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CaUC04G069630 (gene) Watermelon (USVL246-FR2) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TGGAGAGCAGCCATGGCCTTCTTCTTCAAAAATTATAGACCCAATTTTCTTTTTCTCTTTTCTGTTTTATTCCTTCTCTCATCATTTTCTCTCCCCTCCATTTCCATGGCATCTCAACCTGAAGTTGGTATGTTTCCTTACTCTCTATAAAATAGGCAAAATTATTAATCACAATAATCGTTGAATGTAGATCTAAAATTTGCATGTCTATATAATTATTCGATAAGATTTGAAATACTTTTGTAATTATTCGAGATTTATTTATTTATTTTTTCTTCTTATTTTTTATTGTGCATTATTGTTTGGTTTGGTAATTTGGTTCATATGAAAAATAGGCATTTAGGTGTATGAAAAATGTTCCTTTTTCACACTTTTTTTTTTTTTTTTTTTTGTTATAAGAAGAATTCTTCTTGTTTCCTTCTTTTTTTCTATAAATCTCTTCCTTGAGAAATGGAGAAAGCATTGTGTTTGAGTGAGATTTAGTCTTTAGTTTTTTTATATTCTTGTGGTAAAATAAAATGGGGTTTCTTAATAAATCTCATCCTCTAATATTGAGAAAGAAAAAAGTTAAAATTTTTACTCGTGTGAAACAACTCTAATTACATACGTAAATATAATATAATAATAAAGATGCGTAATGCATGTGCGAACTTATATATATGTTTTTTCCTCCTTTTCAACACTATACTCTAACTTTTTGTTCTTTTGTTTATGATTTCTTTTGATTACTCTAACTTTCAAATTTAATGTCAGTATATATTTAGATTTAGATTTGCTCATATAAGCAAACAAAAACTAACTTTTCCATCCATTAATTTAGTGACAAAAACTTTCAAAGTCAAAATTAAAAGATTCAAAGTTTAAAGGTATAATTGAAATCAACTCCTTATTTGAAAATATTTTTGGATGATTTAACCTAAGAAACTAAAATTTTGCTTTCTTAATATTCTCAAGTCATTAGTTTTAAATTGGCTTCAAGATTCATGATGAAAAGTAAATGTTTGATCTATATGACCCATCAAAATAAGTATGGAAGTTTCAAATTAAAGTTTTGTTTGATACTTATTCAGTTTTTTATTTGTAATTTGATATTTGAAATGAAGCTTACAAACACTAATTTCACATACCTATATAATATTCTTTATTTTGGCATATCTACCTTTTGCTAATTTTTTAAAAAAGCAAGTCAAGTTTTGAAAAGAGAAAAAAGAAGTTTTAGAACTTTGTTTTAGTTTTTGAAATGAGTTAAATTATAGCAATTACTCTTGAACTTTGCCATTTGTTTCAAAAGTACCCTTATACTTTGAAATGGTACTTTTGAAACGTTACATTATTACCCTTGAGCTTTGATAAACGTTTCAAAAAAAAAAAAATACTAATGAAAATCCTTCAAAATTTCTAATGAAAATCACAACTTAAAACTGAGTGGCAATAACCTAAAACAATGTAGTGATCCAAATCTTTGTTCTACGTTATTGCTACAGTACCCTTTCATATCTCATTTTCCATCCACAATTCTAAATTATTTCGACTTCAAGAGTATTTTTTAAACGATCATGAATGTTCGAAATTATTTGAAACAAATGACAAAGTTCAAGGGTATTTCTTATAATTTAAGCTTTAAAATTTGGGAAATTATTATAAATGAAAAAAAATTCAAATATTTACAAATATAGAAAAATTTTAAGGATAGGAGTCTATCATTGTTTACCGCGGATAGATAGTGAAATTTCTCTATATTCGTAAATATTTTGGCTCGTTTTACTATATTTGAAAACAACCCTTAAGATTTAACCAAAAGTTTAAATGTTTCCTTACCGAAGATGAAAACAATAATAAGAAATTGAGAAGAAAAAAACATAAAATTTAAAAAATAAAAAAGAAAAAGGAAATTGTTATGAAAGAACTACTCTAGTTTAGTCTGATATTTTACCCATTATTATTTGAAAAAATAAAAATGGTTGCAAATATATAGGTGATGAATCTCCATTCAGTTACAATGAGGGAAGTGGAAATGGACCAAAAGAATGGGGAAAGCTAAAAGCAGATTGGAAATCTTGTGAGAAAGGGAAGTATCAATCTCCCATTAATATTGTTGAAGAAGATGTGCAAGTTCTTCCTCAGCTTGGAAAACTCAGAAGGGACTACAACCCTTCTCCTGCTGTCGTCAAGAATCGAGGACACGATATTATGGTAATCTCCGTTTTGTCGTTTGTTTTATTAGAATTTAGTTTTTATAGTTTAATAATACTCGTAAATAGTTCCTATTGTTTCCTTGCATGCTTCTAGTTTTATTAGAATTTAATTTTTATACTTTAATAATACTCGTAAATAATTCCTATTATATGAATTTTTTGGGAGGATATTATCAAATTTGAAATATTTCAAAAACGTTTTTAACAAGTGGAAATAATAAAGGAAACTTGAAGTGAATTATTACAAAACAAAAATTACATGTAAATAAAAACAAATATGTGTTTTGTTTGATTCAAATGAATGGAGTGCAATGTAAGCATTGAATAAAATTCTCTAAAAGTTTTTATTATTTTTATTTTTTTATTTATTAAATAATAATAATTATGTTCTTCAGATAAGGTGGGAAAAAGATGCTGGAAAAATTACAATTAATGGGACTCAATACAAATTGACCCAATGTCATTGGCATGCCCCATCTGAACACTCTTTCAATGGAACAAGGTTTCTCTCCTTCTCTCTATCCTTCAACTTTAGGGTTCTATTTGCAAATTTCATGAAATTTGTAGAGTTATCTCTACTTTAGGGTGTTTGGCTCATAGGTTTAGTTCGTGTAGCGCCCTCGAAGTTAACTAGTCGAGTATGTGTCTATTGTATGAGAGCTAGTTTAGCTATTTAACTAAATTAACGATCACTTGTATAAGTTAGGATAAATTGATCAAGTTGATCGATTACACTAATTGGTAATGTATTAACTTTTTTGAGTTAAAGTCTCAAGAGTTATACCATAAAAGAAAAGGATCTAGAACCTTGCTAATAAACAAGATCTAAAGAACTCAACCTCATGGCCCCAAAAGCCATTTTGATCTTAGCCCCTTAAGATAGACTAGATTATAGATTTTACTTAAATGATCAAATGAACCAAAGATCAGATAAAACTTGTGGCTCTCATCCATCATTGATCTACAAAAAGCACTCTACAAGCAGAATATATCAATTATCACTTGAACGCTCTAAATATCCATGTATTACATCACAAGAACACTCAGGACAGGACAAAGCTTAATTAAAAGCTTTCAAGGTTTAAAACCTGAAATTCTACATTTCCAAATACTTCATCCTCTAAATACAAATTACTTAGCTTTATATAGTCTCAAAATGAAACCTTAGATATTCTATGAGGCATTTTAATAGTTGTTGTCTTCTCGCAATTATGACCCTAATCAGTCATTTATGTAAATGTAACATAAAATGACTTAAAACTGGAAATACATTTAATAAACACCATAAATTCTTTAATCAGTCATCTAAGAATTTGTAACAATCCAGAGTTAAGCCTCACTTGAAGTAGTCTTCTTGATTTGAATTCCTCTTTGACTTCACTTGTGTGACTTCTTTTGATTGTAAATTTAGACAACATATAGGGTTTATTCTTAACGTCTTTTCTTCAAGGTCATATTGTTGAAAATGAACTTTTGGAGGTTGGAGGTAATTTGAAAGATAGAGTTAAGAAAGAGGCTACTTGTGTTATTGATCACTTCTAATTTTTTTTTAGCTTGATCCAAATTATACTACATTTTTCTTATTTATACTAGTTGACATCCCAAAATTTATGGCTAGGATTTTGCAAACACATTCATGATCTAGTGACTACAAATGTCTTTCTAGACTATTATTTACAATTACACATTTTTCTCACAAAGAGTTCTATAATATACTCTAAGCACTTCTTTGAGTAATTTCTTTATAATATTCTAATACTTGATACTTCTAGAAATTGGTCTTTTGGATTAGCTCTAAATACTTCTAACCCAAAATCAAGTTTATATTTCAACATCTCCTCTTAAACTTGATTTTGTTACTCCAAGCAAATTTCTCAATCTTGTGAGGTTTTCTTTCTTAAGAGGCTTAGGAAAAATATCATGCTACCTAATCATGTGTCTTCACATACTCTAACTGCACATATTTTCTTCTAATACACTCTTTAATGTAATTGTTGATTGGTTGTCTATGAAAATTTTGGTTGGCTCCTCTTGTGACAATCTCAACTCCTTTCGTAGATTTCTTAGCCGAATTGCATGACAAACACATGAGGCAACAACCACATATTTTGCTTCTTTTATAGATTAGATTGAGAGTCTTCTTGTCTCTCTTTCTTGAATTTCTCAAATTATCCCTTTGTGCTTGAGAAAGACCCCCATCATTCTCCAGTTCAACATATTCTTTCTCTATGATCTCCCACACGTCTTGTGAGCTAAGGAGAGCCTTCATCTTGATACTCCAATTATCATAGTTGCTCTTGTTGAGCATTGACACTTGGAATGGAACTTTAGAAAGGATCTTTTAGCTTTGATACCACTTTGTTAGAAAGGAACTTTTGGAGGTTGGAGATAATTTGAAAGATAAAGTTAAGAAAGAGGCTACTTGTGTTACTGATCACTTCTAATTTTTGTGGCTTGATCCTTCAACTCCTCCTATTTATACTAGTTGATACCCATAAATGTATGGCTATATTTTGTTAACACATTCATGATCTAGTGACTATAAATGTCTTTTTAGACTATTGTTTACAATTACACATTTTTCTCATATATTCTAGAGAGTTCTACAATATGTTCTAAGCATCTCCTACAAGTAATTTCTCTAAAATCTTCTTATAGTTAGATACCTCTAGAAATTTGGTTTTTTTTGTTTGGATTAGGTCTAAATACTTTTAACCCAAAATCAAGTTTATATTTCAATAATATAACGTGATTGAAATTCCTTCATTCATTCATATCAACAAACGTCATCCAAATTTGTTATAACCACGAGCCAAAAGAAACTTTTGGTTTACTTTGCTCTGTTTGAAATGGCTTATAAATACTTAGACACTTTTCTTTTTCACCTAATAATAATTTTTTAAAGCATTAGAAAGACATCCCAAACTCAACATCTCTCCCACAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATTTATTCTTCTTCTTATTATTATTGAATAAAAAGTTGTAACATTTTTTTTTAAAAAACACACACAAGTTCTTTATTGAGTAAACTTTGATGTCAATAAAATGGTCAAAGATTTATAATACAAAAAACAATAACATAGAAGATTTTTTTTTTTTCCTAAATTCGACAATTGTAGGAGTGAAAGATTGAACCATCGACTTTTTAAATGGTAATCAACAAAAGTGTTATATAAAAGTGTTATATAATTGAGTTTAAATAGTCTTTTATTTTTTTAGAAATGCAAATGTTGATTAATTAAAAATGGTTATTGTAAATGTTTGTAGATATGATTTGGAGATGCATGTAGTTCATATAAGCGATCATACTGAGATTGCTGTGGTTGCAATTCTTTACAAATTTGGACGCCCTGATCGCTTCCTTTCAAGAGTACGTTGACTTTTCCCTTCTTTTCTTTCTTCCCATTTTCAATTAAAATGTCATTTTAAATCTATACTTTGGAGAATTTTGTAAAACTTTAATTACTATACTTTAACAAATTTTAAATTTAGTCCTTCAAAATTAGCTAAGTAATAACAATAATTTTTATGCAAAACAAATATAATATATGAATATGTTTTCAAAATTTACCGGAGAAGTGCTAAATATAAAAAAAAAAAAAAAAAAATTTCTTAAAAAAATCAACAATATACAAGGTAGTAGGGACTAAATTTTAGATTTATTCAAAGAATAGGGACTAAAATTTGATATTTAGTAAAGGAACTAAAATTGAATAAACTTCAAAGTATAAGAATCAAAATGGTACTTTAACCTAAAATAAAAGTATCTTTTTGGTTTCTAAATTTTTGATATGATTTGTATTTGATCCTTAAATTTCCAAATGTTATGCATTTTCTCTTGAGTTTTGAGTTTAGTTTTCCTTTTGGTCCCTAAATTCCAAATTTTTAAATTTTTATTTAAGTATAGTTTGTATTCAATCTATCTATAGGCCTCAAGATGTTTCACTTTTATCCCTAAGTTTTGAGTTTAGTTTTCATTTGGTTTCTAAGTTTCAAAATGGTATCTTTACCCTTTGATTTTTTTTGTTTAGTTTCCATTTGATCCATAAGTTTCAAGATTTTATACTTTAATTTTCAATATTGCTCAACTTTTTATTTTGTTTTATTTTTATTTTTAACTTTATATTAATTAATCTTAAACAATTAACTTAGTTTACATCAATTTTTAGTCACTGTTAAAATTAATTAAAAAATCCCCATTAATGTCTCAAACTATAATTAGTCTTTAGACTTTTAAGTTTATGTATAATTCAGTCCTTAAACGGTAAAAAGTATCTCGCAAATCCTTAAATTTTCAAGTCAAATAAGTCTTTGAATTCTTATTTTTTTATTTTTTTATTTTGTGTTTAATAGGTTCATGGTTTATTCGACTTTATATATATATATATATATATATACACATATCATAGACCTACAATCACAAAGAAGAAAGTTTAGGGTCCTACTATAAATTGTAACCTATTGAAATCTAAGGACAAGATTGAAACTAAACTCAAAATTTAAAGGACTAAAGGGGTAGCATTTTGAAACTTGGAGACTAACATAAAAGCAAGATCTAAAATTTAGGAACTGAAAAGGTATTTTTGCCTTCCTTTTGTTCTTTTGTTTTTGATTAATTTTGGTGGTGTGAAATTAGTTTTTCCACCACATAAAATCAATAGGGAAAGAAGAAAAAGAAATTGGGATTGTGAATCCAGGAGATATCAAGTTTGGGGGCAGAAAATATTACAGATACATTGGTTCTCTCACGGTTCCTCCTTGTACTGAAGGAGTCATTTGGACAATACAAAAGAAGGTTTCTTTTCTTTTCATCTCTTTCTTTTTATTCTTCCTCTTCTTTTATAATTATTTCGGTCCCGTGGTTTGGTAATTATTTCGTTTTTGATTTTTTATTTTTAAAAATTAAACCTATTTCTTTCACATTTATTACAATGATTTGCAAATCCCGAAACCAAAACAAGTTTTTAAAAACTACTTTTTTTTTTTAGTTTTCAAAATTTGCCTTAGTTTTTTAAACCATTGGTAAAAAAATCTGTAGGCTTAAATTTCAAAAACAAAAACTAAAAGCGAAATCATTACTAAACGGAGCCTTCGTTTTTAGTTTTCTATTTTTATAATTTATTTTGCTCCCAATTTCTTAATTATGATTCTAACCTTTTCTTAAACAAACACTCAAGTTCCTTACCAAATTCTAGAAATAAAAACTTTTTTTAGTTTTCAAAACTTGACTTGATTTTTTAAAACGTTATGAGACAGTAAATAATAAAACATAGATTCTTAGGATGAGAATTTATAAACTTAATTTAAAAAAAAAATAAAAAATAAAAAAACTAAATAGTTATCAAATGAAATTTAACAAGTTATAAATTATAAATTCCATTTGTTAGCATTTTTTCCTTAAAAAATTATAAATTATAACAAGTTAATTCTTGAATTTAGTTTGTAATTATTTGATCCATATGTTATAAAATGGGTGACGTTCATAAACTTTAAAATTTGTGATAGTTTATCGATTTTTATTATGTACTGACATAATTAATATTTGTTATTTATAAACACAGGATTTCTAGTATGTTTATTGATTTGCATATAAGAGATTCTATTAAATTTTAACAATAGGAACTACATTTATATAAAATTTAAAACATGGAGAATATATTAGTACATATTAAAATAGTACAATGATGGCTAAATTATTACAAAATTAGAAGTATAAAAACTAACTGTGAACTAAATTGTTATTTTTATGAAAATACAAGGACAAAAATGTTGCTTTTAACCAAAATTTATCTTATTCATTGCTTAGAATGGAAGTAGAGTTTTTTAACCAAAATCTAAAATTAAAAGTCCTTTTGATAGATAATAAAATTATAACACTTTTTTCAAATTTAATATATTTTATTTAGAAAAATTTAAAAACATAGCTAAAATTTGAAAACTAGAAACTAAGAAAGAAAGTAATTTTAAAAATCTAGAAGTATTATTTAATTTCAATCAAGCATAATTTGGGTATCATAGGTGAGAACGGCTTCAAGGGAACAAGTGAGGGCTTTGAAGAATGCTATTCATGATGTGAGTGGCCCTTCCTTCCTTTTCTTTTAGATTGTGGTTTCTCAAATAAAGATTTTGTTCTATAGAGATTTGTTTTAATTTAGTATTTATATTTTAATAAATCTTAAAATTAGTTAGTTTTTTTGTCTCTCTGTTTTCAAATATAGATGCATCTAGTTTCTAATATTTTAAATTGACCATTTTAGTCCCTGAATTTTCAACAGCTCTTAATTTAAAAATAGAGTTGACTAAAATATATGATGTGTCAAGATGACATAGAAATAATATAATTTTTTAATATTTGTCACCTCTCACTCTTCTTTCTCTTTCTTCCTCCTCTCTCTTCTTTTGTTTGTTCTCTCCTATATATTTAATCAAATTTATTATTAAATTTATTAGTTGAGTGACCTTTTAAACCTATTCTTGAAAACTCAAGAACTAAAATGGTTAATTTGAAAGATTAGGGACTAAATGTAGCTATTCATAAAAACTTAAAGACTAAAAGTGTGGCTTTTTTCAAAAAATATATATATATATATATATATATATATATATATCCATATTTTGTGAAAATTATTACTTTTCTTTTACCAATGATCCAATAAAAGTAAAACTTCAAACTGATAGTAAGAATTCATTTGAAAGAAAACTAGGATGACTACATTTAAATATGGAGATCAAAATAAAACTATTTTATATATTTTAATATACAGCCGCAAAATATAATAACTGAAATAATATTTTAATATTTTTATAAACTAAATTAAAACTATTTTATATATTTTAATATAGAGCCTAAGTACAATGACTAAAATAATATTTTAATATTTTTATGAATTATTTTATATATTAAAAATAAAGGAATGTTTTTTAAATATAGCAAAAACATTAAAATTTTCCTAAAATTTATCACTAGTAAACATTAAAATTTTCTATATTTGTAAATAATTTGATACTTTTTTTATTTATAAAATAATTTTCCTAAAATAAAACTATTTTCTCTGTACTAATCCTATTTTAAAAATTTGTTTAAAAGTATATAATTCATTTTGTGTATTTCATTTCTTCTTTCAATAATTTAAAAATACACAATTTGCCAGAAGGTAATCATGATTATAGATAAACAATAAATTTACCAACATATGAAAGAAACAATGAAAACAAATGGCTTCCAAACCAAAATTTAACTTGTTTATATATATACATAATTCTCATACTCTTCATATATTCTTCTTTCTATTATTATTTTTTTTAATTGTAGTGTGGAAAATCATACCCTTGTCTTTATAGGATTGATCGTACAAATACTATGGTAGTTGAGCTATGTTCAGTTTTAACAATTTTATTCCCCTTTCATCATCATTATTATACTTTCAATCTCTTGAGTTGCATGTTTCACTCTTTAGGGTTTGAAGAAAAATGCAAGGCCAATACAAGCATTAGATGGAAGAAGAATTCAATTTTATACTCCACATAAGTGAAGGGTTCTTCTTTATTTATTTATTTTTTTTTGGCGGTTAAACACAGAGCCTAAGGAAACTTAAATAAGATCATCAAACTGTTAAATGTATTCATATCCAATAAAGTATCTTAAATATTATATAATGAGGCATAAAGTATCTTAAATGTTACATAATGAGGCTCTTCAGCCTTGTTGTATTAAGTTCATA TGGAGAGCAGCCATGGCCTTCTTCTTCAAAAATTATAGACCCAATTTTCTTTTTCTCTTTTCTGTTTTATTCCTTCTCTCATCATTTTCTCTCCCCTCCATTTCCATGGCATCTCAACCTGAAGTTGGTGATGAATCTCCATTCAGTTACAATGAGGGAAGTGGAAATGGACCAAAAGAATGGGGAAAGCTAAAAGCAGATTGGAAATCTTGTGAGAAAGGGAAGTATCAATCTCCCATTAATATTGTTGAAGAAGATGTGCAAGTTCTTCCTCAGCTTGGAAAACTCAGAAGGGACTACAACCCTTCTCCTGCTGTCGTCAAGAATCGAGGACACGATATTATGATAAGGTGGGAAAAAGATGCTGGAAAAATTACAATTAATGGGACTCAATACAAATTGACCCAATGTCATTGGCATGCCCCATCTGAACACTCTTTCAATGGAACAAGATATGATTTGGAGATGCATGTAGTTCATATAAGCGATCATACTGAGATTGCTGTGGTTGCAATTCTTTACAAATTTGGACGCCCTGATCGCTTCCTTTCAAGATTTTTCCACCACATAAAATCAATAGGGAAAGAAGAAAAAGAAATTGGGATTGTGAATCCAGGAGATATCAAGTTTGGGGGCAGAAAATATTACAGATACATTGGTTCTCTCACGGTTCCTCCTTGTACTGAAGGAGTCATTTGGACAATACAAAAGAAGGTGAGAACGGCTTCAAGGGAACAAGTGAGGGCTTTGAAGAATGCTATTCATGATGGTTTGAAGAAAAATGCAAGGCCAATACAAGCATTAGATGGAAGAAGAATTCAATTTTATACTCCACATAAGTGAAGGGTTCTTCTTTATTTATTTATTTTTTTTTGGCGGTTAAACACAGAGCCTAAGGAAACTTAAATAAGATCATCAAACTGTTAAATGTATTCATATCCAATAAAGTATCTTAAATATTATATAATGAGGCATAAAGTATCTTAAATGTTACATAATGAGGCTCTTCAGCCTTGTTGTATTAAGTTCATA