ClCG07G010710 (gene) Watermelon (Charleston Gray)
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.GTCCGTACAAATTTCCGTTTTTTGGTTCACGATCGCTTCGAATGGCCGGCGCTGCTAAATCCCAATCCTAAACCCTTTTTTTCTGTTCATCAAGTACTCTGAGCTGTTCCTTTCTTTTCATTTCGTTCTTTTTCTCTGAAGCCTAGATGAGTAGATCAATCGGAAGAAGGGTTCCAGGTTTTTCACTTCTATCAAATGCCAACAAACTAAGCTTTGTGCCATTTTCTTCTTCCTCTTCTTTCGGTGGTCATGGTCGTGGCCGAGGTCGAGGTGGCTTTCCCTCCCATGCCGGACCCTTTGATTTCACTTCTCCAGTCCCCGGTCAAGAAGATTCAAATACGTCTAAACAAGATTCCGTAGGTTCTCGTCCTACTCCTGGCCTTGGACATGGTAAACCCACTCCTTCCTCCCCAATTCTTCCATCTTTCTCTTCCTTTTCGCCCTCTGTTAACCCATCGTCTGCTGGTCGGGGTAGAGTTGATGCCCCGCCACCGATTCGTTCCCCTTCTGGTCCAGGTTCGTCGAAGGGGTCAGATTCGGAGCCTAAGAAACCTGTGTTTTTCTCGAAGGATAATGCGGGCGACTCGGCTTCAACTACTCGACCTGGCGCGTTACACAGGGGTGTGGGAGAAAGAAACTTACCTGATACTTTACTTTCTGGATTTCCCGGTGTTGGACGAGGAAAACCTATGAAGCAACCAGGGCAGGAAGCTCAACCAAAGCAGGAGAATCGTCATCTCAGACCTAGTGGAGTTGGTGAGCCTGGAAGGGGTCGTGGCGGCGGCCAAAGGATGAGCCGTGATGGACCTGGGAGGAACACTGGTGGGATGATGTCAAGGATCGGGCCTGATGGTGAAGATGGTGGTGGTCGAGGGAAAAGCGGGCTCCGGGGCAGAGGAACGTTTCGAGGCAGAGGAGGATTCAGAGGGAGAGGAAGGGGGGTCTTTAGAACTGGGGAGAGATGGGAGAGAGGAAGAGTTCAAGATATGGAGGATGGATATGCTGCAGGACTTTATTTAGGCGACAATGCAGACGGTGAAAAGCTGGCAAAGAGGATTGGGACTGAACATATGAACCAACTGGTTGAAGGGTTTGAAGAGATGAGTGTTAGAGTGCTGCCTTCGCCACTGGAGGAAGAGTATTTGGATGCGGTGCATACTAATTATATGGTGAGCACTTCCTACGTCTTTTTTGTCCCTGTTTTTGCTCTCTAAGGACATAAAATGGACTGCGTATTAGGATTAGCTCTAAACTATTTTGGCATGATTTTTTGAAATGGAAACAAATTTTCATTGATATGAGGCTAGTGCTCCGAGTATAAAGGGACATAGAAATCATACAACTCAAATAGAACTATGGGTCAAGAGAGGCACTAGGCTATCTCAACTAGGTTGACACAATCTTAGCATCCTTGTCATTTCCCATTACTTAATATATCATATAGAATTAAGACATACTAACAAAAACAACAATGCTAAACAGTAACAATGAAAGCATTGAGGCATATGTCTTGTATGAAATAATTTGCAAAGAACTTGGATTGTGAACTCCATGAAGAAGCTAGAACAAAAGTTCTGAAAGTATGGCTTTAACTGCATTTGACCATAAAACTTGTGTTTTGGATGAGAGTGAGGGGCCAGCCAACAGTTGAGATACATTATCCTGGAAAGAATTTCCAAAAGTCCAAGACAAATTAAAATATGAGAAGAGTTTTCACCAGCAATTAGTAGAAAATGGACACTCAAAAAATAGGAGCGACCTTATGCTGTAACATGGCAGCACAGTTAAGAGTGCCAAAAATCATAGTCCAAACCAGAATGTTGACTCTTTTTGGGCTCTTGGACTTCTATAATGCTTGAAAAATTATCTTATCTATAGGAGAGGAAGCAATTAAAAAAAAAAAAGACAAAACTGTTTTCGCATGATTGGAAAGTATACTGTTTTCGGTGTTTGTGATCGAGTGATGAATTGAATAGTGTGCTGGTTGAATTATTACAAATCTGATTTTGTTTAAGTTTATCCTGAAAATTGTAGAGATTGGGTTACTAACGCTCGTTTTGACTTTTTTCTGTATGGCAGATAGAGTGTGAGCCGGAGTACTTGATGGGAGATTTTGAAAGTAATCCTGATATTGATGAGAATCCACCTATTCCTCTTCGGGATGCACTTGAGAAGATGAAACCATTTTTAATGGCCTATGAAAACATCCAAAGCCACGAAGAGTGGGAGGTATCATTTTCTGTTACCACTCCATGTTTTCATTCCTTTATTCTTGGGTCTTTTCTACTTGTTAATTGTGCTCTGCATTTGAGTGAAGTGTATATGTGAGTTATTTTTGTGGTTTTTGAGCATTGATGAAAATATCCACTATACTCTACTTACGTTGGTATTTCCTCGATCTTGCTATTATTAGATATTATATTTATCTGATACAGGTAAAGATGCAGGAAGTGTGCAAAGTATATAGACGTCTTACATTAAATTATTTAATTGCTCGTCTCAGTTGCTATTTCTCTAGAGGAGTTTTTAAGCTGACATTTTTGAGAATTGCATCAACAAGCTTGCTTAGGATATTTATCAAGAAAATTGAAAGTTGTTCAAAAGAAAGGACTAGACACAAGAGCCTGAAGTAGAGGAGCCCACAAGAACCAAACAAGGAATTACTGGTAGTGGCGGCAGTTTTTAGAATGAAAAACAATGGAAAGGTACTGAAAAACTCTGTGAGAACACTATGAGGGATTATTGATTCTTCTATCAATGAAACCTACATATGTTATATCCCTGAAAAGTCAGTCGCAAGGAGAGTGAAAAACTTCATATCCATCAACCGTGTTACCAACATCTTATGAGATTGATTATTGCCAAGGTGTTGACATATTGATCGAGAAATGTCTCGAAGTTTCACAATGCTTTTATGATGAGAGAGGTTATGGATGAGTTCTGGTTGGTAATGATGCCATTTTTTTGGAATAACTAACATTGCAAGGTACAAGACAGGTGATCCCCCATTACTACCCTTTGTCGTGAATGAATGCACAAACAAAATAACAGGGAGATACTAATATATTTTCATGCTATAAAAAACCAGTTAACAGGAAATGGTCAGACCAATATTATGGAAAGATCAAGTACATTGACAGCCTAAATGCCGTTACTATCATCTACATCTTCATCGCTTGTCATTGTCCTCCTCTTTGCTGCCCTCATCTCCATCCTCATCATCGTTCACCTCTGACATTTACTTCTCAGATTCATCTTCTTTCGCAACATTGGCTCCACTGGCCTGTTCCTTGTTATAGGCCTTCATATTTTTTTCATATTCAACCTTCCTCTTGTCAGCCTTAGCATTGTAAGGTGCTTTTTCAGCATCCGACATTGATTTCCATTTCTGTCCAGCAGCTTTACCAACAGTAGACACTGCTTTGTTATTCTTTTTTTGAAACACAAACTGCATAGCATTTTTTATTATTAAACTGATGAACAAAAAATCAGACAAACTAATTGTTTACCTCATTTTTCCCTCTCAAAAAACATCATGGAATATAAAACCCCCACAAATGAAGCACAAATTCAAGAACACAAAGAACATGAGGCAAACCACAGTTTGAACCATGCACAATCAATTCTCTCAAGACTTCTAAAATCTCTTCTCCAATTCATCCATGGTCATTTTGTTTTTTGGCACTGGCTGTAAAGCAGTTCTCACCTTCCCCCCACCTCCAACAACTTTTGTGTTGATGTTATTATTGTCCTTCTTTTTGCTAAGCTGTTATTCGGATTCTCCTCATTGAACTTCTTCTTGAACTCTTCCATAAAAACGAAGAAGGCACTGGCAGGGCTCTTGGGTTTGTTAGGATCTTACCCTGCCTTCTTACTTCCTTTCTTGCCCACGTTGGCTGCACCTTTTTGCACTGCAAGCTTGGTGTCTGCTTTCTTTGACTCCGTCTTCAATTTACTGCCTTTCATTTCAAATCCGAAGGGAGGAGGTTAGGTTAGGATTAGGGTTTGAAGAGGGAGGAAGAAGCAGAGGTGCGTGTGAGAGAGAAAGAAGGAAGGGGTGGTTGGTAATGATGCTATTGAGAACCATATAGCTTGTTAGTGAGAAAGAATTGTTTTCAAGATTGATTTTGAGTAAGACGTTCTCCCCCTCCTTTTGTATCATTCTTTTTGATAATGAAAGTTGTGTTTGTTATGAAAAAGAAGAAGGAGAAAAAAAAGAGATTGGTTTTGAGAGACTGATAATGTGGATTTGGGTTTCTTGGATAAGGTGGTTTGAATGAAAATTTTTGGGTTCAAGGGGAGATCTTGGTTATGGAATTGCATTAGATTTGTTAACTATCCTATTTCTGGTAAATAGTAAGCCTAGGGGTGGAATTTTTGCCTCTACTGGGACTGGGATTAGGCGAGAGACATTATTTCCTGTCCTTTTCCTAGTGGTTGGTGATGTCCTTGGTAGGTTAGAATGAATCAGGGTTTGGTTTGGGTTTTCACATGGGCGAAGAGTGGATTTGCCACTTTTTTAAATAATTTGAAAAATATTAGGCACTTGTATTAACCAAAAAAGAGCAGGCAACTCAAGCATAGGAGAAGGAGAAAACCCTCTCCGTATGGCCTTCCAATTGTGTCGTCCAAACCACGAAGGACTACGTGCAACCTTCCAATTGTGTGAAATCACAAGGAGGGTAAAATTTCTTGTGGTTGGAACACCACCAAGATGCTGTATACATCATTCCAAGAAAAAGACATGAGTAGTATTGCTATGCTAAAGGATCCTCTAATTCCTTTCCTTCCAAAGGAGCCAAAAAAGTACTAATGTTGCAGCTCCATGTGACTTTGGCTCTAGCTCTACTTCTCAGCCTTACTCCAGGTCTATCCAAACACTCCAACAACCAATCCTCAATTCAGTTTGAAAGGCACGTTGAGAAATCAAATTCCTTGAGCAGCCTCATCCACCCCCTCAAAGCAGAAGGTCAATGGGTGAAAAACTCCTACTATTTAACAATGACGGCAGATCGAATCGAGGGAGAAAACATCCACCTAGAGGATTTTCTTTGGACTCTATTAAACTATTCGCCGTGTCGAGACTTCTATACCAAAGAGTCCAAAGAAAAAACTTAACTTTATTTGGGATCTTAAATTTCCATATCATCCATACCATGAATTCACCTTTTTGTTTTTTAGTTTGTTGAGGACAATTTTTTCTTGCATGAGTAGGAATTCATTAATTGTTGAGAAAAATTTGCCGCTTTTTAGAGTCGTATGGTATTCAAGATCAATTGGAGAAAGGCTTCATTGGTCGGTATTAATTGTGATTTCGTTAAATTGGATAGATGAAGTTTTAAGTTGGTCTCATTTTCACTAATTGCCTTGGTCTTTCTCTTAGTCATTATTCCAATTGTCTCTACTTGTAAATCCTATTACAAAGAAGTTTATAAACGGCTTTGCACATGAAAAGTGCATTCTTCTTTGAAGGTGTTAGGTTGATACTCATCTAGTCTGTGCTTGAGTGGGAGCTCGTCGTACTTCTCCTCTCTCTTTTAGTCGATTTCAAAGATCTTTTTCAATTATTCTGTAGGTACCCCCCAGCTAAAGCCCCTTTCTCTAGTTAGATTGCCTTCTGTGGGCTTGGCTTTTCGTATGCCCTTGTATTTTTTTTCCTTCTTTCTATCTCAATAAAAGTTGTTATCCAAAGAAAAAAAAAAAAAATCACCTTTTAGTAGTTCTAAGGTGGAAAAAATGATAAGAGATTTTTTATTGTAGGGTGTGGAAGAGAGCTGGACGTTCCAGTTCAGTCAGGTGTAGGAGGTTTCTTTTAGAACAATTGGGGAAGGTGTGAGGAATTGGCCATGAAAAACTTGAGGTTTGTTATTTGTAGTACACCCTTGTTGTCTAAGTAGACGTGACATTTCCCTTTTGAGTTTGATGTTGTGTGGTGTAGGACGGTAGCGAGCAAACTGCAAAGATGTTTGTCACCAATCTAGTGGGTCTTGATGGTTGGATTTGAAGGAATCCTAGGAACGTTTGGAAGGTTGTGGTTGTCACATTTGTTTCCTTTTCTTTTACTAAGTTCTTGCAATTATCAATTGGATATGACTTGATTGTCCTATAGGAGGGATCTTAGGTAGGGGTAGTTCATTATGCCTTTGATTCCTTCACTTGTATCATCTTTCTTCTCATTATTCCCTGTATGGGGATTCCAATTAATGTATATTTGGCTTTAAACTCCATTGTCTGATAAAAATAACTTTTGATTTCACCTATTTACTCTCCTCCTTGGGTGGGTTAGTGTTAGGAATACTAGGGATATTAGGGCATGTTTGTCAGTAGCAAGGAGTTGGTTGGTGGAAGTCAATTATAAATAGAGGGGTTATGGGGTATTTCTACCAGTTTAATTGTTGTCTCGGGGCTAGTGGGGGTGGGGGGTTTTCTTGTAAGGACTTTTTCTCTATATCATACTACTCTGATTCTTTTATGCTCTCTTTGTTCACTCTGGTGTAAAAGGTAAGAATCTCCAAGAAGGGCATGTTCTTTCTTTGACCCGTATTACATAGAGGATTAACATCATTATCAATTTATCACTGTCACCATTGGCTACCATCTAGAGGTAGCCTTTTGTGCTGTTGGAGCACATTGGTGCCCTTTATGTAAGTTTGCTTTGGAGGACTTGTCACATTTTGTTGGGTTGTTAGTTCACACATTGGGTTTGCGGCAATTGTTTGGGAGCCTTTGGGGATGTGTCTGGTTCTTTTTAACAGCCTATCAAGTCGGTCTTCTGATAATTGAGGAGGCGTTGTATTGCCAGCCATTTTGGAATAAGGGAGAGATCCTTGATACGATCTTTAAATCAAGTCTAATTTTGGTTAAATTTGGTGCTTATATCTAGTTACTTTACTTCCTTAAGATGTTGGTCTACATTCGTTTCATTGTGATTTTATCTAGTGATTAGGATTTTTGGTGTTGGAGATGTTATATGTATATATATATACACGCCAACTGCTTTTTGTATTTTCATTATTTTCAAATATTGCTTTCCTTTGATTTAGAGTTAGAGAAGGTTACATCTGAAGATCTATACACTTGAAAATGTTTCCTTCTTAGCTAGTGCTTTAATGGGGTTGGAGAGGGTACTAAATATAAAGTTTCAGCCTGGAAGTAACTCTGTTCAGGTTTCAGGAATCCAAGAATTAGGTAAGTCCTCTGTTGTTGAGTGATGTTATGTATGATTAGAAAGGCCAGCCTACTGTCAACATTTAGTCATGTTTGGCCTTGAGCTCTTTGAAATTTCGAACCTTCACATCAGAATGAAAAATATTGAGTTCAAATTTTATCAGCATCCTCCTGGATTGTCATTCATCGATCTCTTTCTCTCTCTATCTCCCTTTTCTTTTTTTTTTTTTTAAAAATAAAAATTTCAACTGGAGAGGCTTTCTTAACTCAGCTTTGGTTGGGAGGATGACTTGAAAATATGATACGCTCCTTATAAAGGATGGCTCTTCTTCTTCTTCATCTAACTTTTTCATTTGGCTGTACAAGGAAATCATGGAAGAAACCATGCAAAGAGTTCCACTGCTGAAGGAGATAGTTGACTATTACAGTGGACCAGATAGAGTAACTGCAAAGCAACAACAAGGGGAGCTGGAAAGAGTTGCAAAAACACTTCCACAAAGTGCGCCTAATTCCATAAAGCAATTCACCAATCGTGCAGTTCTTTCTTTACAGGTTAGTGAAGTCACCTTAATGACTTATTATTCTGAATTATTTTATGAAAAGAAAATAGGGAAAAGAAAAAAAAAACCCAGGAAGAAATTCTAAGCTGGAAACATACGTTTCAAATCACAATGGATGTATACTATATTTGTATGTATTTTCTTTCTCGGGAATGCAAGAAGACTATGTTTAAGAATTATTCCAAATTTGTAATGATCAATATCCATGAATGCCATGAATTATTTTTCATCCAAAAAAATGTATGCCATGCTTTACATATTTTATGAGTAATAGTTGCAATGGAAACAGCATTTGTAGCACTATACACAATTTAATGTTACCATCAAATATAGTGCATATTAATTTAGTATTAATAGTATTGAATAAAGTTTTACAAAAAATCATTATTTTTATATCGAAGCTATTGCAGTTTTTTTTTTCTTTTTTTTTGGGGGAGGGGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNACAAGTTCCATTAATAGGTCTTACAAGTACACTGACAGCTTCTACCTAAGTTATTTAGAATACATGTAATAATAGGAATGAATTGTTGGGATGTGATGTAAAGGGAACCTGTAAATTTCATACACCAATGAAGTTGTTTCTTATAGAAAAAAGAAAAAGAAAAAGAGAAGAATTGTATAGTGAATTAAGTATTTGTGTAGAATGAAGAGATGGTGATGCTATTCTGTCCTCTTTGTTTTGGATGTTCAGGGGAACTAAGTACTGATTTGTGAAACCCTGAGATGTGCGGGAACACGAATGCTTGTTAACTAACATTGCTTTTCACTTTTCTAACCAAAGGAAAACCCTGAGAAAAGAGCATTGAGTAGAAATAAGAATGACGAACGGGCATAAAACTATAAAATGATATGGGCTTAAATGCACAGATACAATGCAACCAGAAAAGGAAAAAGAAAAAACAGAAATTTCATTTGGTTTTGCTGCAATAATCTTAAACTGATATAAATGAACTGCTCTGTATTGATTTTATCTGTTTATGGAGCCAATATCTCATTTTACACAACTATTGTGTATATTGTTACACTAGGCAGCCTTATTTAATGTTGTTATGATCTACCTAGATCCTGAAAGTCAAAATGTGTAAGAACAAGGCATTTTTAGTTCAGTCTCTGTACTCCAGAGGTTTAATTGACATTTCCTGTCTATGTTGCTTGTTAGTGAGTAATACAATAGGCTTTGACATTCAATATGAAGATATTGAAAGGGATAGAAATGTGGAAGCTGATTTGCACAATTCTTCTATTTGCAGAGCAACCCAGGGTGGGGATTTGACAAGAAATGCCAGTTCATGGACAAGCTTGTTAGGGAGTTCTCCCAGCGATACAAGTAGGTTACTAAAGTTCCATCAAGGACATCAGGAATTATAAATTATACTCAACTAAAATGAAGCTACTTGCTTAATTGGTCTACATCTTTTCTTTAGTCTTGGGTTTTAATTTTAGCTCATGAGATGTTTAGAAGTTTTGCACTTTACCTTTCTGGTGTGTCAGAAGGATGGTCTTTTGTAGTCCAATATTGCTGCAATAGCATTGTTGTACTGCTTCATTTTTTTGGAGGGCAATAATTGCATTTGTTTTGATCAACATTGTGCACTGAGAATTAGTCCTTTTATGTTGTACAATCTCATCCCTTGGCTACTACTCTTACATTCTCCCATTCCTATCATAAGTTATACTTCTAAGAACTCATTTTTGTTGAGTTTGGGCAGTGGAGCAAGTTAGTATGTATAATGAATGCATATGGGTGAGTTGGTATGACATGGTTTTTGGAAACTATGCCAAATAGAAATTGAGTGTTAAATGAAGGCAGATAAAAAAAACATATGTTCCTTGGATTTTTCTCTTTTTATCTACATTTTTTAATAGGCCCATTTTACGTATTACATTTGATTATGTATATTGGGAAGTAAACATGGCCGATATTAATTAA GTCCGTACAAATTTCCGTTTTTTGGTTCACGATCGCTTCGAATGGCCGGCGCTGCTAAATCCCAATCCTAAACCCTTTTTTTCTGTTCATCAAGTACTCTGAGCTGTTCCTTTCTTTTCATTTCGTTCTTTTTCTCTGAAGCCTAGATGAGTAGATCAATCGGAAGAAGGGTTCCAGGTTTTTCACTTCTATCAAATGCCAACAAACTAAGCTTTGTGCCATTTTCTTCTTCCTCTTCTTTCGGTGGTCATGGTCGTGGCCGAGGTCGAGGTGGCTTTCCCTCCCATGCCGGACCCTTTGATTTCACTTCTCCAGTCCCCGGTCAAGAAGATTCAAATACGTCTAAACAAGATTCCGTAGGTTCTCGTCCTACTCCTGGCCTTGGACATGGTAAACCCACTCCTTCCTCCCCAATTCTTCCATCTTTCTCTTCCTTTTCGCCCTCTGTTAACCCATCGTCTGCTGGTCGGGGTAGAGTTGATGCCCCGCCACCGATTCGTTCCCCTTCTGGTCCAGGTTCGTCGAAGGGGTCAGATTCGGAGCCTAAGAAACCTGTGTTTTTCTCGAAGGATAATGCGGGCGACTCGGCTTCAACTACTCGACCTGGCGCGTTACACAGGGGTGTGGGAGAAAGAAACTTACCTGATACTTTACTTTCTGGATTTCCCGGTGTTGGACGAGGAAAACCTATGAAGCAACCAGGGCAGGAAGCTCAACCAAAGCAGGAGAATCGTCATCTCAGACCTAGTGGAGTTGGTGAGCCTGGAAGGGGTCGTGGCGGCGGCCAAAGGATGAGCCGTGATGGACCTGGGAGGAACACTGGTGGGATGATGTCAAGGATCGGGCCTGATGGTGAAGATGGTGGTGGTCGAGGGAAAAGCGGGCTCCGGGGCAGAGGAACGTTTCGAGGCAGAGGAGGATTCAGAGGGAGAGGAAGGGGGGTCTTTAGAACTGGGGAGAGATGGGAGAGAGGAAGAGTTCAAGATATGGAGGATGGATATGCTGCAGGACTTTATTTAGGCGACAATGCAGACGGTGAAAAGCTGGCAAAGAGGATTGGGACTGAACATATGAACCAACTGGTTGAAGGGTTTGAAGAGATGAGTGTTAGAGTGCTGCCTTCGCCACTGGAGGAAGAGTATTTGGATGCGGTGCATACTAATTATATGATAGAGTGTGAGCCGGAGTACTTGATGGGAGATTTTGAAAGTAATCCTGATATTGATGAGAATCCACCTATTCCTCTTCGGGATGCACTTGAGAAGATGAAACCATTTTTAATGGCCTATGAAAACATCCAAAGCCACGAAGAGTGGGAGGAAATCATGGAAGAAACCATGCAAAGAGTTCCACTGCTGAAGGAGATAGTTGACTATTACAGTGGACCAGATAGAGTAACTGCAAAGCAACAACAAGGGGAGCTGGAAAGAGTTGCAAAAACACTTCCACAAAGTGCGCCTAATTCCATAAAGCAATTCACCAATCGTGCAGTTCTTTCTTTACAGAGCAACCCAGGGTGGGGATTTGACAAGAAATGCCAGTTCATGGACAAGCTTGTTAGGGAGTTCTCCCAGCGATACAAGCCCATTTTACGTATTACATTTGATTATGTATATTGGGAAGTAAACATGGCCGATATTAATTAA