CmUC09G179740 (gene) Watermelon (USVL531) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGTGTTAATTGTAATTATTCCCTCAAAATTTCAATCGTAAAAATTGAGACCTCGAACTTGTAGAAGTGTTAAAATTTGATCCTTAAATTTACAACAATTATGGAATTAGGATTTCCTAATGATAAAAATTGACCCCTCCAACTAATACAGGTGTTATAATTTATACAATAATATATATTTGAGACTCTAATTTTAACAGTTGTATGATTTTAAATTTGAGGGTATAGTTGTAATTACAATGGTAATTTTTATAATTTGTCATAATTTTCAAGTTTGGGAAAAAAATGATATATTCAATTTAAATTATTTTCCGCGTGTATATAAATATATATATATCTACAAAAACCTAATATATAAAGGCATCATCTTCTCCCCTGCGGAAACCTAGCTTTCCGATAGCAGCTGTTCGTCTGGGTAAGATTGCTTCACTTCCTCTCGAACTCCCGACGTCTGATCTTTATCCCTTCTATTTAGGGTTAGGGTTAGGGTTTACATACGTTTCCATTAGTTCGATTCGTAGAATGAGATTTCATACGTTTTTCACTTGGAAATTGGTTGTAGTTTTCTACACATTGATATCTGTGTTCGTTTTTTCCCCATCCTGAACAGGTCGGAGTAGCGATTAGGTAGTGGGCTCTGCAATGGCTCCAAAAGGTAAGCTATCAACTCATACATCTAACAGCTATCAACTCATACATCTAACAGCTATCGGTTATTCTTTTATGCACAAGACATTCAAATTATTTTCCATGCTATTTCATTTCTCTTGACTGCCGTTCGGTATTCATTCGGCATATTTATTAAACAGTCGCGATTTGGTTCTTGAGAATCAGTTGTTGAAAACAAACTGAGTTTAGAATTTCAGAGAAGATGTAATGAAAACAAAATTATAAGATCTGAATAATCTGTTTCGAACTTCCGTCGGCTACTAACTTCATGTAATATTACGAAAAGATTTGCTTGAATATATCAGGTACAAATAGCTTGTATGGGGTCAAAAGTAGAAAAATAGTGATTGGAAGGTTATTATTAGTGTGAATATCATTTTTATAAGCTGTGTTAAAAGGCTCATAGAATTTGTAGAAGATAGGCGTTTTACTCATAGGTAATTAATACTGTTAATGAATTAATACTTATTAATTCGGTTTGTGAAATGGATGTATGCCTGTGAAGTGGTGAAGTAAGTTTCATTTAATAAATTAGCATTATGCGATTGGATCTTGTCCTGGGTTGATCATGTCTTGACGTCTCAATTTTTAAGGTCCTCTTCATTATTTGATGCAACTTTGCCGAGGTTCAGCTCTGATATCTTTCCAATTATGAAGAACTACTGTTTATAAACGCTGTAACTCTCAAATAAAATACAACGGATGGATGGGAGAATTTGGCATAATCTATTTTGAACTTGGCATTACAATGATAATCAGTCTTCTATATGTGGTTCCATTGGGTGACGATTTTCTTTATTGTATGCATCGAAAACTGAATTCAAGAACACTTTCCCACACAAAGTACTTGGATAATGGATTTGTTTTAAGTGAATAAACTGATCAGGCTTGATACTTCTCTTCCCCTCAGCTGACAGCACCAAGAAGGCTGACCCTAAGGCCCAAGCCTTGAAAACTGCCAAGGCGGTAAAATCAGGGCCGACGTTTAAGAAGAAAGCCAAGAAAATCAGGACATCTGTCACATTTCACCGTCCAAAGACATTGAAGAAGGACAGAAATCCCAAGTACCCACGGATCAGTGTTACACCACGGAACAAGTTGGATCAGTATCAGATTCTTAAATACCCTTTGACTACTGAGTCTGCAATGAAGAAGATTGAGGACAATAATACTTTGGTTTTCATTGTGGACATTCGAGCTGATAAGAAGAAGATCAAGGATGCAGTGAAAAAGATGTATGACATCCAGACCAAGAAAGTCAACACATTGATCAGGTAATCTTGATCAAACTTTTAACCATTATCTTTGACTAAAATGTTCCAACATCTTGTGGATATTTCTTGTGTAATCCAGCTCTGAGTTTTAACATGTAAATTATTAGGCAGTCATATTTCATCAATCACATATTTCTAAGCCAACTTATCTATCAACTTAATCACTTCGATTATGATCATGAAATGTTTATTTATTTCACGGTTTTATGTGCATCTACGGCACCGTGATACACACCCTGACCACTTGCTTTTATACACAACAATTGCAGGCCTGATGGAACCAAGAAGGCATATGTGAGGCTGACTCCAGATTATGATGCTTTGGATGTTGCAAACAAGATTGGAATCATCTAAGATAATTAGCATTCGCATTTTGTTTGAGAAAGTTGATTATCTTTCTGCAATGACAATTTTGATTTATGGAATGACCCCTATTTTCTCCAGCAAATTAGTAAGACATTTTTTTTTTGAAGCTACTCTAGCGGATGTTGACTTGTGAATCGTAGAATTTGTTCTTGAATGTTTCGTAGTCTGCATTCTTTAGCTCAAACTACTTTCCTAGTCTGCATTCTTTAGCTTAAACTACTTCGCACGCACCTTTCCTTTTACAATACAATCTACAAACCTAGAATTTTAATCAACTTTTCTGGATTTCTATTCATAACAACAAATTTTAGTTCCTTTCTGAGATTTTGGTTTTCTTCCTTTAACCTTGAATGATATGTTCTTGAACCATTGTCAATAACAAAGAGTTGTATATTTTCTTAATTAAGAATACGACTTTGAAGTTTGTTGGTGTCATTGCATTCTTTTACATTGGCATCAAAAAATACAAGGGGTTTCGCTTGTCAATGAAAATAATGGAAGGACAAAAGGTTTAGCTCTAAACAACCTGGGAGAATCAAAATGGCGTTGGAATGAATAATGATAAATTGTGTTCACTGGGGAGAACACCATCAAACTTTTGAAATTGTGAAGGAATCAACAACTGTGCGCAATTTATCTTTCATTTTCTCCCACCTCCTCTCATTTGCTCCGGTTGTCAAAGTGTAGAATTTTCCTGCCATAGAAGAATGACGGATGTAATTGACACTAAAAGGGTATAAAAGAGCTTTGTTAGGAATCTAAGTAGATTTTACTTTGGTTTGACAGTAAAAATAAGACGAAAAAAGGAAAAACTCAAGAAGATCCCCAGCAACTGTAAAATAAGACTAAGGAAGTACCATACCATTGGCAACAGCAATTGTGCTAAGAGCATGGCGAGTGTAGTTTGGAGCTTGAGCTACGAACTCAAATGTGTAGTATGCTTTTCCATCAACGTCATGCTGTATCATTCAACAAACCAATGAGCGCATAGGGGAGGCAAAAACGTGCCCCTTAGGAGGGGGACAGGGTTAATAAATACGTTGTAATTTTGAAACAAAGCTAGAAAAATTGTACAGCCACATAAGCTTTGAGAAGTCAGACAAATTCGAACTCCTCAAAAAGCTTGTAGGGGGGCCATGTAAAAGACAGCCTTTAGTTAATCAAAAGTTATATGACATGTAACAAAGCCATAAACTCCGGACACTTGAGTACGTGGACAAACTTTTGAACGTTGAAACAAGTAGGTTATTGGCTGTTATGAATTTAGGACACTTGCTGTAACGACCCCAAACCCTTGAGGTAAATTCCCTAATCAATTAAATTAAGTTATTTTGCATAAAAAGGAAATTTTAATTATTCATATGCATTATTGTATTTACTTAAGTTAAATAGGAAAGTTCCAAAAATTGTATTTATGGTGATTAGAGAATTAAAGGTGGAATTAAGGAAAATGTTAGATTTTTGGTAAAGAATAATTTATTCTTATTCTATTTTAGGGCAAATAGAATAAAATAAATATTTTGGTGGAATAAAGGATATTATTTTACAAATTGGGAAAATTAGGGTTTAAGGAGGGAGAGGGATTACCTCGTTTTCCGTGCCGTCAAAAAGAAAAAGAAAAGAAAATAATTCTCTCTCTCCGCCGCATCTCTCGCTCTCCCCCTTCCTTCCTTTCGCCGCCGCCGCCTCTCCCAACCTACCGCTGCTCCGTCATCTCTCTCTCTCTCTCGCTCTCCATCAGTTTCCGGGAGTTCCCGGAGGTTTCACGCGTCGGGTGTCGCGGGTTTCGCCTTGAGTGTCGCTGTCGGCATTCAACTCTCGCTAGCTGTCTTGCTCTCCCGCTCTTTCTTCCCTCGCCTCACGGTCTCCCGCGCCCAATCGCACCGTCACTCTCGTGGTATCGCTCTCTCGCTAGCTCCCGCTCTCTCGCTCTCTCGCTCTCCCGCTCGACTCACGCTTTCCCCGCGCCCAGTGTCGCCGCAGCCTCGTGGTATCGCTCTCTCGCCGGTTTCGCTGTCTCGGCTCTCATGCTCTCGCTCAAGTCTCGCTTCTTGCTCGGGAATCATTCTCTCTCGGATTTTTGGCTCTCGGCAGCGGTTCCTTTCTTGTCCGGCCAGAACAGTACCTTTAAGTGAGTATCTCAAACTCGAATGGGTTAGTTGCTTATGTTTTGGATGGAGATTTGAGAATTTCGAACTTTATTTGGTATATCTCAATAGGTGTTCAGTAATTGTTTTAGTCCGTGGGATCGGGGGAAGCTACGAGTTGGATCGCGTTCGGGTAAGGACTCTCTCGGACAAATATTTTTAGGTTACTCATGATAGACTAGACTTGTAGACTAACTTAAATTGGGGAAATTTTATTCCCAGTTTATTCAGGAATTTTTACAAGAGGAGCCGTATAGTAATTTTATGGATCAATCACCAGGTAAGTGATCTTACTACCTGAACCGCCTTCGGGCCACACGTTTAGTTGCCATGAAGTAGGAAATTACCAAAGCTTTTATGATTTAGCATGCTTGTATGAGATCTAGAAATTATCAAAGTCCTTATGATATAGCATGCTTGTATGAGATTTCCATGCTTAAAAGTAGAAATTTCCAAGGCCTTTATAATATAGTATGCTTGTATAAGATTCCCATGTCATAAGTTGTATGTGCCTATTAATGTATGACCCTATGTCATGTTATGTGATGAACAGTATAGTATTTTAATGTATGAACCCATGGAATGGAATGAGCATGAATATGACTGTTTACGTTCTATTAGTAGAGTTACCTCCCCTATATTGGTTGGGTGTTCACAGGAGGTTGTGTACCTTCGGGTCCACAGGAGGTTGTGTTCCTTCGGGATCACTAGAGGATGTGTACCTTCGGGTTCACTAGAGGTTGTGCCCCTTCGGGTGCACTAGAGGTTGTGTTCCTTCGGGTTCACAGGAGGTTGTGTTCCTTCGGGTTCACCAGAGGTTGTGCTCTTTCGAGTACATTAGAGGTTTGTGTTCCTTCGGGGCTCTAGAGGTTTGTGGACATCCATAACCAACTATAGGGTGAGTGTAAACTTTTCCCAATGAAAGTATGTTAGATATGTATGCCTTATGTTGATGCACTTAAAGGACTTAGGTGCTTAGCCCGACTCCAGGTAGTGGGGTCACTTACTGAGTAAATTAATTACTCATCCTTTCATCTTATATGTTTTTCAGGTAAGGGAAAGAACGTGGTGGCGAATGACAAGAAGAATCCTTGATGGCATCACGGGACCCGTAGTAGCTTCTGCTTAGCATTTCTTGTTTTATCGAGTTTTGGCAAATGTTGGTTTTGAGACTTATCTTTTAATTGATATGTGGATTTCCTTTTCATGAATTTTTATTGATTTTATTAGGGGTACCCCGAACCAAAACTTATTTTTACATGTTTATGGATGTTTTTCTTGAAATTATATTAATAGAAACTTCCCAGAAAAGTACTGTTTCTTCTCTTTACTATGTTGCATAATGTTTCTCGAATTTTACATGCATTGAGTAATGGTCCGGTTAGATTATGTAAGTTGGGTCGTTACACTTGCTCACAAGGAGAGCTATCATGAAGCAACTGTGCTAAAATGTAATTTAGAGCATATCTCCCACAGATGGCCAAGAACAAGAAGTGACAAGTGGTGATATGAACTGCCAAGAGCTTAAAGTTATTATTTATGTTTTCGTTAATAATTTAGATGTAGTTTTATTGTTTCTAAAACATATTAAATAAGGGTTTTATTGTCATTTTACTAAGATCTATGACGTGGCACATTAAGATTTTGGGAGGCTATCTCAAATCTGACCATTAGGTTAAATGGAACAATTTTGAATTTTCAAATTTTCAAATTTTCTAAATGCAATTCTAGTAGATGATAGAGCCTTATCACTACTTTGCAATTCTTGAGCGAGGGTTACGTGCCGAGAAAATCTAGATAAGTTAGATCAATTTGCTTGTAGAGTGTTCAAACTTGGAGTTAGGAACTAGTTTTCCATTTATCTCTTGGCCCTTGATCAATAGGTAATCCAAATCTAATCCTTCTCTTTGGGTTGATATTAGGGGTTGAACAAAAAGGTTCCTAATTTTCAAATTGCTAGCGTTTTCTTATCAAGTGGCCTCATTGGAGTGGGTTCTATCATCAATATTTGTAGTCATGAGTTTGAATAAAGGGATGAGATGTCGGATCTCACTCAACAGATTGTACCAATGTATTGGTTTTACTTTTGGGGGTGTATTTTCCATTTCAGATGATTGATTTACTATGTTGCTTAGGACAATTGCGTAAAAACATCCCAAAGAACCGTCCACCGTAGGGTTGAGTGATGCATGTGCATCAGATTTAAAGGGTAAGTTCATTTGCAGCTACAATTTATTTCACTCCATAGCAAATAGTATGATAAAATCTCAGCAAAGAGTAGAGATAGTCAAACCTCTGATGCTTCGATTAACTTCGTTCTTTGATTAGAAGGAGCTAGAACCTTCTTTATCAAAGTTTCTGCAACCTGAACCATAAGATACTGAAGTTACCTAAAAATTAAATTACTAACTTCATGCATTATTTTAACAATTTAATGCTCTAACCTGTTGAGGGGACCCAAAATCTCGAACATCTTCTTTGTTGGTTGGAACCATATTGACACTGACACTTTCTAATGGTTCAATTACATCTTTGAATACCTTATCTTGACCATCAATGACTACTTCCTGCTCACTCCTCGATTGGAAAAAGACTTTAAAACATGCATCTTGTGCCAAGTACATAAATTTAAAGTGGATTGTGTGTGCAAAAGTAAGGGAGTGGAGAAAACAAAAAACTGAACAATTGATGTACCTGCCACCCAAATGGATAGACGAATGAGTAACCGTCTTTCTTGTCTGAAACTGATAGAAACCCTTTCTTTGTTTCTGCAGCAACTGAGTAATATCAAGCGGGTACCCTTAGGATATCATCATCCTTCATTTTGGAAGAAAGAAGTACAGTGGATGCTAGAGGTGCTAATTCAGAATTGAACTTCTTGAAGAGAAGCAACGAAAATGAAAGAGAGACTAAGTTATGAGTATATAAGAAGAGTGATAAATCTTACATGACATGGAACTCATGTCTGCAAGAGAAATCCAAGTAATAAAGGCACTGCCAGCTAACAGTTGTCGTCTCCCGAGTCTATCTGCCAAAAAAACAGAGCAACTATTGAACAATGAAATTCCTTGAAATTGTTTCTAAAGCTGATAAGAATGAAGTGAGATCATCCACAGTATAAAAAATGTGTGAATTGGGATAAAATTATACAAGTCATAAAATCCCAAAACTGTACAATGTACATGGTAAGGCAAAGAAGACAATCTATAATGCCATTTAAGTTAAGTAATGAAAAAATGGTACATGATAAGCTAGCAAAGAAAACAATCCATAATAGCCTGTCGTGACTGAGGCTTCAGCCCGAGGTAATTTTCCTTGAAGCAGGATTGCTTTTCCACACACATAACAATCTTCATCCTTCAAAAATGGGAATATGGGATTAGAATCTCTAGCATGACTTCCATCATCCGCTTCCACATTCTTGGAGTCGAGGTGGTTGTGCTTTGTCACTACCCAAGTAACTTATTCGTACATTAAGTTTAAACTGAAGTAATGTCTCTTCTAAAACAATAATTCAAACTAGTTTGAGATTACTGTGCTAATTCGAGTCCACATAATGAGTTTCTTGGTCATAAAAATGAGGAAATTGATACTCAACCGCTTGGTTCACACAAAAAAATTAATATAGTGCATTAATTCTTTTAAGTAATAACGTATCGAGGATAATAGAACTCAGTAATACCATGGTACCTACAAACTGGGGCAAAACTAAGGGGGTGTTTGAGCCCCTAACTTCAGGTGAGTGGAGTGGACTATTATAGATCACTCCATGTTTGGGGTTCCAATTATAATAGTTGGTCTTTCCAACTATTATAACCTACAATGATTACATTATTACTGTTTCAAATCATTCTTTGTTTCAGTGTTTACTATTTGTTACAGTGTTTATTATTTCCTACTCATCATCTCTTTCACTCTTTGTTACAATGTTTACCTATTTCCTACTCAGATTAAACTAGTATGTACCCCAAACACAAACTATTATAACCCACCAACTATAATAGCCACTAATTATAATAACCAATTCAACACTCCAAATACCCCCAAGTCTTTAAAAATATTTGCATCGTACGTATCTCATTTCGTTTCAATCTTGATCCAATCTGTATTTACGACTTTGCTGTATCCTAGTACTTCAATGTATCGGCATGGGGTGGATGTGAATCCTCTTTTCTAACAGAGGATTAAATGTTATAAAACCTTCTAACCTCTCAATTTACTTGGGCCAAATCATCTCGATACTAAGACAGTCACTGAATAGCATGCACATTCAATTAACTCGCAAACTCAAGCTAAATGCCAGCATAATCAGTACTCTAGTTCAAGTGACACCTAATTTTCCATCTCAATTCGGTAAACTGACCTTCGGAACTATACGCATGACCATTAATTGAAGATCCGTGTGCTTGTTCAGCCCTGACAAGAAATGAAACCCCCGCTCTGCAGCAAACAAATCTTCCATGGAGTTTCTGCGAGCGGAAAAAGAAAAAGAAGTGAATGGTGGCATCATCTTCTCCCCTGCGGAAACCTAGCTTTCCGATAGCAGCTGTTCGTCTGGGTAAGATTGCTTCACTTCCTCTCGAACTCCCGACGTCTGATCTTTATCCCTTCTATTTAGGGTTAGGGTTAGGGTTTACATACGTTTCCATTAGTTCGATTCGCTTGATACTTCTCTTCCCCTCAGCTGACAGCACCAAGAAGGCTGACCCTAAGGCCCAAGCCTTGAAAACTGCCAAGGCGGTAAAATCAGGGCCGACGTTTAAGAAGAAAGCCAAGAAAATCAGGACATCTGTCACATTTCACCGTCCAAAGACATTGAAGAAGGACAGAAATCCCAAGTACCCACGGATCAGTGTTACACCACGGAACAAGTTGGATCAGTATCAGATTCTTAAATACCCTTTGACTACTGAGTCTGCAATGAAGAAGATTGAGGACAATAATACTTTGGTTTTCATTGTGGACATTCGAGCTGATAAGAAGAAGATCAAGGATGCAGTGAAAAAGATGTATGACATCCAGACCAAGAAAGTCAACACATTGATCAGGCAGTCATATTTCATCAATCACATATTTCTAAGCCAACTTATCTATCAACTTAATCACTTCGATTATGATCATGAAATGTTTATTTATTTCACGCACCGTGATACACACCCTGACCACTTGCTTTTATACACAACAATTGCAGGCCTGATGGAACCAAGAAGGCATATTAATAACGTATCGAGGATAATAGAACTCAGTAATACCATGGTACCTACAAACTGGGGCAAAACTAAGGGGGTGTTTGAGCCCCTAACTTCAGCCCTGACAAGAAATGAAACCCCCGCTCTGCAGCAAACAAATCTTCCATGGAGTTTCTGCGAGCGGAAAAAGAAAAAGAAGTGA