAATTATGGATACAAGAAATGGGCATTTATAATAACCCTTTGGTTATAACTTCTTTTGAACAGAAAGTAACTGACTCGTAACCTTCTAACCTTCCAATAGGTTTCTTAACCCCTATTAGATAACAGATACAAGGTGCTTTATTGAATTGGGACTAGCTGAATTTTGAATATCAAGCGGTCTGGAATGTTTTGAATTGGTTTTAAGAGGTTCCTATTTTTGGGTCGGAGGAATGTGAATTATGAATTAAAAAGTTCTCAGAGGTCACAACAATAGTTTGATAATTTAAATTTCTCTGGAACGATGTAATTGGTAGGTTGCTAGTGGGGAAATATTTTCCCTTTCTTATTCCTAAAATGAAACTAGTTGCACATATTTTCGAAGTATTTTAGCTTTTGATAATTCAACTTCTCGTAATCATCAAGGACTTAACCCTTCTCTATCTTCATTATATATTTATTCATTTATGGAAAGCCAACTTTCATAAAGAAAAAGAAAAGAAAATAAAGAACGAAAAAGTAGAAGAGCATCTAAAAAAACTAAGGCCACAAGAGGAGTTTAATGAGATAAAAGGACTCTAGTGAAGAAGAATGAAGACCAAGATAATAATTACATAAATGACTTTGTCATTGATGCCAAAGATTTTGGTGTTGTTTGATACCAAAATAATAGATTGTTTTGAAATTGTTTAGGAGGAGAAGCTACCGTATGCTTTTTACATATCTGATCAGGAGCTTACTGTTTCACTTGGGGCCTACTTAGAGAAGAACAAAGGTAATTGATTGCTTGAAAAAGCGTTTTCCAACAAAGTTATCCATCGATTACATTCAATGGTGGTAAAATTCATTTTTATGGCTCGTGGGCTTAGTTTCTTCTCTTGAACATATCTGCAGTTTCTGTTGAAAAGGTGCTTACTGTAGTTTATCAGCCACAAGCAGTATTCCGTATACGTCCTGTTAGTCGATGTTCGGCAACAATTTCTGGTACGTTTTGTGTTTCCCTATTTTTTAAGTTATATATGGTTATTGTTGTGAAGGTTTAATCAGCCCATTGTACTTTTCTTCAGGTCATGCTGAAGCTGTTCTTTCTGTTTCTTTTAGCCCTGATGGACGCCAGTTGGCAAGTGGTTCAGGTGACACTACAGTTCGACTATGGGACCTTAATACGCAAACACCGTTGTTCACCTGTACAGGTAAGAAACACATCTATGCAGCTAAGTTGTTAGCCTGATATTGAAGCTTTTGAATATACTATATCAAAACTTAATTTTATTATTAATTTTATTCAATGCAAATCTTCCTTCAAGGTATATGATGTATATATGTATATATTTGTCATTCCTAGAGGGTAAAAGATGTCTACTTTGTATCATAGTGGTTCATATGTGGATTTTTGTTATGGCACTGCCCTTGGTTTGAAAAATGCCATATTTTTGTTTTCGTTCTTTTTTGTGTGTTTTCTTTTTCTTTTTCTTTTCATTTTTGAACTAGTTTGCTTTGCCATTTATTAATATCCATAGTTTCTACACATCAAGCTGTAGTCAGGAAGTTTTTCCTTTCTCCCAGGGCATAAAAATTGGGTTCTTTCTATTGCTTGGTCTCCTGATGGGAAGCATCTTGTAAGCGGGAGCAAAGCTGGGGAACTTTTTTGCTGGGATCCGCTGACGGGGAAGCCATTGGGCAATCCACTCACTGTAAAGACTTTTCCCATAATTTACTGTACTTTTGAAATGTTTGTTAAGTTTGATGACTATTTTGCCCAACCGAGAGTCAAACCAGACAAACCAAAATCCGATTTCTAAGTTTTATAGTTGTATGGTGTGCTATTTTGTTCAAGAGTATTTTTGTTCTGGAATTTGATATATTTTTTCTATATTTCACCAGTGGATTTCAAGTTATAAAGAAAGATCGTGGAAATAATTCCATTGCATTGCCCAACTTTTATTTATTGATGTATTTCTGTGCAGCTAAGAAATTTTCTATTTTCTTCTTTGTTTGACCATTGGCTAGCATGTCCATGTCTGACACTTGAACGCTCCAACACTTATTAGCACAATGGATATCCTAAATTTGTTAATCACATATCAAACACTTGACTTTGAATAAATTTTGAGAGTTAAATGCCTGAAAATCATTTTTAAACATATAAATGTATTGAACCTATTGACTTTGAAGTTTATTTTGTATAAAAATGATATTTATTTTAAAGAATGTATATTATAATAAATGTTTCCTTGTATTGATCGTGTCCTAGGTTTTTTACATATGAATTGTCAAAAATTCGTGCTTGTACTCATGGCGGTGTGTCATATTTATGTTTTATATCCATGTCCGTGCTTCTTAACTTTGCAAGGTTTCAAACTGTTCCAATATTATTGTTTGAAGTCACTTCAACCTTTTATTCTTTGAGTAAACTTGTTTGTGCAACCCTAGGTACCCAGTTACTTTCAAGTTTTCTGTCTGGAGTTAAAAATTATGTCATATTGAAGCATCTATGTCTTGAAGCAATAAACTCTGGGGGCATGTTCATAGATTGTATAGTAGGAGCAGTAGTTTTCAACTGCATGCTTTTATTATTGTATGAATATTTAATCGTATTCATGTTTCCACTCTTTAAATGTTCTAATGGTTGTAGGGCATGTTTACACCGTGGTTAGAATCAAACTTTGGTGGCCACCTATCTGGAATAAAATCCTACATGTTTTCTTGACAACAAAATATTGTAGAGTATGGTGGTTGTCCTATGAGATTAGCCCAAGGGTGAGCAGGATTAGGCACTTGTAGATATCAAAAAATTTGTAGGACACTAAGTTTCAAATTTTCAACTCATTGTTGCTTTTTGTCTTTTCTATTCATATTGTTAGATGCTGTTGGTTGTTAGTTAGCAAAACAATTTATATAAGCTCTATGGTAAACAGTGCTTAGAAGTTTGATTATAGTTGGAATGGTATACACTGTAAATGTTGAAATGCTTGAGCCACAGGAATTTTTTTTGTAACTAAAACCTCCTCATAATTTAATGATCATTATTGATTGGAAGGGCATTCTTCTGTAGTTCTTTGGGGAGGGTTGTGTACTAGAGACTCTTAGTTTGTTCTCCTTTTTGTTAATAGACTATTACTCCGTTTCTTTTCCTACAACCAGAAGAGATTGGTTCTATTTTCTTATTGACAAGGAAAAACCTAAAATCATGGTGGCATTTTTCATCACTCTTTGATGCCTAAACGATGATTAAATATAAATTATTTTTATATTTATAGGTTTATTGGGGTGAAATAATTAATTATGTTTGAAACTCATGTTATAGGGCCACAAGAAATGGATTACTGGTATTTCATGGGAGCCTTTGCATTTAAGTGCTCCATGCCGTCGCTTTGTGAGTTCTAGCAAGGATGGTGATGCACGCATATGGGATGTTTCTTTGAAAAAGTGTGTTATATGTCTCAGTGGTCATACTCTTGCAATAACCTGCGTCAAATGGGGTGGAGATGGAGTTATATACACAGGGTATGCTGATGTTCCTTTTTTTCATTTTTTCTCAATGGAAGTGGTTGTTTCTATAGAAAAAAGGGTATGCTGATGTTCCTTATTTCTCTATGTTACTTAAGAAAATAAAATGAAAAATGAAGTGAGAAAGTGAGAGGGAGGAGCCACTATGGAAGCATTCTAGCATTCTTGATGCCATTGAGTTTGAACATCTACGTATAGTGTACTTGAGCCTGATCTACCTTCTTACATCTGATAGCAAACAAAATCACTTCACACCTGTGCATGCTTAGAGTCAGTTTGATAACTGACCATGGACTAAATTTGTACTACTAAAGGCTAAAATGTCTGCTTCTTTCAGTCTGTAGAAATGCTAACTTTTGGTACCATTCATTGCCTATGCAGTCAGCAATTGAGCTACAGTTAATTTTTCTGAAGACTGATCGCATTTCCAACTTTTCTTGTATTCTGAAATCAAAATGTTTTTTCTCAAATGCCCCAGTTCTCAGGATTGTACTATTAAGGTTTGGGAAACTAAGCAAGGAAAACTAATACGTGAATTGAAGGTATGCTGCATAACACTTTCTGTACTATGAACTTTTTAAATTATTATTTATTATTATTCTGGGTTAAAATACGTTAGGAGTTATTCAATCCTTTTGGGATCATCTTTGTGAGTTTCTGAAGGGCTATTTTGTTGCTTTACGAGTCAAAAAATCTAACAGTTGCGATACAGAGTTCACTTTTATTTATTATAAAGAAAAATGAAAAAAATTGTATTTATTATTTAGTGATAAGCCCTCTCAATTTTTAACATTTTCCAAACGATGTTTGAGAATTTGATTTGGACCTATTTTGTTTTTCATAATGAGTAGTTCAGTTCCTCATACTGCACCTTTTTTTCTATCTGGTATTGTGACAGGGACATGGTCATTGGGTTAACTCTCTTGCACTAAGCACTGAATATGTTCTCCGCACAGGAGCTTTTGATCATACAGGGAAACAGTTCTCTTCCCCAGAGGAAATGAAGAAGGTAAGATGATTTGGAGTGTTCTGATTCTTCTTAGTGTCCTTTCTCATACTAAACGAAACAATTTTGTATAAACACAATTTTATGCAAATGATGGTTTTTTTTTTACATGGAAATGAAAACTTTTGTGAAGCCTTTTGAGAGGGTGTGAGTGTGAGTGAGGTGTGGTCCAGCATTAGGTTCAATATATTTGTAATTATCCATTAGGTCTTATTTTGTTGGATTGGAAGCCGTTTTTGTAGGCTGTCTCCCTTTCTTGTGGGCTCTCCTTATGCGTATGCATGTGTCATTTTTCATTTCTTCTCATTGAAACTTCAGCTGTTCATAACACATATGTATAGAATCAGATTATTAGTGCAATCTTTTAAATTTATTCTTAAAAATCTTCAGGACCAAAAACTCTGGGGCCAAATATACATGTTATTCAAAACTCTATTTCTCAAACAGGGTCTTAGTTTTCATTTTTTTAAAAAAATAAAAATTGACTACAGTTTCAAAAGTACTTTCAGGAAGTGGAAAAACATGCATACAAAGTTGTTCTTCGTCCTATCAACAAAAGGCATACACACATGATTTTTAAGAAACTGAACTAAACAAATTAGTTATTCTTTTTAAAAAAATTTAAAAACCAAAATAGTCACTAAATGGAGTCATTGGTTTCTAATCAGTTAACTATCTATTTCATTTTGCACTTTCTTCTTCCATGATTCGCAGGTTGCTTTAGAAAGGTATAATAAGATGAAAGGCAGTGCTCCGGAAAGATTGGTTTCAGGATCTGATGATTTTACTATGTTTCTATGGGAACCTGCAGTTAGCAAGCAACCTAAGATACGTATGACAGGCCATCAACAGGTATATTTCTTTGTAAATGTTTTTCTTCCTGGAATATCATGCATCACACATGAATTGTGGCATTCCATAGTCATCCTGCTTCTTATCAACTGCATTTTCACCATGTTACCATGTTTCTAGTCTTTTGTGAACTAGATGCCACAAGAACTCTTCATAAACATTACCATTTGGACATGGTCATTTGTCCTAGTTCTTATTTCTAATGGGTGAAATGGAGTAGCCGAAACAATTTTTTGTAGTGACACCTGTCAGCATTCTCTCTATCAAACTAGATCGGAAGGTCTTCTTGTAATTTTTGTATCAGGGAGGGGATTCCTTGCCCCCTTTTCCTTTAGGTTCTCTGAATTTTTTGGAGGAATAAAGTTCTGCTGATCTTTTCTTGTAAAGAAAAAGGAAAAGAAAAGAAAAAGAATAAGGGTATGATGTATTTTTTTGGGACTGTTCATTTGATCGACTAGTCAAGATGAAATTTTTTGTACACCTCCCATCATTGATTTGCTTGAATCCTTAGCTAAGTTTGTCAAATTGTAAAGTCTCTACCGTTGAAGGAAAGAAAGCTACGGGAAAAGTTTTGAAGTGAAAATAATTGACTTTAAGTCATATCATTAGCATACTTTCCTATCGAAATAATATCCCAAGCATACTCGAATTAACATGTTCATTAGATGTTTATCCATGTAAGTCAAACGGATATGCTTGTATGAGTATGCAATTTAAAAAGTTTGTGCATTGAGCCTTTTTGGAGTTCTCATTCATAAGTGAAGCATAAACTTCTTGCGTACTTTCAGCTTGTGAATCATGTTTATTTCTCACCCGATGGACAATGGGTGGCCAGTGCATCCTTTGATAAGTCTGTGAAACTGTGGAATGGCATTACCGGAAAATTTGTTGCTGCTTTTCGGGGTCACGTAGGACCTGTTTATCAAATCAGGTTTGTTTCATTTAATTTCTGTGCTTCAATTAACCATTCAATTTACTGAATTTATTTATTGTTTTCCCCTTGCAGTTGGTCTGCTGATAGTAGGCTTCTTTTGAGCGGCAGCAAAGACTCCACCCTGAAGGTATTTTGGATGTATATGTTTGCCCTAATCCGTCTAGTGTTTCCTAAAATGAATGCATTGAGTTGAGTTGGTGCGTGATGCATGTTCTGTTTAGATGCAAATGCAAACTGTAAATGAATCAAATGGTTGAAGTTGTATCTCTATCCTCTAGGGACTGGTGGTTTTACAAGTGCACTGGAGATTTACTGTTTTTTTTACAGTTGTCTGCGTGTTTTGTGGAATTTTTCCATACTATTTTAGGCTAAAAGTTGATTTCTATGGTTTGCGTTTTGTGTCTCAAGGAGTTTGCTCCGTACTACTTTAGGCTAAATGTTGATTTCTATTTGTCTAGATTTGGGATATCAGAACACACAAGTTGAAAGAGGATCTTCCAGGCCATGCGGATGAGGTATGGTTCCATCATATTGTTAGACACATCGTGGTTCCCCTTAATGCATTCCTCTCATCACCATATTCTAAAGTTAGGTCTTGATTTTGTGCAGGTTTTTGCTGTTGATTGGAGTCCTGATGGTGAGAAGGTGGCTTCTGGTGGAAAGGATAAAGTATTAAAGCTATGGATGGGCTAGGGGATAGCTGAGGGTGCTAATTCAATTGTAATTGTGGAAGTCGGTAAAAATATGTCACTGAATGTATGCGTCACAATCATACTGCCAAAGGATATAGGTGTTGAATGATATAAAGGCAAGCAAAAGGGATGTGGATGGAAAGCAGAACCGGCATACAGGTTGGGTTTTGCACTAACATTTTGGTTCTGCTGTGGCTGCTGATCTTGAGCAGGATTTGGGGCTGGGTCTCGACCATTATTATTGGCTCACTCTCTTCTTTGCACGACTGCTGCAGAGTGCAGAAACTGGAGAATATGCAGTACATGACATGATATCCTAATCTTTGTCTTGGCTGGTTTGTCATATTCTACAAGTTTGTGTTGTGTTAACATATCCACCAGTATTTGTAATTTTCTTTTTCCATTGCATATTATGTCCTTTTGACTAGTAATGGAATAGATGCCAATTTATACAATAAATTGTTAGCTGTCACCATTTGGGATGTAGATTTTTATTCTCTGCAAATGGTATTTTTTGAACGATGAAGCTACTGAAATTTGTATTACTGCAACCCGAATCAGTTAATGTTAGTTGAGTTTTGTTGAGGAA AACTCGCTTGCTCCAATTTTGCTCGCAGACACTGTGCTCAAATTTCCCTTCTCTTTGTTCCTGAATTCCGCAGTTGCTTGAAACTAAGTCATCCATGGCTACCGAGATGGATATAGAGCATAGGGAAACAACCAACAATGTCATGATCCTCTTGACGGACCCCGAAGGCACTCCTTTGGGAGCTCCCATGTATCTTCCCCAAAATGCAGGGCCTCAGCAACTTCAGCAGATGGTCAATAAGCTACTCAGCAATGAGGAGAAGCTACCGTATGCTTTTTACATATCTGATCAGGAGCTTACTGTTTCACTTGGGGCCTACTTAGAGAAGAACAAAGTTTCTGTTGAAAAGGTGCTTACTGTAGTTTATCAGCCACAAGCAGTATTCCGTATACGTCCTGTTAGTCGATGTTCGGCAACAATTTCTGGTCATGCTGAAGCTGTTCTTTCTGTTTCTTTTAGCCCTGATGGACGCCAGTTGGCAAGTGGTTCAGGTGACACTACAGTTCGACTATGGGACCTTAATACGCAAACACCGTTGTTCACCTGTACAGGGCATAAAAATTGGGTTCTTTCTATTGCTTGGTCTCCTGATGGGAAGCATCTTGTAAGCGGGAGCAAAGCTGGGGAACTTTTTTGCTGGGATCCGCTGACGGGGAAGCCATTGGGCAATCCACTCACTGGCCACAAGAAATGGATTACTGGTATTTCATGGGAGCCTTTGCATTTAAGTGCTCCATGCCGTCGCTTTGTGAGTTCTAGCAAGGATGGTGATGCACGCATATGGGATGTTTCTTTGAAAAAGTGTGTTATATGTCTCAGTGGTCATACTCTTGCAATAACCTGCGTCAAATGGGGTGGAGATGGAGTTATATACACAGGTTCTCAGGATTGTACTATTAAGGTTTGGGAAACTAAGCAAGGAAAACTAATACGTGAATTGAAGGGACATGGTCATTGGGTTAACTCTCTTGCACTAAGCACTGAATATGTTCTCCGCACAGGAGCTTTTGATCATACAGGGAAACAGTTCTCTTCCCCAGAGGAAATGAAGAAGGTTGCTTTAGAAAGGTATAATAAGATGAAAGGCAGTGCTCCGGAAAGATTGGTTTCAGGATCTGATGATTTTACTATGTTTCTATGGGAACCTGCAGTTAGCAAGCAACCTAAGATACGTATGACAGGCCATCAACAGCTTGTGAATCATGTTTATTTCTCACCCGATGGACAATGGGTGGCCAGTGCATCCTTTGATAAGTCTGTGAAACTGTGGAATGGCATTACCGGAAAATTTGTTGCTGCTTTTCGGGGTCACGTAGGACCTGTTTATCAAATCAGTTGGTCTGCTGATAGTAGGCTTCTTTTGAGCGGCAGCAAAGACTCCACCCTGAAGATTTGGGATATCAGAACACACAAGTTGAAAGAGGATCTTCCAGGCCATGCGGATGAGGTTTTTGCTGTTGATTGGAGTCCTGATGGTGAGAAGGTGGCTTCTGGTGGAAAGGATAAAGTATTAAAGCTATGGATGGGCTAGGGGATAGCTGAGGGTGCTAATTCAATTGTAATTGTGGAAGTCGGTAAAAATATGTCACTGAATGTATGCGTCACAATCATACTGCCAAAGGATATAGGTGTTGAATGATATAAAGGCAAGCAAAAGGGATGTGGATGGAAAGCAGAACCGGCATACAGGTTGGGTTTTGCACTAACATTTTGGTTCTGCTGTGGCTGCTGATCTTGAGCAGGATTTGGGGCTGGGTCTCGACCATTATTATTGGCTCACTCTCTTCTTTGCACGACTGCTGCAGAGTGCAGAAACTGGAGAATATGCAGTACATGACATGATATCCTAATCTTTGTCTTGGCTGGTTTGTCATATTCTACAAGTTTGTGTTGTGTTAACATATCCACCAGTATTTGTAATTTTCTTTTTCCATTGCATATTATGTCCTTTTGACTAGTAATGGAATAGATGCCAATTTATACAATAAATTGTTAGCTGTCACCATTTGGGATGTAGATTTTTATTCTCTGCAAATGGTATTTTTTGAACGATGAAGCTACTGAAATTTGTATTACTGCAACCCGAATCAGTTAATGTTAGTTGAGTTTTGTTGAGGAA ATGGCTACCGAGATGGATATAGAGCATAGGGAAACAACCAACAATGTCATGATCCTCTTGACGGACCCCGAAGGCACTCCTTTGGGAGCTCCCATGTATCTTCCCCAAAATGCAGGGCCTCAGCAACTTCAGCAGATGGTCAATAAGCTACTCAGCAATGAGGAGAAGCTACCGTATGCTTTTTACATATCTGATCAGGAGCTTACTGTTTCACTTGGGGCCTACTTAGAGAAGAACAAAGTTTCTGTTGAAAAGGTGCTTACTGTAGTTTATCAGCCACAAGCAGTATTCCGTATACGTCCTGTTAGTCGATGTTCGGCAACAATTTCTGGTCATGCTGAAGCTGTTCTTTCTGTTTCTTTTAGCCCTGATGGACGCCAGTTGGCAAGTGGTTCAGGTGACACTACAGTTCGACTATGGGACCTTAATACGCAAACACCGTTGTTCACCTGTACAGGGCATAAAAATTGGGTTCTTTCTATTGCTTGGTCTCCTGATGGGAAGCATCTTGTAAGCGGGAGCAAAGCTGGGGAACTTTTTTGCTGGGATCCGCTGACGGGGAAGCCATTGGGCAATCCACTCACTGGCCACAAGAAATGGATTACTGGTATTTCATGGGAGCCTTTGCATTTAAGTGCTCCATGCCGTCGCTTTGTGAGTTCTAGCAAGGATGGTGATGCACGCATATGGGATGTTTCTTTGAAAAAGTGTGTTATATGTCTCAGTGGTCATACTCTTGCAATAACCTGCGTCAAATGGGGTGGAGATGGAGTTATATACACAGGTTCTCAGGATTGTACTATTAAGGTTTGGGAAACTAAGCAAGGAAAACTAATACGTGAATTGAAGGGACATGGTCATTGGGTTAACTCTCTTGCACTAAGCACTGAATATGTTCTCCGCACAGGAGCTTTTGATCATACAGGGAAACAGTTCTCTTCCCCAGAGGAAATGAAGAAGGTTGCTTTAGAAAGGTATAATAAGATGAAAGGCAGTGCTCCGGAAAGATTGGTTTCAGGATCTGATGATTTTACTATGTTTCTATGGGAACCTGCAGTTAGCAAGCAACCTAAGATACGTATGACAGGCCATCAACAGCTTGTGAATCATGTTTATTTCTCACCCGATGGACAATGGGTGGCCAGTGCATCCTTTGATAAGTCTGTGAAACTGTGGAATGGCATTACCGGAAAATTTGTTGCTGCTTTTCGGGGTCACGTAGGACCTGTTTATCAAATCAGTTGGTCTGCTGATAGTAGGCTTCTTTTGAGCGGCAGCAAAGACTCCACCCTGAAGATTTGGGATATCAGAACACACAAGTTGAAAGAGGATCTTCCAGGCCATGCGGATGAGGTTTTTGCTGTTGATTGGAGTCCTGATGGTGAGAAGGTGGCTTCTGGTGGAAAGGATAAAGTATTAAAGCTATGGATGGGCTAG