CcUC06G120110 (gene) Watermelon (PI 537277) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TGTTCCATTTTAGCTGTCTGCTCTGTTAATTCTGGCGACGTTTGCTCCAATCCAATTCCATGGCCTGCAAGTCTCTCGCTACACACAGCTTTCGTAACTTCTCTACTGTTTCTTCCTTTTGCAATGCTTCAACAATTTCCCGGACGACGTATCAAATGACGTCTACATTTCGCCCAACAGTACACCGCTTGGTATCTGTCGCCTCTCGTTCTGTATCAGTCGCCGTCGGCAGTTTCACTTGGGACGACGTCGTCCACGTTTCTTTACCAGAAAGCTTTCAGGACGATCCTTCAGATCTAACGGGCTATTTCGAGAAGGTCAAGCTCTGCAATCGCGGATCAGAGGTCTCTTTCTCCTTTTCTTTTTTGTTTCGCTGTACAAACGAAATACGTAAAATCATTCATTCCGGTAGCAATTGTATGCGTAGGTTGTTTTACATTTTAAATTCAGCGCAGGAAAAGCTATAGACTGACAAAATGTTGTTCCATGTCTGTTTGGAATCGACTAAAATTTTCTTACAGGATACGCAATCTGAGTTTCTTCCGTTTGTTATCGATGGCCAAATTGTTGGCTACGTGCACCACGGGTGAGGCTCCTGTGTTATATCTTTCTGGATATTACTACGTACATTCAAAATATGATCCGTCTGCTTGGTCAATGCCATTTATTTGCACTCATTTCATCCAATTTATACAATGGATAGGTTCAATCGGTTTGTTTTAACGAACTTTAATGCAGTTTCGCTGAACACCTGAAGCAGTATCCGAATGTGTTTACCTTCTCCCGAGACGATTCTGTTAAATTTGGTGCTTACTTAACCTTGCATGAAACGTTGAAGACACCAAAAGATAGGACGCAAGCAGTTGGAGATGTAGTTAAATGCTTGGGTGAAGAAGTCATTCCAGGTACACGGAACGAGGTACAGCTGATTACATTACTTTTCAATACCTGTTTGCATCTGCTGCATTGAAGAAAGAAAAAAGGAATTGTCTTCTTCTGTTTAATGCTGGAAATAAACTGGTCCTTTTTAGAAAGGTGAATTTAGAAGAAGACGATACTTCTTGTGGCTAACTGTGGATAACTATGAACTCTGTCAGCTATACCCTGTTACTTCGTCCTTTGGTGCGCCAAACTTTTTCTCACTCGAACGTGCTGCAGCCCCTTATTTTGGAATAAAGGTGCGAATGTTCCCCTTTTACTACTTCGTGTAAACTTATAAACTTTCGTTCTAATTTTGTGAAACGCACTTTGAAAGCTATATTTTGATCTTGCCTTTTTGTTTTAACGTACTTGATGCCTCCATCGCCTAGTCACTTCCAAGTATTAGGCCCTTGAGAAGAGCAGGCCATTTGATTTGTGTTTACACAAGTTTGGTTGTTAGTTCCAAATAAAATTGGAACCAGTTATAGTTATTGTCATTCTGAATACAAAGATTTGAAATAACTGATGATTTTGCAAACATCTTTCTGGTGCTAAAAGAATTTTACTTGCCAACTGTATTTCTTTTACACATGCCAATCTCCTGCTTTGTTCGGAGGTTTAATTGTGGAATGTATTAGATATATGAGGTACCATCTCAAAACCAATTAGCAAAAAGAGAAGTAGCCCATCTATCTTATTAAGAGCGTGAGGTCCCTTACATGCCCCCTCAAGATGGTGCCTCTGTCGGGTTCACCATTCTTGATTGGATCACAACTTCTTTTTATTGGACTAGTTAATCGGGCTTTATGGGCTCTGATACAGTATTAGATGACATGGGATTCTTTCTTATTAAGAGTGTGAGGTCCCTTGATTTTTCCAATGTGGGATCCTCAACCGAATGTGACACACACACAAACCGACATTTTACCCCCTTTTTTGTTTCTTCTGCAACTATTTTGACCACCTCTATAACAAGGCCAAAATCATTTTCATTTCTCTTCTTTCCTCCTTTTATATTGGACTAAATTCAATCTTCCCTTTGTTGAAACTCTAAACTACACTAGAATCATGTTGGGCATAAATTTTGGTCATGGAAATAGCCTTCACAGCAGTCCTATTAGCCTTTGGTAGACACATTAATATATCCTGTCTGCATCCTCCAGGTTGTTGATCATGGTGAGGTTAATTTTTCGGGAGGCTTCTAGGAGAAAACTGCAGGGCTTTTTGGTAACTTCCATAGCCCAACAGAAATCTATAAACGATGTATGGGGAAGTGATATAAGAGAGAATTTTAATGCTGGGAATATTGGGGAATGGATTTCTTTACTTAAGTTCATGAGTACTTAAGTTCATGACTTGACTCCTTGCATGACGATAGGGTTGTTGGGTTTGGCACTGAAACCTGGATAAATCTAGAACCTTTCTTGAGATTCTATAATGGATCATCTTACCGCCATGTTGGATACCTGTCCTGCAGTGTTTGCCAACAATGAACTACTAGGAAATTTAAGCTTCCAAAAGGATCAGATTTTTCTTATGCTCCCTAGCTCACGCCAAAGTTCATTCTACTAACCCTACCTAAAAGAAAAATCTCTGCTTGGCCTTGTCTCCTCAATGTTATGGTTCACTAGTATTAGATAATATGGACTTCCATCTCAATACCAATTGGCAATGAGAGTAGTAGTCCATCTATCTTACAAAGGGTGTGAGGTCTCTTGATTTTTTCAATGTGAAATTCTCAACATACCCCCGTCAAGATGCTGTCTCTTTCGGGTTCACCATTATTGATCAGGATCATAATCTCTAACCAAATACTCGTTTGGGCTTTACGGGTTCTAATACCATATTAGATAATGTGGGGTTCCATCTCAAAACCAATTGGCAATGAGAGGAGTAATTCATCTATCTTATATAGGGTGTGAGGTCCCTTGACTTTTCCAATGTGGGATCCTCAACAACTAGAAAATGATTGAAACAGGCCTCAATGTAGCTTAAGAAGGCATTTTCTTAATATCACTTTTGCAGGTTAAGTGAAACTTTTTTGAAGGGTTATATAGAATCTCTCTCAGTGCTATGGTGTAAATGGAAAATTTCTTTTGAGTAGGGTAAAGCATACATCACTATAGCTGCTCTCTAAAGTTGTTCATAAACTTACAAAAGAAAGCCTAGACATTGAAGGGAAGTTTATTGTTGAATGTGCATGTTGGAAACTGAAACTGGCTGCTTGGTTGAAGACAACTGAAAGTTGTGTTACTCCACTACTTGGTTTCTCTAACTTTTACCTGCCTTCTCTTGGCACTTTTCTTAGCACAGGTTTATGGAGTTCATATGAATGGTTATGTTGAGAAGGAAGGAAACAAGTTTTTGTGGGTTGCGAAAAGAAGTCAAACGAAGCCAACTTTTCCTGGAATGTTGGACCATTTAGTAGCTGGAGGGCTGGTACGTAATAAGTAATAGCTGTTGCAAGTTTCTTTACATGTGCTTCTGTCTCGTTAAAATGTGTAAAATGACGACTATTCCATTTTTCTTCATGATTGGATGGTATGGTGTGTCAGTTCCCTTAACCTTTTCGTTTCTTCTGCTGGATGTTTGTAGTTATATAGATACTTTGCAGTAGGTTAAGATATCATAATATTTTTCAAACTTGTAAAGGTTAATTTTACCCTTGAGATATCAAAATATTTCCATGAAGCTCATGTTATTCGTTGAAATTGAAAAAGAATGGTAACATGAAATGTAAAAATATTATTTTCTATGAGCAAAAGTCTTTTGAATGTTATACATCCATCTCATCCTATTTAGTCAGAAAAGCCAACCTCCTTATTTAGTGAGATAAGATATATATAGGGTAATTACATTGGATACACTTTTAGGAATAATAATTAGGTGTATAGCATTTTAAAAAAATTGCAAATATAGCAAAATCTATCAATGATAGACTATCACTGATAAACTCTACTATTAATATGGTCTATCATTGATAGGCTATATTTGCAAATTCTTTTGCATTGTGTTATATTTGCAAATATTTTGAACCTGATTGCTACATTCGTAACTGCCCCATATATATTTGCAAATACTTTAGACGCCAAATTATATATTTGACCTTTCTGGTAAGTAATAATATTACATCCTGGCTCCTGCTATAAGGTATCAGAATCTGTTTGTGTTTCAATCTGCATGTCTACTTTGATAAAGTTAGATTATGCATACAACAATTATTGGTTTTTACTTTGTTTGACCGTCCATTTGGATAATAAAGTTCAAAAGTTAAAAAGAGTTAGAAAAGTTTTTTATACTACATTTTTTCTTTTTTTGACGATTTACAACTCATTAATAAATTTGGTTAAACAGCAGTGTGTTATATGGAATTGAGACTGGATGTGAAATATGATGATTTTCATCGGAGCAGTTAGAAAGTTTATGCCTATGGATTTGAAAACGTAGTTATACATGCAAACCTTGATACTAATCAGAGGAAAAATAGGCATGGGAGATGTAATGTTCGAAATGTGCTCTTGAATGCTGAATAGTGAATACCATGCTTATTATTGTGTCTTCATAACTAGCCCCTGACATTTTGATTCTGACAGCCTCAGGGCATCCCTTGTGGAGAGAATCTGATGAAAGAATGCGAGGAGGAAGCAGGCATACCGAGATCAATATCAAAAGAGTAATTTCCTAACAAGAATTTAATTGTAATTTCACACGAATATAACCTCTTTGTATTACATGGTTGTGGTGGACCTAGTGGCTTGACATGAGGCTTTTGTTTTAGGGCCGTACCAGTTGGTGCCATTTCATACACAGACATCAAAGGTTATGGTTACAAGAGAGATGTTCAATTCTGTTACGATTTAAGACTTCCTGAAAGCTTTATACCGGAGAATCAAGGTTAGCTAGTCTGTTAAACTTTTGTTCGCAATTCAATATTTAGCTTACAAGGTGTATGGTACATTGCATTTGACTGACTCCTAACAACTCTATTTTTTGTCGAAGCCCCGTTTGTACATTCTGCATGCATATTGTTTTTTTAGTTTTTTGTTCTTTCACTGCAAATTTTTGTATTGTCTGAAATCTCATGTCACTATCTTGCTGGCTGTACTTCTGTTAGATGGAGAGGTTGAAGGATTCATGTTGTTGCCTGTGACAAATGTTGCAAATGTGATCCGGAGGACACAGTTATTCAAGCCTAATTGTTCTCTTGTCATTATCGATTTCCTATTTCGACATGGGTATTTTATACTATCTTCTCTGAACATACTTTGTTCCTTGACCATTATTTGATTTAATTACAACTCCAATGTAGGTTTTGGTTGTAAATATTTGTTGGCTGAACCCAGACCACATAGGATGCATTTGATTGGTCGTCTAACAAGGGGACACAATGGAATATTGTAATATTCCATGATTTCATAATTTTTTAATATGTGGTTGTTTGGTTGTTTTCAAATATAGGAAAATGAACCAAAATATTTATAAATATGACAAAATTTCACTATCCATCTACTACAGGCCGCGATAGACTACTATATGTATCTATCGTAAATAGACTGTGATATTTTGCTATTATTTGTGAATATTTTTAATATTTTTGTCATTTAAAATAATTTCTCTGGTGGTTCACTTTGTTTAATGAGCAGATTCTGATTCTGAAAATAAAAATAAATAATAAATAAAAAAAACGTGAATGTTTTTAAAATATTCATTTTCTATGTCATATAATTTGAACACAATTACAATAGATTTTTAATAAACAAGCCCACCAAATAGAAATTAATTACTGAATTCATTTGATTCTGTAAATTTGAAGAAAAGAAATTGAATTTAGATAAGATACCAAAAAAGTATTTTTCAATTATGAAAACACTGTTAAGACAAGCGAATTGAAGCCCATTTTTTCCTCCAGGATCTGATCAGTTTAGTTCTAAATCTTTTTACCCATGTGTGTAACCAATTCTATTATAGGCTAATTAGCACTCCTCAGGATATCATTAAAAGTCCACAGTTCTTTGTATTAATGCATTTAAAAACTTGCAGGTACATTAAGCCCGAAAGTTTGGGGTACTTGGAGCTACTGCAGAGTTTGAGAAGTGGGACCTGCTTCTGAATAAATCAATTCGCCTATGCATTGATGAGAGGAATCAGGTCAATCTTCTAAAACGTTGAATCTCGATGGTTTATTTATTGTATGGTTTTGCCAGAACTTTCTTGCTCATTAGATGTATTTGTAAAGCCAAACAAATTGCCTTAATTTGCTGTATAGAGAATTAAATAAGACGACTACGTTTTGGTACATCTATTGAATGAAAACACCTTGACAAAATTACATCTGAAATCCCATTACATGCAAAACAATCTGAATTTCATCAACTACCCAGCAACTATAAACACACTACACTTCACAGACTTTTACATTATTCACTTCCTTTTCTAATCCAAGATTTCACTAAGATCTATTGAATGTCAAAAGCCCAAGACTTCACCAAGAACTTGAAGCAACTCGATGTGTGCAGTTAAGTGAGGGAAGTGTCCATTAGTGTTAATAACTCGCACTGTGCAACTTCCTTTGATTTTCTTCTGCATAAAGATGGGAACTGAGGCCGGGACGACAATGTCGGTTTTCGTTTGCAGGATGATGCATGGAATGTCGACCTTTTCAAGAATCTCTCTCTCATCTACACTGAACACAGTCCTGGCTAAAGGTACTGCAACTTCAGGCCTCATCCCTTGCAAGCATTTCTGAAACCTGCTCAGTGATTGAGGATCGGCTTCGTCGACAACCAGAGAAGCAAAGTTTGTGGCCCAATTTTCATAGTTGGACTCAATATTTTCTATGATTTGATCGATGTCGGATTTGTTGAAACCACCCTCATAGTCTTCTGTATTTATATACCTAACACAATGGCCATTATATTGTTAGACATAACATATTCCAAATCTCCATAGCCTTCTCTTGCTGTGTTAAGCTGGATTAATCTTTCTCTAAATCAAACCATTGTAATATGTGTTAAATCACCTATTAATGGATACTTTAACACTCATTCATTTTTGGGTTTGAAAATTTATTGAAGATTAGATAGGTCAAGTTAAAATTAATATTTTGTATTTAAAAGTATTTGGAAATTTTAAGAATATTTTTGGCAATTAACCGAACTTGATGAAACTTTCAAAAACATATTTTATTGGTTAAGTTACGCTAAATTGATTCACACTCATAATAAAGGGGGAATCACAAAAATAATAGAATAAAAAATTTATATTATTTTTGAATCAGTACAAATAATCTTAATATGTGTTGTTTAATAACATTTTTGCTGTTAGTTTCTTGTTTTTAAAATTTATTTTTCATTCCTCCTAATTTTTCAATTATATGGCTTACTTTTTATTAAGGAAACATTTTAACTTCTAGTCAAATTCTAAAATTAAAAATAAGATTTTGAACTTTTTTTTCCTTTTTTCCTTTTTCTTTTTTCTTTTGTAGTCTTCAAATTATCCTTTTTTTTTTTTATTTTATTTTTAATATTGAAAAAAGTTGATAACACAATAGAGAAACTTAAAGTACACTCTCTTTAATTGTTATTTAGTAAGGTTTTATTTTTTTCTTTTTTCTTTTTTTTGTCCAAGGTCAACGTTTGTAAAGGTGAAAATTGAACTTTCTAGTTCAAATGAAATCAAATAAGGCATTTACGTGTTTTATCCATTTTTATGTTTGGATTTGTTTGACAAAAATTCTATATAATAAACAACTATATAAATTAATATAAAATTGGAAAAGAACTCCGTCATGCTCAAATCTATTACCTTTATTTTATAAAATAAAAAATTTATTTATAAAATAAAAAATTTAAAATGATGATAATATGAGCACAACTTAACTAATATAATAAAATATATACTATCAACTCCCTAACTTAAATTTATCAACTCGGAAGTTAAATTTTTCATTCTCATGTTGCAATTAAAGAAGATGATTACAAGTCCTTTTCATCCGTCCACTGTGACGGAAGAAAGAGAAAATGAGAGAGATAATAAAATAGAAAAGCTAATTGATCATATATAATATTTAAAATGAATGCAAATCTTAACCTCCTTTTGAATATATAATTATGATATAATACGAGATGCGATGACAAATATTTATGCCGAGAGGAAAAACCACTCCACAAGGACTTAAATATAATAATATATTTCCCATGGCTATAAGAAGCCAGTTTAATGGGGTATAAATAAAATAATCAAAATTGTCACAACAATAAATAATTAAATAATTAAAATAAGTCTAACTCAATTGATATAAATGTGTTAATAACTAAAAGGTCTGTCATTCAAATCATACACTTATATTGTACTAAAAATAAATAAATAAACAACCAAATAAACCTATCAACAAACGTCAAAATGAGCATAGCTCAATTGGCACACGAGTGTGCTAATAATTATAAAATTTGTGGTTTGAATTCCTCTAAGTTTAAGTTTAAAAAAGATAAATGGCTAGGTTATTTAACAATCGTTACCTTTTTGTTCTAGCAAAACAATTTTTTTCCGGTAACTTTTTCTCCTATTTTCCAAATGTTTTACTTCAAGAATTCTTTGTAGACACTTCTTCTAAAAACAAAACAAAAGAATCAAAGCAAGACTTAGAGCTATGGTTGACCTAAAAAAAAGGAAAAAAAAAATAATGTAGTTAAATTCCAGGATTAAGCTTGAAATTAAAAGAATTGACTATAGGATCCAAATTTGAAATTGATTAAGGTTAGAAATTAAAATTTAAAAAAGAAAAAAAAAAAAGGGGTGATCACTAATTCTAAGGTTGAATAAAATTGACAAATTTTAGCAAGACCCATGTGCGTATATGGCAACACCAACACACTAATTGAGTAATTATTATAGCAAAATAAGTAATCAAAATTGAATTGAAAAAAGAAAAAGAAAGAAAGAAATACCTGGGAGAAGAACAAAGAAGAATGAGAGTTTGAAAAAGGTCAGGTCTTTTAGTGTAAGCAAGGCAGCCAATAAGGCCAGACATGGAGTGGCCAAGGAAGATGGTGGAAGTGAGGCCAAGTTCATCAAGCAAAGCTATCAGATCTTCAGCAAAACCAGAATAAGAAGAGTATTTTTTTGGATCAAACAAATTTGGATCCTTAATGGAACCAGAAAAGGTCCAATCAAACACAACCACTCGATACTCCTGGCTCAGCTTTGGAACTATTTTGTCCCACAATGACTGGTCTGCTCCGAACCCATGAGCCAGAACCATGGCTTCTCTCCCTGAACCAATAATCTTGGCGTTTACAGACTTGGACAACAACCCATTTTCATTTTCCCCCATAACAACCATTTTTCTTATTATTATTATTGCTTCGCTCTCAGGATCTCTTAAAACCCAACAAAAGCCTTTCTCTCTC TGTTCCATTTTAGCTGTCTGCTCTGTTAATTCTGGCGACGTTTGCTCCAATCCAATTCCATGGCCTGCAAGTCTCTCGCTACACACAGCTTTCGTAACTTCTCTACTGTTTCTTCCTTTTGCAATGCTTCAACAATTTCCCGGACGACGTATCAAATGACGTCTACATTTCGCCCAACAGTACACCGCTTGGTATCTGTCGCCTCTCGTTCTGTATCAGTCGCCGTCGGCAGTTTCACTTGGGACGACGTCGTCCACGTTTCTTTACCAGAAAGCTTTCAGGACGATCCTTCAGATCTAACGGGCTATTTCGAGAAGGTCAAGCTCTGCAATCGCGGATCAGAGGATACGCAATCTGAGTTTCTTCCGTTTGTTATCGATGGCCAAATTGTTGGCTACGTGCACCACGGTTTCGCTGAACACCTGAAGCAGTATCCGAATGTGTTTACCTTCTCCCGAGACGATTCTGTTAAATTTGGTGCTTACTTAACCTTGCATGAAACGTTGAAGACACCAAAAGATAGGACGCAAGCAGTTGGAGATGTAGTTAAATGCTTGGGTGAAGAAGTCATTCCAGGTACACGGAACGAGCTATACCCTGTTACTTCGTCCTTTGGTGCGCCAAACTTTTTCTCACTCGAACGTGCTGCAGCCCCTTATTTTGGAATAAAGGTTTATGGAGTTCATATGAATGGTTATGTTGAGAAGGAAGGAAACAAGTTTTTGTGGGTTGCGAAAAGAAGTCAAACGAAGCCAACTTTTCCTGGAATGTTGGACCATTTAGTAGCTGGAGGGCTGCCTCAGGGCATCCCTTGTGGAGAGAATCTGATGAAAGAATGCGAGGAGGAAGCAGGCATACCGAGATCAATATCAAAAGAGGCCGTACCAGTTGGTGCCATTTCATACACAGACATCAAAGGTTATGGTTACAAGAGAGATGTTCAATTCTGTTACGATTTAAGACTTCCTGAAAGCTTTATACCGGAGAATCAAGATGGAGAGGTTGAAGGATTCATGTTGTTGCCTGTGACAAATGTTGCAAATGTGATCCGGAGGACACAGTTATTCAAGCCTAATTGTTCTCTTGTCATTATCGATTTCCTATTTCGACATGGGTACATTAAGCCCGAAAGTTTGGGGTACTTGGAGCTACTGCAGAGTTTGAGAAGTGGGACCTGCTTCTGAATAAATCAATTCGCCTATGCATTGATGAGAGGAATCAGGATGATGCATGGAATGTCGACCTTTTCAAGAATCTCTCTCTCATCTACACTGAACACAGTCCTGGCTAAAGGTACTGCAACTTCAGGCCTCATCCCTTGCAAGCATTTCTGAAACCTGCTCAGTGATTGAGGATCGGCTTCGTCGACAACCAGAGAAGCAAAGTTTGTGGCCCAATTTTCATAGTTGGACTCAATATTTTCTATGATTTGATCGATGTCGGATTTGTTGAAACCACCCTCATAGTCTTCTGTATTTATATACCTGGGAGAAGAACAAAGAAGAATGAGAGTTTGAAAAAGGTCAGGTCTTTTAGTGTAAGCAAGGCAGCCAATAAGGCCAGACATGGAGTGGCCAAGGAAGATGGTGGAAGTGAGGCCAAGTTCATCAAGCAAAGCTATCAGATCTTCAGCAAAACCAGAATAAGAAGAGTATTTTTTTGGATCAAACAAATTTGGATCCTTAATGGAACCAGAAAAGGTCCAATCAAACACAACCACTCGATACTCCTGGCTCAGCTTTGGAACTATTTTGTCCCACAATGACTGGTCTGCTCCGAACCCATGAGCCAGAACCATGGCTTCTCTCCCTGAACCAATAATCTTGGCGTTTACAGACTTGGACAACAACCCATTTTCATTTTCCCCCATAACAACCATTTTTCTTATTATTATTATTGCTTCGCTCTCAGGATCTCTTAAAACCCAACAAAAGCCTTTCTCTCTC ATGGCCTGCAAGTCTCTCGCTACACACAGCTTTCGTAACTTCTCTACTGTTTCTTCCTTTTGCAATGCTTCAACAATTTCCCGGACGACGTATCAAATGACGTCTACATTTCGCCCAACAGTACACCGCTTGGTATCTGTCGCCTCTCGTTCTGTATCAGTCGCCGTCGGCAGTTTCACTTGGGACGACGTCGTCCACGTTTCTTTACCAGAAAGCTTTCAGGACGATCCTTCAGATCTAACGGGCTATTTCGAGAAGGTCAAGCTCTGCAATCGCGGATCAGAGGATACGCAATCTGAGTTTCTTCCGTTTGTTATCGATGGCCAAATTGTTGGCTACGTGCACCACGGTTTCGCTGAACACCTGAAGCAGTATCCGAATGTGTTTACCTTCTCCCGAGACGATTCTGTTAAATTTGGTGCTTACTTAACCTTGCATGAAACGTTGAAGACACCAAAAGATAGGACGCAAGCAGTTGGAGATGTAGTTAAATGCTTGGGTGAAGAAGTCATTCCAGGTACACGGAACGAGCTATACCCTGTTACTTCGTCCTTTGGTGCGCCAAACTTTTTCTCACTCGAACGTGCTGCAGCCCCTTATTTTGGAATAAAGGTTTATGGAGTTCATATGAATGGTTATGTTGAGAAGGAAGGAAACAAGTTTTTGTGGGTTGCGAAAAGAAGTCAAACGAAGCCAACTTTTCCTGGAATGTTGGACCATTTAGTAGCTGGAGGGCTGCCTCAGGGCATCCCTTGTGGAGAGAATCTGATGAAAGAATGCGAGGAGGAAGCAGGCATACCGAGATCAATATCAAAAGAGGCCGTACCAGTTGGTGCCATTTCATACACAGACATCAAAGGTTATGGTTACAAGAGAGATGTTCAATTCTGTTACGATTTAAGACTTCCTGAAAGCTTTATACCGGAGAATCAAGATGGAGAGGTTGAAGGATTCATGTTGTTGCCTGTGACAAATGTTGCAAATGTGATCCGGAGGACACAGTTATTCAAGCCTAATTGTTCTCTTGTCATTATCGATTTCCTATTTCGACATGGGTACATTAAGCCCGAAAGTTTGGGGTACTTGGAGCTACTGCAGAGTTTGAGAAGTGGGACCTGCTTCTGA MACKSLATHSFRNFSTVSSFCNASTISRTTYQMTSTFRPTVHRLVSVASRSVSVAVGSFTWDDVVHVSLPESFQDDPSDLTGYFEKVKLCNRGSEDTQSEFLPFVIDGQIVGYVHHGFAEHLKQYPNVFTFSRDDSVKFGAYLTLHETLKTPKDRTQAVGDVVKCLGEEVIPGTRNELYPVTSSFGAPNFFSLERAAAPYFGIKVYGVHMNGYVEKEGNKFLWVAKRSQTKPTFPGMLDHLVAGGLPQGIPCGENLMKECEEEAGIPRSISKEAVPVGAISYTDIKGYGYKRDVQFCYDLRLPESFIPENQDGEVEGFMLLPVTNVANVIRRTQLFKPNCSLVIIDFLFRHGYIKPESLGYLELLQSLRSGTCF Homology
BLAST of CcUC06G120110 vs. NCBI nr
Match: XP_038879265.1 (nudix hydrolase 20, chloroplastic-like isoform X3 [Benincasa hispida]) HSP 1 Score: 719.9 bits (1857), Expect = 1.1e-203 Identity = 350/374 (93.58%), Postives = 359/374 (95.99%), Query Frame = 0
BLAST of CcUC06G120110 vs. NCBI nr
