CSPI04G14220 (gene) Cucumber (PI 183967) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.CTTACATTTTTTTCGATCTCTATTTCCTTTTCCGTCACTTTCAATTTCCATTCCTTTCATCTCTCTTCTCAATTTCTTTACCGATCGTTTTGCTTCAACAAGCTGTCCGATCAATCGGAGTTCATCCAACGGCATTGGAGATATAGTATCTGTAATTTTCAGAAAAACATTGATCCAGGTTGAGAGATTTAGTTTTGATCTCATTTTTGCGTATTGGAACGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGGCCGGGGGAGGCAAGGGCGGTGATGTCGTGGCTTAGAGCAGCGGTGATCAGGGCGGTGGAAGCAAGTGCCGGAGGAAAGGATAATATCACCCGTACCGTCCGTAACGTTGCCGGCACCGTCGTTTACCATGCTGGAAATGCTGTTGTAGAGGGCGCCAAGATCATTCAAGATCGCATTGTAATTTTATTCTCACTTTTCCTCTCAATTCTTAATGCGTCTGATGGCGTTTGGTTCTGTCAATTGTTATCGTTGTGAATATTTGAACGTTTATTTCTTGGACATGGAACCGTACGGTATTGTTCTCTGTTTCACGTGCAGCTTTGTTTATATAGTAACGTTACGTCTGTGGCCAATGTGCATTACTAATTATCTTTTTGTATCCGCATTTGTTACTTGTTGCAATTTCTGCTTCTCAGACGAGTTAATTTAGGGTTTGATTTTTGAGGCAGGGACCGAGGAATATGCAGGGCTTTAAACAGACAGTAAAAAGGCTGGAAGAAATATCTATTTCATCTAGAGGCATAGAAAGAGTTCAGTTATTGAGAAGGTGGCTAGTTGCGCTCAAAGAGGTGGATAGATTTTCACTAGGTCCAATCGAGGATGGTAAAAATAGTCCGACAGATCAGCTTAACGAGGAAAATAGAGATTCTCCGAAAAAACCTACATTGGTGTGTATATCAATTAGTGTTGTGTTTCCTGAACATTTTTGCATGCCTAATTTGATTGAAGAATTTGTGGTTGTTTTTTTGTTCGTTTTCTCCCCCAGCATTGAACGTCATGAAATGCTGCTTGATATCTTGCGCAGGTCTATTATGTGGACCCAGATATGGGAGGGGAGCTAAAAACTTTTCGTGATGTATTTCTCACAAGCCAAGCTCTAGAAGGCATTACGTTGTCTATGGTGAGTCGATTTGTGTGCATGTGGATATCAATTTGTTTGCAAAACATTGGTATGCGAAAATATGCTAAGTTGTTCCAACTTCCAACTTCCAACTTCCAAATATATCAACATTCATTTACTTTGTCTCTGTTGGAAATATGTAAATAATCTGATGAGCATAAAAGGCCTCAAGTTTGAACCTGTATTCATTTTATACGTAATTTATTTACATTTCCCCCCCTCCCCCCACCCGAGAACTGAGGGATCTCTTGTTCTTAACTACTTTTGTGGATTTTGTTTTTGCTGATCATAGAGTTTAACCGCAGGTTAACTCTTTTCTATGACTCAGATTCTCGAAGAACCTAATGACGAAGAAGAATCACTACTTCTAGAGATTTATGGGTGAATATTCATTCTCAGTTAGGCCTTACGTGTTCTTTATGCCCTGCAGCTGATTTCAGTAATTCTTCTCACGTTACTTTTGCTGACAAGAAGAAACAATATTAAAAACTTCTATGCCTCATTGATCATTTTCCCACTCATATCATTAGACTTTAAGTTTCCTTTATCATGGCTATATTCAGGCTCTGTCTTTCAGGAGGAAAAGAAGTACGTCAAGCGGTAATGACGAGTGTACACAATTTGGCAAAAGCATTTTCGGAATACCAAGATGAAATACTGGTAATGTCATGAAGGCATGAATTAATTTAGCATAAAATTAGCATGGGCAAAGCAGTCACTTCCGTCTGTCACTGCCATTTTTAGGTAAAACGAGAAGAATTGCTCCAATATGTCCAAGATGCAATTGCTGGGCTGAAAATAAATGCTGATTTTGATAGGTGGTGAATAAGCATATCTTTCATATCTTTCATTGGTCTTAATCAATTAGTTATTGATGATTATGCATGCATGAATTTTTATGGACAGAATTACAACTGAACTAAATTGAAATCTATATAACGTGGTGGGTGTTAGCTCTAATGAGGCTTCCAAGTTTGTATGACAAAAAAGGGGAATGTCCATGGAGGAAGCAAGAATTAATTTCCTAAGAGAACATTCAATCAAACTTGATCATAAACCTGATCCTTATCTCACTTAGTGTCATTAAATTTCTATTTGTTTTTGTCAATAAAGAAAACTACACACATGCGTGCACACAAATACGTTTTCAATCTTTTATATTTGATAGAATAAAATCACTATGTTTTTCTATATAACCTGGAGCTTGTCATTATCTAGTGAAGAAAGGGATTTTCTATAGGCAATTCACCATAAGAGAAAGTAACATCCCACTCTGAAAGGATTACGAAAAGCTTCAATTCACTGATGGTTTTATTAGACTGATTGACTAATTATAATTTCCAATTTCATATTAATTAAGCTTGTAAGTTTTTCTTTTGATCTTTCATTAATGATTGAAAAATTATAAAAGACTTCAAGAATTTAAGGTCTACAAAGCGTAGACTTAAGAAAATAAAAGAACTAAGCTCTTCCAACTAGGTCGTATTTTTGGTAACGATAATTTTGGGTGATTCAGAAATGCTACAAGATTAGGAATTTCATGAAGCCTTTTGTGGAATACCATGAAAACCTTGAAACTACAGCTAAGAATTTGTCTTCAATAAAGTTGGTAATGATATGGTATCAAGACATTTCTCTGGCATGATTCGTGTCAACCTTTTGGCAGGAAGATACCCAAGAAATTTTGACCTTTCAAAGGAAAAAGATTTGTTGATTTTTGAGCCTTGTGAGGAGAGCAATAGCCGTGGAAAGTTTTCAGAAGAAGATAAAGGATTTTTGGGTTTATTAGTCTACGCCTGAAATTTGCTGTAGCTTTGCAGGCCCATTGACAGCACAGTTGAAGAAAAACTAGTTTTGGTGGTGTGACAAAGTAGAGACAACACTCTAAGGGTTGTTTGGAGAGCTGAAATGTAATCAGGTTACTGAAAATCTGAGAGATGGTGGGATGCATGAAAATCGAGGGTGAAACCGAAATGGAATTTTGAAGCGTGGAAACGGTATAAAAGAGGGTTGGATTGAAAATTATCGAAACAAAATAAGTTTAGTATTACAAAACGAGCCCGAAAAATTCAATCCAAACATGGGTTTTGGATTACATTACATTACAATCTCATTCAATTATGGTTCACCAAACACCCCCCTAGAGGTTCTTATTCAGTGGAGGGTCAAGATATCAAGAAAACAACTTGGAAGCCAAAAATTGTTATTCAGTTTCCAACTTTTACCCGCACAATTTCCATCCTTGAATCCAATTAGTCGTTTGATCTTCTCTGTATGTTTGTTAATTAGTCATGTATTTAATAACCATGTCAGGGATGAGGGAGAGGAGAGTTCTTTCCTGGATTATTTTGAGCATACAAGGGAGTGTTTTCAGATCTCTCAAATGTCTGAATTCTATTGTTGTGTTATTTTCAGACTATCGGCAAAAGTTCTCTTGTGATTGTGCTAACTCATGGCTCACCCCATAAATATTGTAGAGAGCAACAAACCTTTTAATATATCATGTTGTTCGATTAAATATATTGTGCAGATTTGCAAAATTCTCAATGGTGTTTCCATTGAGCAGATTCACCCATACTTCTTCTAATCTGTTTTCAAACAAATTTATTTATTCTTCCAATTTCCTGCTCGCAGAATAGATGCTAAAGCATGTAGTTTGAAAGAAACACTTGACGAAAATCATGAGGAGCTGCCACCTTCGAGAGAAGACCAAGATACAACATCTGATGGTGAAACTAGAGCTTCTAAGGTGATTATGAATTTATTTCCATTTATTAAATGTGGTCATTTTTTTAGTTATCTTTAGTTATTTACTTAAACTTTAATGTTTTAGCAAGTACTTGTTCATCTTTCTATTAATTGCTTTCCATTTTGAGTTTTAAGAAAGTATAAATTACATTATATTCATTGTGTAAACTACAGATTCTACAAGAAATACTTTCACAAGTTCAATTATGCTCTAAATTGGAGGAGCTTCTACTAAAGAAGAAGCTTTTCAAGGATGGGGATTCTCCACAGCTTCATGCTGAAAAGGTCCGTTCCTCTCCCTGGCTATAGACTTAACACAATGGATAAAGGAACTAACTAATCTGATGCTTTGTTTAGTCAACTGGAGTTAGATTGCACATAACAAACTTCCATGTATGTTAATCACATCTCCCATTTTCTATACTTTTATTTCTCAACTTCAATCTTAGAAACTCCACACACGGTGATATCAACATATTTTTTAACTCTCATTTATACAATTTACTTATTAAACAAATTTCTTAATAGAGGTGTCGTGGATTTAGTCCTTAGGTGGTTATCTGACTGAGGTACCTGATGAATAAAGTTGAAATATTTGTGGCCTGCTCAATAAGATTTACTTTACTCTCTTTTCAATCAAAATCTAGAGTCTTACACGGTTTTACATGTTCTGCAATTGTTTATTTGTTTCTTCCCAGGAGAAAATTGATGTTGGAGTTGTAAAGTAGGTTCGTTTTTTATTTTATTTTATTTTTTAAAAATAAGAACAAGATTCTATAATGGTTATCAGGAGAAAATTGATGTTAAGGTTGGAGAGAATCATAAAATCTATTCCTCACTGAAGATATATATGTATATATGTATATATATACACAAATGTTAATCTAAGTAGGAGAAGGTAAAAAGATAATAAACTACAATATGATAAATATATTTACAGTAGTGTTATGATACTAATATTAGCCCAAAAATAGGACTAATGGAAGATTAGAAGTACACTCCGTCATACAAAAACTATATTTTTGGTCTTCATGTTCTTCAAGTTGGTAGTTGTTTTAAAAAGAAAGTTGGTAATGAAACAACTTCTAGTTCTTTTATTTATTGATGGATTGTTTGTTGACGCTTCTACTGCTAAGCAACCACAATCAGTTTATGTTGCAGGTTGAGAAACTGAGAATTTTATCGGAATCTTTGGCCAATTCCACCTTAAAAGCTGAAAAGCGTATTGTAGATCACAGGTTTATCATATTACTAATCCATATTCATGGTTTGCATGTATTTCTCTATTGTTGATTTCACGTTTGTTGCTCTTTATGTACAATATGCCATTTTAAATTTGACACTCCCATTACTAGTGGAAGAATACAAAAGTTGAGGACAAGTGATCCTCTTTCAAAGTGAAGGAGTTAAAATATCACTCCCATTGGCTAAAATACAGATGACAGTAGTTACAATATCATTTACTACGAGAGCACCAAAGAGATGCCAGAGCTTTCACAATTTTCTCCAAAAACATCATTTTTTCTGTAGAAATATTGAAAAATTCTAGTTTTTTCTAAGCAAAGTCTCTAACTTAAACCTTTAATTACATTGATTGAAAGGATTTTTTCCTCTCTCAGGAGTGTCCATAAGGGACTTGATCTCTTCTTAGTCTTTGCATATTGTGGATTAGTAAGCAAAACATTATGATATGTTCTGAATATTTGTACTATTAAATGCCATCACTTGCAGAGGAGGGCCAATAAAAGTATGCTCCATCCAATTGCACAAAACATGGGGAAATCTAGAGAAGTTATAGGAAGTTGTCAAAAAATTGACAACTCAAGACTTCAAGCAAAATTACCCAAAAACATTCTAAACTTGGTTTACAAGAGGTAACATATTGTGGATGAATGCTACATGTTTGGGAGTTTGGGCCAAGAGATTAATGATCGTTCATAGGGGAAAAAAAGCGGAGGAAATGAGGGAGCCCAAAATAGAACTTTACATTCTTTACTCTTGATGTTAATCCTTTCATCTCCCTGAACCCCAGTTTTTTTTTAACAAGAAACAAAACTTTTCATCATTGATCATAATCAAAAGAGACTGATGATCAAAAGATACAGACTCTCACATGTGTTTGATTATGTATAAATGTCTTCCCGTGGTTTGACATCTATGATGATCAGCTGATAGGCAGCTGACCATTATGGTTTTTAACGCAAAAAAACAAAGCACCAACATGAAAACAAAAGAATATTATCTGCCTCAAGTGAGTCAGTATTCTATAACCTTTAACGTTTGTTGTAATAAAATATTAAGCTGTCACAAAGATCTCAATTGTCATTTCAACTTTTCAAGTAGTATTGATGATAAAAGGATTAGAGAATAGATATGATTTATTATAATGACAGCATCATATAAGTATACGGAGGTAATTGTGTTGATAAGGGTGTCTTAAAGTGGAGATCCACTTCTGGCTCTCTTGTTGAATGTGTTTCTTTTACCTTTTTTGCATGTCATTAGCAGAGAGCAGAAGGAGGAGGCACTCAACTTTCGGGTAGCTAAGTCCAAGGAAATGGTCCAAGCTGAGAAGGTAATCTTTGATAATTATCACTTAGAGATGTTAATTAATCCAACAGAAAATATCAGGTTAGTGTGTATGGTATGGTTTAGATAGCTTGCTATCCAATTTTTGGGTTTGTCAATTTCATGGCGCTTCTTGCTTTGCCAATTTTTTACCCGTTTACTCTTCCTCAGTAAAGAAGTCGTTTTAATTATCAATCGAAGGCAAACTATATGCTTTCAAACTTTACCTTTACACCCAACTAAGAGATGTTGATTGATGGCAGAGAACAATGAGATAATCTGTATATTGTCGTTAATTAGTTAGTTGTTAATTTAGATTAATTAGTGTTTAATTAGTCAATTGTCGTATTTAGTTGTATGGCTATAAATACTACTTTTTCTTTAATGGAACTGTAGTTCTTTGAAAGTGTTCTCTCAACTTTAGAGATGAATTTCTCTTCTTTCACTATGAATTTGGCCTTAATACCTTCAACCCACCAAATCGTAGCTTCAGTGAAGTATGGCAATGGGATTTGCTGTGGTGTTTTTAAAATTTTACATACTTGGTTGATTCAGAAGGTGTTTCATTTAAAGGTTTGGAATAATTTGTATTCTTTGAATCTCTCCTTTGGAAGATCTCTAATAGATCAGAAATTGATTCCAGTCCATCAACATATCAAGTTTTAGAAAAACAGTTGATTCACTATTGTTTTAATTATACACTTGTATCAATTGTTTTTAAATATGAATATGATTTTTTAATATAAATATGATGTGTTTGTAGCCAGAATATTTTTTTGTAATTCTGGTCTTCCAATAATTACTATAGATTGGAGTGGGGTTGGCTGTTATTTCCTTTTGATCAATATATCTCAGTTTCTTGTAAAAGAAATAATTATAATCTTGTTATATGAAGTTTTTTATAAATATTTTAGAATATTATGATTCCTATTCAAAATTTACAATTTATGATGATGAGAAATGTTTCCAAGAGGAATTACGGAGTTATATTACTCTTGTGACTTCTAGTTAGGCTCCTTCCCTTCTTCACTTCTTTCTCTTTTGGTATATTTTATTTCTCAATGAAATTTTATGTAGCATAAAATTTCTATTTGTATTTAACAACAGCTTAGTTGCATGCTTGGATTACAAGTACTTCCTATTATGGTTGTGTTAGTGAAATCCATTTCATTACTTATCGTAGTCAAACTTCATGGTACAGGAATTGACAGATGATATTGGAGAACTTGAGAACCAAAAGGATCGGCTGGAGGCTGAATTGAAAAAGGTTGGGTTTCTTTTTCTGCCATGTTCAGCAGGCTGTCTTGTATATTGAAATTCTTTCGTTTATCTATTGTCTGGCACTTTCCCTCTCTAACCAATTGCTTATTGCTATGATGATTGGTTGTGCTTTTATTTATTTTCCATATTTTTCCAATGGGAAGTTCGTATACGCTTCATGGGTTACTTTAGTGTGTTCACTTATGTTTTGACAGTCAACAAAAAATACTAGGAATCTTCTTCCTCATTAAGATAGAATGACACTAACTCCAGTACAGGCACCAACAGGAACTTTAAATGGGTGAGCAAACTAGTAAAAACCAAGACTATTGTTATATGGATCTTCATTATGCGTTCAAAGTTCCCCTTCTGTTTCTGTCCACTGAAATCTTCTTTTTGATGCAACTTGTTGGTAGGGTGATGATGGGGTTAAAACCACAATTGAGCTTTTCATTAAAAGTAGCAAGACCTAGAAAAGTTTCAGACATGCAGTTTCCCATTCATTGATAGAAACTATAAATATTTTGTAGTTGCAGAGCAAGGCAGTAAAGGTTATTAGGTGGAGGGAAATATTGGAAAAAAAACCATGAAAAAGCCTTTTCCCTTCTTGTTCTTAATTGTGATGGACATTTTAAGTTGACTCATTTTAAAGGGAGTGGAAGGAAATATTAGCGAACCTTTTAGGGTCGGTTTCAATGAGGTTTCCGTGTCTCACCTTCAGTTTGCCATCGTTACGATGTTGTTGTGATCTGGTAATGAGGCTTCCTTCTTAAACCTTATGCATCTGGTGGGGTTGTTTGAGATGATGTTTGGGCTAAAAATTAACACGAGCAAGTGCCAAGTCTTGAGTATTAGCTGTGATTGGGGTAAGCTCAATAGATGGGCTACTGTGGTTGGTTGTGACGTAAGTTCCCTTTCTACTAACTAACTTAGTCTTCCTTTGGAGGGTAATCTGAGGGTTACAGTCTTCCGGGATCCAGTTTCTGAGAAGATCAGTAAAAGGTTAGCTTTTGGGAAGAAAGGTGGTTGATTAGCTTTAGGGCTTAGTGGTCTTCTCGTTTACTACTTTCCCTTATTGAAAGCTCCTAGCTTTGTCTGCTTATGAGAATTTTTCTTTGGGAAAGGATGGATAGGGGGAAGGGATCTCATTTGGTTAGCTGGCATAGGATAACTATGAGCAAGTATGATTTCGCTCCTTTTGAGTGGGTCGCTAAAGGGCTTGAAGGCACACATCATGCTCCTAGAAGGACATCTTGCTTGAGCTCCCGTATTTCTCTTCTTGGATTTAGATGCATTGTGGGGGATGGCAAGGAGACATTTTTTTTTTTTTTTTTGTAAGATCATTGAGTTGGGGATAGCCCTGAAATCAATAAGCCTATTTATTTTTTTTTGAAAAGGATATGAGTCTCATTGTTATTAATATAAATAAAGAGACAAAGCTCAATGTACATGATGATTATACAAAGAGCAATAGGGGAGAGGGAGGATCAACAAGCGCATCTGGGCATTTCAACTAG CTTACATTTTTTTCGATCTCTATTTCCTTTTCCGTCACTTTCAATTTCCATTCCTTTCATCTCTCTTCTCAATTTCTTTACCGATCGTTTTGCTTCAACAAGCTGTCCGATCAATCGGAGTTCATCCAACGGCATTGGAGATATAGTATCTGTAATTTTCAGAAAAACATTGATCCAGGTTGAGAGATTTAGTTTTGATCTCATTTTTGCGTATTGGAACGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGGCCGGGGGAGGCAAGGGCGGTGATGTCGTGGCTTAGAGCAGCGGTGATCAGGGCGGTGGAAGCAAGTGCCGGAGGAAAGGATAATATCACCCGTACCGTCCGTAACGTTGCCGGCACCGTCGTTTACCATGCTGGAAATGCTGTTGTAGAGGGCGCCAAGATCATTCAAGATCGCATTGGACCGAGGAATATGCAGGGCTTTAAACAGACAGTAAAAAGGCTGGAAGAAATATCTATTTCATCTAGAGGCATAGAAAGAGTTCAGTTATTGAGAAGGTGGCTAGTTGCGCTCAAAGAGGTGGATAGATTTTCACTAGGTCCAATCGAGGATGGTAAAAATAGTCCGACAGATCAGCTTAACGAGGAAAATAGAGATTCTCCGAAAAAACCTACATTGGTCTATTATGTGGACCCAGATATGGGAGGGGAGCTAAAAACTTTTCGTGATGTATTTCTCACAAGCCAAGCTCTAGAAGGCATTACGTTGTCTATGATTCTCGAAGAACCTAATGACGAAGAAGAATCACTACTTCTAGAGATTTATGGGCTCTGTCTTTCAGGAGGAAAAGAAGTACGTCAAGCGGTAATGACGAGTGTACACAATTTGGCAAAAGCATTTTCGGAATACCAAGATGAAATACTGGTAAAACGAGAAGAATTGCTCCAATATGTCCAAGATGCAATTGCTGGGCTGAAAATAAATGCTGATTTTGATAGAATAGATGCTAAAGCATGTAGTTTGAAAGAAACACTTGACGAAAATCATGAGGAGCTGCCACCTTCGAGAGAAGACCAAGATACAACATCTGATGGTGAAACTAGAGCTTCTAAGATTCTACAAGAAATACTTTCACAAGTTCAATTATGCTCTAAATTGGAGGAGCTTCTACTAAAGAAGAAGCTTTTCAAGGATGGGGATTCTCCACAGCTTCATGCTGAAAAGGTTGAGAAACTGAGAATTTTATCGGAATCTTTGGCCAATTCCACCTTAAAAGCTGAAAAGCGTATTGTAGATCACAGCAGAGAGCAGAAGGAGGAGGCACTCAACTTTCGGGTAGCTAAGTCCAAGGAAATGGTCCAAGCTGAGAAGGAATTGACAGATGATATTGGAGAACTTGAGAACCAAAAGGATCGGCTGGAGGCTGAATTGAAAAAGGCTTCCTTCTTAAACCTTATGCATCTGGTGGGGTTGTTTGAGATGATGTTTGGGCTAAAAATTAACACGAGCAAGTGCCAAGTCTTGAGTATTAGCTGTGATTGGGGTAAGCTCAATAGATGGGCTACTGTGGTTGGTTGTGACGGTAATCTGAGGGTTACAGTCTTCCGGGATCCAGTTTCTGAGAAGATCAGTAAAAGGATGGATAGGGGGAAGGGATCTCATTTGGTTAGCTGGCATAGGATAACTATGAGCAAGTATGATTTCGCTCCTTTTGAGTGGGTCGCTAAAGGGCTTGAAGGCACACATCATGCTCCTAGAAGGACATCTTGCTTGAGCTCCCGTATTTCTCTTCTTGGATTTAGATGCATTGATATGAGTCTCATTGTTATTAATATAAATAAAGAGACAAAGCTCAATGTACATGATGATTATACAAAGAGCAATAGGGGAGAGGGAGGATCAACAAGCGCATCTGGGCATTTCAACTAG ATGTCGTGGCTTAGAGCAGCGGTGATCAGGGCGGTGGAAGCAAGTGCCGGAGGAAAGGATAATATCACCCGTACCGTCCGTAACGTTGCCGGCACCGTCGTTTACCATGCTGGAAATGCTGTTGTAGAGGGCGCCAAGATCATTCAAGATCGCATTGGACCGAGGAATATGCAGGGCTTTAAACAGACAGTAAAAAGGCTGGAAGAAATATCTATTTCATCTAGAGGCATAGAAAGAGTTCAGTTATTGAGAAGGTGGCTAGTTGCGCTCAAAGAGGTGGATAGATTTTCACTAGGTCCAATCGAGGATGGTAAAAATAGTCCGACAGATCAGCTTAACGAGGAAAATAGAGATTCTCCGAAAAAACCTACATTGGTCTATTATGTGGACCCAGATATGGGAGGGGAGCTAAAAACTTTTCGTGATGTATTTCTCACAAGCCAAGCTCTAGAAGGCATTACGTTGTCTATGATTCTCGAAGAACCTAATGACGAAGAAGAATCACTACTTCTAGAGATTTATGGGCTCTGTCTTTCAGGAGGAAAAGAAGTACGTCAAGCGGTAATGACGAGTGTACACAATTTGGCAAAAGCATTTTCGGAATACCAAGATGAAATACTGGTAAAACGAGAAGAATTGCTCCAATATGTCCAAGATGCAATTGCTGGGCTGAAAATAAATGCTGATTTTGATAGAATAGATGCTAAAGCATGTAGTTTGAAAGAAACACTTGACGAAAATCATGAGGAGCTGCCACCTTCGAGAGAAGACCAAGATACAACATCTGATGGTGAAACTAGAGCTTCTAAGATTCTACAAGAAATACTTTCACAAGTTCAATTATGCTCTAAATTGGAGGAGCTTCTACTAAAGAAGAAGCTTTTCAAGGATGGGGATTCTCCACAGCTTCATGCTGAAAAGGTTGAGAAACTGAGAATTTTATCGGAATCTTTGGCCAATTCCACCTTAAAAGCTGAAAAGCGTATTGTAGATCACAGCAGAGAGCAGAAGGAGGAGGCACTCAACTTTCGGGTAGCTAAGTCCAAGGAAATGGTCCAAGCTGAGAAGGAATTGACAGATGATATTGGAGAACTTGAGAACCAAAAGGATCGGCTGGAGGCTGAATTGAAAAAGGCTTCCTTCTTAAACCTTATGCATCTGGTGGGGTTGTTTGAGATGATGTTTGGGCTAAAAATTAACACGAGCAAGTGCCAAGTCTTGAGTATTAGCTGTGATTGGGGTAAGCTCAATAGATGGGCTACTGTGGTTGGTTGTGACGGTAATCTGAGGGTTACAGTCTTCCGGGATCCAGTTTCTGAGAAGATCAGTAAAAGGATGGATAGGGGGAAGGGATCTCATTTGGTTAGCTGGCATAGGATAACTATGAGCAAGTATGATTTCGCTCCTTTTGAGTGGGTCGCTAAAGGGCTTGAAGGCACACATCATGCTCCTAGAAGGACATCTTGCTTGAGCTCCCGTATTTCTCTTCTTGGATTTAGATGCATTGATATGAGTCTCATTGTTATTAATATAAATAAAGAGACAAAGCTCAATGTACATGATGATTATACAAAGAGCAATAGGGGAGAGGGAGGATCAACAAGCGCATCTGGGCATTTCAACTAG