CsGy1G010210 (gene) Cucumber (Gy14) v2.1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GTAGGCCATTATTCAACTACCCATCACTATTTTGTACTGCCATATGCTCAGTTTTTATCTGTCATTTTCTCTCCCTCTCTCTCTCTCTCTCTGTTCTTTTTTAACTTTATCGTTGGCCTGAATTCGTCAATTCTTGGCTAATTGGAAATGGTGTAATAGATTCTTGTCTGCAATCTTTTCCAGCTCTTACCCATTAATTCTATGGAACAACAACGAGTAGAGGTTGTTGTTGAACACAACTTCATTTCACCACCGTCATATACGGTTGACGATGCCGAATCGGAACCAACTTCTGCCGCCCACTTGTCCAATTGCACGACACAGGAAATAAGCCGCACAATAGTCTCCGATTATGAACTGGATTCGGACCCCATGGAGAAAAATCGAGGTAATTAAAATTTTATACTCTCGTTTAATTTAAATATAATTGTTTAACTGATTTTCATAACATTTTGAGGTCTGGGATTTGAGTTAGATTAGTCTTTTTGGTTTCAAAATCAAATAATTAAGAACGGCAGCGATTGTGGGTGGGGAAATGATGAAGGGACAATGGAAGGGAAGAGGTTGGGGCCTCGGGGATGAGAGAGAAAAAATCTTTTCTTTTTTTTTTTTTAGCAAATTACATCAAGAACCTCTTTATACAATATAGTTGTAATAGCAAATAAGAAACTTTTAATAGTTAATGCTCGAATTTATTAAAATTGGACTCTTAAACTTATATAAGGATAGAATTTTATCGTTTTGGATCAAATTTCTACCATTGTTGTAAAGGTTGAGAATTCATTTAGATAATTGTAATCGATGACCATTTTGAGGAATAATAATTAAGGATATAACAACATTTAAAAAAATTGCAAATATAGAAAAACTATCGCTGATAGACTTGTATCTATGGTCTATTAGTTAATATTTACAACATGGTCTATCGATGATAAACTTATATCATTGATAGAATTTGACAAATTATGTTATATTTACAAATTTTTTAAAATGTTGTTATATACTTAATTATTTTGAATCTAATAGCTAAATTTGCAACTATCCCAATCCATTTTTACAATTGAAAGCCTGGAAATATATCTGAATGCAACTTAGGATCATGATTTGTCAAGGTGATTTTTGCAATTTGCCATTATTTTTAAAATTTTAATATAGTTTTATTTTAATAAGAGTACAGATGTAGAATCCATCTGATATATCTCGACTAGGTAGACACTTATACAACAACATTAATATAGTACTCATTATTAAAGTTATTTTTCAAATGCAACAACATTAAACTGTAAGAAGAATACTTAGGTGTATCGTGGATAACACGTATGTATGAGAATTTGTGTGTGTGCATAGAAATACTTAGGTACTTTATGTTCAATTATTTTAGGTATTTTATGCAACTTGCTGGGATACGGATTGAAATACTTTTCGTGGATTCTGGACAACATTTATATAATAAAATATTTGTAGGATGTACCAAAATATTACCTGGTCATTTAAAATGCTACAATATTGTAATATTTGTTGAGTTGAAATTTATGAGACAAATTGAAATCTAAAATGAATTATATGAACAATGGAATTTGAAAATTGAATGTCACTGTTACACAAATAACAGTTATTGAAATTTAATAAAAGTATGTATGAATATATATGTTGATCAGCTGAGACATCAAGACGACTTCTTTTGTACAAATCGGCATTGAAGGGTGATTGGAAAAGAGCTGAATTAGTCCTAAATGATTACCCACATTACGTTCGTTGTGCAATAACAAGAAACAAAGAGACTGTTCTTCATGTTGCTGCCGGAGCGAAGCAGAGTGTGTTCGTGGAGGAGTTAGTGAGTCGAATGACCCGAAAAGACATGGCTTTGCGAGACAAATATGGAAATACTGCCCTTTGCTTTGCTGCTACATCAAGAATTGTCAAAATTGCTAAACTAATGGTGGAAAAAAATCATGAACTTCCTCTTATTCGTACTTTCAGAGAAGGAACTCCACTTCTCATTGCAGTTTCTTATAAAAGTAGAGATATGATTTCTTACCTTTTGTCTGTCACTGATCTTAGCCAGCTAACTGCCCAAGAACGGATTGAGCTTCTTATTGCCACGATCCATAGCGATTTTCTTGGTAAGTCATTCTATTTCTTCACCAAAGTCATTCTATTTCTTCACAAACTTAACTTGCATTAATGTTTTTCAAATATTGAAGACCCTGTTTGAATTATAAATGAATGAAAAAGTTTCTGAAAGTGCATTTATATTTAAAGAGATTGTTCCTTGACTGTAGTCTTTGAAGAGACAATTTTGGGGGTAGTAGTTGATCATTTTTGTATATTATGAAATTTGGAGTGGATTCCAATTCTACATGATTTAACAACTTTGTCTTTTGTTTTTTCCTTAAAAGGTAATTTCGAGTTTTACACTCATGATCTTGGTGCATGCACCGTTGAAAATTAAACATGCTTTAAATAAATAGGTTATATGTGAATTGATTTATGAGAGTTAGAAAAAGTTAAAGTTTAAAGTTAAAAGGTTTAAAGTTAATTTAGTATGAGTTTTCATATTAATTAAGTGTAGGTTTTAAATTGTTGTGTTTAATTTGTGGTATGAGTTATGCTCATGAAAATCGTATAAATAAGATTGAAATGTTGTAATCTAAATTATCCAAGTGTGAGTAGAATACACATAAAAAAGTTAGATTCTTCTAATAAAGCTTATGTTTTCTTCCTAAATATTCTATTTGGTAATTATCTATTTGAGGTGTTCATTGTACGCTTCCAACAAAGTGGTATCAGAGCTTGAGTTCGGAATATATATATATATATATACGAAAGAAAATTATAGCAGCTGGTGTATTCGAATGAAAGCTCTACTTGGTTCACAACATGTGTGGGACATTGTTAATAATGGTTATGAAGAACCAGAAAGTGATACAGCTTTGAGTCAAGCTCAACGAGAAAATTCACAAAATACAAAGAAAAGAGATCAAAAGGCTCTCACCATCATTCATCAAGCCATTGATGATTCAAATTTTGAGAAAATTTATGGAGCAACTATTGCACATCAAGCATAACAAATTTTGGAGAATACGTATAAAGGAGTAGATCGAGTCAAGAAGGTTCGCCTTCAAAAATTGAGAGGTGATTATGAATCACTGCATATGAAGGAGTCTGAATCGGTTTCGGATTATACGTCAAGATTGTTAGCAGCAGTAAATGAAATGAAAAGATATGGTGAGACAATAAGTGATGAGCAAGTAGTAGAAAAGATACTTCACTCATTGGACGAAAAATTCAATTTCATCGTTGTAGCTATTGAAGAATCAAAGGATTTGAGTACAATGTCCATTGATCAACTTATGGGTTCTTTACAAGCCCACGAAGAGAAGCTTCTTAAGAAGAACAAGCAGACGACTGAGCAACTTTTTCAGTCAAAGTTGAATTTAAAAGACAAGGAAGACAACCTAGAAAAAGGCAATCGAGGTCGAAGACATGGTGGTAATCGTGGACGTGGTGATTTCAGAGATCGTGGTCGAGGAAACTTTGGTCAAAGAAAATTTGATGAGAGTAATTCAAACTGATCAAATTCATCAAAGGGTCGTGGAAGACAACATTATTCAAGGTTAAATGGAGAAAGATCAAATAATGACAAGCGGTATGACAAAAGACAGGTTGAATGTTATAATTGTCATGAATTTGGCCATTATTCCTGGGAATGCAGAAATAGAGTTGAAGAAAATGCAAATTATGCTGAGAAAGACGAAGAAAGAGGTAATTCATCATTGCTTCTAGCATGTAAAGGTGTGGAAACATGTGAAAACAATGCATGGTATCTTGATAGTGGTGCAAGAAATCACATGTGTGGATGTAAATCAATGTTCATGGAGCTTGATGAATCTGTTGGTGGTGATACTATATTTGGTGATGCAACGAAAATTTCAGTTAGAGGAAAATGTAAAATTTTGATCAATTTGAAGAATGGAAAGCATGAGTTTATCTCTAATGTTTATTATGAACCTGATATGAAGAACAACATTTTGAGTTTGGGACAACTCTTAGAGAAAGGCTATAATATTTTGATGAAGGATTATAGTCGTCTTTTGATAAGAGATAATCATGACAATATGATTGCTAAAGTGCAAATGACGAAAAATAGAATGTTTTTATTGAACATTCAAACTGATGTAGCGAAATGTTTAAAGTCATGTTTGAAAGATCCAAACTGGATTTGGCACTTGAGATTTGGGCATTTAAACTTTGATGGCTTGAGACTATTAGCCAAGAAGAACATGGTGAAAGGGTTGCCATATGTTAAACATCTAGACCAATTTTGTGAAGGTTGTCTTTATGGCAAACAATCAAGGAAGAGTTTTCCACAAGAATCATCTTGGAAAGCAAGGAGACCACTAGAGTTGGTTCACATTGATCTTTGTGGACCGATCAAACCAAGTTCTTTCGGTAAGAATAATTATTTCTTATTATTTATTGATGATTTCAGCCGAAAAACTTGGATTTATTTTGTCAAAGAGAAATCAGAAGTATTTGGCATGTTCAAGAGATTTAAAGCTCTTGTTGAAAAAGAAAGTGGTTATTACATAAAAGCATTGAGATCAGATAGGGGAGGTGAATTCACTTCAAATGAATTCAAAAAATTTTGTGCAGAAAATGGAATTCGTCGACCTATGACAGTTCCATTTACTCCTCAACAAAATGGTTTTGTTGAGAGGAAGAATCGAACAATATTTAACATGGCACGAAGCATGTTGAAGAGCAAGAAGATACCAAAAGAATTTTGGGCACAAGTTGTTGAATGTGCAATATACTTGTCAAATTGTTCCCCTACTAGAAGCTTGTGGAACAAAACTCCTCAACAAGCATGGATAGGAAGAAAACCATCCATTGCTCATTTGAGAGTATTTGAATGTATGACTTATGTGCATATACCAGATCAAAAGTGAACCTTTGAATTTTGAAAAAGCTTCGCAAAATGACAAATGGAAGATTGCTATGGATGAAGAGATAAAAGCTATAAAAAAGAATGATACGTGGGAACTTTCTACTCTTCCAAATGGAAAGAAAGCGGTAGGTGTCAAATGAGTGTTCAAGATAAAAAGAAATGAAAAAGGAGAATTGGAGAGATACAAAGCAAGATTCGTTGCAAAAGGATATTCTCAAAGAAAAGGCATTGATTACAATGAAGTGTTTGCTCCAATTGCTCGTTTGGAAACCATAAGATTGTTAATTGCGATTGTTGCTCAAAATAATTGGAAGATCTCTCATATGGATGTCAAATCAGCATTTTTGAATGGATATCTAGAAGAAGAAGTCTACTTAGAACAACCTCTTGGTTATTCTGTGAAAGGTCAAGAGGATAAAGTTCTAAAATTGAAGAAGGTATTATACGGATTGAAACAAGCACCAAGAATGTGGAATAGCAGAATCAACAAATATTTCCTTGATAATGGGTATTTGAGGTGCCCTTATGAACACTCCCTTTATATTAAGACTAATGATCATGGAGATATTTTGGTTGTTTGTGTGTACGTGAATGACTTAATTTTTACAGGAAATCCTGCAAGTATGTTTGAAGATCTCAATAAGGTGATGACCCAAGAATTTGAAATGACAGATATAGGGCTGATGTCATATTATCTTGGTATTGAGGTGAAGCAAACAAATGAAGGTATTTTCATCTCTCAAGAACAATATACCAGAGAAATTCTAGAGAAGTTCAATATGATTAATATTAATTCTAAGCCTGTTACAACTCCGATTGAAACGAGGACCAAATTGTCCAAATATGAAGAAGGAGATGTTGATCATTCATATTTCAAAAGTTTGGTTGGGAGTTTGAGATATTTAACTTGCACACGACCATATATTCTTTTCAGTGTTGGATTGGTGGGTCGATTTATGGAATCTCCTACAACTACTCATTTGAAAGTGGCAAAGAGAATTCTTCGTTACCTCAAAGATACGCTTGACTATGGGTTATTTTATTCTTCATCTAAAGAATTCAAGCTTGAAGGCTATTGTGATAGTGACTGGGCTGGAGATACTAATGATCGAAAGAGCACTAGTGGATTTGTATTCTTCATTGGTAATACTGCATTTACTTGGAGTTCAAAGAAACAACCTATTGTGACATTATCCACTTGTGAAGCCGAATACATTGCTGCAGCTTCATGTGCTTGTCATGCAGTTTGGTTAAGAAATTTGTTAAAGACAATTGGAATTTTGCAAGATGATAAGTCAACAATTGCTCTGGCAAAGCATCCTGTGTTCCATGATCGTAGCAAACACATTGATACTAGATTTCATTTCATCCGAGATTCCATTTCAAGGAAGGAGGTTCATGTTGAATATGTGAAGACTGAAGATCAAATTGCAGATATTTTCACGAAGCCACTCAAAGTTAATGTGTTTAACAAGTTAAGAAGTTCGCTTGGAGTTTTTTTTTTAAAAAAACATGTTTAAGGGAGGATGTTGAAAATTAAACAATGCTTTAAATAAATAAGTTTGTGGTATGAGTTATGCTCATGAAAATCCTATAAATAGGATTGAAATGTTGTAATCTAAATTATCCAAGTGTGAGTAGAATACACATAAAAAAGTTAGATTCTTCTAACAAAGCTTGTTTTTTCTTCTTAAGTATTCTATTTGGTAATTATCTATTTGTGGTGTTTGTTGTACGCTTCCAACATGCACCTCCTAGTTCGTCTCCTCTAGTATCTAAAAGTTAGTATCTAAAAGTGTTATACTCATCACTCATTTTCTAAAGTCATTTTAATTAATGATTATGTCTTCTTTTTGCAGATTTAAGCTTGTGGATTTTGAAACTATATCCGGAGTTAGCGGTAATGAAAGATACCAAGAACAATAATGAAACTGCATTACATGTATTGGCCAGAAAACCATCTGCCATGGATAGCACAAAGCAGCTACAAAATTTGAAAATGCGCATCAACTCTTGGAGATTTAATTCCAAACTATTCATATCACCTTGGAAACTTATTAATGAAATTTTGGCTTCTCTAATTTTGCCCTCCAATAGTAATAAAGATGTGACCAAAACATTGGCTCATCAATTAGTTGAATTCCTATGGAGGTATGTTGTATATGAGCTTCCACAAAAAGAGATGCTCGAGTTTATTAAACATCCCACAAGTTTGCTGAATGATGCTGCAGGGGCAGGTAATGTTGAGTTTTTGATTGTGCTCATTTGTGAATTTCCAGATATTTTATGGGGTGACGACGACAATGACGATAGTAAGAGTATATTTCATGTAGCTGTTGAAAATCGACTTGAGAATGTGTTTAATCTCATAAATGAGATTGGTAAGCTCAATGAATTCTCAACTAAATATAGAACTTTCAAGGGAAAATATAGCATCCTGCATTTGGCTGGAAATCTAGCTGCTCCAAACCATCTTAATAGAGTATCAGGAGCTGCTCTTCAAATGCAACGTGAAATGCTTTGGTTCAAGGTATGTACTTAGCTTAATTAAACACACCATTCCCATCTGTTAAACTTTTTCTTATTTCATTCCTTCTGGGTCAAATTAAATAAACTTTGTTCACGATTATTATAGAATAATAACAAATGTCATATAACTCGAGAATTGTTAAAGACTTATATTTGCATTAATTAAAAAAAAGTCTAAGAATGCTAAATATTTTGAATCTAATTGCAACTTAAATAATTAAATACAAAACGAACTCAAAATCTTGGACGAGCATTAGAATTACCTGTAACTTGTTAGATAGATTATTTGTATTTAATTTCTCATACAACATGACATTTCAATTGATTAATGAAGGAAGTGGAGAAGATAGTTTTGCCTTCTCAACTTGAAGTGAAATCCAACGATCCAGATCCATCTATACCCAAGTTGACACCGCGCCAATTATTCACCGAAAAACACAAACGTCTACGTAAAGAGGGCGAAGAGTGGATGAAAAACACAGCAAACTCATGCATGCTGGTCGCTACTTTGATATCCACTGTAGTTTTTGCTGCAGCCTTCACAGTTCCTGGTGGCAATGATGATAATACAGGAACTCCTATTTTCCAAAATAAGTTTTGGTTTGCAATGTTTGTAGTGTCAGATGCAATTGCCTTGTTTTCGTCTTCTACGTCTATTTTAATGTTCTTGTCGATATTAACTTCACGCTATGCAGAAGAAGATTTCTTACACTCACTGCCCTCGAAATTGCTGTTTGGACTCGCATCGCTCTTCATCTCCATTGTGTTCATGGCTGTAGCTTTTAGTTCTACCTTCTTTTTGATCTACCACAACGCTAATATCTCCATCCCAACCATGGTCACGGCAATGGCCATTATTCCCATTACTTGTTTTTGTTTACTTCAGTTTACATTGTGGATTGATATTTTTCACAACACTTACTCCTCTAGATTTCTTTTTAATCCCAATAATCCACGCAAATTGTTTTAATTATCATTGCCATCATCTCATATTGTTTTTTTTTTTTTTTCCCTAATGTTGAAGAGCTTGATACATTTTAATATTGGTTTCTTCAATAAAAGTTATGATATGGGTTTTTATTTGTTGGGCTACATGTATGTTTGAATCAGACCTCGCAAAGGAAAGAATGCATTATGTCAATATTACTAATATGTTAAGACAATAGCAACAATGTGTCTCAAATGGCTCTTCTAGTCTTCATGC GTAGGCCATTATTCAACTACCCATCACTATTTTGTACTGCCATATGCTCAGTTTTTATCTGTCATTTTCTCTCCCTCTCTCTCTCTCTCTCTGTTCTTTTTTAACTTTATCGTTGGCCTGAATTCGTCAATTCTTGGCTAATTGGAAATGGTGTAATAGATTCTTGTCTGCAATCTTTTCCAGCTCTTACCCATTAATTCTATGGAACAACAACGAGTAGAGGTTGTTGTTGAACACAACTTCATTTCACCACCGTCATATACGGTTGACGATGCCGAATCGGAACCAACTTCTGCCGCCCACTTGTCCAATTGCACGACACAGGAAATAAGCCGCACAATAGTCTCCGATTATGAACTGGATTCGGACCCCATGGAGAAAAATCGAGCTGAGACATCAAGACGACTTCTTTTGTACAAATCGGCATTGAAGGGTGATTGGAAAAGAGCTGAATTAGTCCTAAATGATTACCCACATTACGTTCGTTGTGCAATAACAAGAAACAAAGAGACTGTTCTTCATGTTGCTGCCGGAGCGAAGCAGAGTGTGTTCGTGGAGGAGTTAGTGAGTCGAATGACCCGAAAAGACATGGCTTTGCGAGACAAATATGGAAATACTGCCCTTTGCTTTGCTGCTACATCAAGAATTGTCAAAATTGCTAAACTAATGGTGGAAAAAAATCATGAACTTCCTCTTATTCGTACTTTCAGAGAAGGAACTCCACTTCTCATTGCAGTTTCTTATAAAAGTAGAGATATGATTTCTTACCTTTTGTCTGTCACTGATCTTAGCCAGCTAACTGCCCAAGAACGGATTGAGCTTCTTATTGCCACGATCCATAGCGATTTTCTTGATTTAAGCTTGTGGATTTTGAAACTATATCCGGAGTTAGCGGTAATGAAAGATACCAAGAACAATAATGAAACTGCATTACATGTATTGGCCAGAAAACCATCTGCCATGGATAGCACAAAGCAGCTACAAAATTTGAAAATGCGCATCAACTCTTGGAGATTTAATTCCAAACTATTCATATCACCTTGGAAACTTATTAATGAAATTTTGGCTTCTCTAATTTTGCCCTCCAATAGTAATAAAGATGTGACCAAAACATTGGCTCATCAATTAGTTGAATTCCTATGGAGGTATGTTGTATATGAGCTTCCACAAAAAGAGATGCTCGAGTTTATTAAACATCCCACAAGTTTGCTGAATGATGCTGCAGGGGCAGGTAATGTTGAGTTTTTGATTGTGCTCATTTGTGAATTTCCAGATATTTTATGGGGTGACGACGACAATGACGATAGTAAGAGTATATTTCATGTAGCTGTTGAAAATCGACTTGAGAATGTGTTTAATCTCATAAATGAGATTGGTAAGCTCAATGAATTCTCAACTAAATATAGAACTTTCAAGGGAAAATATAGCATCCTGCATTTGGCTGGAAATCTAGCTGCTCCAAACCATCTTAATAGAGTATCAGGAGCTGCTCTTCAAATGCAACGTGAAATGCTTTGGTTCAAGGAAGTGGAGAAGATAGTTTTGCCTTCTCAACTTGAAGTGAAATCCAACGATCCAGATCCATCTATACCCAAGTTGACACCGCGCCAATTATTCACCGAAAAACACAAACGTCTACGTAAAGAGGGCGAAGAGTGGATGAAAAACACAGCAAACTCATGCATGCTGGTCGCTACTTTGATATCCACTGTAGTTTTTGCTGCAGCCTTCACAGTTCCTGGTGGCAATGATGATAATACAGGAACTCCTATTTTCCAAAATAAGTTTTGGTTTGCAATGTTTGTAGTGTCAGATGCAATTGCCTTGTTTTCGTCTTCTACGTCTATTTTAATGTTCTTGTCGATATTAACTTCACGCTATGCAGAAGAAGATTTCTTACACTCACTGCCCTCGAAATTGCTGTTTGGACTCGCATCGCTCTTCATCTCCATTGTGTTCATGGCTGTAGCTTTTAGTTCTACCTTCTTTTTGATCTACCACAACGCTAATATCTCCATCCCAACCATGGTCACGGCAATGGCCATTATTCCCATTACTTGTTTTTGTTTACTTCAGTTTACATTGTGGATTGATATTTTTCACAACACTTACTCCTCTAGATTTCTTTTTAATCCCAATAATCCACGCAAATTGTTTTAATTATCATTGCCATCATCTCATATTGTTTTTTTTTTTTTTTCCCTAATGTTGAAGAGCTTGATACATTTTAATATTGGTTTCTTCAATAAAAGTTATGATATGGGTTTTTATTTGTTGGGCTACATGTATGTTTGAATCAGACCTCGCAAAGGAAAGAATGCATTATGTCAATATTACTAATATGTTAAGACAATAGCAACAATGTGTCTCAAATGGCTCTTCTAGTCTTCATGC ATGGAACAACAACGAGTAGAGGTTGTTGTTGAACACAACTTCATTTCACCACCGTCATATACGGTTGACGATGCCGAATCGGAACCAACTTCTGCCGCCCACTTGTCCAATTGCACGACACAGGAAATAAGCCGCACAATAGTCTCCGATTATGAACTGGATTCGGACCCCATGGAGAAAAATCGAGCTGAGACATCAAGACGACTTCTTTTGTACAAATCGGCATTGAAGGGTGATTGGAAAAGAGCTGAATTAGTCCTAAATGATTACCCACATTACGTTCGTTGTGCAATAACAAGAAACAAAGAGACTGTTCTTCATGTTGCTGCCGGAGCGAAGCAGAGTGTGTTCGTGGAGGAGTTAGTGAGTCGAATGACCCGAAAAGACATGGCTTTGCGAGACAAATATGGAAATACTGCCCTTTGCTTTGCTGCTACATCAAGAATTGTCAAAATTGCTAAACTAATGGTGGAAAAAAATCATGAACTTCCTCTTATTCGTACTTTCAGAGAAGGAACTCCACTTCTCATTGCAGTTTCTTATAAAAGTAGAGATATGATTTCTTACCTTTTGTCTGTCACTGATCTTAGCCAGCTAACTGCCCAAGAACGGATTGAGCTTCTTATTGCCACGATCCATAGCGATTTTCTTGATTTAAGCTTGTGGATTTTGAAACTATATCCGGAGTTAGCGGTAATGAAAGATACCAAGAACAATAATGAAACTGCATTACATGTATTGGCCAGAAAACCATCTGCCATGGATAGCACAAAGCAGCTACAAAATTTGAAAATGCGCATCAACTCTTGGAGATTTAATTCCAAACTATTCATATCACCTTGGAAACTTATTAATGAAATTTTGGCTTCTCTAATTTTGCCCTCCAATAGTAATAAAGATGTGACCAAAACATTGGCTCATCAATTAGTTGAATTCCTATGGAGGTATGTTGTATATGAGCTTCCACAAAAAGAGATGCTCGAGTTTATTAAACATCCCACAAGTTTGCTGAATGATGCTGCAGGGGCAGGTAATGTTGAGTTTTTGATTGTGCTCATTTGTGAATTTCCAGATATTTTATGGGGTGACGACGACAATGACGATAGTAAGAGTATATTTCATGTAGCTGTTGAAAATCGACTTGAGAATGTGTTTAATCTCATAAATGAGATTGGTAAGCTCAATGAATTCTCAACTAAATATAGAACTTTCAAGGGAAAATATAGCATCCTGCATTTGGCTGGAAATCTAGCTGCTCCAAACCATCTTAATAGAGTATCAGGAGCTGCTCTTCAAATGCAACGTGAAATGCTTTGGTTCAAGGAAGTGGAGAAGATAGTTTTGCCTTCTCAACTTGAAGTGAAATCCAACGATCCAGATCCATCTATACCCAAGTTGACACCGCGCCAATTATTCACCGAAAAACACAAACGTCTACGTAAAGAGGGCGAAGAGTGGATGAAAAACACAGCAAACTCATGCATGCTGGTCGCTACTTTGATATCCACTGTAGTTTTTGCTGCAGCCTTCACAGTTCCTGGTGGCAATGATGATAATACAGGAACTCCTATTTTCCAAAATAAGTTTTGGTTTGCAATGTTTGTAGTGTCAGATGCAATTGCCTTGTTTTCGTCTTCTACGTCTATTTTAATGTTCTTGTCGATATTAACTTCACGCTATGCAGAAGAAGATTTCTTACACTCACTGCCCTCGAAATTGCTGTTTGGACTCGCATCGCTCTTCATCTCCATTGTGTTCATGGCTGTAGCTTTTAGTTCTACCTTCTTTTTGATCTACCACAACGCTAATATCTCCATCCCAACCATGGTCACGGCAATGGCCATTATTCCCATTACTTGTTTTTGTTTACTTCAGTTTACATTGTGGATTGATATTTTTCACAACACTTACTCCTCTAGATTTCTTTTTAATCCCAATAATCCACGCAAATTGTTTTAA MEQQRVEVVVEHNFISPPSYTVDDAESEPTSAAHLSNCTTQEISRTIVSDYELDSDPMEKNRAETSRRLLLYKSALKGDWKRAELVLNDYPHYVRCAITRNKETVLHVAAGAKQSVFVEELVSRMTRKDMALRDKYGNTALCFAATSRIVKIAKLMVEKNHELPLIRTFREGTPLLIAVSYKSRDMISYLLSVTDLSQLTAQERIELLIATIHSDFLDLSLWILKLYPELAVMKDTKNNNETALHVLARKPSAMDSTKQLQNLKMRINSWRFNSKLFISPWKLINEILASLILPSNSNKDVTKTLAHQLVEFLWRYVVYELPQKEMLEFIKHPTSLLNDAAGAGNVEFLIVLICEFPDILWGDDDNDDSKSIFHVAVENRLENVFNLINEIGKLNEFSTKYRTFKGKYSILHLAGNLAAPNHLNRVSGAALQMQREMLWFKEVEKIVLPSQLEVKSNDPDPSIPKLTPRQLFTEKHKRLRKEGEEWMKNTANSCMLVATLISTVVFAAAFTVPGGNDDNTGTPIFQNKFWFAMFVVSDAIALFSSSTSILMFLSILTSRYAEEDFLHSLPSKLLFGLASLFISIVFMAVAFSSTFFLIYHNANISIPTMVTAMAIIPITCFCLLQFTLWIDIFHNTYSSRFLFNPNNPRKLF* Homology
BLAST of CsGy1G010210 vs. ExPASy Swiss-Prot