ATGGCCTTCTTCTTCAAAAATTATAGACCCAATTTTCTTTTTCTCTTTTCTGTTTTATTCCTTCTCTCATCATTTTCTCTCCCCTCCATTTCCATGGCATCTCAACCTGAAGTTGGTGATGAATCTCCATTCAGTTACAATGAGGGAAGTGGAAATGGACCAAAAGAATGGGGAAAGCTAAAAGCAGATTGGAAATCTTGTGAGAAAGGGAAGTATCAATCTCCCATTAATATTGTTGAAGAAGATGTGCAAGTTCTTCCTCAGCTTGGAAAACTCAGAAGGGACTACAACCCTTCTCCTGCTGTCGTCAAGAATCGAGGACACGATATTATGATAAGGTGGGAAAAAGATGCTGGAAAAATTACAATTAATGGGACTCAATACAAATTGACCCAATGTCATTGGCATGCCCCATCTGAACACTCTTTCAATGGAACAAGATATGATTTGGAGATGCATGTAGTTCATATAAGCGATCATACTGAGATTGCTGTGGTTGCAATTCTTTACAAATTTGGACGCCCTGATCGCTTCCTTTCAAGATTTTTCCACCACATAAAATCAATAGGGAAAGAAGAAAAAGAAATTGGGATTGTGAATCCAGGAGATATCAAGTTTGGGGGCAGAAAATATTACAGATACATTGGTTCTCTCACGGTTCCTCCTTGTACTGAAGGAGTCATTTGGACAATACAAAAGAAGGTGAGAACGGCTTCAAGGGAACAAGTGAGGGCTTTGAAGAATGCTATTCATGATGGTTTGAAGAAAAATGCAAGGCCAATACAAGCATTAGATGGAAGAAGAATTCAATTTTATACTCCACATAAGTGA MAFFFKNYRPNFLFLFSVLFLLSSFSLPSISMASQPEVGDESPFSYNEGSGNGPKEWGKLKADWKSCEKGKYQSPINIVEEDVQVLPQLGKLRRDYNPSPAVVKNRGHDIMIRWEKDAGKITINGTQYKLTQCHWHAPSEHSFNGTRYDLEMHVVHISDHTEIAVVAILYKFGRPDRFLSRFFHHIKSIGKEEKEIGIVNPGDIKFGGRKYYRYIGSLTVPPCTEGVIWTIQKKVRTASREQVRALKNAIHDGLKKNARPIQALDGRRIQFYTPHK Homology
BLAST of CaUC04G069630 vs. NCBI nr
Match: XP_038883754.1 (alpha carbonic anhydrase 4-like [Benincasa hispida]) HSP 1 Score: 509.6 bits (1311), Expect = 1.7e-140 Identity = 245/276 (88.77%), Postives = 257/276 (93.12%), Query Frame = 0
BLAST of CaUC04G069630 vs. NCBI nr
Match: XP_011653762.1 (alpha carbonic anhydrase 4 [Cucumis sativus] >KAE8649607.1 hypothetical protein Csa_012720 [Cucumis sativus]) HSP 1 Score: 500.4 bits (1287), Expect = 1.0e-137 Identity = 240/275 (87.27%), Postives = 256/275 (93.09%), Query Frame = 0
BLAST of CaUC04G069630 vs. NCBI nr
Match: XP_008464600.2 (PREDICTED: alpha carbonic anhydrase 4-like [Cucumis melo]) HSP 1 Score: 429.9 bits (1104), Expect = 1.7e-116 Identity = 200/223 (89.69%), Postives = 211/223 (94.62%), Query Frame = 0
BLAST of CaUC04G069630 vs. NCBI nr