Match: XP_008463362.1 (PREDICTED: nudix hydrolase 20, chloroplastic-like isoform X1 [Cucumis melo]) HSP 1 Score: 697.2 bits (1798), Expect = 7.7e-197 Identity = 339/374 (90.64%), Postives = 354/374 (94.65%), Query Frame = 0
BLAST of CcUC06G120110 vs. NCBI nr
Match: KAA0046622.1 (nudix hydrolase 20 [Cucumis melo var. makuwa]) HSP 1 Score: 689.1 bits (1777), Expect = 2.1e-194 Identity = 339/396 (85.61%), Postives = 354/396 (89.39%), Query Frame = 0
BLAST of CcUC06G120110 vs. NCBI nr
Match: XP_004148712.1 (nudix hydrolase 20, chloroplastic isoform X3 [Cucumis sativus] >KGN65374.1 hypothetical protein Csa_020063 [Cucumis sativus]) HSP 1 Score: 688.3 bits (1775), Expect = 3.6e-194 Identity = 336/374 (89.84%), Postives = 351/374 (93.85%), Query Frame = 0
BLAST of CcUC06G120110 vs. NCBI nr
Match: XP_022144905.1 (nudix hydrolase 20, chloroplastic-like [Momordica charantia]) HSP 1 Score: 677.9 bits (1748), Expect = 4.8e-191 Identity = 335/377 (88.86%), Postives = 352/377 (93.37%), Query Frame = 0
BLAST of CcUC06G120110 vs. ExPASy Swiss-Prot
Match: Q8VXZ0 (Nudix hydrolase 20, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=NUDT20 PE=2 SV=1) HSP 1 Score: 425.2 bits (1092), Expect = 7.4e-118 Identity = 206/338 (60.95%), Postives = 256/338 (75.74%), Query Frame = 0
BLAST of CcUC06G120110 vs. ExPASy Swiss-Prot
Match: P0C026 (Nudix hydrolase 24, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=NUDT24 PE=2 SV=1) HSP 1 Score: 394.4 bits (1012), Expect = 1.4e-108 Identity = 197/360 (54.72%), Postives = 257/360 (71.39%), Query Frame = 0
BLAST of CcUC06G120110 vs. ExPASy Swiss-Prot
Match: P47173 (Uncharacterized protein YJR142W OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=YJR142W PE=1 SV=1) HSP 1 Score: 149.4 bits (376), Expect = 7.9e-35 Identity = 89/212 (41.98%), Postives = 125/212 (58.96%), Query Frame = 0
BLAST of CcUC06G120110 vs. ExPASy Swiss-Prot
Match: P41888 (Thiamine pyrophosphokinase OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=tnr3 PE=4 SV=1) HSP 1 Score: 136.0 bits (341), Expect = 9.0e-31 Identity = 93/274 (33.94%), Postives = 140/274 (51.09%), Query Frame = 0
BLAST of CcUC06G120110 vs. ExPASy TrEMBL
