Chy1G013010 (gene) Cucumber (hystrix) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGAAATGGAAGGGGAGGAAGTGTTAAAAGCTCAAGCTCACATATGGAACCACATCTTCAGCTTCATCAATTCCATGGCTTTGAAATGCGCTGTTGAACTACGCATTCCCGATGCCATCAACCGCCATGGCTCGCCCATCACCCTCTCTCAACTTATTTCCGCTCTCCAAATTCACCCTCAAAAGTCACAACACGTCCATCGTATAATGCGTATATTGGCTCACTCGGGCTTCTTTCTAATACACAACAAACTTAGCCAACAAAAAGATGATGATGAAGATCAAGATCAAGTAGCATACTCTCTCACCAACCCATCCCTTCTTCTTCTTCAACACAACCCTTTAACTTTGTCTCCCTTTTTGCTTTTCATGCTTGACCAAGTCCTCATAGAGCCATGGCTATTTATATCGGCCTGGCTCCGTAGTGACTCCGATCGCCGAACCCCATTTGAAACGGCTCATGGGAAGGAATTTTGGGAGCATATGGGGAGTGAGGCAATAGATGGGGAGGGTTTTAATGCAGCTATGGAAAGTGATGCAAAGTTGGTGGTGAGTGTTTTGTTGGAGAAATATAAAAGCGTGTTCGAGGGAGTTGAGTCGTTTGTGGACGTGGGAGGTGGTACGGGAAGCGTGGCAAAAGCCATTGCTGAGGCTTTTCCACAAATGAAATGTGTTGTTTATGACCTTCCTCAAGTTGTGGCTGGCTTGGAAGGAAACCATAACCTGATGTTCCTTCAAGGTGACATGTTTCAAGTTATTCCCCCTGCTGATGCACTTCTCTTGAAGGTGAGGACAAGGTTAACTAACTCATTTAGTGAATGTGTGTTTCGGAATTAATTTTGGAATTACAGAAAATTAATTTTTACATGCCAATCACACTTTATTAAAATTGTGATGTTTAACCACACTGATGGAAAGTGACTTAAAAACTTAGTTTGAGATTGGTAGATAAAGTAATTTGAAATTATTTGGATAGTACTTGGGTGGTGCATCAAGAACAATCACTTATTTGTGTGCATCCTTTCTCACCACACACAAAGAAAATATAATAATATTCTAAAAATACAGAAGTAAAATTTGTCATATAATAATTTATGATTGAACAATTCGATAATTCGATGGGATGTACAAATACTTAAGTGTATCATGGGTATCACCTATATTTTTGCATTCCACCGAAATGTTTGGTTTAAGAAAAATAGATGTTGTAAAATTATTATGTTAGTTTTCAAACTTAATTTAAAAATTACCAAAATTCTAAAAAGGAAATTTTTTATTTTAAAAGCATATCAATACACAAGAAACACAAATTTTACTATGAAAAAAGATGGAAAAAAAAAAGAAAAGGAAAATGGGGGTGAATTTTGTAAGGTAATTCCTTCTCAATCACTCCACGAAAAAGCGTACTTCAAATAATTATTACAAAGTCAATTCTAAACTATTTTAGATTGTTTTAAAATAAATTTCAACATCCAACCCATCAATTTGTTTGTTTGAAAAAAAGTATTTTTAACAATACTAAAATCACTCCTAAACATACCTCTAATCCTTCCTTTTGTATCATTCTAATGTGAAATAATGTAATAATACAGTGGATATTACACGATTGGAGAGACGAAGAATGTGTGAAGATATTGAAGAAATGTAAAGAGGCAATCACAAGCAATGGGAAGAATGGAAAAGTGATTATAATTGATATGGTGGTAGGCAATAAAAATAATAAAAAAAACATAAAGAATAATGATATGCTGATGACAAAAGGTAAACTTTTTTGGGACTTGTTGATGATGGTTAATGTTGGTGGAAAGGAAAGGAATGAGAAAGAGTGGGCCAAATTGTTCCAAGCAGCTGGATTTGTTGCCTATAACATCTTTCCAATATTAGGTTTAAGGTCCCTTATAGAGGTTTATCCATAATTATATTATATATGCTAATGTCTTTAAATACTTATGATACCAAGATTGAACATCTATATATATACTTTCATAGATGAATAAGTTTAAGTGTGGTTTTATGTTGATTGTCGTCATAGTTTAAACAAAGGGCAAACTTTGGGACTTGAGATTGGGCGTTTGTTGTGATAAAATTTGTATACTAAGTTGGTCAATATGTTATATTGAAACTTGTTATGGGAAGGAAATGTGTACTCATCATTTGGAATGTGACTTACATAATATCTCAAAATTGTCAAACAAAGAATACGAAAAACGTAAAAGATGAGAGAATTGCCACACAAATTTACATGATTTGTTGATAATGTGTTATCTATACATGACGTCTATTGAACAGAGGGATAACGATTTTATTAAAGAGAATATGACAAAAAATAGAATATCATAGAATGTCGTCCTTTAGAGTTAAAAGAGTTTATATGTATGTGTGAGTTTCTTTAAATCATATAACCATATAATGGTAAATCACTATAAATAATTAAATTATTCTAAAACGAATTTTAAATAGGTATATCAAGACCCCTATTAAATCATCCAAAGCTATAGATAACAAATTCAAGCTATTCCAACAACTACAACTTGTTTTAGATAATTAAAATTTTATTTCACTTTTGTATACTAAATAATCTTTAAAAATGAACCAAACAAAATCTCTTTGAAAAATCTTATTTCAAGATTATTGTCTTTGATTTTTGCACAAAGTATGATCTTACTCATAAATGTTGAATTCAAAAGGATGAAAGGCGAATTTTTTTCTACCTTTCTTTATTTTTTAGTATTATTTTCAAAATGCTGTGAAAACGGGTACAACTAGAATACGAAAATCGAGAAAATATAATATTAAAATAATAAAATAAAATAAAATCAGTAGAAGAAATCTGAACTTTAATGTCGGGTGAAAAAAATGAAAAATAGGCATTAATGTCGTTTTTCAAAAGATGGATGATTAATGTCGGTTTGAAAACGACATTAAAGAGTAAGTTTCAATGTCGGTGTAAAACCGACATTAATCATCCTCCCTATTTTTTAATTTTTTTAATTTTTTAAAAAGTGAATTTCTCTTTCATATTTTACTCTTCTCTCATTAATCACGATTTTCTTCTCCAAGTAGTCTCTCCTTCACTTCACAATCTTGTATCACTCTCAAACCCTAGATCCATTCACTCGAACAGCCACCGCAAGAAATCCCTCAAGCCAGTCGTCGTTGTGCCCTCCACCATTGCCACCACTGTGCTCAGTCATGCTTCGTTGTGCTTCCTCCGCATTGGGTTGGTGTTCTAAACGTCGTGCTTTGCCAACACCATTCCATACTTTGGGGCATTATCTCATGCTTGCTTTGGGTTTCCAATTTCTAAACCCTTTCACCACCATCGTTGGAATGAATAGCACATAGTCGAGACTTTTGAGTTTATGCCAAGATGAAGGTACGAAAAATTATTGATTTTTTTCCCTATAATCTCATTTCTCTAAATTTCTATCAAGTATTTGATTCACACTTTCAGATCGATCCTCTTAACGTTTTCACTCCTCCATTTTTTTTAAAAAAAGAACTTTTTTTTTCCAGATTTCAAAGGTTTCAGATGAATTTTATATATTTACTTTTACAGGTTTGCAGAGAATGTTTCTATGAGGTCTTTGACAAGGAGATACATCAAGTTATTGTGAAGAATTTAGTTGTCCAAACCTGGGGAATGCATTATTGTTGGTGCATCTAGTGGAAAAGGTGAACACTGATTCTTCCTAGTTCTAAAGCACTTGCATATCATATACTACCCTTGTTTTCTTATGACTATTATGGTTATGGAAATTTTCTTCAAAGAAGATTCTTTTTGGTGCTAAGTATCTAGAAACATCCTTGACAAGTTGAATCCCTTGTTTTGTTTCTTCTTGACATTGACATCCTTGACAAGTTAATTTCTAAAGGATGACGAGAGATGGTTTTGCTATTTTCAAATACACTCGAAAAATTATTTTAGTCCTTCAAAGCTAATTTTAAATAATATGAAAATTAGGCTTAAAAGTGTAAAATTTTAAACATTAAATTGATTTCAAGTGATACTTTTGTGATTTAGAATGATTTTTGAACAATTTCAAAATTATTTTTAAACATGCACTTGATATGTTATGTTAATGATGTATGTTCCAAGGTACAAGGTGGTTAAAGCTGGAGCAGGGAGAAACCACATTGTTGTGGTCACTGATGCTGGAAATCTAGCTTTGTAGATTGGACCATTGGGCATTTTACACTAAAAATTGAATTGGGTTTAACTCTCAATGTTCTAAAATTTCATTCTATGTTTTGCTCACCCAATTTTATGTTGAAAAGATACCATTTTTATTTGGTGGATTGTGTTTGTAGGTTTGTGGGTGTCATCAATCTTGAATCTTTCCCTTTCGTAGCTGGCAAGGGAAATGGAGATGAGGAGAAATGTCTTGAATATCAAGTAGGCGATGCTAAGGTAGCTGTTGGAAGTGCTTAAACAAAACTAAAACAATTGAAAGCAAAAATTAGCCACTAGAAAAAGGAACTTGAGGAGAAAACTGAACAATTATTGTTGAAGTGTGAAGAAGCTGTTTTCGTAAAGAATGAGTTAAGTGCTAAAAAACAGATGTAGAAAATGTCAAGTTTGCATTGGAGTCTTTCAGGTAATTTTTTTTTCCTATCGTTGTCTTGTTAGGTTGGGAAGGAGAATGTCAAACTTACACTTTCTTTAGTATGTTCCAAGGTACACTTTCTTTAGAGTATTGACAACGTCTTGGCTGTCAATCAGCATCCTTTTAAGAGGAGCACCGTTTTTCTTCTTGGAAACGAGGTTGGTTGTTCGTTTTAATTTTATGGCTTGTCATTGATCGTGATCTCTATATTTTTGTATTGGAATTCCCATGTTTCATCTGTCTTTATCTATTTCCATGGAATTTTTTTATGTTGTAACTCATAATGTTGAATTTAGGACGTGATATGGCTGGCTTACTTTATTGTAGGATTCTTGTACATTAGTTGTAACAACCACATTATGCCTTTTGTGCTGTTTACTTATTTATTAAATTGAGGATTTACAAGAAAGAAAATTCTCTATATGTAAACTTGTTCATTCATTGACTGTTAGGATGAAAAAATGAATACGACTATTTTCTTGTTACCTACAGTACTCTTTTTGACTCCTTTTATTCACATGTTACTGCAGCTTAAAATTTTGTTGTGTTTATGTTCATATTGTTTGGATGAAGTTTGAGACGATTTCAGAGTAAAAGATAAACTTCAAGGTTAACCAAAATTATGATTATTACTGAGCATGTGATGCTTGTAGTTTATTGTTTTGGTTTTGGGTCTAACCTAAGCATGTGTGCTTGTAGTTTTCATAAAAGCTTTTTTGTTCTCATCGGCTTGTTCTTCATTGCCATTTTACAGGAAATGGGACTACTGGAAATAAAACATGGTTTGCTTCAGCTAGTAGAGTCTTTAAACTTTATTCATAGCAATGCACAACTCATTCACCGTGCTACATCTCTGGAGGTATCAATTTTATTTCAACTTTTTTTTCTTTTTCTGGTAGTTTAAATTTTTTTATTAAGTTTCTTGGGATTATTTTGAGTTTTTTCTAGTGCTTCATTTGAGAATTGAAGTGTTAAATGATACAAACTTCATATAAATGGAGAGAGAAATTACCCCTACTCCAAAATAACAAAGAAGATTGATTGGTATCAATTGAGCAATAGTTGTTAATGATATATCATACGATCTCAGATCCTCAAACATGTAGGCTGCATCAAGATTTAATACCTTTTGAGTACTCTAAATGTAGAAGTTCTGTGTTTTCTTCCACCATGATCACTTTAAGCAAAGGATTGAACGGTGGAATTAGCACACTTTCAGCTGGAGGTCTTGCATTGGGAATGGCAGAGTTATCAGTTCTTGTAGGAGAATGGGAAGAGGAATATGGGAAGAGGTTACTAGTATTTTTATTATAGGTCTGTTTTCTTTTTCTTTCTGATCACCAATTTAATGATTTTGAAGTTCACAAATTAACATAAACTTACATGTACGTTGTAAGTATATTCTTCATGATCTGGAGATGGAGAGACATGTTTAATGAATGCCCCTACAAATTTTTTGTGCAACTTACTAGACATTGATTCAACCGCCACCACTTGAAGATCGGAGTATACTTGGTTCAAGCACAATGAAACTTGGATGAGTGGATTAGAATCTAAAACAGTATTCAGGCCTTTCACAGTTGGATTATGAATTCTTTTTATGTAATTTTTTGGTAAGTTTATCAAGTACGTACTCTGTTACTGATTTGTGTGAATTTCTTTTATTAGTTTAAGTTGTTTATAATTAATTTTTTTTTTTTTTATGTTTATGGAATTGTTACTTAGGTGGGAATAAAATGCTTGGATTCTCTTATGATTTGTAAAGTGAAGGTTATATGTTTTGTTTTATTGAATTTGATTCTAAAATAGATTATATAAAGTGTTTCTTGTTCTTCTGACTTTCTATTTGGTCTTTGTTTAATTTTTGCTACTTCAATATAACCGTTTATTCATACCTAACTTTTAGAATTTCTATTCCTCATTTTTAAATTCCTCCATATTGGTTAGTTTGTTCAATTATTTTGGTCTTCTATGTTTATTTTTAACTTTCATAACACCTCTTATTTACTACTATTATTGTTCAATAATGAATTTTTTATTATTCCCCAAGGATTCTGAGCTTTTGTTTAGTGTTTGAGTAATAGTTCAAGTCTCTTAGTTCCTCTTTAGTGGGTTAGTTTTCAACAACTTCAACATTGTCAATAGTCTCTAGCCATTTAGTGGAGGTTTTGTTTGTAGTTTCACTTTGGATCTCACAGGTTAATTGTGAGATTTGAGATGTTTTATTAGTTCATGTTTTTATGTTTTATGTTTTGATGCAAATGGCAGTTGCCAGTGGACTGAGTCTTTATCAGATTCCATTTGGGTTTCACAAGATGACGTTGCTAAGGAGTTTGAGGATTGTAATTTCAAGATGACGTTGTCTTTCTACTTGGTATAA ATGGAAATGGAAGGGGAGGAAGTGTTAAAAGCTCAAGCTCACATATGGAACCACATCTTCAGCTTCATCAATTCCATGGCTTTGAAATGCGCTGTTGAACTACGCATTCCCGATGCCATCAACCGCCATGGCTCGCCCATCACCCTCTCTCAACTTATTTCCGCTCTCCAAATTCACCCTCAAAAGTCACAACACGTCCATCGTATAATGCGTATATTGGCTCACTCGGGCTTCTTTCTAATACACAACAAACTTAGCCAACAAAAAGATGATGATGAAGATCAAGATCAAGTAGCATACTCTCTCACCAACCCATCCCTTCTTCTTCTTCAACACAACCCTTTAACTTTGTCTCCCTTTTTGCTTTTCATGCTTGACCAAGTCCTCATAGAGCCATGGCTATTTATATCGGCCTGGCTCCGTAGTGACTCCGATCGCCGAACCCCATTTGAAACGGCTCATGGGAAGGAATTTTGGGAGCATATGGGGAGTGAGGCAATAGATGGGGAGGGTTTTAATGCAGCTATGGAAAGTGATGCAAAGTTGGTGGTGAGTGTTTTGTTGGAGAAATATAAAAGCGTGTTCGAGGGAGTTGAGTCGTTTGTGGACGTGGGAGGTGGTACGGGAAGCGTGGCAAAAGCCATTGCTGAGGCTTTTCCACAAATGAAATGTGTTGTTTATGACCTTCCTCAAGTTGTGGCTGGCTTGGAAGGAAACCATAACCTGATGTTCCTTCAAGGTGACATGTTTCAAGTTATTCCCCCTGCTGATGCACTTCTCTTGAAGTGGATATTACACGATTGGAGAGACGAAGAATGTGTGAAGATATTGAAGAAATGTAAAGAGGCAATCACAAGCAATGGGAAGAATGGAAAAGTGATTATAATTGATATGGTGGTTTGCAGAGAATGTTTCTATGAGGTCTTTGACAAGGAGATACATCAAGTTATTGTGAAGAATTTAGTTGTCCAAACCTGGGGAATGCATTATTGTTGGTACAAGGTGGTTAAAGCTGGAGCAGGGAGAAACCACATTGTTGTGGTCACTGATGCTGGAAATCTAGCTTTGTTTGTGGGTGTCATCAATCTTGAATCTTTCCCTTTCGTAGCTGGCAAGGGAAATGGAGATGAGGAGAAATGTCTTGAATATCAAGTAGGCGATGCTAAGAGTATTGACAACGTCTTGGCTGTCAATCAGCATCCTTTTAAGAGGAGCACCGTTTTTCTTCTTGGAAACGAGGAAATGGGACTACTGGAAATAAAACATGGTTTGCTTCAGCTAGTAGAGTCTTTAAACTTTATTCATAGCAATGCACAACTCATTCACCGTGCTACATCTCTGGAGTTGTTAATGATATATCATACGATCTCAGATCCTCAAACATGTAGGCTGCATCAAGATTTAATACCTTTTGAGTACTCTAAATGTAGAAGTTCTGTGTTTTCTTCCACCATGATCACTTTAAGCAAAGGATTGAACGGTGGAATTAGCACACTTTCAGCTGGAGGTCTTGCATTGGGAATGGCAGAGTTATCAGTTCTTGTAGGAGAATGGGAAGAGGAATATGGGAAGAGTTGCCAGTGGACTGAGTCTTTATCAGATTCCATTTGGGTTTCACAAGATGACGTTGCTAAGGAGTTTGAGGATTGTAATTTCAAGATGACGTTGTCTTTCTACTTGGTATAA ATGGAAATGGAAGGGGAGGAAGTGTTAAAAGCTCAAGCTCACATATGGAACCACATCTTCAGCTTCATCAATTCCATGGCTTTGAAATGCGCTGTTGAACTACGCATTCCCGATGCCATCAACCGCCATGGCTCGCCCATCACCCTCTCTCAACTTATTTCCGCTCTCCAAATTCACCCTCAAAAGTCACAACACGTCCATCGTATAATGCGTATATTGGCTCACTCGGGCTTCTTTCTAATACACAACAAACTTAGCCAACAAAAAGATGATGATGAAGATCAAGATCAAGTAGCATACTCTCTCACCAACCCATCCCTTCTTCTTCTTCAACACAACCCTTTAACTTTGTCTCCCTTTTTGCTTTTCATGCTTGACCAAGTCCTCATAGAGCCATGGCTATTTATATCGGCCTGGCTCCGTAGTGACTCCGATCGCCGAACCCCATTTGAAACGGCTCATGGGAAGGAATTTTGGGAGCATATGGGGAGTGAGGCAATAGATGGGGAGGGTTTTAATGCAGCTATGGAAAGTGATGCAAAGTTGGTGGTGAGTGTTTTGTTGGAGAAATATAAAAGCGTGTTCGAGGGAGTTGAGTCGTTTGTGGACGTGGGAGGTGGTACGGGAAGCGTGGCAAAAGCCATTGCTGAGGCTTTTCCACAAATGAAATGTGTTGTTTATGACCTTCCTCAAGTTGTGGCTGGCTTGGAAGGAAACCATAACCTGATGTTCCTTCAAGGTGACATGTTTCAAGTTATTCCCCCTGCTGATGCACTTCTCTTGAAGTGGATATTACACGATTGGAGAGACGAAGAATGTGTGAAGATATTGAAGAAATGTAAAGAGGCAATCACAAGCAATGGGAAGAATGGAAAAGTGATTATAATTGATATGGTGGTTTGCAGAGAATGTTTCTATGAGGTCTTTGACAAGGAGATACATCAAGTTATTGTGAAGAATTTAGTTGTCCAAACCTGGGGAATGCATTATTGTTGGTACAAGGTGGTTAAAGCTGGAGCAGGGAGAAACCACATTGTTGTGGTCACTGATGCTGGAAATCTAGCTTTGTTTGTGGGTGTCATCAATCTTGAATCTTTCCCTTTCGTAGCTGGCAAGGGAAATGGAGATGAGGAGAAATGTCTTGAATATCAAGTAGGCGATGCTAAGAGTATTGACAACGTCTTGGCTGTCAATCAGCATCCTTTTAAGAGGAGCACCGTTTTTCTTCTTGGAAACGAGGAAATGGGACTACTGGAAATAAAACATGGTTTGCTTCAGCTAGTAGAGTCTTTAAACTTTATTCATAGCAATGCACAACTCATTCACCGTGCTACATCTCTGGAGTTGTTAATGATATATCATACGATCTCAGATCCTCAAACATGTAGGCTGCATCAAGATTTAATACCTTTTGAGTACTCTAAATGTAGAAGTTCTGTGTTTTCTTCCACCATGATCACTTTAAGCAAAGGATTGAACGGTGGAATTAGCACACTTTCAGCTGGAGGTCTTGCATTGGGAATGGCAGAGTTATCAGTTCTTGTAGGAGAATGGGAAGAGGAATATGGGAAGAGTTGCCAGTGGACTGAGTCTTTATCAGATTCCATTTGGGTTTCACAAGATGACGTTGCTAAGGAGTTTGAGGATTGTAATTTCAAGATGACGTTGTCTTTCTACTTGGTATAA MEMEGEEVLKAQAHIWNHIFSFINSMALKCAVELRIPDAINRHGSPITLSQLISALQIHPQKSQHVHRIMRILAHSGFFLIHNKLSQQKDDDEDQDQVAYSLTNPSLLLLQHNPLTLSPFLLFMLDQVLIEPWLFISAWLRSDSDRRTPFETAHGKEFWEHMGSEAIDGEGFNAAMESDAKLVVSVLLEKYKSVFEGVESFVDVGGGTGSVAKAIAEAFPQMKCVVYDLPQVVAGLEGNHNLMFLQGDMFQVIPPADALLLKWILHDWRDEECVKILKKCKEAITSNGKNGKVIIIDMVVCRECFYEVFDKEIHQVIVKNLVVQTWGMHYCWYKVVKAGAGRNHIVVVTDAGNLALFVGVINLESFPFVAGKGNGDEEKCLEYQVGDAKSIDNVLAVNQHPFKRSTVFLLGNEEMGLLEIKHGLLQLVESLNFIHSNAQLIHRATSLELLMIYHTISDPQTCRLHQDLIPFEYSKCRSSVFSSTMITLSKGLNGGISTLSAGGLALGMAELSVLVGEWEEEYGKSCQWTESLSDSIWVSQDDVAKEFEDCNFKMTLSFYLV* Homology
BLAST of Chy1G013010 vs. ExPASy Swiss-Prot
Match: B6VJS4 (Trans-resveratrol di-O-methyltransferase OS=Vitis vinifera OX=29760 GN=ROMT PE=1 SV=2) HSP 1 Score: 332.0 bits (850), Expect = 1.3e-89 Identity = 162/296 (54.73%), Postives = 216/296 (72.97%), Query Frame = 0
BLAST of Chy1G013010 vs. ExPASy Swiss-Prot
Match: B0ZB57 (Probable O-methyltransferase 3 OS=Humulus lupulus OX=3486 GN=OMT3 PE=2 SV=1) HSP 1 Score: 330.1 bits (845), Expect = 4.9e-89 Identity = 171/303 (56.44%), Postives = 218/303 (71.95%), Query Frame = 0
BLAST of Chy1G013010 vs. ExPASy Swiss-Prot
Match: A0A0N9HMN6 (Pluviatolide O-methyltransferase OS=Sinopodophyllum hexandrum OX=93608 GN=OMT3 PE=1 SV=1) HSP 1 Score: 311.6 bits (797), Expect = 1.8e-83 Identity = 159/297 (53.54%), Postives = 210/297 (70.71%), Query Frame = 0
BLAST of Chy1G013010 vs. ExPASy Swiss-Prot
Match: Q6VMW0 (8-hydroxyquercetin 8-O-methyltransferase OS=Mentha piperita OX=34256 GN=OMT2 PE=1 SV=1) HSP 1 Score: 305.1 bits (780), Expect = 1.7e-81 Identity = 156/296 (52.70%), Postives = 211/296 (71.28%), Query Frame = 0
BLAST of Chy1G013010 vs. ExPASy Swiss-Prot
