CSPI01G13220 (gene) Wild cucumber (PI 183967)
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.TTATTTTCATAATTGGGATTTAGGGGAAATTTGAAGGTGAGAATGGAGAGAGAAAATTGGTGGAGTATGGATCAAATATCATTTCCCTTCCTTTACTTCGCGCCAAGAGGGAAGAAAACCTAGGTGCCCGATGCTTTGGTGTACCAATCCACCCAATTTCTCACCCAAATTCCTTCATTTCGGCTTCCACTTCTTTGAATTGCCGCCGCCTCGGTCTCAACAACTCCATGGATCTCAGATTCTGAGCAACCACCATTTTTGTTGCCACCCCATCATTGAATTGGTTGCTATCTGGCCCGCGGTTCAGCCGCTGGACTGCTTGTTGGCAATTTTTCTTCATTGAGGATTTTTTAAGCCACTGCCACCCACCGCCCACTATGTCTTTCTCGATGACCCCCTTGCTCAACGGAGAGAGAGCCGTGGTACTGTTCTTCATCACCAGCCTTTTGGCTTCTCTCCCCTTCTCCCTCCTTTATCATGGTCTTGCTCTCTCTCTTCTCACCCTTGCTGCTCTTTCCATCGAAATCCAAGCAGAGAGCTCCAATTCTCTTCATCAATTTAAGACCAGGTACCTTGTCTTTCATTTCTTTTTAATTTCTCCAATTTCTCGCTTATCAATAAGCTTATGCATTTGTATGCTTAAAAGTCTTGGACTGGAAATTTATTTTTTCTTTTCTGAGTTCAACGAAAAGCGAGGAGGTAGATTCGAACTTCTAATTCTTGGTATATGACATATGCTTTTGCCAATTCAACATAGTTCAACTTGTTACTACAGACTTCTATTTATTTAGCTTGATAAGTGTTCAATAAATGCCTGACAAATCTTACCCTCATCCGCGGGGAGAAGGGTTGCTTTATATGGCTTTCTCGGGTGTGTGCAATCTTATGAACTTTGTGAGGTGGGTGGAATAATAGGACTTTTATGGGGAGGGAAAGAGGCCCAAGTGAGATTTTGAGATCTTGTTTGCTATAATGTTTGATTATGGCCTTCGATTTCAAAGACCTTCTGTAGCTATTCTACAACATAGCTGGAGGTCCTTTTAGAGGGAAGTCTCTTTTTGTGGGCTTGGTTTTTGGTTTTTTGTATGCCCGTGTTTGTATTCTTTCATTTTTCCAATGAAAGTGGCTGTTTCTATATATATAAAAACAAATATTAGCCTCATAATCAACTTGCACAACTAATCTGACGCTTGTTGATTATGCTAATGAGTGCTTGACAAGAGTCCAACAAGTATCGAACTGTTGGAATATCAACCCGTATTGGACAAGGGCACTTTATCCAACCTAAAGTGTGTTTGTGCTTCTTAGAATGCAGTCGATATCTATACTAACTTTAGAGGTTGCATTTCTCCTTTTATCTTATCTTGTAAACTTTCACTACTGGAGTCCCAACAAGAAAACGGATATTTTGTCACCTAGATTTGCACAAGTTTCTTTACTATTATTCTTTTTTCAATTCTAGTACATTTGAACTCCCAACATGATTGAACTCATTTTGTTTTTTAAATTGGAAGAGTGGTCTTTGTGGTAAACTGCAATGACTTTGATCAAAGACATATTTTCTGATGTTGTCATTTTTGCTTCATCAATGATTTGGAATACCATTTTTGTAGGCCAGGTGCTTCATCGGGAATACTGTTGGGAGCAATTACACTACCTGGTGTAATGCTTGCTAAGATGATTCAGCTTACTAGAGCTTTCTCATCTAATCAGATTGCACTCGAGGGTATGGGGTTTCTAGATAAACAATGACTGATATTGGCATTACTATTAAATTTCTCTTAATTTTGTTGTTTTTTATTAGAACTAAGCCTTTTTGTTATTATTATTGGTTAATGACAACCAGAACTTTTTAACTTTTATATATTTAGAGATCGAGACTTGGACTATGCAATTCTGGTCCACTTCAACTTGCTGCTTGAGTGTGCTTACTCTCCTCAGGAATGCTATGAATGATTCTGACGTTGTTTCACGAGCTTGCCCCCAACGTCGTTGGAGGTTGAGGCTTGATTTAGGGTGCCAAATTTTATATGGGGCTGTGTGCTATAGTTCCCTAGCAACAATATATCCTAATGGTAACTAAATTTGTTTCTTGTTAATTTATTCTTATTCTCATAAAATAAAATTATTTTTGTCTTTGTTAAGATCAACATTTAAGATGGAGAGAAATCTGCAGAAGTTTTTGTTGAGTTTTTGAATTCATGTTTCAATACTTATTTTTGTTCTTTCTTCTGATTTCTTTTCAATCAGTTCTCCGCTTGGCTCTTATGTTATCATGGATTGTCTGTCACGGGTTGGTTGCTTCTAAATTGATTCAGCATCTTCTTTGTACTTTTCCAGCTTGTGCGTCCATTGGTATGTGTTGTATTTCTCTTTTCTATTTGTAGTGGATGGTTTTAATTTCTTTAGTATTTTTCGAAATCTAAAATCACTATTTTGCAACATGTTTAATAGTATGTAATTTAAGTAATTAAAATGATCAACCATAGTAAGGCAAAATTTTTGTTGTGTTTATCCCCAATGGGAACAAAAGCAAACGTTTTTAGTTTCTGGATGCTCTGTAGGAATTCATTGCTATTTTTTCCACCAAAAAATGTTCATTCTGAATCGCAAGAATTTTTTATTTTCTTTTTTCTTTTTATATTTCCCAACATTTTGTCTGCTTAATATCATTTTCTTTCCAAATATGCTGATTCTATCTAATTGACGCTTATGATTTGGAACTCTGGATCTGCAATTATTTGCTTCAATTTTCTCAGTTCCAATTCCAGTTGTAGTTATGGTCACACTCACAAGCCAAACCTATGATTTTTTTCATGTTTAAATCAATGTCTTTCACATGCTTACTTCTTCATTGTTAGTGGCATCTTGTTATAGGGGAGGCACTCTTGGTTACATCTGGACTTGTTCTCTACTTTGGTGACATGCTGGGATGTACTATTGCTAAGGTTGGCCTTGTATGTGTTTTCCTTGGAATATAACTGTTGCCTATATGCTTAATAAAAGATTGGTTGGAAACAGGTGCTTGGGGCTTTTAGTTCGTCAGATTTGGTTTCTTTTCAGTATATGATGAACAGAAGTGAGATTAGTCCCATAGTTCAGGTTTACATTTTATTTGATGGAAGCTGATTCGCATTATTTAAGTTTCAGTAGTTCACAATTTTTGTCTCTTTTTGGGAATAACATGGTTGTTCCTCTATGTAGGGTCTGCTGCTTGGGCTTCTTCTGTGCTCAGTGATATTTAAACATCTTCACATACGGGAATGCATTTTGAACACAGAGAACTCTGAAGCTAAGAAATACTTTGAGATTAGAAGATCCATGATATTTTTTGCTCTTCTTGGATTCATTTTGATTGTGGTCGTCCCTTCATGGATGATGTTAGTTCATGAATTTGATGCACATCCTTACCTATGGTATGGAATCCATTGGAATTTGGACTTCAGTTCATTGAAAATTTGAGATTTGTTCTTCACTCTCCTAGTGCTTAACAAAAGTTGATGAAGTTAATTCATTGACCTTACTGAGCAGATTCTGTCATGTTAACTTTTTATGCTTATCCATCATATTTGACTCTGTCAGGGTCGTATCCTTTACATTTTCAGAACCACTTAAAAGGATATCGTTATGCGTCTACTGGTTGTCACTTATATGTGCATCTATTCTGCGGTTCTACAATATCTCAAGAAATAGCAAGATTGAGAGAATTCTTCTTCGTAAATACTATCATCTCATGGCTGTTTTGATGTTTCTTCCTGCACTCATCTTTCAGGTAAACTGGGGCTAATGATTGACCTTTAATGGTACGATAGTTTTGGTTCTAGTCAAAACAATGCTGGCATTCTGGATTAGGCATGCCTGGATTCTGAAAAGTTTTCGTTTTATTTTTTTTTCAGCCAAGGTTTCTCAATCTAGCCTTTGGTGCAGCTTTGGCAGTTTTCTTGGCATTAGAAATTATTCGAGTAAGTTAATTTACTTGGACATGAATTTTCTATCTATTGATTTTGTGGTGCTGTTATTATCCACAATCATTTATTTGATATGCTTGGTGACTGATATTTTCACTTTGTGAGATGTTAATTGATATGATTGCTGTTAGACAGAGAAGATTTGCTCTCATGATATGTCAAGTAAACTAGCTTAACAACTTGAAGCCTTTGCTTACTTTTTGATGTGCTTGTAGTTTCTTGATATGTTTCGAGCCTTAGCTTACTCAGAGGAAAACTACTATACTTTCTGATATTGCTTGGAGCTTAAACACTTGACTTGCGGAAGAAATCTCTCTTTGTTATGAAAAGAAATCTGTGTTCATGTTCGTAGACCATTGCAGCATGCCATGATTGACATTAAGTAATCCAAAAAGAAGAGGACTTTCGAATGAAATCTACAGTGGAAATTCTCACTATAAGAGGAAAATCAAAACTTCCAATGAGTGTTTTATGAGGGGAGGGTTTTATAATGATAGCAAGTAATGTATATTTTGTTGGCTTTTACTTGATATCAGCATGGTGCCTATTGTGTTCATGTTACTGAAATAGACAGGAAGGAGATAAAAGGGAAACTTAATGAGTGGGCTATAAGCATTCTAATATTATAAGCACGCCGTAAATGTCATTGATACAATCCATTTATGATTCAAATACCGGCTTTCGGTAATTAAATGAAGGGATACGCATTAATTATTATTATGGCAGGTGCAGGTGCAGGTGCATCTAGAAACGTATTTCATTTATCAAGTTGCTTAACTTTTATGAAAAAGCCACTGGAAGCATGACCTACTTCAGTGAATTATAATAAGTCAATGGTTATCAAGAAATCAAAGTCTAACCAACTATTATATGTGCAAATATGCGTGAAATTAAAATATAAAACATGAGACGTAGCTAAATATTCTCATTATTTTTCTCACCTAAATCATTAATTCAGGTATGGAGGATTTGGCCTTTGGGTCAACCTGTGCATCAATTTATGAATGCTTTCACAGACCACCGAGACTCTGAACTTCTTATTGTGAGGTATTTATCTTGGTGTTCATTTATACTGTAGATTATTGTTAACTTTAGGTTAGGAGAATAAATTTCAACTAACCCTTGTATTTGTTATTTGTAAACTAACCCTTTTATTTGTTATTTGTAATCTAACCCTTTTATCTGTTATATCTTTCTTTTAAGCCACTTTTCACTTTTATTGGGATGTGCGCTTCCCATTTGGATGTCATCTGGTTACAATGACCGTCCACTTGCACCTTTTGCTGGAATCTTGAGTCTTGGAATTGGAGATACAATGGTGAGTGGATTATACCCTCGTCTCTGGTGGTGGTACTGAATGCTTGAATTTAAATGCATGCTGAACTGAAGTTCTTCTCATTTGAGTTTGTCCTGAAATATGTGCTATTTTTCTGATCTACGGTTTGTTCTCTTGGTTATACTAGTTTTTTAAGCATTAACTGAATCAATGTGGCACTGAGGAGTTGAGAACTCTCGACCATTTATGCTTGTTTATTTTCTTAGCGGATAAATAATTGTTTCCTAAAGTAAATGAATCATGCTCGTCTGCTCTACCTAGAAATCTATCATTCACAACTCCAATATCAACCTTTGACAACCTTTAGGAGTCCCTGAGTTCAAAATGTTTTTGTAAAATGCTCACTTTTGATCTTTGGGTTTAACATGAATTAATTAATTTAAAATGTGGAATTTTCTAATTAATTTTAATATTGATGGAAATTTCATGAAAACTATTTTCTATTTTAATTAATAAAAAAGTAATACATTAAACACAGTGAGCATAATTGAAAACTAAAGGGGTAAAATGCAAAATTTTGAAACCTGGGACCAAACAAAAACCCAAGTTAACCATCATCAACCCTAGTGATAAAAATGGTATCAAAGTCTCAATAACTAACTAAGAGGTTATGGATTCAATCTATGTTGGCCACCTACCTAAGAATTAATTTCCACACCTAAATGTTGTAGGGTCAGATGGGTTGTCTCGTGAGATTAGTCAAGGTTTGCATAAATTGGCTCGGGCACTCGCAGATGGAAAAAAATGGAAAGTCAAGTCAAAACTCAAGGGGGTAAAATATAACATTTTAAAATTTAGGAACTGAAGGAAAACTGAGCTCAAAACACAAGGCCTCAAGGGTAAAAGTGCACCATCTTGAAACTTAGGAACCAAATTACTTGAAACTTAGGAACAAAATGGAAATTATACTCTAAACTCAAAGAACAAAAAAAAAAGTATTTTTCATTGATTTTATTTGAGGTTATTTGTTGTCAGTGCTGTTACTGTACCTGGCACGCACAGAGAGTTATAAATTTAAGGATCGACACTTTAAAGTGAAGTAAAAATGAATCTCACGTCAGCCTGCATTTGGTTGAAAAATGGCAACACTTGACTGTAACTTGACTTTTCAATGTCCAATATGAACATAATTTTTAGATGAAGCCTACAAGTGGTTCACTCTAATCTACCAACAAAAAGTGAAAATGATATTTTTCTTTATTTCTCAGGCATCTGTTGTTGGTCACAAGTATGGTGTCCTTCGGTGGAGCAAAACTGGCAGTGAGTATTGTTTTGTTCTGTGTGCCTCATAATATAGACTCTTACGATTTAAGTTTCTAATACTCTAATCTTGCACTTTGTAGAGAAAACCATTGAAGGCACAGCAGCTGGTATTACATCTGTGCTGGCTGCTTGTTCCATTCTGCTTCCACTTATAGCATCCACTGGATATATTTTGACAGAGGTAATCTATCTATTCCTCTGAAACACTAACCATCACAAGAAAATTCAGTATAATGGTGTGAATAAGGAAAAAAATGCAGCAAAATAGAATTTCAATTGATTTGAATTTTGAGGAACTTGGGTGTTTATTTCTTGAGCAAGCTTTGGACCGACAACTAGAAAATTGCTTGCTTAGAGGCAGAGGCTCATTGTACTTATGAACAGCCCCACCAACAAACTAACAAACAGTAACCATCTCATTTATCTACTCTATACTAGACGACCTATTCACTAATTAAACCCTAAATCTATGGTAACGTTGCCTCAGATACCTCTTATCCTCAGAATGTAGGTCAATTTAGGGGACTTGAAGAGCACTTAATATATGCATTAGAGTAGTTGAATTTCTTCCCTTCGAGTCTTAAGACCTTTCAAGTACTTAAAATTTTTAAAGCATTAAACTGGCCCCTACTTAGCTTCACATACTTGGCATATGTTGAGAGGTCATCTTCTGCCATACAAGTTGACATATTCCGACGGTAAATGACCAGAGGTATTTCTCTACAGGGACACTTATTTCCACTAGATTGTCTTGTTTACTTTTTTCCTCACCACACCCAGCTTACCTTGTGCTGCTAGACCCAAAATTATCTCATTGACCACGACTATAGAGAAATTACTGTGTGCAATGCTTGCAGGACTAAGACTTGCATGAACTAGAACAGACTTTTCCTCGAGAACTAATATGTTGGCGTTGGTCGACTATACCATGGCTGTCATCCAACAATGTGAAACTTGAAGCTTAAATCAACTTCCCTTTATTTTTTATTATGAAAATACTCATAAAAACATTCTTCCTGCCGCATCCATTTCTCATAGATTGTAAAACTGAACGAAGTTTCTTTGAAACCTCAAAATCGATAGATAAACGGAGTGAGTGAAAGGTGAATTTTGCAAACCAAATCTTAACAACCTCCCGTCTGACTAATTTCCCCATGATTTGTTTTGAGTTGAGTTCATTTCTTCTACCTCTCTGTCAATGGAGGTCTCTTTCTCAACTAAATCAACCTCACTCCTATCCTACAGATAGAGGACTGTGACCGATGTTAGGAAGAGAAAAGAGGTGAGCTTGGGTGAGAGAGGGAGAATACGGAGATAGAGGTAGGGGTGCCAATAAGTATAAAAAAAATTAATAGAACAACATTAAAGAAATGAATTATTAGTAATTAAAATGGCACTAGGGCCGGATCGGTTTTCTCTCGACTAAGATTAGACGAGGTACGTGCGTAAATTGGTACAAACACAAACGAATAAGAAAAAAAAGCCATGTTGACCTGCATATCACAGTCAAACTGGTAAAGCATTTCAGAACCAACTAAAAGTAGTTAATAATTAAGTTATGGACACTGATATTCTATAATTTGTGTGCCAATCTATTGCTGATATTGTTGATTACTTTTTCAGCGGTGGCTGTCTCTTCTCCTAGCCGTCACAATTAGTGGTTTGTTGGAGGCTTATACAGCACAACTCGACAACGCTTTCATACCACTTGTGTTCTTCAGCCTTCTATGCTTGTAGAAGCGATCAAATCTCCTTGCAGCCGACTCAGCTTGCTGCTTGCACCTCTAATCTCCAAATAAAACTTTAACTTGGCGTCTCATTAAATGCCTCAAGTCTTACATTCTTCACCAGATTTCACTTTTTTTTTTTCTGTATATAATAGCCCATATTTACTGCTGAAAATCTCCTACTCAGTGTCTTGTCCTTTGTCATATTTTGTTATCTGATTTGATTTCTAATCTTTTCAATTCAAAAGTTATACTGTTAGCTGTAGACAGGGAATGGAGAGGGATAGATTTTGTGTAATTTGTAATGCTGGGATGAAGATTCCTAGATAGAAGAGGTTTAATTTTTGTAGCAATATACCGTTGGAA ATGTCTTTCTCGATGACCCCCTTGCTCAACGGAGAGAGAGCCGTGGTACTGTTCTTCATCACCAGCCTTTTGGCTTCTCTCCCCTTCTCCCTCCTTTATCATGGTCTTGCTCTCTCTCTTCTCACCCTTGCTGCTCTTTCCATCGAAATCCAAGCAGAGAGCTCCAATTCTCTTCATCAATTTAAGACCAGGCCAGGTGCTTCATCGGGAATACTGTTGGGAGCAATTACACTACCTGGTGTAATGCTTGCTAAGATGATTCAGCTTACTAGAGCTTTCTCATCTAATCAGATTGCACTCGAGGAGATCGAGACTTGGACTATGCAATTCTGGTCCACTTCAACTTGCTGCTTGAGTGTGCTTACTCTCCTCAGGAATGCTATGAATGATTCTGACGTTGTTTCACGAGCTTGCCCCCAACGTCGTTGGAGGTTGAGGCTTGATTTAGGGTGCCAAATTTTATATGGGGCTGTGTGCTATAGTTCCCTAGCAACAATATATCCTAATGTTCTCCGCTTGGCTCTTATGTTATCATGGATTGTCTGTCACGGGTTGGTTGCTTCTAAATTGATTCAGCATCTTCTTTGTACTTTTCCAGCTTGTGCGTCCATTGGGGAGGCACTCTTGGTTACATCTGGACTTGTTCTCTACTTTGGTGACATGCTGGGATGTACTATTGCTAAGGTGCTTGGGGCTTTTAGTTCGTCAGATTTGGTTTCTTTTCAGTATATGATGAACAGAAGTGAGATTAGTCCCATAGTTCAGGGTCTGCTGCTTGGGCTTCTTCTGTGCTCAGTGATATTTAAACATCTTCACATACGGGAATGCATTTTGAACACAGAGAACTCTGAAGCTAAGAAATACTTTGAGATTAGAAGATCCATGATATTTTTTGCTCTTCTTGGATTCATTTTGATTGTGGTCGTCCCTTCATGGATGATGTTAGTTCATGAATTTGATGCACATCCTTACCTATGGGTCGTATCCTTTACATTTTCAGAACCACTTAAAAGGATATCGTTATGCGTCTACTGGTTGTCACTTATATGTGCATCTATTCTGCGGTTCTACAATATCTCAAGAAATAGCAAGATTGAGAGAATTCTTCTTCGTAAATACTATCATCTCATGGCTGTTTTGATGTTTCTTCCTGCACTCATCTTTCAGCCAAGGTTTCTCAATCTAGCCTTTGGTGCAGCTTTGGCAGTTTTCTTGGCATTAGAAATTATTCGAGTATGGAGGATTTGGCCTTTGGGTCAACCTGTGCATCAATTTATGAATGCTTTCACAGACCACCGAGACTCTGAACTTCTTATTGTGAGCCACTTTTCACTTTTATTGGGATGTGCGCTTCCCATTTGGATGTCATCTGGTTACAATGACCGTCCACTTGCACCTTTTGCTGGAATCTTGAGTCTTGGAATTGGAGATACAATGGCATCTGTTGTTGGTCACAAGTATGGTGTCCTTCGGTGGAGCAAAACTGGCAAGAAAACCATTGAAGGCACAGCAGCTGGTATTACATCTGTGCTGGCTGCTTGTTCCATTCTGCTTCCACTTATAGCATCCACTGGATATATTTTGACAGAGCGGTGGCTGTCTCTTCTCCTAGCCGTCACAATTAGTGGTTTGTTGGAGGCTTATACAGCACAACTCGACAACGCTTTCATACCACTTGTGTTCTTCAGCCTTCTATGCTTGTAG