Match: A0A1S3CJ09 (nudix hydrolase 20, chloroplastic-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103501537 PE=4 SV=1) HSP 1 Score: 697.2 bits (1798), Expect = 3.7e-197 Identity = 339/374 (90.64%), Postives = 354/374 (94.65%), Query Frame = 0
BLAST of CcUC06G120110 vs. ExPASy TrEMBL
Match: A0A5A7TT66 (Nudix hydrolase 20 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold114G001740 PE=4 SV=1) HSP 1 Score: 689.1 bits (1777), Expect = 1.0e-194 Identity = 339/396 (85.61%), Postives = 354/396 (89.39%), Query Frame = 0
BLAST of CcUC06G120110 vs. ExPASy TrEMBL
Match: A0A0A0LWL2 (Nudix hydrolase domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_1G386580 PE=4 SV=1) HSP 1 Score: 688.3 bits (1775), Expect = 1.7e-194 Identity = 336/374 (89.84%), Postives = 351/374 (93.85%), Query Frame = 0
BLAST of CcUC06G120110 vs. ExPASy TrEMBL
Match: A0A6J1CSY3 (nudix hydrolase 20, chloroplastic-like OS=Momordica charantia OX=3673 GN=LOC111014470 PE=4 SV=1) HSP 1 Score: 677.9 bits (1748), Expect = 2.3e-191 Identity = 335/377 (88.86%), Postives = 352/377 (93.37%), Query Frame = 0
BLAST of CcUC06G120110 vs. ExPASy TrEMBL
Match: A0A6J1HA39 (LOW QUALITY PROTEIN: nudix hydrolase 20, chloroplastic-like OS=Cucurbita moschata OX=3662 GN=LOC111461857 PE=4 SV=1) HSP 1 Score: 665.6 bits (1716), Expect = 1.2e-187 Identity = 324/374 (86.63%), Postives = 339/374 (90.64%), Query Frame = 0
BLAST of CcUC06G120110 vs. TAIR 10
Match: AT5G19460.1 (nudix hydrolase homolog 20 ) HSP 1 Score: 425.2 bits (1092), Expect = 5.3e-119 Identity = 206/338 (60.95%), Postives = 256/338 (75.74%), Query Frame = 0
BLAST of CcUC06G120110 vs. TAIR 10
Match: AT5G19470.1 (nudix hydrolase homolog 24 ) HSP 1 Score: 394.4 bits (1012), Expect = 1.0e-109 Identity = 197/360 (54.72%), Postives = 257/360 (71.39%), Query Frame = 0
BLAST of CcUC06G120110 vs. TAIR 10
Match: AT5G19470.2 (nudix hydrolase homolog 24 ) HSP 1 Score: 380.9 bits (977), Expect = 1.1e-105 Identity = 193/360 (53.61%), Postives = 253/360 (70.28%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (PI 537277) v1
Date Performed: 2022-01-31 Position : 0 Zoom : x 1
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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