ATGGTGGCATCATCTTCTCCCCTGCGGAAACCTAGCTTTCCGATAGCAGCTGTTCGTCTGGGTAAGATTGCTTCACTTCCTCTCGAACTCCCGACGTCTGATCTTTATCCCTTCTATTTAGGGTTAGGGTTAGGGTTTACATACGTTTCCATTAGTTCGATTCGCTTGATACTTCTCTTCCCCTCAGCTGACAGCACCAAGAAGGCTGACCCTAAGGCCCAAGCCTTGAAAACTGCCAAGGCGGTAAAATCAGGGCCGACGTTTAAGAAGAAAGCCAAGAAAATCAGGACATCTGTCACATTTCACCGTCCAAAGACATTGAAGAAGGACAGAAATCCCAAGTACCCACGGATCAGTGTTACACCACGGAACAAGTTGGATCAGTATCAGATTCTTAAATACCCTTTGACTACTGAGTCTGCAATGAAGAAGATTGAGGACAATAATACTTTGGTTTTCATTGTGGACATTCGAGCTGATAAGAAGAAGATCAAGGATGCAGTGAAAAAGATGTATGACATCCAGACCAAGAAAGTCAACACATTGATCAGGCAGTCATATTTCATCAATCACATATTTCTAAGCCAACTTATCTATCAACTTAATCACTTCGATTATGATCATGAAATGTTTATTTATTTCACGCACCGTGATACACACCCTGACCACTTGCTTTTATACACAACAATTGCAGGCCTGATGGAACCAAGAAGGCATATTAATAACGTATCGAGGATAATAGAACTCAGTAATACCATGGTACCTACAAACTGGGGCAAAACTAAGGGGGTGTTTGAGCCCCTAACTTCAGCCCTGACAAGAAATGAAACCCCCGCTCTGCAGCAAACAAATCTTCCATGGAGTTTCTGCGAGCGGAAAAAGAAAAAGAAGTGA MVASSSPLRKPSFPIAAVRLGKIASLPLELPTSDLYPFYLGLGLGFTYVSISSIRLILLFPSADSTKKADPKAQALKTAKAVKSGPTFKKKAKKIRTSVTFHRPKTLKKDRNPKYPRISVTPRNKLDQYQILKYPLTTESAMKKIEDNNTLVFIVDIRADKKKIKDAVKKMYDIQTKKVNTLIRQSYFINHIFLSQLIYQLNHFDYDHEMFIYFTHRDTHPDHLLLYTTIAGLMEPRRHINNVSRIIELSNTMVPTNWGKTKGVFEPLTSALTRNETPALQQTNLPWSFCERKKKKK Homology
BLAST of CmUC09G179740 vs. NCBI nr
Match: XP_008463516.1 (PREDICTED: 60S ribosomal protein L23a [Cucumis melo] >TYK05769.1 60S ribosomal protein L23a [Cucumis melo var. makuwa]) HSP 1 Score: 230.7 bits (587), Expect = 1.6e-56 Identity = 122/124 (98.39%), Postives = 123/124 (99.19%), Query Frame = 0
BLAST of CmUC09G179740 vs. NCBI nr
Match: XP_004149813.1 (60S ribosomal protein L23a [Cucumis sativus] >KGN51263.1 hypothetical protein Csa_007796 [Cucumis sativus]) HSP 1 Score: 230.7 bits (587), Expect = 1.6e-56 Identity = 122/124 (98.39%), Postives = 122/124 (98.39%), Query Frame = 0
BLAST of CmUC09G179740 vs. NCBI nr
Match: XP_022154290.1 (60S ribosomal protein L23a [Momordica charantia] >XP_022154291.1 60S ribosomal protein L23a [Momordica charantia]) HSP 1 Score: 229.6 bits (584), Expect = 3.6e-56 Identity = 121/124 (97.58%), Postives = 122/124 (98.39%), Query Frame = 0
BLAST of CmUC09G179740 vs. NCBI nr
Match: XP_022995723.1 (60S ribosomal protein L23a [Cucurbita maxima]) HSP 1 Score: 229.2 bits (583), Expect = 4.7e-56 Identity = 121/124 (97.58%), Postives = 122/124 (98.39%), Query Frame = 0
BLAST of CmUC09G179740 vs. NCBI nr