Match: B0EXJ8 (Tabersonine 16-O-methyltransferase OS=Catharanthus roseus OX=4058 GN=16OMT PE=1 SV=1) HSP 1 Score: 299.3 bits (765), Expect = 9.2e-80 Identity = 154/302 (50.99%), Postives = 207/302 (68.54%), Query Frame = 0
BLAST of Chy1G013010 vs. ExPASy TrEMBL
Match: A0A0A0K881 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_7G328250 PE=3 SV=1) HSP 1 Score: 581.3 bits (1497), Expect = 4.5e-162 Identity = 291/302 (96.36%), Postives = 295/302 (97.68%), Query Frame = 0
BLAST of Chy1G013010 vs. ExPASy TrEMBL
Match: A0A6J1JX64 (probable O-methyltransferase 3 OS=Cucurbita maxima OX=3661 GN=LOC111488285 PE=3 SV=1) HSP 1 Score: 459.1 bits (1180), Expect = 2.6e-125 Identity = 226/300 (75.33%), Postives = 261/300 (87.00%), Query Frame = 0
BLAST of Chy1G013010 vs. ExPASy TrEMBL
Match: A0A6J1EPC7 (probable O-methyltransferase 3 OS=Cucurbita moschata OX=3662 GN=LOC111436348 PE=3 SV=1) HSP 1 Score: 458.4 bits (1178), Expect = 4.4e-125 Identity = 228/300 (76.00%), Postives = 260/300 (86.67%), Query Frame = 0
BLAST of Chy1G013010 vs. ExPASy TrEMBL
Match: A0A0A0K516 (Methyltransf_2 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_7G328260 PE=3 SV=1) HSP 1 Score: 419.1 bits (1076), Expect = 2.9e-113 Identity = 210/301 (69.77%), Postives = 241/301 (80.07%), Query Frame = 0
BLAST of Chy1G013010 vs. ExPASy TrEMBL
Match: A0A6J1DTU5 (trans-resveratrol di-O-methyltransferase-like OS=Momordica charantia OX=3673 GN=LOC111023435 PE=3 SV=1) HSP 1 Score: 404.1 bits (1037), Expect = 9.8e-109 Identity = 202/300 (67.33%), Postives = 244/300 (81.33%), Query Frame = 0
BLAST of Chy1G013010 vs. NCBI nr
Match: XP_011659150.1 (trans-resveratrol di-O-methyltransferase [Cucumis sativus] >KGN44537.1 hypothetical protein Csa_016151 [Cucumis sativus]) HSP 1 Score: 580 bits (1496), Expect = 5.31e-203 Identity = 291/302 (96.36%), Postives = 295/302 (97.68%), Query Frame = 0
BLAST of Chy1G013010 vs. NCBI nr
Match: XP_038899266.1 (trans-resveratrol di-O-methyltransferase-like [Benincasa hispida]) HSP 1 Score: 524 bits (1350), Expect = 5.91e-181 Identity = 257/300 (85.67%), Postives = 279/300 (93.00%), Query Frame = 0
