Cla97C09G168820 (gene) Watermelon (97103) v2.5
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGGGGTACAGTATCCAACGTACCAAACAGGGCTTCTAAATTCCATTTCCAACTTTATACATTGCCAAACACCACACATACCACTTCATCACTCTATCTTTATCCTCTCTCTTCCGTGTTCAGCTCTGAATTTTCAGTCGTTAGCGCCTAGCCATGAATATTTTCATTCCGACCTCCGCAGCTCCGACCATTCCGAGCCGTTTTCTTCTTCCGCCGCGACACAGTGACTTCTCCAGAAGATGCTCTCTGGAACTCAAACGTTTTGCACCTCCGTTTAGAGCTTCAACTCTCGTTTGCATGGCGGTTTGTACAATTTCCGACAGATACATGCTGTTAGATTTACGAAACGTTTTGCTTTCGGAGAAGAGAATATGTCTATATCTTACTGTTTGGCTTAGCTTTGATTGAACTTGAGTTTCGTTATGCTTCGAGTTCGCTGCGTTGTTTTCTTTCACTGAAGTTATTGGAAATGAATTCTTGGTGAAACTAGCCTACATGAGTTTTGTAGCAAATGATGATCGTGTTTATTTCATTTTAGGAACCATATCTGATCGTGAAGCTGGAATCTGCTGAGAAGACGTGGAAAGAATTATCGGTAATCTTTGATTTACTGTTTAATAACATTTTCATCTGTTCACTGATTGGAGATGCGCGTGGCCATCAATTGTTTATATACAGTGGTTATACTTGGAATGGAACTACTATTTTGCATTGCATTTGAGTATATATATATTTGAAGTGGTTAGAAATGTAATGACATAAAATGCAGTTAATTGTTAACTTCTGGATCAATGTTTTGGTAGTTGAATTAGAGGTTATAGAGCTTCCTTTTGTCCGAGTGAAAATTGATGGAATAGGAGAAGTAGCAAAAATATGTCTTGGAAAAGTCGAGCTTGTAGAATTATCATGCTTCATTATATTACGATTTGTGCACTTTTGTTTCAGATGTCAGGACATGTAATTTGCAGTCAAATTAACTGTGGTAATAGTGAACTCTGTATGTTGTTTCAGCAGTGACTGTAATTCTCTGGTGAACTTTTAAGTTTTAAAATATGTAACTTAGGGGCTCGACAGCTCCATTTAGTTACTTTTAGAGCACCAGCACTGAAGAAGAGAAAGAACGTCCTCACTAGAGACCTTGTCTTTGCACGTAATATTGAAACTGGAAGGCAGATGTATTTTGGATTTGGCTATAGCCTATAATGATAAACTTACAATTCCTTGCTTTCCTATTGCAGTTGGGATTTGGATAGGACATTCTTTAGCTTTCACAAAATTTTTAACCACTGCTTTTCTCCTGAAAGAGGAACCTTGGTGTATCTGGAATTTCTATAGTAATCGTTTAGCTAATGAAGTGATTATGCATAAAATCTAGATAACGTTAACTGTATTCCAGAATCTTCCCCTTGCATTCTCTAGATCCACGTTTGAAATTTGCATTTACATCTTTGGTGTATCTCCAATTATGCTTTTCATTTGGTTATAGTTTTAATATTTTCCTCAACCAGAATCATTATTGATATAATTATTTAGGTCAAGCTGGCTGATCCAGATATTGTCTCGAACCCCACAGAGTATCAAAAACTTGCCCAATCAATGTCAGAACTTGACGAGGTATGGCAAGACTTTTTTTACTTCTTTTTTTTTATTTTTTATTTTTTATTTTTTATAATTTTTAATATCCGTGAGTGTCCGGGCCAGCTTACGCACCTTGACTAATCTCACGATACAACCCACCTGACCTTACAACACTTGGGTGTCAAGGAAACTCGTAGGAAATTAATTCCTAGGTAGGTGGCCACCATGGATTGAACCGTTGACCTCTTAGTCATTTATTGAGACTATATTTCCTTTTTACCACTAGGTCAATCCAAGATGGTTAGATATGGCAAGATTATCTGCCTCCAATACTATAATTTATGTGGAATAGTTAGAATGACCTGTTTTATCTTTTCTTCCTTTCTTCCTCTAATATGTTTCTGTCTACCAACTTACTCTTGGTTGGTTGGTGTGGGTTGGCCGGACAGGTGGTATCGACTTTCAGAAAATTCAAGGAATGTGAAAAGCAGTTAAACGAGGCCAAAGGTTGACTTATAAGTAGTTTTCTTAAAAAAGCTTCTCAAACATAAAAATTGTTGAATTGATCTTAGTTTCTTCTTCTTTGTTGTGATTATCATGTCAGCCTTATCAAAAGAGAGTGGGAATGATGAGGATATGGTAGAAATGATTGCTTTAGAAATCAGTTCTTTATCCAGTCAGCTCAAAGATATCGAGGAGAAGCTTAAGGTGATTTTGGTTCATGAACATGATTTTTACATGTGCGTTTATTTTGGATCATGACGAAGTTTTGTTAATGTTAATGTGTGTTTAAATCTCTTTCTCATCATTCTGTTTTCCTGTTTGGGTGGGGTGGAGGTCCTTGATTTTCAATCCTCACAGTTCTTCATTTTCTGTTTTTTAATGAGCTTCTTTACAGATATACATGTCTAAATGCGTTATTTTTTTTTATTTCTTTAGCTATATTCATTAATGCTTATTATTATCTTCTTGTTAAAGGTAGAATTATTTGATTACTGAAACAAATAGGTAATGACATTGTACCTTGGTTCTTTACTGATGGTCAGATCTTTACAAGCAAATATTGTGCTTTTCTTGTCATTCTTACAGTGACCGTTTTCTTTTGTTGAGGACTTTATTTATTTCCTGGTATTCATCGATGGAAAAAAAGGAAGTTATTTCCTGGTATCTTACAAGTTACATCTTACATTTTTCTGAATTGAATCTGAAGACTTTATGTCGTGATTTTCTCTATCAGGTGATGTTGCTTCCATCTGATCCTCTTGATGCAAGAAATATTATGCTTGAAGGTCAACTTCCTCAGTTTCCTCTGAAATTTTATGCCATCTGAATAATGACAAACTTTAACATACATTTGCCGAAGGTTGCATAGATATACTTAATGGACAATTAGAATCCTGTAAATGTAAACTACTTATGTTTATGCCTTATATATTCTGATTAAAAGCTGTAATTTCCTTCTGCCATGCAGTCCGGGCAGGTACAGGTGGTGATGAAGCTGGAATCTGGGCTGGTGATCTTGTAGGTACATGTTTCTTTTATCCTTAAAGAACTATGGATAAATTGTGCACATGTTCTTTTTTTTTTTTTTTTTTGGTGCTCATACAATTGGGAACATGAGAAGTATTGATTATAAAAGAGAATCTCTTGATATCTTCATAAGAAATGCTATGCCAAATAAACGTATTCGTTGAGGTGACCTATTCTCCAATATTTTCCTTACTAACTTCTTAGACCTCTTAAGTATATAGAGTAAGTTTAGATAGGCTCAGTAAAGTTACAAGTTACATGTTCTGAACTCTGAAGTTTTTCCGATCTTGTCCTGCTTTGATTGCACCCCTCCTTTTCATGTATGTATTTTTCTCTATTATCATTTCTTCTTCTCTAACTCATCTTTCCAATTATATAATAGGTCCGTATGTACCAGAAATACAGTGAGCGGAATTCTTGGAAGTTTTCCCCTGTTTCAAGTTCTGAGGTATGTGTCTACAAACATCCCAAAAGTAAACATCCTAGTGCTTTCTGTATGTATTAAAGAATTTCCGCTGTTCACTTTTCAGGCAGAAAAAGGTGGATTCAAAACTTATGTGTTGGAAATCAAAGGACAACGTGTCTACAGTAAATTAAAATACGAGTCCGGTGTTCACCGGGTTCAACGTGTTCCTCAAACAGAAACGCAGGGCCGTGTGCATACTTCTACTGCTACAGTCGCCATCATGCCAGAGGTAAACCATTTCATAAATTTACTATTGAATTGTGAAATAAGATTGTCTGATTCTTGTCAAAGAAGAATAGCATGCCTTAACAAGACTAATGTCTAGTAGAATATTACGTGATTTTGCTAATTTTGTTCTGGACAGCTGACTAGTGTTAATTCTTTTTCCCCTTTCCTTTATAGGTCCCTGATCTATTTCTTGTGCTCCGTTTTAACTTTTAACAATTATGATGTGGAAAAGCCATATCTCTCTGTTAAAAATCCCTACGGATTGATGTGGGATTGCTAATCAAAATGTTCTGACATATCACACCAGTGCCTCAACATGAAAATCTGAGTGCATAACTGCAGATTTATCCTTATATATGTGTAGTTGATATTGATAGTGTTCATACTGTTTCCCTGTAGGAGTACGAACATTTTGGATATGATAATTTCTATAAATTTGACTTTGTTGTCCTCTGCTTTCACATCTTGATCAGCTATACTTTATCTTGATTGGTTGAGCTTATGCTGTAATTGCTATTGCATCTAGGCAGATGAAGTTGAGGTAGTGATTGATCCAAAAGACATTGAACTAACTACTGCCAGATCTGGGGGAGCTGGAGGTATAAAGCTACATGGTTTATTCAAATATTGCTTTCAGTTAGCTATCTGAATCTGCTCTCATAAAACCAAGAAAAATGGTAGCATAACCTAACCTTGTTATTTATCTCTTCTTGTCAATGATTATGCAGGGCAGAATGTCAACAAGGTGGAGACAGCAATTGATCTTTTTCACAAGCCAACAGGAATCCGCATTTTTTGCACCGAAGAAAGGACTCAACTTCAGAACAAGCATCGAGCTTTTCAATTGCTGCGAGCCAAACTGTGAGCATCCATTACATCATAACATTTCCCACATTATCGTATACCTTATATGAATGTGCACTTCATTCATATAATTCCTATATTTTTCTAGTAACAAATAATTGAAGAAACTTTGTGACCATTCCTATGATTTTTCTTGAATAATTGAAGGATCTTTATTCCCATTTCTATGTACCGTGGGAATTTGGGTGGTCATTGGTACGGGTGAAATAAAAAAAAGTAACTTAACAAACTGATATTGGCCAGTTGGATTCAGTCTTGCACAGCCCTTCGACAAAGCCTAATTCTGTTTTTCTTTCCCTCACACCCAGCTACCACCGCCGTATTGTTCTCACCCAACACAACCTAGCCCAAAACCCAACCACCCTCTGCTTGGCTTAGCATGTCACTTCCCCATAGCCAGACACCTCCAATCCAGCCTGCAGGTCGGTCAGATCTTTTGTGCAATAAAAGAGAAGGGTTAGTTTTTATGTCCTCCCCCAACTGACGGTCAGCTTCCTAATCTACGCTGACTTTCACCCTACCTTCCCACCACAACCAGCCTTTTATAGTGGACGGTTATAATTTTGCTGGATTCAATGTGTAAATGCATGAATTTAATCCCCTCTCCCTCCTCTTTTTTCTTTTCAGTTATGAGATCAAAGTGAGGGAACAACAGGAGAAGATCAGGAATCAACGAAAATTACAGGTAATTACTGTTTTTCTTTTTCCTTTCTAAAATTTTGTTAGCATTTGGAAATATTTAGCAAAGAACACTCTTTCCATAAACTCTTGTATGGTCTGCGTTTAGACTGTCCTTGAGCTGCTTTCATCAGACAAGAGTTTCTGAAGTTCTTGTAGTTGGTCTGTCATGATTTTGTTTCAATTTGCCCGGAAAATGAAGTGCTGTTACTCTTCATTTTATCGAGTATTTCCCAGTCTATAGTAATTTCTTTCTAAACACATGATTTCGTTGGTAACATGCAAGATACAATCTGAATGGAATATCAAATACTAGAAATCTTTTGGACTCCACGATCTCCTACCTAGTGGTTTTGGGTGCACAAATACGACTGTTCTATGGCATGATAATTTTAATTATATTTTCGGGTTTCTTTCCCGTTATTAAGAATCTAGTTCATGATATCACTGAAAGTCATTTTCATTTTTTGTTTAATTTACAATGTGCTGCCTGTGTAACTCTCATTCTTAAAGCAAGTAGTCGTCACATTAGAAATTGTACAAGCAGATGGTTATTCTTACAGAAGCAAGTGATGATAAGCTTTTTTTAATTTTTATTTATTTTATTTATTTATTTATTTTTATTTTTAAAATTTTAATTTTATTTCAGTGTTATTATTACCTTGTTGTCCTAATTTCCATCTTCCGTTTTCTCGTGGACGTGTTGAAATTTGTTGTCAGAATCTGTTTGAACGCTGAAACTTCATGCATGCCAATACCACTGCTAGTGGGTGTGCAACTTGAATCTGTTAAAGAAATTGAAGACCTGATAACTTCTTAATGTAATTTAATTAGGCACTCAAATTATTTTCATTAGTGTATTCCTTATTCTAAAAGGTTCTGTTCCAGGTCGGTACAGGTGCCCGAGCTGAGAAAATTCGGACCTACAATTACAAGGTATGATATTAGTTTGCTTTGCGACTTTGAAAAGATGAAAAGAAATACAGCTTCTGTCATAAAACAAGCCATTCATCCATATGGTACCACAAAGATGTTGAAGACAAGAAAGATTTCAATCTTAAAGAAGACGAAGTGTAATACCATTTCGCACTAGACTAGAACTAATAAAAAATCAGATACTTCATTACGAGAAGATTGTATTAGGAGTGCTTTTTAAAAGTATTTTCAAATAATTAAAATCTAATAGCACTTTTCTTAGTAATTTTAACCATCATGGTTAGTCTAGTAGTAAATAGGGGACATGGCCTTGATAAAGGGTTAGGTCATGAGTTCAATCCATGGTCGGTTGCTTACCTAGGATTTAATATTTTATGAGTTTTCTTAATGCTCAAATGTTGTATTGGTTAGATTGGTTGCCCTGCGAGATTAGTTGAGATATGCGTAAACGTAAACTGACCCAGACACTCATTGATACCAAAAAGAAAAAAATAAAACAATTTCAGGTGGTCTAGGAGGTTCTCTGTTCAAACCCCTAGTCTTCTATATATTTCAAGCTCACAAGTGATGGGAGAATAAAATAATATAATGTTAAATTTACTTTCACTCATTAGCTTAAGTTTTTGAGTCAATCGGTGATTTAATTGCTTTTAATTTTCTCTTTTCACTTAAAAATACTTTTTAAAGTATTTAAAAAGTCGATCTACACAAGTTCAAAGTTGAACCTGGGAAACTATCATTTCCAGTCTCTATTACAAGCCGGAAACGAAGCAGCTAAGCATAATTAATAGAATTCGACCACATAGACTGATGATTTCACTAGAAATTAACTTTTGGATTTTAATTATGTTAGGACAATAGGGTTACCGACCACAGGCTGAAGATGAACTTCGAGCTCACATCCTTTCTTGAAGGTGATATAGAGAATGCAGTTCAGGTAATATTCTCGCTTTCGTCCAATTCCTCATCTTAATCATCATTTTAATGGAAAGAAGAAAAAAATAAATCACATTCTTCCATTTTCTCAATCAAGGCATGTGCTGCCATGGAACAAAAAGAACTCCTGGAAGAACTGGCTCAGTCGGCTGTGGCTTCAGCCACTTGAATTTCCACCATCTCTTGCCAATAGTTGGGGCCTTCTCATAACACAGGTTTTCTTTGAACCATATGAAATGCTATATGAGGTTAGGTATAAAATCATTCACCATTATTCATGTTTTTTATTTTTATTTTTTTTTCTCTTTTTGTATATGGCCCTGATATGTATGATTATACACGCACTGAGAATGAGAATTATACCCATTAGTATTTTGGCGCCAGTGGTCTCAAAATAGAGGGAAATAGAGGGAGATAAGAACATTAATTAACCCACCCCCGGTAGAATTAGATTATGATGTTGATGTGACTTTATGAAATTAATTACATATTTATCCATGAGTATACCTTTGTGAATTATTATTTCAATCAATCTCGCTGCCGTTTACATCATTTTCGTTGGTTTTGTGATTCATTTTTACATGGCCTAGATTTTGAAGATAAGATTGCATAACTTGTTGCTATGGTAAGCGACACGTGAAAATACTATTGAGGCCTTTGCTAGTGCACGCTTCCTTAATATGTTGTGGCTCTCGCTTTCGTTCATTTTTTCCCCTTCTGCAAGTGGAGAGAAGCAGAGAACGCATTGAAAACAGAAGGAAGGAGGAAGGAGACAAAAGGGGAGGGAGA ATGGGCTCTGAATTTTCAGTCCGCCTAGCCATGAATATTTTCATTCCGACCTCCGCAGCTCCGACCATTCCGAGCCGTTTTCTTCTTCCGCCGCGACACAGTGACTTCTCCAGAAGATGCTCTCTGGAACTCAAACGTTTTGCACCTCCGTTTAGAGCTTCAACTCTCGTTTGCATGGCGGAACCATATCTGATCGTGAAGCTGGAATCTGCTGAGAAGACGTGGAAAGAATTATCGATGTCAGGACATGTAATTTGCAGTCAAATTAACTGTGGGGCTCGACAGCTCCATTTAGTTACTTTTAGAGCACCAGCACTGAAGAAGAGAAAGAACGTCCTCACTAGAGACCTTGTCTTTGCACGTAATATTGAAACTGGAAGGCAGATTTGGGATTTGGATAGGACATTCTTTAGCTTTCACAAAATTTTTAACCACTGCTTTTCTCCTGAAAGAGGAACCTTGGTCAAGCTGGCTGATCCAGATATTGTCTCGAACCCCACAGAGTATCAAAAACTTGCCCAATCAATGTCAGAACTTGACGAGGTGGTATCGACTTTCAGAAAATTCAAGGAATGTGAAAAGCAGTTAAACGAGGCCAAAGCCTTATCAAAAGAGAGTGGGAATGATGAGGATATGGTAGAAATGATTGCTTTAGAAATCAGTTCTTTATCCAGTCAGCTCAAAGATATCGAGGAGAAGCTTAAGGTGATGTTGCTTCCATCTGATCCTCTTGATGCAAGAAATATTATGCTTGAAGTCCGGGCAGGTACAGGTGGTGATGAAGCTGGAATCTGGGCTGGTGATCTTGTCCGTATGTACCAGAAATACAGTGAGCGGAATTCTTGGAAGTTTTCCCCTGTTTCAAGTTCTGAGGCAGAAAAAGGTGGATTCAAAACTTATGTGTTGGAAATCAAAGGACAACGTGTCTACAGTAAATTAAAATACGAGTCCGGTGTTCACCGGGTTCAACGTGTTCCTCAAACAGAAACGCAGGGCCGTGTGCATACTTCTACTGCTACAGTCGCCATCATGCCAGAGGCAGATGAAGTTGAGGTAGTGATTGATCCAAAAGACATTGAACTAACTACTGCCAGATCTGGGGGAGCTGGAGGGCAGAATGTCAACAAGGTGGAGACAGCAATTGATCTTTTTCACAAGCCAACAGGAATCCGCATTTTTTGCACCGAAGAAAGGACTCAACTTCAGAACAAGCATCGAGCTTTTCAATTGCTGCGAGCCAAACTTTATGAGATCAAAGTGAGGGAACAACAGGAGAAGATCAGGAATCAACGAAAATTACAGTGTTATTATTACCTTGTTGTCCTAATTTCCATCTTCCGTTTTCTCGTGGACGTGTTGAAATTTGTTGTCAGAATCTGTTTGAACGCTGAAACTTCATGCATGCCAATACCACTGCTAGTTCTGTTCCAGGTCGGTACAGGTGCCCGAGCTGAGAAAATTCGGACCTACAATTACAAGGACAATAGGGTTACCGACCACAGGCTGAAGATGAACTTCGAGCTCACATCCTTTCTTGAAGGTGATATAGAGAATGCAGTTCAGGCATGTGCTGCCATGGAACAAAAAGAACTCCTGGAAGAACTGGCTCAGTCGGCTGTGGCTTCAGCCACTTGAATTTCCACCATCTCTTGCCAATAGTTGGGGCCTTCTCATAACACAGGTTTTCTTTGAACCATATGAAATGCTATATGAGGTTAGGTATAAAATCATTCACCATTATTCATGTTTTTTATTTTTATTTTTTTTTCTCTTTTTGTATATGGCCCTGATATGTATGATTATACACGCACTGAGAATGAGAATTATACCCATTAGTATTTTGGCGCCAGTGGTCTCAAAATAGAGGGAAATAGAGGGAGATAAGAACATTAATTAACCCACCCCCGGTAGAATTAGATTATGATGTTGATGTGACTTTATGAAATTAATTACATATTTATCCATGAGTATACCTTTGTGAATTATTATTTCAATCAATCTCGCTGCCGTTTACATCATTTTCGTTGGTTTTGTGATTCATTTTTACATGGCCTAGATTTTGAAGATAAGATTGCATAACTTGTTGCTATGGTAAGCGACACGTGAAAATACTATTGAGGCCTTTGCTAGTGCACGCTTCCTTAATATGTTGTGGCTCTCGCTTTCGTTCATTTTTTCCCCTTCTGCAAGTGGAGAGAAGCAGAGAACGCATTGAAAACAGAAGGAAGGAGGAAGGAGACAAAAGGGGAGGGAGA ATGGGCTCTGAATTTTCAGTCCGCCTAGCCATGAATATTTTCATTCCGACCTCCGCAGCTCCGACCATTCCGAGCCGTTTTCTTCTTCCGCCGCGACACAGTGACTTCTCCAGAAGATGCTCTCTGGAACTCAAACGTTTTGCACCTCCGTTTAGAGCTTCAACTCTCGTTTGCATGGCGGAACCATATCTGATCGTGAAGCTGGAATCTGCTGAGAAGACGTGGAAAGAATTATCGATGTCAGGACATGTAATTTGCAGTCAAATTAACTGTGGGGCTCGACAGCTCCATTTAGTTACTTTTAGAGCACCAGCACTGAAGAAGAGAAAGAACGTCCTCACTAGAGACCTTGTCTTTGCACGTAATATTGAAACTGGAAGGCAGATTTGGGATTTGGATAGGACATTCTTTAGCTTTCACAAAATTTTTAACCACTGCTTTTCTCCTGAAAGAGGAACCTTGGTCAAGCTGGCTGATCCAGATATTGTCTCGAACCCCACAGAGTATCAAAAACTTGCCCAATCAATGTCAGAACTTGACGAGGTGGTATCGACTTTCAGAAAATTCAAGGAATGTGAAAAGCAGTTAAACGAGGCCAAAGCCTTATCAAAAGAGAGTGGGAATGATGAGGATATGGTAGAAATGATTGCTTTAGAAATCAGTTCTTTATCCAGTCAGCTCAAAGATATCGAGGAGAAGCTTAAGGTGATGTTGCTTCCATCTGATCCTCTTGATGCAAGAAATATTATGCTTGAAGTCCGGGCAGGTACAGGTGGTGATGAAGCTGGAATCTGGGCTGGTGATCTTGTCCGTATGTACCAGAAATACAGTGAGCGGAATTCTTGGAAGTTTTCCCCTGTTTCAAGTTCTGAGGCAGAAAAAGGTGGATTCAAAACTTATGTGTTGGAAATCAAAGGACAACGTGTCTACAGTAAATTAAAATACGAGTCCGGTGTTCACCGGGTTCAACGTGTTCCTCAAACAGAAACGCAGGGCCGTGTGCATACTTCTACTGCTACAGTCGCCATCATGCCAGAGGCAGATGAAGTTGAGGTAGTGATTGATCCAAAAGACATTGAACTAACTACTGCCAGATCTGGGGGAGCTGGAGGGCAGAATGTCAACAAGGTGGAGACAGCAATTGATCTTTTTCACAAGCCAACAGGAATCCGCATTTTTTGCACCGAAGAAAGGACTCAACTTCAGAACAAGCATCGAGCTTTTCAATTGCTGCGAGCCAAACTTTATGAGATCAAAGTGAGGGAACAACAGGAGAAGATCAGGAATCAACGAAAATTACAGTGTTATTATTACCTTGTTGTCCTAATTTCCATCTTCCGTTTTCTCGTGGACGTGTTGAAATTTGTTGTCAGAATCTGTTTGAACGCTGAAACTTCATGCATGCCAATACCACTGCTAGTTCTGTTCCAGGTCGGTACAGGTGCCCGAGCTGAGAAAATTCGGACCTACAATTACAAGGACAATAGGGTTACCGACCACAGGCTGAAGATGAACTTCGAGCTCACATCCTTTCTTGAAGGTGATATAGAGAATGCAGTTCAGGCATGTGCTGCCATGGAACAAAAAGAACTCCTGGAAGAACTGGCTCAGTCGGCTGTGGCTTCAGCCACTTGA MGSEFSVRLAMNIFIPTSAAPTIPSRFLLPPRHSDFSRRCSLELKRFAPPFRASTLVCMAEPYLIVKLESAEKTWKELSMSGHVICSQINCGARQLHLVTFRAPALKKRKNVLTRDLVFARNIETGRQIWDLDRTFFSFHKIFNHCFSPERGTLVKLADPDIVSNPTEYQKLAQSMSELDEVVSTFRKFKECEKQLNEAKALSKESGNDEDMVEMIALEISSLSSQLKDIEEKLKVMLLPSDPLDARNIMLEVRAGTGGDEAGIWAGDLVRMYQKYSERNSWKFSPVSSSEAEKGGFKTYVLEIKGQRVYSKLKYESGVHRVQRVPQTETQGRVHTSTATVAIMPEADEVEVVIDPKDIELTTARSGGAGGQNVNKVETAIDLFHKPTGIRIFCTEERTQLQNKHRAFQLLRAKLYEIKVREQQEKIRNQRKLQCYYYLVVLISIFRFLVDVLKFVVRICLNAETSCMPIPLLVLFQVGTGARAEKIRTYNYKDNRVTDHRLKMNFELTSFLEGDIENAVQACAAMEQKELLEELAQSAVASAT Homology
BLAST of Cla97C09G168820 vs. NCBI nr
Match: XP_038876731.1 (peptide chain release factor APG3, chloroplastic isoform X1 [Benincasa hispida]) HSP 1 Score: 724.5 bits (1869), Expect = 6.6e-205 Identity = 405/534 (75.84%), Postives = 406/534 (76.03%), Query Frame = 0
BLAST of Cla97C09G168820 vs. NCBI nr
Match: XP_008451621.1 (PREDICTED: peptide chain release factor APG3, chloroplastic [Cucumis melo] >KAA0068037.1 peptide chain release factor APG3 [Cucumis melo var. makuwa] >TYK18091.1 peptide chain release factor APG3 [Cucumis melo var. makuwa]) HSP 1 Score: 714.5 bits (1843), Expect = 6.8e-202 Identity = 397/534 (74.34%), Postives = 407/534 (76.22%), Query Frame = 0
BLAST of Cla97C09G168820 vs. NCBI nr
Match: XP_031745234.1 (peptide chain release factor APG3, chloroplastic [Cucumis sativus] >KGN45452.2 hypothetical protein Csa_016721 [Cucumis sativus]) HSP 1 Score: 711.4 bits (1835), Expect = 5.7e-201 Identity = 398/534 (74.53%), Postives = 406/534 (76.03%), Query Frame = 0
BLAST of Cla97C09G168820 vs. NCBI nr
