Cucsa.122710 (gene) Cucumber (Gy14) v1
The following sequences are available for this feature:
Legend: five_prime_UTRCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATTTCGATGATGAATTGGACCGATTGTTGGTGCTTTTACCTGAAGAAATGCGGCGCAGAATAAGGGAGCATGAGGAGTGTCACCAGCTTATTGAAGTGGTCTTGGATTTGGGAAGGAAACCACTGGCTCGGTTTCCTACGGGAGATTTCCTGCTCTCGGATTCTCTAGTAACTGTTGATGATCTACGCCATGCTACTTCCAAGGTATGTTCGGCTCTTCGTTCACGTTCGTGTGTTTGTTTGTTTGTTTATTTCGATAAGATTGCCCACGTCCTGTTTGATTGTTTGTCTGGGAAGTTAAAAGTTCAATACAATTTCAATTTACCATCCCAATACCTATATTGCTTGAACTCTTCCAATTTTAGTTCTAAAGTTGGTTCTAAATGGCGACCTTGTGGACTAGAGCGTTAATCTAACTTGGTACCAGAAATGTCTCGTCAATATTCTCTAAATAAGATAGAGAAACTAGGAGTTTTCTGTTCTAATTCATGTCTGTAGTATTAAAATCTCAACTGGGTTGGACCGGAGGAAAGTTGTGTTTGACGAGATGAAGGCCTTGAGGGTTATGAAACTTTGAATCTCTAACTGTTCCGCCGATTAATTGGTGGAAGGTCAGTTGGTAACTGGGTTTTCTCTAAAGTTCAGACAGGATTGTTAATTCATTGGTTGATGGTAGGTTTATCAACTCATTGTAAAAAATTCAGTTTTTATGATGGATGACTTAGACTCCACGTTAAACCACTATCCAAATTTGAAGAAAAGATGGAATTGAGTTGGTATGCTATTTGAAAAGTTTACCTACAATAATGTGTGTACATATTATTCCTAACAGAGTCTATTGGATATCATTGTAGTGCAAATGTAGACTTCATTTTACAAAGTATATGAGATATAACTGTTGTTACGTAGCTCCTTTACCATCATTAGTTCTATTTAGGTAACATTCATGGTGTTGTATCAAAATATCAATTTTATATCGAGCAAGTTGAAACCTATGAACGAAACCAACTAAATTCTCCATCTTGGACTAACAGAGTGAGCAAAGTGCATCACACTATTAATCGAACATAGTAGAAAGTAGCAATTTAACTCAAAAGGATCAATGCGTATAAAAAAAGACTTATCTTGGATTCAAATCCTCCAACAATTACTCGTGTAAGAAGATAAAATGTTTAACTCATATGGCTGAGTCAATCAAAGTAGAAGTCTTAATCACTTAAAAATAAAAACCATGTCAAGATCTTTGTACAAATGCATTGCAGGTTGGTGACTTTGCCATTGACAATAGAGCTGGCATTAGTAGGACATTGCATCGTATCAGTGCCATCAGAAATCGGAAGGGTGTAATTATTGGTCTAACTTGTCGTGTGGGTCGAGCTATATCAGGAAGTGCTATCTTGCTGAGGGATTTGATTCAAGATGGGGCTTCTTTGTTGCTCATTGGACCTCCAGGGGTAGGAAAAACCACAATTATCAGGTTAGTAAACTTTTAGTTTTGTACATCTACATATACAATATTTCTTAGAGTGCTAGAGATTTTGAAAAAGGAAACACTGTAATTTGTAGAAACATGTTTCAGAAACAGAGTTCCTTATAAATGTTCAGACAATTTAAATTAGAGATAATTCATGATTTTTTTTTTCTGTGAAAATCCTTGTTTGGATCTACCTGGGGATAGGTAAGTAATTCAAAATTTTAAATATTTTGAGATAAGCACATTTTTGTAAGTTGTATTACTTCCGCTATCTTGCAAGTTAAATTGCTGCCTACACTCCTAGAGGCATGAGCAATATAAAAGCATTTTCAACCCCCTGTGCAAACTAGTCGAATTTTAAGGGTTACAGTAGCCTTAGCCCCTGACTAGAATATTTTTGTTTCAATCATATTTCTGGCACGTTAGCATTTCACCTCAACTCGGTGGCAACTTGAAAGTCTCCAATTAAAAAAATTTAGAGTAAACTCCCTGTGACACTTTTGTAGGGAAATAGCTAGGATACTTGCTAATGATTTCAAGAAGCGTGTAATGATTGTCGACACCTCCAATGAGATTGGTGGCGATGGTGATATACCTCATGCAGGAATTGGTAATGCTCGTCGAATGCAAGTTCCAGATTCTGATATGCAACATAAGGTATGATGTGTAACTCAATTACTGAAATTGTCTCTGTGAACCAACAAGAATTCCTTTCTAGATACGTACTTTGACAGGCATGGTGGTTTTCGAGTTTTACAGAAATAAGGCTCTCTGACTTGATGGTTTCACAATAACCTTTTAACATGATAATTGGGAAGATTTGAAGAAGGAAATTGTTAGGATACTTCCTAACAAGAATCAGGATCTAAAATATATCAGGAATTTAAAAAAAGAAACTGCAATATAATCCAAGTATAAAGGAACTTGGAACCTCCCTCATGAGTGCTCTCACCTCAGCCCTAGATCACTCTACAAAATAGCCTCATCTAATGACCAATATATCCCTTAATATTAGTATGAACTAATATTCCTATCTAGGTACCTAACATACGTTGAGAAAGTCTTTTGCAAAGTTTTGTGAGAGGTAGATTATAGATTCAGCCATGAATGAAACTTGTGTGTGCCCAATTCTCAGAAAAGGCAAAGGCAGCAAAGTAAAAGAGTTCATGGCTTCATGCCAATAAGCCATGTGACCAGTCTGCATTAGATAATTGCAAAAACTTTACTGATAAACTTAATAAGGTCTCCTTGGTACTATATCCATTATGCTAGAACCTTCAATGCAGGTAGGCAAGTTTTAGATGACGTGTTGACCTGCAAAGGAAGTAATTAAGGACTATAGGAAGAGAAGAAAAATAAGGTGTATGTAAAGATACTACAGATGTATCTTTATATATATTGAATTACCTCCACAAATTACAATATAAAGTTCTTCAACAAAACACAATACAAGACTCAAAACACTATTAAAATCCCAGATCACAGCAGATCATCATCTTACGTAAAAGGAACTACAAACAAACATTAGACTCCACAATATCATAAACCAAAAGCAAGATCAAACAATAAAACCTGGACCCTTCTGCTTTCTTTCCTCGCAAGGATAAGCAGCCTCCTCCTTTCCAGAAATTATCTTCGATGCCTTTCTCTCTCCTTCGTCTTCTATTTATCCTAACTAACTAATGGGCCCCACTGAGGAATGGTCCTGCCCTTTTCCCTCTCTCAATGCTCCACGTGTAATTCTGTTTTTCCCTTTATTTTTTCTACTATAAGTAATAATAGGAGGCCTAGCAGTGTAGTCTTCAAGATAAATTTTTAGGATCCTAATTTTTGAGGGTTTCTCTTGTTGGTCTTTCTCAGTTCCTTTGCTCCTATTAGGGAGCTTACTTTTTTCCCCCTCCCTCTCTGAAAGTTAATAATATCTAAGTGAAGTTCTTTGCATGAGAAGTTTTGCATGGGAGAGTGAATGTCTAGGACCATATCCAGCAGCAATTTTCTTGTGTTACGGCCACAATAGTGCGTTCTTTTGTAGGTAGCATGCGAAAGATCTAGATCATTGATTCCCTTCGGAGTTCTTTAGCTTCTTTGGGATTATGTTGGTGCATAAAAAGGATTGCTCTATGATTGAGATCCTTAGGAACTTCCCTTTCTGGATACGGGTACTAGGTAGAGTGTTGTAGCAGACTTGTTCTTTTGCTATTTTGTGAAGATTTTGGGTTGAGAATGATATTAGAATTTTTAGAGGGGTTGCCGGTTGACAGATTTTTGGAAGAGATGTGGGAGGGTGTGATGTTTATTGCTCCCATGTGGGCATCCATTAATTGGACTTTTTGTAATTACCATATTGGTCTCATTCTTTTGGATTGAAGCCTACTTGTGTAAGTAGTTTGTGGTCTCTTTTTCTGGGCTTGTTTTTTATAGTTTTTTTTATGTGCCCTTGTATATTCATTCATTGATCCTTGTACATTCTTTCATTTTTCTCAATGAATGTTAAACTTTGGCCAAAACCAAATCAGGTTGACAATTTGAAACTTGTTGGGTAACTTTTACTTTTGAAGTGGTCCATTTATTTGACCAGTAAGAGGTCACGGATAAGGTATGGCGAAGCACAAAGGTCCTTCATCATCACCAAATATATTGTATTCGGGTGTGTCAAAAACAAGTTGCACACTCTCTTCTATTTAGAGATGGTATGTTTATACACGATCTGGTTGAGATAAATTAAAAGATAATTGAAGCTTGATGGAAAATTAATTTTTGTTGAATTTATACCCTCAATATGGACATATACGCTTTCTGGCGACACAGCAAAATTTCATTTGTGCTGTTAATTCATATGTTTGGTACAGTAATGACTATTGGAATTTCATCCATCTTATTCATGTTTATTGATCTCTTACATTTTCCTTTTTATCAGGTTTTGATTGAAGCAGTTGAAAACCATATGCCTCAAGTAATTATTATAGATGAAATAAGCACAAAACTTGAAGCCATGGCTGCCAGCACCATAGCCCAACGTGGAATTCAGTTAGTAGCGACTGCTCATGGAGTTACAATTGAAAATCTTATCATGAATCCTTTACTGGAGATGCTTGTTGGAGGAATACAGGTGATCTGCTCTTACCTCACTGCATTTTCTTTGATGATTCAAGTACTTTAGGTAATGAATATTTAAACAAATGCTTAATAATAAAATATTGCAAAAGATAGAGATTTGAAATGGAATCTAGACTCTCCAATTTCTTGTCTTAAAGCTCGCAGTTTCTAAAATTTATTTTTATTCCCAGTGCATTGGACCTATCTACTTCTCTGCCTTATTGTTGGTGGTTGAGTGTTAATTCCCTATTAATTTAGTTGGTTTCTCACATTCTCTAATTGTGTTAATTAATTGGCGTTCTTTACCGCTGAATCTTGATGTTTAGGATGAGAGGGGAAATAGTATATTGGCAGTACTTCTAAAAGGTTGAGTGTTAATTTATGACGTTATGAACTTTAGTTTTTTATATTTCTTTGGTACTTAAAGCTTTTCAGTTTTCAGTCCATTCAGTTGGTAATAAATCAAAATTTTATAGAGTGTAACTCTTGGGGATGAGGAAGCAAGCCGGAGACGTGTTCAAAAGACTGTGCTGGAAAGAAAAGGACCTTCAACATTTGCTTGTGGGGTAGAAATCATATCAAAGACTGAGTTGAGAGTTCATCGTAGCCTTGATGCAACTGTTGACGCAGTTCTTTGTGGTAAACAATTGTTATTGTTTCTTAAAAACTCCTGTCTGTTTGTTTTTTATTTTTTAAATTTTCGTTCAACTTCAATTAATCTGAAACTTTGAAGCAGCATGAAGCTACCACTTTCAGCTTATCATCACTTCTTTTGTGAAGGTCGTTATCCTAATGTTGAAGTTCGAAAGATAAATTCTACGGAAGAGAAAGAAACCATGCAAAGTGATATTTCCATATCCACTATCGCCCAGAATAAGGATGACGCTCCAGTTAGTGTATCTGATACGTATTATGAGCAAAGTGGTCAGGCGCCCAGTGAGATGTCTTTTGAGGTCCTTCCAACTGCAGGAGAATCATCTGAAGAAGATGAAGGAAAATTTCCACTTTATCTGTTTGTTTATGGGGTAAGATTCGATCTTTCAATTCTGACAAATGAACCCAATTATCTGTTTCATACTCAGATTTGATAATCTCTGTTGTTTCTAAAAATTGCCACTTGTAAGTTCAAAGTTGTTTTTGCTAGTTATTTTTAGCATTTTGCTGGATTTCTGTCATGCTACTTCACATGTTGAGTCAATTTGATATTTTAGGGTGAAAAACGTTTTTAGTCTCTAAACTTTCGTAGAAGTAACAATTTAGGCTTTAAAATTTAGTTGATAATGATCTAGGTCCTTTGATCTTCAATTTTGTAATAATTTAACTCCTCGTAACTTTAGCAAGTAACAATTTGATTAAGAGATTTTAAAATTTGAAACAAACAAATTGTTATGGTGAAAAATATTGTTCAGGTTCAATGAGTTTTCTCACATGCGTAGCTTGATCAATTGATTAGAGATCACATGCGTATACCAATAACAAATGCTAAGTCATTTCCATTATAAAAAATGACAATTAATTTTGACGACGTTTTTCACAGTATGGATCAAATTATAATTTTAAGTTAAAAGTAAGAGGATGAAATTGTTGCTTTCATGGACAAAAAGTGGTTTTTTAACCCTTCTTTTACTTATTAGATCTTTTTGTTTGGAACCGTGAAGAATTATGTAGGTTCAATATAGATTAAAGATCTATATTGTGTTGTGTTGCCTTGTTGTGGAACAGGCTACACCATGTATCATCTCTTGTCAGCATACCGTATATTTTTAGGGTTGAGGGAGTAGCTGTTGGTTGTGGAACTTACTACATGTGCAGTTATTCTAGGTATTAGAAGCAAGTGTGATCCAAGGATTCAAGCAGTTAAGGATGAATGATGTGGCCATCCATTTTACTGATAATATCAGTGAAGCAGATGCGCTTTTTGCCTTGCAGCCCAAGCTTAAAAAGAATGCTGGGATTCAAGCTGCTGCAAAATCTCATGACATACCCATTTACGTGGTTAAGGTATTGATATTTCCAGATTTACAAGCTAGAATGGGTATTAATATTATCAGCACAACGTGTTTTAGATTTCCAGTGTATTTGATTTAGTTTGGTTTTCTTTCTTTTATGTTTTATTTTTCATTTAAATTCGGTCTAGTTTGGCTGGTTTGTACTGCTATATTTGGTCGTTATATGACCATTGTTTTTCTCTTTGAGATATGATGATGGTGCCAAGGGAGTGTCAACCTAGTTGAGATGTCCAAATGCACCCACTGATCCTCTCTTTTCTCTCACTCTCTAGGCTTTTCCATTATCCTCATTGTATAAGTCTCTTGTACCTTGAGTTTTCTATTAGAAAAAGAAGTTTGTCTCCGTTCCAAACAAAAAAAAATTGTCAATTTTTAAGATAAGAGGTTCAACTCTCTATACCCCACATTTTTTGTAGTTTGAAAAAATTATTCAAAAGCTACAAATCAGCTATCATCTTTCTCATTCTTTTCAGTTCTTTCAAACAAGTTATTTTTCTCATGGTGTACTTTTCCATTTTCCACCCTTGTAGACTGGCTCGCTAGTGCATATCACAAGGGCCTTAAGGGCACTGATTATTGATCAGGAAGACGAGGGAGAAGATTTTGAATCATTGGGGAGGATGAGATCCTCGGAGAAGATTGATGCTTTGGAGGTATGTCTGATCTCTTATTTCCTTTGAAACGTGAATACTACACTTTTGGTCTTTTTAATTTAAGTTTTGTTTTTGTTGATCTCTAATAGTTTTAAGACCAACCATTTAGGATTGTTAACCGTTTTGTTTTTAGTTTTCTATTTCTAGAAACTATGCTTTTTCATCACATGAAACAGTTTTTGGTGAGGTCTTCTCCACCCCTTAAAAACAAGTTGGCTTCTTAAGCTAACTTCCAAAAATAAAAATCAAGTTTTAGAAAACTATACTTGGTAACTATTTGGTTTTTAGTTTTTAGTTTTCAAAATTTAAGACTAAATATTTTTTATACCAATGTTTTTGAAAACCAATCCAATTTAATTTTTTTAAAAAAAGTTGTGATTTTATTTTTATTTTGAAAATTGGCTAAAAATTTAACTCAAGAAAGATGAAAATCATTGTAAGAAATCGAGAGTAAAAATGAGAAAACCAATAGTTACCAAATGAAGCCTACATTTTTTAGTTTTCAAATTTTAGTTTGATGTCTAAAAATGTTTAAAAAAAGTTGACAACAAAACATGTTGTGTTAATAAGCTTAATTTTTAAACCATCATGGGTTGTCTTGGTGATAAAAAAAGAGACATAGTCTCAATAACTAACTAAGAGCTCATAGGTTCAATTTATGGTGGCTACCTGCGTAAGAATTAATTTTCTACGAGTTACTTTGACACCTAAATGTTGTAGGGTCAGAAGGGTTGTCCTGTCAGATTAATCAAGGTGTGAGTAAACTATGTCTAGACACGAATATTTTAAAAAAAGTTTAATTTTTAAAAACCAAAAACTAAAATAGGTATTTAATGGGCCTAAGCTGTTATAGTTCATAATAGATAATTGCTTTTAGCTTGGACAATTCTTAGCTTGCTGCCAAATTGAGCTTAGATCATATTAATTATCATAGCCTACTCCCTTAAAGTTGGAGGGTTGGATCCTCTCCCTGCAGTTTAAGTAATAAAAAAGAAAAAAATTCTTAGCTTGGTACTACTGACTCTGACAAAAAAATTCTGCAACAGTTGAACAATATGTGACATTACATTATTTTTTTAATAATCCATGTAATTTTTATTCATTAAACTTTTAGTTGATTTATTTTCACATATGTTACCGTCCTCCTCTATTCATTGCCCTTCCAATTCGTCTCTCCCTTCTTCTCAAACCGTGTGAGAGCTGTTTAAAGAAAAAGCAGTTTCTTTTGGTGGCTGGTAAAATATTTATGTTAGGTTATTATGTTCTTGAGAGCATTATTTACAATTCCCTCAATACAATTAAAAACAAAAACAATCATCCCAAAGCAGAAAGCTGTTTTCATCAATTTTTGCTATTTATGATTTCTCTTGCACTGTTTTAATTTCCAGTTAGCCTTTTGATGGATGAGTTCAGTTCACTACACACTCATAGCAGTTACTGTTCTTTCATTGGATATTACTCTATTAATCTATGAAACACAAACTTTAATTCTGTAAATTGCTTGCTTCATCACAGGAAGCGAGGATGGCCATTGAGCAGATTGTTATCCCAAGAGAAGAGTCTGTTGAGCTTCTCCCTAGACCACCCCATATCCTGTCTCTTCAGATGGATCTTATTCGGAAGTATCATCTACAGTCAGAGAGAATTGGCATGGAGACAAATGTTCGTCTCCGAATCTTACCCTTGATTGCTAATAATGTGGATGAAAATGCAAAAACACAGGGAAAAGTAGATCCTACAACCGAATTCGATGACTTCATTGGTTCCAATGGTGACACTAATGGAACTCTCTATAGTGTGGACAGGTTACCCTTACTTCCTGAGTAG ATTTCGATGATGAATTGGACCGATTGTTGGTGCTTTTACCTGAAGAAATGCGGCGCAGAATAAGGGAGCATGAGGAGTGTCACCAGCTTATTGAAGTGGTCTTGGATTTGGGAAGGAAACCACTGGCTCGGTTTCCTACGGGAGATTTCCTGCTCTCGGATTCTCTAGTAACTGTTGATGATCTACGCCATGCTACTTCCAAGGTTGGTGACTTTGCCATTGACAATAGAGCTGGCATTAGTAGGACATTGCATCGTATCAGTGCCATCAGAAATCGGAAGGGTGTAATTATTGGTCTAACTTGTCGTGTGGGTCGAGCTATATCAGGAAGTGCTATCTTGCTGAGGGATTTGATTCAAGATGGGGCTTCTTTGTTGCTCATTGGACCTCCAGGGGTAGGAAAAACCACAATTATCAGGGAAATAGCTAGGATACTTGCTAATGATTTCAAGAAGCGTGTAATGATTGTCGACACCTCCAATGAGATTGGTGGCGATGGTGATATACCTCATGCAGGAATTGGTAATGCTCGTCGAATGCAAGTTCCAGATTCTGATATGCAACATAAGGTTTTGATTGAAGCAGTTGAAAACCATATGCCTCAAGTAATTATTATAGATGAAATAAGCACAAAACTTGAAGCCATGGCTGCCAGCACCATAGCCCAACGTGGAATTCAGTTAGTAGCGACTGCTCATGGAGTTACAATTGAAAATCTTATCATGAATCCTTTACTGGAGATGCTTGTTGGAGGAATACAGAGTGTAACTCTTGGGGATGAGGAAGCAAGCCGGAGACGTGTTCAAAAGACTGTGCTGGAAAGAAAAGGACCTTCAACATTTGCTTGTGGGGTAGAAATCATATCAAAGACTGAGTTGAGAGTTCATCGTAGCCTTGATGCAACTGTTGACGCAGTTCTTTGTGGTCGTTATCCTAATGTTGAAGTTCGAAAGATAAATTCTACGGAAGAGAAAGAAACCATGCAAAGTGATATTTCCATATCCACTATCGCCCAGAATAAGGATGACGCTCCAGTTAGTGTATCTGATACGTATTATGAGCAAAGTGGTCAGGCGCCCAGTGAGATGTCTTTTGAGGTCCTTCCAACTGCAGGAGAATCATCTGAAGAAGATGAAGGAAAATTTCCACTTTATCTGTTTGTTTATGGGGTATTAGAAGCAAGTGTGATCCAAGGATTCAAGCAGTTAAGGATGAATGATGTGGCCATCCATTTTACTGATAATATCAGTGAAGCAGATGCGCTTTTTGCCTTGCAGCCCAAGCTTAAAAAGAATGCTGGGATTCAAGCTGCTGCAAAATCTCATGACATACCCATTTACGTGGTTAAGACTGGCTCGCTAGTGCATATCACAAGGGCCTTAAGGGCACTGATTATTGATCAGGAAGACGAGGGAGAAGATTTTGAATCATTGGGGAGGATGAGATCCTCGGAGAAGATTGATGCTTTGGAGGAAGCGAGGATGGCCATTGAGCAGATTGTTATCCCAAGAGAAGAGTCTGTTGAGCTTCTCCCTAGACCACCCCATATCCTGTCTCTTCAGATGGATCTTATTCGGAAGTATCATCTACAGTCAGAGAGAATTGGCATGGAGACAAATGTTCGTCTCCGAATCTTACCCTTGATTGCTAATAATGTGGATGAAAATGCAAAAACACAGGGAAAAGTAGATCCTACAACCGAATTCGATGACTTCATTGGTTCCAATGGTGACACTAATGGAACTCTCTATAGTGTGGACAGGTTACCCTTACTTCCTGAGTAG