ATGAGTAGATCAATCGGAAGAAGGGTTCCAGGTTTTTCACTTCTATCAAATGCCAACAAACTAAGCTTTGTGCCATTTTCTTCTTCCTCTTCTTTCGGTGGTCATGGTCGTGGCCGAGGTCGAGGTGGCTTTCCCTCCCATGCCGGACCCTTTGATTTCACTTCTCCAGTCCCCGGTCAAGAAGATTCAAATACGTCTAAACAAGATTCCGTAGGTTCTCGTCCTACTCCTGGCCTTGGACATGGTAAACCCACTCCTTCCTCCCCAATTCTTCCATCTTTCTCTTCCTTTTCGCCCTCTGTTAACCCATCGTCTGCTGGTCGGGGTAGAGTTGATGCCCCGCCACCGATTCGTTCCCCTTCTGGTCCAGGTTCGTCGAAGGGGTCAGATTCGGAGCCTAAGAAACCTGTGTTTTTCTCGAAGGATAATGCGGGCGACTCGGCTTCAACTACTCGACCTGGCGCGTTACACAGGGGTGTGGGAGAAAGAAACTTACCTGATACTTTACTTTCTGGATTTCCCGGTGTTGGACGAGGAAAACCTATGAAGCAACCAGGGCAGGAAGCTCAACCAAAGCAGGAGAATCGTCATCTCAGACCTAGTGGAGTTGGTGAGCCTGGAAGGGGTCGTGGCGGCGGCCAAAGGATGAGCCGTGATGGACCTGGGAGGAACACTGGTGGGATGATGTCAAGGATCGGGCCTGATGGTGAAGATGGTGGTGGTCGAGGGAAAAGCGGGCTCCGGGGCAGAGGAACGTTTCGAGGCAGAGGAGGATTCAGAGGGAGAGGAAGGGGGGTCTTTAGAACTGGGGAGAGATGGGAGAGAGGAAGAGTTCAAGATATGGAGGATGGATATGCTGCAGGACTTTATTTAGGCGACAATGCAGACGGTGAAAAGCTGGCAAAGAGGATTGGGACTGAACATATGAACCAACTGGTTGAAGGGTTTGAAGAGATGAGTGTTAGAGTGCTGCCTTCGCCACTGGAGGAAGAGTATTTGGATGCGGTGCATACTAATTATATGATAGAGTGTGAGCCGGAGTACTTGATGGGAGATTTTGAAAGTAATCCTGATATTGATGAGAATCCACCTATTCCTCTTCGGGATGCACTTGAGAAGATGAAACCATTTTTAATGGCCTATGAAAACATCCAAAGCCACGAAGAGTGGGAGGAAATCATGGAAGAAACCATGCAAAGAGTTCCACTGCTGAAGGAGATAGTTGACTATTACAGTGGACCAGATAGAGTAACTGCAAAGCAACAACAAGGGGAGCTGGAAAGAGTTGCAAAAACACTTCCACAAAGTGCGCCTAATTCCATAAAGCAATTCACCAATCGTGCAGTTCTTTCTTTACAGAGCAACCCAGGGTGGGGATTTGACAAGAAATGCCAGTTCATGGACAAGCTTGTTAGGGAGTTCTCCCAGCGATACAAGCCCATTTTACGTATTACATTTGATTATGTATATTGGGAAGTAAACATGGCCGATATTAATTAA MSRSIGRRVPGFSLLSNANKLSFVPFSSSSSFGGHGRGRGRGGFPSHAGPFDFTSPVPGQEDSNTSKQDSVGSRPTPGLGHGKPTPSSPILPSFSSFSPSVNPSSAGRGRVDAPPPIRSPSGPGSSKGSDSEPKKPVFFSKDNAGDSASTTRPGALHRGVGERNLPDTLLSGFPGVGRGKPMKQPGQEAQPKQENRHLRPSGVGEPGRGRGGGQRMSRDGPGRNTGGMMSRIGPDGEDGGGRGKSGLRGRGTFRGRGGFRGRGRGVFRTGERWERGRVQDMEDGYAAGLYLGDNADGEKLAKRIGTEHMNQLVEGFEEMSVRVLPSPLEEEYLDAVHTNYMIECEPEYLMGDFESNPDIDENPPIPLRDALEKMKPFLMAYENIQSHEEWEEIMEETMQRVPLLKEIVDYYSGPDRVTAKQQQGELERVAKTLPQSAPNSIKQFTNRAVLSLQSNPGWGFDKKCQFMDKLVREFSQRYKPILRITFDYVYWEVNMADIN
BLAST of ClCG07G010710 vs. Swiss-Prot
Match: FBRL_DROME (rRNA 2'-O-methyltransferase fibrillarin OS=Drosophila melanogaster GN=Fib PE=2 SV=1) HSP 1 Score: 54.7 bits (130), Expect = 3.4e-06 Identity = 38/80 (47.50%), Postives = 36/80 (45.00%), Query Frame = 1