Match: XP_022966427.1 (alpha carbonic anhydrase 4-like [Cucurbita maxima]) HSP 1 Score: 412.9 bits (1060), Expect = 2.1e-111 Identity = 198/276 (71.74%), Postives = 226/276 (81.88%), Query Frame = 0
BLAST of CaUC04G069630 vs. NCBI nr
Match: XP_022153919.1 (LOW QUALITY PROTEIN: alpha carbonic anhydrase 4-like [Momordica charantia]) HSP 1 Score: 409.8 bits (1052), Expect = 1.8e-110 Identity = 184/224 (82.14%), Postives = 206/224 (91.96%), Query Frame = 0
BLAST of CaUC04G069630 vs. ExPASy Swiss-Prot
Match: F4JIK2 (Alpha carbonic anhydrase 4 OS=Arabidopsis thaliana OX=3702 GN=ACA4 PE=3 SV=1) HSP 1 Score: 289.7 bits (740), Expect = 3.6e-77 Identity = 132/263 (50.19%), Postives = 184/263 (69.96%), Query Frame = 0
BLAST of CaUC04G069630 vs. ExPASy Swiss-Prot
Match: Q8L817 (Alpha carbonic anhydrase 7 OS=Arabidopsis thaliana OX=3702 GN=ACA7 PE=2 SV=1) HSP 1 Score: 269.6 bits (688), Expect = 3.8e-71 Identity = 131/273 (47.99%), Postives = 179/273 (65.57%), Query Frame = 0
BLAST of CaUC04G069630 vs. ExPASy Swiss-Prot
Match: Q9SUB4 (Alpha carbonic anhydrase 6 OS=Arabidopsis thaliana OX=3702 GN=ACA6 PE=3 SV=1) HSP 1 Score: 251.9 bits (642), Expect = 8.3e-66 Identity = 114/221 (51.58%), Postives = 156/221 (70.59%), Query Frame = 0
BLAST of CaUC04G069630 vs. ExPASy Swiss-Prot
Match: Q84UV8 (Bifunctional monodehydroascorbate reductase and carbonic anhydrase nectarin-3 OS=Nicotiana langsdorffii x Nicotiana sanderae OX=164110 GN=NEC3 PE=1 SV=1) HSP 1 Score: 250.4 bits (638), Expect = 2.4e-65 Identity = 124/255 (48.63%), Postives = 170/255 (66.67%), Query Frame = 0
BLAST of CaUC04G069630 vs. ExPASy Swiss-Prot
Match: Q9FM99 (Alpha carbonic anhydrase 8 OS=Arabidopsis thaliana OX=3702 GN=ACA8 PE=3 SV=3) HSP 1 Score: 235.3 bits (599), Expect = 8.0e-61 Identity = 116/253 (45.85%), Postives = 159/253 (62.85%), Query Frame = 0
BLAST of CaUC04G069630 vs. ExPASy TrEMBL
Match: A0A1S3CMC3 (alpha carbonic anhydrase 4-like OS=Cucumis melo OX=3656 GN=LOC103502444 PE=3 SV=1) HSP 1 Score: 429.9 bits (1104), Expect = 8.2e-117 Identity = 200/223 (89.69%), Postives = 211/223 (94.62%), Query Frame = 0
BLAST of CaUC04G069630 vs. ExPASy TrEMBL