ATGCGGCGCAGAATAAGGGAGCATGAGGAGTGTCACCAGCTTATTGAAGTGGTCTTGGATTTGGGAAGGAAACCACTGGCTCGGTTTCCTACGGGAGATTTCCTGCTCTCGGATTCTCTAGTAACTGTTGATGATCTACGCCATGCTACTTCCAAGGTTGGTGACTTTGCCATTGACAATAGAGCTGGCATTAGTAGGACATTGCATCGTATCAGTGCCATCAGAAATCGGAAGGGTGTAATTATTGGTCTAACTTGTCGTGTGGGTCGAGCTATATCAGGAAGTGCTATCTTGCTGAGGGATTTGATTCAAGATGGGGCTTCTTTGTTGCTCATTGGACCTCCAGGGGTAGGAAAAACCACAATTATCAGGGAAATAGCTAGGATACTTGCTAATGATTTCAAGAAGCGTGTAATGATTGTCGACACCTCCAATGAGATTGGTGGCGATGGTGATATACCTCATGCAGGAATTGGTAATGCTCGTCGAATGCAAGTTCCAGATTCTGATATGCAACATAAGGTTTTGATTGAAGCAGTTGAAAACCATATGCCTCAAGTAATTATTATAGATGAAATAAGCACAAAACTTGAAGCCATGGCTGCCAGCACCATAGCCCAACGTGGAATTCAGTTAGTAGCGACTGCTCATGGAGTTACAATTGAAAATCTTATCATGAATCCTTTACTGGAGATGCTTGTTGGAGGAATACAGAGTGTAACTCTTGGGGATGAGGAAGCAAGCCGGAGACGTGTTCAAAAGACTGTGCTGGAAAGAAAAGGACCTTCAACATTTGCTTGTGGGGTAGAAATCATATCAAAGACTGAGTTGAGAGTTCATCGTAGCCTTGATGCAACTGTTGACGCAGTTCTTTGTGGTCGTTATCCTAATGTTGAAGTTCGAAAGATAAATTCTACGGAAGAGAAAGAAACCATGCAAAGTGATATTTCCATATCCACTATCGCCCAGAATAAGGATGACGCTCCAGTTAGTGTATCTGATACGTATTATGAGCAAAGTGGTCAGGCGCCCAGTGAGATGTCTTTTGAGGTCCTTCCAACTGCAGGAGAATCATCTGAAGAAGATGAAGGAAAATTTCCACTTTATCTGTTTGTTTATGGGGTATTAGAAGCAAGTGTGATCCAAGGATTCAAGCAGTTAAGGATGAATGATGTGGCCATCCATTTTACTGATAATATCAGTGAAGCAGATGCGCTTTTTGCCTTGCAGCCCAAGCTTAAAAAGAATGCTGGGATTCAAGCTGCTGCAAAATCTCATGACATACCCATTTACGTGGTTAAGACTGGCTCGCTAGTGCATATCACAAGGGCCTTAAGGGCACTGATTATTGATCAGGAAGACGAGGGAGAAGATTTTGAATCATTGGGGAGGATGAGATCCTCGGAGAAGATTGATGCTTTGGAGGAAGCGAGGATGGCCATTGAGCAGATTGTTATCCCAAGAGAAGAGTCTGTTGAGCTTCTCCCTAGACCACCCCATATCCTGTCTCTTCAGATGGATCTTATTCGGAAGTATCATCTACAGTCAGAGAGAATTGGCATGGAGACAAATGTTCGTCTCCGAATCTTACCCTTGATTGCTAATAATGTGGATGAAAATGCAAAAACACAGGGAAAAGTAGATCCTACAACCGAATTCGATGACTTCATTGGTTCCAATGGTGACACTAATGGAACTCTCTATAGTGTGGACAGGTTACCCTTACTTCCTGAGTAG MRRRIREHEECHQLIEVVLDLGRKPLARFPTGDFLLSDSLVTVDDLRHATSKVGDFAIDNRAGISRTLHRISAIRNRKGVIIGLTCRVGRAISGSAILLRDLIQDGASLLLIGPPGVGKTTIIREIARILANDFKKRVMIVDTSNEIGGDGDIPHAGIGNARRMQVPDSDMQHKVLIEAVENHMPQVIIIDEISTKLEAMAASTIAQRGIQLVATAHGVTIENLIMNPLLEMLVGGIQSVTLGDEEASRRRVQKTVLERKGPSTFACGVEIISKTELRVHRSLDATVDAVLCGRYPNVEVRKINSTEEKETMQSDISISTIAQNKDDAPVSVSDTYYEQSGQAPSEMSFEVLPTAGESSEEDEGKFPLYLFVYGVLEASVIQGFKQLRMNDVAIHFTDNISEADALFALQPKLKKNAGIQAAAKSHDIPIYVVKTGSLVHITRALRALIIDQEDEGEDFESLGRMRSSEKIDALEEARMAIEQIVIPREESVELLPRPPHILSLQMDLIRKYHLQSERIGMETNVRLRILPLIANNVDENAKTQGKVDPTTEFDDFIGSNGDTNGTLYSVDRLPLLPE*