Match: KAG7031627.1 (60S ribosomal protein L23a, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 228.4 bits (581), Expect = 8.1e-56 Identity = 121/124 (97.58%), Postives = 121/124 (97.58%), Query Frame = 0
BLAST of CmUC09G179740 vs. ExPASy Swiss-Prot
Match: Q9AT35 (60S ribosomal protein L23a OS=Daucus carota OX=4039 GN=RPL23A PE=2 SV=1) HSP 1 Score: 203.8 bits (517), Expect = 2.8e-51 Identity = 110/121 (90.91%), Postives = 113/121 (93.39%), Query Frame = 0
BLAST of CmUC09G179740 vs. ExPASy Swiss-Prot
Match: Q07761 (60S ribosomal protein L23a OS=Nicotiana tabacum OX=4097 GN=RPL23A PE=2 SV=1) HSP 1 Score: 200.3 bits (508), Expect = 3.1e-50 Identity = 107/122 (87.70%), Postives = 112/122 (91.80%), Query Frame = 0
BLAST of CmUC09G179740 vs. ExPASy Swiss-Prot
Match: Q8LD46 (60S ribosomal protein L23a-1 OS=Arabidopsis thaliana OX=3702 GN=RPL23AA PE=2 SV=2) HSP 1 Score: 199.5 bits (506), Expect = 5.3e-50 Identity = 107/121 (88.43%), Postives = 110/121 (90.91%), Query Frame = 0
BLAST of CmUC09G179740 vs. ExPASy Swiss-Prot
Match: O22644 (60S ribosomal protein L23A OS=Fritillaria agrestis OX=64177 GN=RPL23A PE=2 SV=1) HSP 1 Score: 197.2 bits (500), Expect = 2.6e-49 Identity = 110/125 (88.00%), Postives = 111/125 (88.80%), Query Frame = 0
BLAST of CmUC09G179740 vs. ExPASy Swiss-Prot
Match: Q9M3C3 (60S ribosomal protein L23a-2 OS=Arabidopsis thaliana OX=3702 GN=RPL23AB PE=2 SV=1) HSP 1 Score: 196.1 bits (497), Expect = 5.8e-49 Identity = 106/121 (87.60%), Postives = 108/121 (89.26%), Query Frame = 0
BLAST of CmUC09G179740 vs. ExPASy TrEMBL
Match: A0A5D3C5W3 (50S ribosomal protein L23, chloroplastic OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold98G002640 PE=3 SV=1) HSP 1 Score: 230.7 bits (587), Expect = 7.9e-57 Identity = 122/124 (98.39%), Postives = 123/124 (99.19%), Query Frame = 0
BLAST of CmUC09G179740 vs. ExPASy TrEMBL
Match: A0A0A0KNR3 (50S ribosomal protein L23, chloroplastic OS=Cucumis sativus OX=3659 GN=Csa_5G505240 PE=3 SV=1) HSP 1 Score: 230.7 bits (587), Expect = 7.9e-57 Identity = 122/124 (98.39%), Postives = 122/124 (98.39%), Query Frame = 0