MSWLRAAVIRAVEASAGGKDNITRTVRNVAGTVVYHAGNAVVEGAKIIQDRIGPRNMQGFKQTVKRLEEISISSRGIERVQLLRRWLVALKEVDRFSLGPIEDGKNSPTDQLNEENRDSPKKPTLVYYVDPDMGGELKTFRDVFLTSQALEGITLSMILEEPNDEEESLLLEIYGLCLSGGKEVRQAVMTSVHNLAKAFSEYQDEILVKREELLQYVQDAIAGLKINADFDRIDAKACSLKETLDENHEELPPSREDQDTTSDGETRASKILQEILSQVQLCSKLEELLLKKKLFKDGDSPQLHAEKVEKLRILSESLANSTLKAEKRIVDHSREQKEEALNFRVAKSKEMVQAEKELTDDIGELENQKDRLEAELKKASFLNLMHLVGLFEMMFGLKINTSKCQVLSISCDWGKLNRWATVVGCDGNLRVTVFRDPVSEKISKRMDRGKGSHLVSWHRITMSKYDFAPFEWVAKGLEGTHHAPRRTSCLSSRISLLGFRCIDMSLIVININKETKLNVHDDYTKSNRGEGGSTSASGHFN* Homology
BLAST of CSPI04G14220 vs. ExPASy TrEMBL
Match: A0A0A0KZF6 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G293190 PE=4 SV=1) HSP 1 Score: 714.1 bits (1842), Expect = 4.3e-202 Identity = 378/378 (100.00%), Postives = 378/378 (100.00%), Query Frame = 0
BLAST of CSPI04G14220 vs. ExPASy TrEMBL
Match: A0A1S3BI59 (myosin-11 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103489834 PE=4 SV=1) HSP 1 Score: 698.7 bits (1802), Expect = 1.9e-197 Identity = 371/382 (97.12%), Postives = 374/382 (97.91%), Query Frame = 0
BLAST of CSPI04G14220 vs. ExPASy TrEMBL
Match: A0A1S3BI64 (uncharacterized protein LOC103489834 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103489834 PE=4 SV=1) HSP 1 Score: 693.0 bits (1787), Expect = 1.0e-195 Identity = 370/382 (96.86%), Postives = 373/382 (97.64%), Query Frame = 0
BLAST of CSPI04G14220 vs. ExPASy TrEMBL
Match: A0A6J1CQU3 (uncharacterized protein LOC111013735 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111013735 PE=4 SV=1) HSP 1 Score: 650.2 bits (1676), Expect = 7.6e-183 Identity = 342/382 (89.53%), Postives = 361/382 (94.50%), Query Frame = 0
BLAST of CSPI04G14220 vs. ExPASy TrEMBL
Match: A0A6J1CRU2 (uncharacterized protein LOC111013735 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111013735 PE=4 SV=1) HSP 1 Score: 644.4 bits (1661), Expect = 4.2e-181 Identity = 341/382 (89.27%), Postives = 360/382 (94.24%), Query Frame = 0