MATEMDIEHRETTNNVMILLTDPEGTPLGAPMYLPQNAGPQQLQQMVNKLLSNEEKLPYAFYISDQELTVSLGAYLEKNKVSVEKVLTVVYQPQAVFRIRPVSRCSATISGHAEAVLSVSFSPDGRQLASGSGDTTVRLWDLNTQTPLFTCTGHKNWVLSIAWSPDGKHLVSGSKAGELFCWDPLTGKPLGNPLTGHKKWITGISWEPLHLSAPCRRFVSSSKDGDARIWDVSLKKCVICLSGHTLAITCVKWGGDGVIYTGSQDCTIKVWETKQGKLIRELKGHGHWVNSLALSTEYVLRTGAFDHTGKQFSSPEEMKKVALERYNKMKGSAPERLVSGSDDFTMFLWEPAVSKQPKIRMTGHQQLVNHVYFSPDGQWVASASFDKSVKLWNGITGKFVAAFRGHVGPVYQISWSADSRLLLSGSKDSTLKIWDIRTHKLKEDLPGHADEVFAVDWSPDGEKVASGGKDKVLKLWMG*
BLAST of Cucsa.248950 vs. Swiss-Prot
Match: NLE1_ARATH (Notchless protein homolog OS=Arabidopsis thaliana GN=NLE1 PE=2 SV=1) HSP 1 Score: 823.9 bits (2127), Expect = 8.9e-238 Identity = 386/476 (81.09%), Postives = 432/476 (90.76%), Query Frame = 1
BLAST of Cucsa.248950 vs. Swiss-Prot
Match: NLE1_PONAB (Notchless protein homolog 1 OS=Pongo abelii GN=NLE1 PE=2 SV=3) HSP 1 Score: 606.7 bits (1563), Expect = 2.2e-172 Identity = 279/467 (59.74%), Postives = 354/467 (75.80%), Query Frame = 1
BLAST of Cucsa.248950 vs. Swiss-Prot
Match: NLE1_BOVIN (Notchless protein homolog 1 OS=Bos taurus GN=NLE1 PE=2 SV=3) HSP 1 Score: 604.7 bits (1558), Expect = 8.5e-172 Identity = 276/467 (59.10%), Postives = 353/467 (75.59%), Query Frame = 1
BLAST of Cucsa.248950 vs. Swiss-Prot
Match: NLE1_MOUSE (Notchless protein homolog 1 OS=Mus musculus GN=Nle1 PE=1 SV=4) HSP 1 Score: 604.4 bits (1557), Expect = 1.1e-171 Identity = 277/467 (59.31%), Postives = 354/467 (75.80%), Query Frame = 1
BLAST of Cucsa.248950 vs. Swiss-Prot
Match: NLE1_HUMAN (Notchless protein homolog 1 OS=Homo sapiens GN=NLE1 PE=1 SV=4) HSP 1 Score: 604.4 bits (1557), Expect = 1.1e-171 Identity = 277/467 (59.31%), Postives = 354/467 (75.80%), Query Frame = 1
BLAST of Cucsa.248950 vs. TrEMBL
Match: A0A067F6F8_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g010816mg PE=4 SV=1) HSP 1 Score: 901.4 bits (2328), Expect = 4.9e-259 Identity = 427/474 (90.08%), Postives = 451/474 (95.15%), Query Frame = 1
BLAST of Cucsa.248950 vs. TrEMBL