ATGTCTTTCTCGATGACCCCCTTGCTCAACGGAGAGAGAGCCGTGGTACTGTTCTTCATCACCAGCCTTTTGGCTTCTCTCCCCTTCTCCCTCCTTTATCATGGTCTTGCTCTCTCTCTTCTCACCCTTGCTGCTCTTTCCATCGAAATCCAAGCAGAGAGCTCCAATTCTCTTCATCAATTTAAGACCAGGCCAGGTGCTTCATCGGGAATACTGTTGGGAGCAATTACACTACCTGGTGTAATGCTTGCTAAGATGATTCAGCTTACTAGAGCTTTCTCATCTAATCAGATTGCACTCGAGGAGATCGAGACTTGGACTATGCAATTCTGGTCCACTTCAACTTGCTGCTTGAGTGTGCTTACTCTCCTCAGGAATGCTATGAATGATTCTGACGTTGTTTCACGAGCTTGCCCCCAACGTCGTTGGAGGTTGAGGCTTGATTTAGGGTGCCAAATTTTATATGGGGCTGTGTGCTATAGTTCCCTAGCAACAATATATCCTAATGTTCTCCGCTTGGCTCTTATGTTATCATGGATTGTCTGTCACGGGTTGGTTGCTTCTAAATTGATTCAGCATCTTCTTTGTACTTTTCCAGCTTGTGCGTCCATTGGGGAGGCACTCTTGGTTACATCTGGACTTGTTCTCTACTTTGGTGACATGCTGGGATGTACTATTGCTAAGGTGCTTGGGGCTTTTAGTTCGTCAGATTTGGTTTCTTTTCAGTATATGATGAACAGAAGTGAGATTAGTCCCATAGTTCAGGGTCTGCTGCTTGGGCTTCTTCTGTGCTCAGTGATATTTAAACATCTTCACATACGGGAATGCATTTTGAACACAGAGAACTCTGAAGCTAAGAAATACTTTGAGATTAGAAGATCCATGATATTTTTTGCTCTTCTTGGATTCATTTTGATTGTGGTCGTCCCTTCATGGATGATGTTAGTTCATGAATTTGATGCACATCCTTACCTATGGGTCGTATCCTTTACATTTTCAGAACCACTTAAAAGGATATCGTTATGCGTCTACTGGTTGTCACTTATATGTGCATCTATTCTGCGGTTCTACAATATCTCAAGAAATAGCAAGATTGAGAGAATTCTTCTTCGTAAATACTATCATCTCATGGCTGTTTTGATGTTTCTTCCTGCACTCATCTTTCAGCCAAGGTTTCTCAATCTAGCCTTTGGTGCAGCTTTGGCAGTTTTCTTGGCATTAGAAATTATTCGAGTATGGAGGATTTGGCCTTTGGGTCAACCTGTGCATCAATTTATGAATGCTTTCACAGACCACCGAGACTCTGAACTTCTTATTGTGAGCCACTTTTCACTTTTATTGGGATGTGCGCTTCCCATTTGGATGTCATCTGGTTACAATGACCGTCCACTTGCACCTTTTGCTGGAATCTTGAGTCTTGGAATTGGAGATACAATGGCATCTGTTGTTGGTCACAAGTATGGTGTCCTTCGGTGGAGCAAAACTGGCAAGAAAACCATTGAAGGCACAGCAGCTGGTATTACATCTGTGCTGGCTGCTTGTTCCATTCTGCTTCCACTTATAGCATCCACTGGATATATTTTGACAGAGCGGTGGCTGTCTCTTCTCCTAGCCGTCACAATTAGTGGTTTGTTGGAGGCTTATACAGCACAACTCGACAACGCTTTCATACCACTTGTGTTCTTCAGCCTTCTATGCTTGTAG
BLAST of CSPI01G13220 vs. Swiss-Prot