Match: Q9C7A2 (Ankyrin repeat-containing protein ITN1 OS=Arabidopsis thaliana OX=3702 GN=ITN1 PE=1 SV=1) HSP 1 Score: 63.5 bits (153), Expect = 9.9e-09 Identity = 41/115 (35.65%), Postives = 70/115 (60.87%), Query Frame = 0
BLAST of CsGy1G010210 vs. ExPASy Swiss-Prot
Match: A2CIR5 (Ankyrin repeat-containing protein NPR4 OS=Oryza sativa subsp. japonica OX=39947 GN=NPR4 PE=2 SV=1) HSP 1 Score: 60.5 bits (145), Expect = 8.4e-08 Identity = 42/115 (36.52%), Postives = 67/115 (58.26%), Query Frame = 0
BLAST of CsGy1G010210 vs. ExPASy Swiss-Prot
Match: Q6AWW5 (Ankyrin repeat-containing protein At5g02620 OS=Arabidopsis thaliana OX=3702 GN=At5g02620 PE=1 SV=1) HSP 1 Score: 50.8 bits (120), Expect = 6.6e-05 Identity = 40/124 (32.26%), Postives = 66/124 (53.23%), Query Frame = 0
BLAST of CsGy1G010210 vs. NCBI nr
Match: XP_004145199.1 (uncharacterized protein LOC101215460 [Cucumis sativus] >KAE8652646.1 hypothetical protein Csa_013219 [Cucumis sativus]) HSP 1 Score: 1273 bits (3293), Expect = 0.0 Identity = 652/652 (100.00%), Postives = 652/652 (100.00%), Query Frame = 0
BLAST of CsGy1G010210 vs. NCBI nr
Match: KAA0055387.1 (ankyrin repeat-containing protein [Cucumis melo var. makuwa]) HSP 1 Score: 1226 bits (3173), Expect = 0.0 Identity = 633/654 (96.79%), Postives = 640/654 (97.86%), Query Frame = 0
BLAST of CsGy1G010210 vs. NCBI nr
Match: XP_008440631.1 (PREDICTED: uncharacterized protein LOC103484989 isoform X1 [Cucumis melo] >TYJ99316.1 ankyrin repeat-containing protein [Cucumis melo var. makuwa]) HSP 1 Score: 1226 bits (3173), Expect = 0.0 Identity = 633/654 (96.79%), Postives = 640/654 (97.86%), Query Frame = 0
BLAST of CsGy1G010210 vs. NCBI nr
Match: XP_008440640.1 (PREDICTED: uncharacterized protein LOC103484989 isoform X2 [Cucumis melo]) HSP 1 Score: 1097 bits (2837), Expect = 0.0 Identity = 564/579 (97.41%), Postives = 572/579 (98.79%), Query Frame = 0
BLAST of CsGy1G010210 vs. NCBI nr
Match: XP_038902366.1 (LOW QUALITY PROTEIN: uncharacterized protein LOC120089001 [Benincasa hispida]) HSP 1 Score: 897 bits (2317), Expect = 0.0 Identity = 483/600 (80.50%), Postives = 510/600 (85.00%), Query Frame = 0
BLAST of CsGy1G010210 vs. ExPASy TrEMBL
Match: A0A5A7ULD5 (Ankyrin repeat-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold80G002320 PE=4 SV=1) HSP 1 Score: 1226 bits (3173), Expect = 0.0 Identity = 633/654 (96.79%), Postives = 640/654 (97.86%), Query Frame = 0