BLAST of Cucsa.122710 vs. Swiss-Prot
Match: YCF45_PORPU (Uncharacterized protein ycf45 OS=Porphyra purpurea GN=ycf45 PE=3 SV=1) HSP 1 Score: 415.6 bits (1067), Expect = 8.8e-115 Identity = 236/550 (42.91%), Postives = 335/550 (60.91%), Query Frame = 1
BLAST of Cucsa.122710 vs. Swiss-Prot
Match: YCF45_ODOSI (Uncharacterized protein ycf45 OS=Odontella sinensis GN=ycf45 PE=3 SV=1) HSP 1 Score: 351.7 bits (901), Expect = 1.6e-95 Identity = 186/441 (42.18%), Postives = 273/441 (61.90%), Query Frame = 1
BLAST of Cucsa.122710 vs. Swiss-Prot
Match: YCF45_CYACA (Uncharacterized protein ycf45 OS=Cyanidium caldarium GN=ycf45 PE=3 SV=1) HSP 1 Score: 280.4 bits (716), Expect = 4.4e-74 Identity = 147/306 (48.04%), Postives = 205/306 (66.99%), Query Frame = 1
BLAST of Cucsa.122710 vs. Swiss-Prot
Match: SP3AA_BACSU (Stage III sporulation protein AA OS=Bacillus subtilis (strain 168) GN=spoIIIAA PE=4 SV=1) HSP 1 Score: 65.5 bits (158), Expect = 2.2e-09 Identity = 51/161 (31.68%), Postives = 84/161 (52.17%), Query Frame = 1
BLAST of Cucsa.122710 vs. TrEMBL
Match: A0A0A0L035_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G627820 PE=4 SV=1) HSP 1 Score: 1117.4 bits (2889), Expect = 0.0e+00 Identity = 578/578 (100.00%), Postives = 578/578 (100.00%), Query Frame = 1
BLAST of Cucsa.122710 vs. TrEMBL
Match: E0CSB8_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_19s0014g01660 PE=4 SV=1) HSP 1 Score: 763.5 bits (1970), Expect = 1.9e-217 Identity = 411/578 (71.11%), Postives = 466/578 (80.62%), Query Frame = 1
BLAST of Cucsa.122710 vs. TrEMBL
Match: K7KWU4_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_06G232100 PE=4 SV=1) HSP 1 Score: 759.2 bits (1959), Expect = 3.6e-216 Identity = 403/579 (69.60%), Postives = 470/579 (81.17%), Query Frame = 1
BLAST of Cucsa.122710 vs. TrEMBL
Match: A0A0B2Q3M2_GLYSO (Uncharacterized protein OS=Glycine soja GN=glysoja_047858 PE=4 SV=1) HSP 1 Score: 759.2 bits (1959), Expect = 3.6e-216 Identity = 403/579 (69.60%), Postives = 470/579 (81.17%), Query Frame = 1
BLAST of Cucsa.122710 vs. TrEMBL
Match: A5C025_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VITISV_007543 PE=4 SV=1) HSP 1 Score: 759.2 bits (1959), Expect = 3.6e-216 Identity = 409/578 (70.76%), Postives = 465/578 (80.45%), Query Frame = 1