BLAST of Chy1G013010 vs. NCBI nr
Match: XP_038899253.1 (trans-resveratrol di-O-methyltransferase-like [Benincasa hispida]) HSP 1 Score: 480 bits (1235), Expect = 1.76e-163 Identity = 238/301 (79.07%), Postives = 268/301 (89.04%), Query Frame = 0
BLAST of Chy1G013010 vs. NCBI nr
Match: XP_031744374.1 (probable O-methyltransferase 3 [Cucumis sativus]) HSP 1 Score: 468 bits (1205), Expect = 4.80e-159 Identity = 229/301 (76.08%), Postives = 261/301 (86.71%), Query Frame = 0
BLAST of Chy1G013010 vs. NCBI nr
Match: XP_023548392.1 (probable O-methyltransferase 3 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 463 bits (1191), Expect = 6.54e-157 Identity = 229/300 (76.33%), Postives = 262/300 (87.33%), Query Frame = 0
BLAST of Chy1G013010 vs. TAIR 10
Match: AT4G35160.1 (O-methyltransferase family protein ) HSP 1 Score: 196.8 bits (499), Expect = 4.6e-50 Identity = 111/303 (36.63%), Postives = 167/303 (55.12%), Query Frame = 0
BLAST of Chy1G013010 vs. TAIR 10
Match: AT4G35150.1 (O-methyltransferase family protein ) HSP 1 Score: 169.9 bits (429), Expect = 6.0e-42 Identity = 101/297 (34.01%), Postives = 146/297 (49.16%), Query Frame = 0
BLAST of Chy1G013010 vs. TAIR 10
Match: AT5G54160.1 (O-methyltransferase 1 ) HSP 1 Score: 142.9 bits (359), Expect = 7.9e-34 Identity = 92/279 (32.97%), Postives = 152/279 (54.48%), Query Frame = 0
BLAST of Chy1G013010 vs. TAIR 10
Match: AT1G63140.2 (O-methyltransferase family protein ) HSP 1 Score: 135.6 bits (340), Expect = 1.3e-31 Identity = 98/305 (32.13%), Postives = 152/305 (49.84%), Query Frame = 0
BLAST of Chy1G013010 vs. TAIR 10
Match: AT1G77520.1 (O-methyltransferase family protein ) HSP 1 Score: 126.7 bits (317), Expect = 5.8e-29 Identity = 87/285 (30.53%), Postives = 144/285 (50.53%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (hystrix) v1
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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