Match: EVN_ARATH (Dolichol kinase EVAN OS=Arabidopsis thaliana GN=EVN PE=2 SV=1) HSP 1 Score: 667.9 bits (1722), Expect = 9.7e-191 Identity = 348/569 (61.16%), Postives = 435/569 (76.45%), Query Frame = 1
BLAST of CSPI01G13220 vs. Swiss-Prot
Match: DOLK_HUMAN (Dolichol kinase OS=Homo sapiens GN=DOLK PE=1 SV=1) HSP 1 Score: 159.5 bits (402), Expect = 1.1e-37 Identity = 132/390 (33.85%), Postives = 198/390 (50.77%), Query Frame = 1
BLAST of CSPI01G13220 vs. Swiss-Prot
Match: DOLK_MOUSE (Dolichol kinase OS=Mus musculus GN=Dolk PE=1 SV=1) HSP 1 Score: 155.2 bits (391), Expect = 2.1e-36 Identity = 129/389 (33.16%), Postives = 196/389 (50.39%), Query Frame = 1
BLAST of CSPI01G13220 vs. Swiss-Prot
Match: DOLK_BOVIN (Dolichol kinase OS=Bos taurus GN=DOLK PE=2 SV=1) HSP 1 Score: 151.0 bits (380), Expect = 4.0e-35 Identity = 126/389 (32.39%), Postives = 194/389 (49.87%), Query Frame = 1
BLAST of CSPI01G13220 vs. Swiss-Prot
Match: SEC59_SCHPO (Dolichol kinase sec59 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=sec59 PE=3 SV=3) HSP 1 Score: 128.3 bits (321), Expect = 2.8e-28 Identity = 111/367 (30.25%), Postives = 180/367 (49.05%), Query Frame = 1
BLAST of CSPI01G13220 vs. TrEMBL
Match: A0A0A0LUX6_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_1G097720 PE=4 SV=1) HSP 1 Score: 1085.1 bits (2805), Expect = 0.0e+00 Identity = 565/567 (99.65%), Postives = 566/567 (99.82%), Query Frame = 1
BLAST of CSPI01G13220 vs. TrEMBL
Match: M5VYL4_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa003568mg PE=4 SV=1) HSP 1 Score: 732.3 bits (1889), Expect = 4.6e-208 Identity = 392/566 (69.26%), Postives = 456/566 (80.57%), Query Frame = 1
BLAST of CSPI01G13220 vs. TrEMBL
Match: A0A061GYB8_THECC (Phosphatidate cytidylyltransferase family protein OS=Theobroma cacao GN=TCM_042135 PE=4 SV=1) HSP 1 Score: 728.0 bits (1878), Expect = 8.7e-207 Identity = 389/573 (67.89%), Postives = 452/573 (78.88%), Query Frame = 1
BLAST of CSPI01G13220 vs. TrEMBL