BLAST of CSPI04G14220 vs. NCBI nr
Match: XP_011653611.1 (golgin subfamily B member 1 isoform X3 [Cucumis sativus]) HSP 1 Score: 715.3 bits (1845), Expect = 4.0e-202 Identity = 379/382 (99.21%), Postives = 380/382 (99.48%), Query Frame = 0
BLAST of CSPI04G14220 vs. NCBI nr
Match: XP_011653612.1 (restin homolog isoform X4 [Cucumis sativus] >KAE8649520.1 hypothetical protein Csa_018134 [Cucumis sativus]) HSP 1 Score: 709.5 bits (1830), Expect = 2.2e-200 Identity = 378/382 (98.95%), Postives = 379/382 (99.21%), Query Frame = 0
BLAST of CSPI04G14220 vs. NCBI nr
Match: XP_031739539.1 (uncharacterized protein LOC101209774 isoform X1 [Cucumis sativus]) HSP 1 Score: 709.5 bits (1830), Expect = 2.2e-200 Identity = 379/386 (98.19%), Postives = 380/386 (98.45%), Query Frame = 0
BLAST of CSPI04G14220 vs. NCBI nr
Match: XP_031739540.1 (uncharacterized protein LOC101209774 isoform X2 [Cucumis sativus]) HSP 1 Score: 703.7 bits (1815), Expect = 1.2e-198 Identity = 378/386 (97.93%), Postives = 379/386 (98.19%), Query Frame = 0
BLAST of CSPI04G14220 vs. NCBI nr
Match: XP_008447372.1 (PREDICTED: myosin-11 isoform X1 [Cucumis melo]) HSP 1 Score: 698.7 bits (1802), Expect = 3.8e-197 Identity = 371/382 (97.12%), Postives = 374/382 (97.91%), Query Frame = 0
BLAST of CSPI04G14220 vs. TAIR 10
Match: AT2G37370.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G13560.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). ) HSP 1 Score: 379.4 bits (973), Expect = 4.8e-105 Identity = 219/380 (57.63%), Postives = 282/380 (74.21%), Query Frame = 0
BLAST of CSPI04G14220 vs. TAIR 10
Match: AT5G13560.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G37370.1); Has 12055 Blast hits to 8846 proteins in 811 species: Archae - 217; Bacteria - 1046; Metazoa - 6104; Fungi - 1115; Plants - 528; Viruses - 14; Other Eukaryotes - 3031 (source: NCBI BLink). ) HSP 1 Score: 352.1 bits (902), Expect = 8.2e-97 Identity = 202/381 (53.02%), Postives = 271/381 (71.13%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (PI 183967) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
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