Match: V4W013_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10015115mg PE=4 SV=1) HSP 1 Score: 900.2 bits (2325), Expect = 1.1e-258 Identity = 426/474 (89.87%), Postives = 451/474 (95.15%), Query Frame = 1
BLAST of Cucsa.248950 vs. TrEMBL
Match: A0A0B0N4L7_GOSAR (Notchless-like protein OS=Gossypium arboreum GN=F383_34145 PE=4 SV=1) HSP 1 Score: 892.9 bits (2306), Expect = 1.7e-256 Identity = 422/475 (88.84%), Postives = 448/475 (94.32%), Query Frame = 1
BLAST of Cucsa.248950 vs. TrEMBL
Match: B9HNS3_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0009s06310g PE=4 SV=2) HSP 1 Score: 892.1 bits (2304), Expect = 3.0e-256 Identity = 424/468 (90.60%), Postives = 443/468 (94.66%), Query Frame = 1
BLAST of Cucsa.248950 vs. TrEMBL
Match: A0A0D2R6C3_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_004G170600 PE=4 SV=1) HSP 1 Score: 891.3 bits (2302), Expect = 5.0e-256 Identity = 421/475 (88.63%), Postives = 448/475 (94.32%), Query Frame = 1
BLAST of Cucsa.248950 vs. TAIR10
Match: AT5G52820.1 (AT5G52820.1 WD-40 repeat family protein / notchless protein, putative) HSP 1 Score: 823.9 bits (2127), Expect = 5.0e-239 Identity = 386/476 (81.09%), Postives = 432/476 (90.76%), Query Frame = 1
BLAST of Cucsa.248950 vs. TAIR10
Match: AT4G02730.1 (AT4G02730.1 Transducin/WD40 repeat-like superfamily protein) HSP 1 Score: 131.3 bits (329), Expect = 1.5e-30 Identity = 93/336 (27.68%), Postives = 155/336 (46.13%), Query Frame = 1
HSP 2 Score: 110.9 bits (276), Expect = 2.2e-24 Identity = 80/301 (26.58%), Postives = 133/301 (44.19%), Query Frame = 1
BLAST of Cucsa.248950 vs. TAIR10
Match: AT3G49660.1 (AT3G49660.1 Transducin/WD40 repeat-like superfamily protein) HSP 1 Score: 125.9 bits (315), Expect = 6.5e-29 Identity = 96/304 (31.58%), Postives = 150/304 (49.34%), Query Frame = 1
HSP 2 Score: 110.9 bits (276), Expect = 2.2e-24 Identity = 79/302 (26.16%), Postives = 147/302 (48.68%), Query Frame = 1
BLAST of Cucsa.248950 vs. TAIR10
Match: AT5G67320.1 (AT5G67320.1 WD-40 repeat family protein) HSP 1 Score: 112.8 bits (281), Expect = 5.7e-25 Identity = 101/384 (26.30%), Postives = 165/384 (42.97%), Query Frame = 1
BLAST of Cucsa.248950 vs. TAIR10