HSP 2 Score: 47.4 bits (111), Expect = 5.4e-04 Identity = 29/60 (48.33%), Postives = 28/60 (46.67%), Query Frame = 1
BLAST of ClCG07G010710 vs. Swiss-Prot
Match: NUCL_MESAU (Nucleolin OS=Mesocricetus auratus GN=NCL PE=1 SV=2) HSP 1 Score: 53.9 bits (128), Expect = 5.8e-06 Identity = 53/155 (34.19%), Postives = 62/155 (40.00%), Query Frame = 1
HSP 2 Score: 43.9 bits (102), Expect = 6.0e-03 Identity = 27/46 (58.70%), Postives = 25/46 (54.35%), Query Frame = 1
BLAST of ClCG07G010710 vs. Swiss-Prot
Match: GAR1_CAEEL (Probable H/ACA ribonucleoprotein complex subunit 1-like protein OS=Caenorhabditis elegans GN=Y66H1A.4 PE=3 SV=2) HSP 1 Score: 53.5 bits (127), Expect = 7.6e-06 Identity = 42/96 (43.75%), Postives = 45/96 (46.88%), Query Frame = 1
BLAST of ClCG07G010710 vs. Swiss-Prot
Match: IF2_LEPIC (Translation initiation factor IF-2 OS=Leptospira interrogans serogroup Icterohaemorrhagiae serovar copenhageni (strain Fiocruz L1-130) GN=infB PE=3 SV=2) HSP 1 Score: 53.5 bits (127), Expect = 7.6e-06 Identity = 60/207 (28.99%), Postives = 80/207 (38.65%), Query Frame = 1
HSP 2 Score: 48.9 bits (115), Expect = 1.9e-04 Identity = 59/208 (28.37%), Postives = 79/208 (37.98%), Query Frame = 1
BLAST of ClCG07G010710 vs. TrEMBL
Match: A0A0A0KVG1_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G064010 PE=4 SV=1) HSP 1 Score: 712.2 bits (1837), Expect = 4.4e-202 Identity = 371/489 (75.87%), Postives = 397/489 (81.19%), Query Frame = 1
BLAST of ClCG07G010710 vs. TrEMBL
Match: A0A059CJ42_EUCGR (Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_D02598 PE=4 SV=1) HSP 1 Score: 467.6 bits (1202), Expect = 1.9e-128 Identity = 270/498 (54.22%), Postives = 320/498 (64.26%), Query Frame = 1
BLAST of ClCG07G010710 vs. TrEMBL
Match: A0A151T6A7_CAJCA (Uncharacterized protein OS=Cajanus cajan GN=KK1_017092 PE=4 SV=1) HSP 1 Score: 463.4 bits (1191), Expect = 3.5e-127 Identity = 275/498 (55.22%), Postives = 324/498 (65.06%), Query Frame = 1
BLAST of ClCG07G010710 vs. TrEMBL
Match: A0A0S3S634_PHAAN (Uncharacterized protein OS=Vigna angularis var. angularis GN=Vigan.05G174900 PE=4 SV=1) HSP 1 Score: 463.0 bits (1190), Expect = 4.6e-127 Identity = 273/502 (54.38%), Postives = 325/502 (64.74%), Query Frame = 1