Match: A0A0D2U7P2_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_013G268700 PE=4 SV=1) HSP 1 Score: 726.5 bits (1874), Expect = 2.5e-206 Identity = 389/565 (68.85%), Postives = 451/565 (79.82%), Query Frame = 1
BLAST of CSPI01G13220 vs. TrEMBL
Match: A0A151SAK2_CAJCA (Dolichol kinase OS=Cajanus cajan GN=KK1_026299 PE=4 SV=1) HSP 1 Score: 724.5 bits (1869), Expect = 9.7e-206 Identity = 384/566 (67.84%), Postives = 460/566 (81.27%), Query Frame = 1
BLAST of CSPI01G13220 vs. TAIR10
Match: AT3G45040.1 (AT3G45040.1 phosphatidate cytidylyltransferase family protein) HSP 1 Score: 667.9 bits (1722), Expect = 5.4e-192 Identity = 348/569 (61.16%), Postives = 435/569 (76.45%), Query Frame = 1
BLAST of CSPI01G13220 vs. NCBI nr
Match: gi|449459102|ref|XP_004147285.1| (PREDICTED: dolichol kinase [Cucumis sativus]) HSP 1 Score: 1085.1 bits (2805), Expect = 0.0e+00 Identity = 565/567 (99.65%), Postives = 566/567 (99.82%), Query Frame = 1
BLAST of CSPI01G13220 vs. NCBI nr
Match: gi|659072045|ref|XP_008463178.1| (PREDICTED: dolichol kinase isoform X1 [Cucumis melo]) HSP 1 Score: 1054.3 bits (2725), Expect = 7.6e-305 Identity = 546/567 (96.30%), Postives = 557/567 (98.24%), Query Frame = 1
BLAST of CSPI01G13220 vs. NCBI nr
Match: gi|659072047|ref|XP_008463185.1| (PREDICTED: dolichol kinase isoform X2 [Cucumis melo]) HSP 1 Score: 892.1 bits (2304), Expect = 5.0e-256 Identity = 458/479 (95.62%), Postives = 469/479 (97.91%), Query Frame = 1
BLAST of CSPI01G13220 vs. NCBI nr
Match: gi|694332549|ref|XP_009356905.1| (PREDICTED: dolichol kinase isoform X1 [Pyrus x bretschneideri]) HSP 1 Score: 737.6 bits (1903), Expect = 1.6e-209 Identity = 396/568 (69.72%), Postives = 459/568 (80.81%), Query Frame = 1
BLAST of CSPI01G13220 vs. NCBI nr
Match: gi|645217536|ref|XP_008226289.1| (PREDICTED: dolichol kinase [Prunus mume]) HSP 1 Score: 733.0 bits (1891), Expect = 3.9e-208 Identity = 392/569 (68.89%), Postives = 459/569 (80.67%), 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 (PI183967)
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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