Match: XP_022151413.1 (peptide chain release factor APG3, chloroplastic [Momordica charantia]) HSP 1 Score: 699.9 bits (1805), Expect = 1.7e-197 Identity = 392/534 (73.41%), Postives = 399/534 (74.72%), Query Frame = 0
BLAST of Cla97C09G168820 vs. NCBI nr
Match: KAG6593177.1 (Peptide chain release factor APG3, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 694.9 bits (1792), Expect = 5.6e-196 Identity = 386/534 (72.28%), Postives = 396/534 (74.16%), Query Frame = 0
BLAST of Cla97C09G168820 vs. ExPASy Swiss-Prot
Match: Q8RX79 (Peptide chain release factor APG3, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=APG3 PE=2 SV=1) HSP 1 Score: 552.4 bits (1422), Expect = 5.9e-156 Identity = 307/492 (62.40%), Postives = 348/492 (70.73%), Query Frame = 0
BLAST of Cla97C09G168820 vs. ExPASy Swiss-Prot
Match: Q8DMG9 (Peptide chain release factor 1 OS=Thermosynechococcus elongatus (strain BP-1) OX=197221 GN=prfA PE=3 SV=1) HSP 1 Score: 429.5 bits (1103), Expect = 5.7e-119 Identity = 224/381 (58.79%), Postives = 278/381 (72.97%), Query Frame = 0
BLAST of Cla97C09G168820 vs. ExPASy Swiss-Prot
Match: B7KI17 (Peptide chain release factor 1 OS=Gloeothece citriformis (strain PCC 7424) OX=65393 GN=prfA PE=3 SV=1) HSP 1 Score: 425.6 bits (1093), Expect = 8.3e-118 Identity = 224/383 (58.49%), Postives = 275/383 (71.80%), Query Frame = 0
BLAST of Cla97C09G168820 vs. ExPASy Swiss-Prot
Match: B1XJH8 (Peptide chain release factor 1 OS=Synechococcus sp. (strain ATCC 27264 / PCC 7002 / PR-6) OX=32049 GN=prfA PE=3 SV=1) HSP 1 Score: 425.2 bits (1092), Expect = 1.1e-117 Identity = 218/381 (57.22%), Postives = 276/381 (72.44%), Query Frame = 0
BLAST of Cla97C09G168820 vs. ExPASy Swiss-Prot
Match: Q110D7 (Peptide chain release factor 1 OS=Trichodesmium erythraeum (strain IMS101) OX=203124 GN=prfA PE=3 SV=1) HSP 1 Score: 424.9 bits (1091), Expect = 1.4e-117 Identity = 222/385 (57.66%), Postives = 279/385 (72.47%), Query Frame = 0
BLAST of Cla97C09G168820 vs. ExPASy TrEMBL
Match: A0A5A7VLD6 (Peptide chain release factor APG3 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold411G00120 PE=3 SV=1) HSP 1 Score: 714.5 bits (1843), Expect = 3.3e-202 Identity = 397/534 (74.34%), Postives = 407/534 (76.22%), Query Frame = 0
BLAST of Cla97C09G168820 vs. ExPASy TrEMBL