Match: A0A6J1HMY4 (alpha carbonic anhydrase 4-like OS=Cucurbita maxima OX=3661 GN=LOC111466081 PE=3 SV=1) HSP 1 Score: 412.9 bits (1060), Expect = 1.0e-111 Identity = 198/276 (71.74%), Postives = 226/276 (81.88%), Query Frame = 0
BLAST of CaUC04G069630 vs. ExPASy TrEMBL
Match: A0A6J1DKH9 (LOW QUALITY PROTEIN: alpha carbonic anhydrase 4-like OS=Momordica charantia OX=3673 GN=LOC111021319 PE=3 SV=1) HSP 1 Score: 409.8 bits (1052), Expect = 8.8e-111 Identity = 184/224 (82.14%), Postives = 206/224 (91.96%), Query Frame = 0
BLAST of CaUC04G069630 vs. ExPASy TrEMBL
Match: A0A061EXL7 (Alpha carbonic anhydrase 4, putative OS=Theobroma cacao OX=3641 GN=TCM_024529 PE=3 SV=1) HSP 1 Score: 392.9 bits (1008), Expect = 1.1e-105 Identity = 178/259 (68.73%), Postives = 215/259 (83.01%), Query Frame = 0
BLAST of CaUC04G069630 vs. ExPASy TrEMBL
Match: A0A6J1A7M9 (alpha carbonic anhydrase 4-like OS=Herrania umbratica OX=108875 GN=LOC110415607 PE=3 SV=1) HSP 1 Score: 387.5 bits (994), Expect = 4.7e-104 Identity = 175/260 (67.31%), Postives = 215/260 (82.69%), Query Frame = 0
BLAST of CaUC04G069630 vs. TAIR 10
Match: AT4G20990.1 (alpha carbonic anhydrase 4 ) HSP 1 Score: 289.7 bits (740), Expect = 2.6e-78 Identity = 132/263 (50.19%), Postives = 184/263 (69.96%), Query Frame = 0
BLAST of CaUC04G069630 vs. TAIR 10
Match: AT1G08080.1 (alpha carbonic anhydrase 7 ) HSP 1 Score: 269.6 bits (688), Expect = 2.7e-72 Identity = 131/273 (47.99%), Postives = 179/273 (65.57%), Query Frame = 0
BLAST of CaUC04G069630 vs. TAIR 10
Match: AT4G21000.1 (alpha carbonic anhydrase 6 ) HSP 1 Score: 251.9 bits (642), Expect = 5.9e-67 Identity = 114/221 (51.58%), Postives = 156/221 (70.59%), Query Frame = 0
BLAST of CaUC04G069630 vs. TAIR 10
Match: AT2G28210.1 (alpha carbonic anhydrase 2 ) HSP 1 Score: 230.3 bits (586), Expect = 1.8e-60 Identity = 105/204 (51.47%), Postives = 145/204 (71.08%), Query Frame = 0
BLAST of CaUC04G069630 vs. TAIR 10
Match: AT1G08065.1 (alpha carbonic anhydrase 5 ) HSP 1 Score: 229.9 bits (585), Expect = 2.4e-60 Identity = 120/270 (44.44%), Postives = 170/270 (62.96%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (USVL246-FR2) v1
Date Performed: 2022-01-31
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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