BLAST of CmUC09G179740 vs. ExPASy TrEMBL
Match: A0A1S3CJE6 (50S ribosomal protein L23, chloroplastic OS=Cucumis melo OX=3656 GN=LOC103501656 PE=3 SV=1) HSP 1 Score: 230.7 bits (587), Expect = 7.9e-57 Identity = 122/124 (98.39%), Postives = 123/124 (99.19%), Query Frame = 0
BLAST of CmUC09G179740 vs. ExPASy TrEMBL
Match: A0A6J1DJ76 (50S ribosomal protein L23, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111021582 PE=3 SV=1) HSP 1 Score: 229.6 bits (584), Expect = 1.8e-56 Identity = 121/124 (97.58%), Postives = 122/124 (98.39%), Query Frame = 0
BLAST of CmUC09G179740 vs. ExPASy TrEMBL
Match: A0A6J1K8U2 (50S ribosomal protein L23, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111491145 PE=3 SV=1) HSP 1 Score: 229.2 bits (583), Expect = 2.3e-56 Identity = 121/124 (97.58%), Postives = 122/124 (98.39%), Query Frame = 0
BLAST of CmUC09G179740 vs. TAIR 10
Match: AT2G39460.1 (ribosomal protein L23AA ) HSP 1 Score: 199.5 bits (506), Expect = 3.7e-51 Identity = 107/121 (88.43%), Postives = 110/121 (90.91%), Query Frame = 0
BLAST of CmUC09G179740 vs. TAIR 10
Match: AT2G39460.2 (ribosomal protein L23AA ) HSP 1 Score: 199.5 bits (506), Expect = 3.7e-51 Identity = 107/121 (88.43%), Postives = 110/121 (90.91%), Query Frame = 0
BLAST of CmUC09G179740 vs. TAIR 10
Match: AT3G55280.1 (ribosomal protein L23AB ) HSP 1 Score: 196.1 bits (497), Expect = 4.1e-50 Identity = 106/121 (87.60%), Postives = 108/121 (89.26%), Query Frame = 0
BLAST of CmUC09G179740 vs. TAIR 10
Match: AT3G55280.2 (ribosomal protein L23AB ) HSP 1 Score: 196.1 bits (497), Expect = 4.1e-50 Identity = 106/121 (87.60%), Postives = 108/121 (89.26%), Query Frame = 0
BLAST of CmUC09G179740 vs. TAIR 10
Match: AT3G55280.3 (ribosomal protein L23AB ) HSP 1 Score: 184.5 bits (467), Expect = 1.2e-46 Identity = 102/121 (84.30%), Postives = 104/121 (85.95%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (USVL531) 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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