Match: A0A1S3BRZ7 (peptide chain release factor APG3, chloroplastic OS=Cucumis melo OX=3656 GN=LOC103492855 PE=3 SV=1) HSP 1 Score: 714.5 bits (1843), Expect = 3.3e-202 Identity = 397/534 (74.34%), Postives = 407/534 (76.22%), Query Frame = 0
BLAST of Cla97C09G168820 vs. ExPASy TrEMBL
Match: A0A6J1DC40 (peptide chain release factor APG3, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111019348 PE=3 SV=1) HSP 1 Score: 699.9 bits (1805), Expect = 8.4e-198 Identity = 392/534 (73.41%), Postives = 399/534 (74.72%), Query Frame = 0
BLAST of Cla97C09G168820 vs. ExPASy TrEMBL
Match: A0A6J1KZW8 (peptide chain release factor APG3, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111497823 PE=3 SV=1) HSP 1 Score: 694.5 bits (1791), Expect = 3.5e-196 Identity = 386/534 (72.28%), Postives = 395/534 (73.97%), Query Frame = 0
BLAST of Cla97C09G168820 vs. ExPASy TrEMBL
Match: A0A6J1H5U4 (peptide chain release factor APG3, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111460751 PE=3 SV=1) HSP 1 Score: 694.5 bits (1791), Expect = 3.5e-196 Identity = 386/534 (72.28%), Postives = 395/534 (73.97%), Query Frame = 0
BLAST of Cla97C09G168820 vs. TAIR 10
Match: AT3G62910.1 (Peptide chain release factor 1 ) HSP 1 Score: 552.4 bits (1422), Expect = 4.2e-157 Identity = 307/492 (62.40%), Postives = 348/492 (70.73%), Query Frame = 0
BLAST of Cla97C09G168820 vs. TAIR 10
Match: AT2G47020.1 (Peptide chain release factor 1 ) HSP 1 Score: 219.2 bits (557), Expect = 8.3e-57 Identity = 120/341 (35.19%), Postives = 195/341 (57.18%), Query Frame = 0
BLAST of Cla97C09G168820 vs. TAIR 10
Match: AT2G47020.2 (Peptide chain release factor 1 ) HSP 1 Score: 192.2 bits (487), Expect = 1.1e-48 Identity = 95/236 (40.25%), Postives = 153/236 (64.83%), Query Frame = 0
BLAST of Cla97C09G168820 vs. TAIR 10
Match: AT5G36170.1 (high chlorophyll fluorescent 109 ) HSP 1 Score: 145.6 bits (366), Expect = 1.2e-34 Identity = 88/263 (33.46%), Postives = 143/263 (54.37%), Query Frame = 0
BLAST of Cla97C09G168820 vs. TAIR 10
Match: AT5G36170.2 (high chlorophyll fluorescent 109 ) HSP 1 Score: 145.6 bits (366), Expect = 1.2e-34 Identity = 88/263 (33.46%), Postives = 143/263 (54.37%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (97103) v2.5
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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