BLAST of Cucsa.122710 vs. TAIR10
Match: AT1G73170.1 (AT1G73170.1 P-loop containing nucleoside triphosphate hydrolases superfamily protein) HSP 1 Score: 671.4 bits (1731), Expect = 5.0e-193 Identity = 357/582 (61.34%), Postives = 449/582 (77.15%), Query Frame = 1
BLAST of Cucsa.122710 vs. TAIR10
Match: AT3G10420.2 (AT3G10420.2 P-loop containing nucleoside triphosphate hydrolases superfamily protein) HSP 1 Score: 528.9 bits (1361), Expect = 4.0e-150 Identity = 287/577 (49.74%), Postives = 397/577 (68.80%), Query Frame = 1
BLAST of Cucsa.122710 vs. TAIR10
Match: AT1G33290.1 (AT1G33290.1 P-loop containing nucleoside triphosphate hydrolases superfamily protein) HSP 1 Score: 342.4 bits (877), Expect = 5.3e-94 Identity = 173/305 (56.72%), Postives = 231/305 (75.74%), Query Frame = 1
BLAST of Cucsa.122710 vs. NCBI nr
Match: gi|778695771|ref|XP_011654052.1| (PREDICTED: uncharacterized protein ycf45 [Cucumis sativus]) HSP 1 Score: 1117.4 bits (2889), Expect = 0.0e+00 Identity = 578/578 (100.00%), Postives = 578/578 (100.00%), Query Frame = 1
BLAST of Cucsa.122710 vs. NCBI nr
Match: gi|659127479|ref|XP_008463724.1| (PREDICTED: uncharacterized protein ycf45 [Cucumis melo]) HSP 1 Score: 1085.9 bits (2807), Expect = 0.0e+00 Identity = 562/578 (97.23%), Postives = 568/578 (98.27%), Query Frame = 1
BLAST of Cucsa.122710 vs. NCBI nr
Match: gi|1009161812|ref|XP_015899095.1| (PREDICTED: uncharacterized protein ycf45 [Ziziphus jujuba]) HSP 1 Score: 793.1 bits (2047), Expect = 3.2e-226 Identity = 420/583 (72.04%), Postives = 484/583 (83.02%), Query Frame = 1
BLAST of Cucsa.122710 vs. NCBI nr
Match: gi|470115790|ref|XP_004294074.1| (PREDICTED: uncharacterized protein ycf45 [Fragaria vesca subsp. vesca]) HSP 1 Score: 780.8 bits (2015), Expect = 1.7e-222 Identity = 407/578 (70.42%), Postives = 479/578 (82.87%), Query Frame = 1
BLAST of Cucsa.122710 vs. NCBI nr
Match: gi|302142922|emb|CBI20217.3| (unnamed protein product [Vitis vinifera]) HSP 1 Score: 763.5 bits (1970), Expect = 2.7e-217 Identity = 411/578 (71.11%), Postives = 466/578 (80.62%), 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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