Match: AT5G16750.1 (AT5G16750.1 Transducin family protein / WD-40 repeat family protein) HSP 1 Score: 106.3 bits (264), Expect = 5.3e-23 Identity = 74/272 (27.21%), Postives = 125/272 (45.96%), Query Frame = 1
HSP 2 Score: 95.1 bits (235), Expect = 1.2e-19 Identity = 76/285 (26.67%), Postives = 126/285 (44.21%), Query Frame = 1
HSP 3 Score: 73.6 bits (179), Expect = 3.8e-13 Identity = 44/175 (25.14%), Postives = 84/175 (48.00%), Query Frame = 1
HSP 4 Score: 59.3 bits (142), Expect = 7.5e-09 Identity = 70/267 (26.22%), Postives = 112/267 (41.95%), Query Frame = 1
HSP 5 Score: 46.2 bits (108), Expect = 6.5e-05 Identity = 24/82 (29.27%), Postives = 38/82 (46.34%), Query Frame = 1
HSP 6 Score: 42.4 bits (98), Expect = 9.4e-04 Identity = 24/86 (27.91%), Postives = 40/86 (46.51%), Query Frame = 1
BLAST of Cucsa.248950 vs. NCBI nr
Match: gi|449464012|ref|XP_004149723.1| (PREDICTED: notchless protein homolog [Cucumis sativus]) HSP 1 Score: 989.9 bits (2558), Expect = 1.5e-285 Identity = 478/478 (100.00%), Postives = 478/478 (100.00%), Query Frame = 1
BLAST of Cucsa.248950 vs. NCBI nr
Match: gi|568879486|ref|XP_006492689.1| (PREDICTED: notchless protein homolog [Citrus sinensis]) HSP 1 Score: 901.4 bits (2328), Expect = 7.0e-259 Identity = 427/474 (90.08%), Postives = 451/474 (95.15%), Query Frame = 1
BLAST of Cucsa.248950 vs. NCBI nr
Match: gi|567907141|ref|XP_006445884.1| (hypothetical protein CICLE_v10015115mg [Citrus clementina]) HSP 1 Score: 900.2 bits (2325), Expect = 1.6e-258 Identity = 426/474 (89.87%), Postives = 451/474 (95.15%), Query Frame = 1
BLAST of Cucsa.248950 vs. NCBI nr
Match: gi|720015869|ref|XP_010260973.1| (PREDICTED: notchless protein homolog [Nelumbo nucifera]) HSP 1 Score: 899.4 bits (2323), Expect = 2.7e-258 Identity = 423/474 (89.24%), Postives = 450/474 (94.94%), Query Frame = 1
BLAST of Cucsa.248950 vs. NCBI nr
Match: gi|697093368|ref|XP_009600054.1| (PREDICTED: notchless protein homolog [Nicotiana tomentosiformis]) HSP 1 Score: 893.6 bits (2308), Expect = 1.5e-256 Identity = 424/481 (88.15%), Postives = 452/481 (93.97%), 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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