BLAST of ClCG07G010710 vs. TrEMBL
Match: M5X5Z8_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa006080mg PE=4 SV=1) HSP 1 Score: 462.2 bits (1188), Expect = 7.9e-127 Identity = 260/478 (54.39%), Postives = 313/478 (65.48%), Query Frame = 1
BLAST of ClCG07G010710 vs. TAIR10
Match: AT1G53645.1 (AT1G53645.1 hydroxyproline-rich glycoprotein family protein) HSP 1 Score: 323.6 bits (828), Expect = 2.2e-88 Identity = 195/492 (39.63%), Postives = 261/492 (53.05%), Query Frame = 1
BLAST of ClCG07G010710 vs. TAIR10
Match: AT1G15830.1 (AT1G15830.1 unknown protein) HSP 1 Score: 51.6 bits (122), Expect = 1.6e-06 Identity = 72/266 (27.07%), Postives = 92/266 (34.59%), Query Frame = 1
BLAST of ClCG07G010710 vs. NCBI nr
Match: gi|659101855|ref|XP_008451827.1| (PREDICTED: uncharacterized protein LOC103492997 [Cucumis melo]) HSP 1 Score: 718.4 bits (1853), Expect = 8.7e-204 Identity = 373/487 (76.59%), Postives = 395/487 (81.11%), Query Frame = 1
BLAST of ClCG07G010710 vs. NCBI nr
Match: gi|449460034|ref|XP_004147751.1| (PREDICTED: uncharacterized protein LOC101215545 [Cucumis sativus]) HSP 1 Score: 712.2 bits (1837), Expect = 6.3e-202 Identity = 371/489 (75.87%), Postives = 397/489 (81.19%), Query Frame = 1
BLAST of ClCG07G010710 vs. NCBI nr
Match: gi|1009109306|ref|XP_015889488.1| (PREDICTED: uncharacterized protein LOC107424249 isoform X1 [Ziziphus jujuba]) HSP 1 Score: 503.8 bits (1296), Expect = 3.4e-139 Identity = 291/495 (58.79%), Postives = 347/495 (70.10%), Query Frame = 1
BLAST of ClCG07G010710 vs. NCBI nr
Match: gi|645239121|ref|XP_008225991.1| (PREDICTED: la-related protein 1 [Prunus mume]) HSP 1 Score: 480.3 bits (1235), Expect = 4.0e-132 Identity = 266/483 (55.07%), Postives = 328/483 (67.91%), Query Frame = 1
BLAST of ClCG07G010710 vs. NCBI nr
Match: gi|951068261|ref|XP_014489601.1| (PREDICTED: translation initiation factor IF-2-like [Vigna radiata var. radiata]) HSP 1 Score: 473.0 bits (1216), Expect = 6.4e-130 Identity = 279/503 (55.47%), Postives = 330/503 (65.61%), Query Frame = 1
The following BLAST results are available for this feature:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
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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