BLAST of CsGy1G010210 vs. ExPASy TrEMBL
Match: A0A5D3BJN3 (Ankyrin repeat-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold248G005300 PE=4 SV=1) HSP 1 Score: 1226 bits (3173), Expect = 0.0 Identity = 633/654 (96.79%), Postives = 640/654 (97.86%), Query Frame = 0
BLAST of CsGy1G010210 vs. ExPASy TrEMBL
Match: A0A1S3B146 (uncharacterized protein LOC103484989 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103484989 PE=4 SV=1) HSP 1 Score: 1226 bits (3173), Expect = 0.0 Identity = 633/654 (96.79%), Postives = 640/654 (97.86%), Query Frame = 0
BLAST of CsGy1G010210 vs. ExPASy TrEMBL
Match: A0A1S3B1K1 (uncharacterized protein LOC103484989 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103484989 PE=4 SV=1) HSP 1 Score: 1097 bits (2837), Expect = 0.0 Identity = 564/579 (97.41%), Postives = 572/579 (98.79%), Query Frame = 0
BLAST of CsGy1G010210 vs. ExPASy TrEMBL
Match: A0A0A0LRT6 (ANK_REP_REGION domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_1G058080 PE=4 SV=1) HSP 1 Score: 756 bits (1952), Expect = 6.11e-267 Identity = 403/597 (67.50%), Postives = 479/597 (80.23%), Query Frame = 0
BLAST of CsGy1G010210 vs. TAIR 10
Match: AT3G54070.1 (Ankyrin repeat family protein ) HSP 1 Score: 335.9 bits (860), Expect = 7.3e-92 Identity = 224/591 (37.90%), Postives = 318/591 (53.81%), Query Frame = 0
BLAST of CsGy1G010210 vs. TAIR 10
Match: AT5G35810.1 (Ankyrin repeat family protein ) HSP 1 Score: 287.7 bits (735), Expect = 2.3e-77 Identity = 157/347 (45.24%), Postives = 227/347 (65.42%), Query Frame = 0
BLAST of CsGy1G010210 vs. TAIR 10
Match: AT3G18670.1 (Ankyrin repeat family protein ) HSP 1 Score: 277.3 bits (708), Expect = 3.1e-74 Identity = 202/603 (33.50%), Postives = 317/603 (52.57%), Query Frame = 0
BLAST of CsGy1G010210 vs. TAIR 10
Match: AT5G04700.1 (Ankyrin repeat family protein ) HSP 1 Score: 245.4 bits (625), Expect = 1.3e-64 Identity = 202/588 (34.35%), Postives = 295/588 (50.17%), Query Frame = 0
BLAST of CsGy1G010210 vs. TAIR 10
Match: AT5G04690.1 (Ankyrin repeat family protein ) HSP 1 Score: 229.6 bits (584), Expect = 7.4e-60 Identity = 188/557 (33.75%), Postives = 288/557 (51.71%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (Gy14) v2.1
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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