CmaCh11G006120 (gene) Cucurbita maxima (Rimu) v1.1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.AAGAAAAAAAACAAGATTTATATAGTCAAAGTGTGGGTCCTTGAAATATTTTTAATTTGGGCAGATAAACCCGCCGTGGGGAGGAAGTTCCCTCTAAATCCAGCTCTTGACGAGGGGCGATACGACAGAGAGTATACTGGGAGAGTTGCAAGCCATGGCGCAGAGCCTAATCCCGAGGGCGCAATCGGGAACAAACCACTCGTTCTTCCTCTTATCTTCCAAATCTAAATTTTCATCGCCAAGATTCCAATTCCCCTTCATGCTACCACGTCTTCGTCTTCTTCCTCTGTCTCGCTGTTTCTGCAGGTATTCTTCTTTGCAAGAACCAATCGACATGTGCAAGTACAGGGAAGCTTTCTCCAAGCGCATGGATATGGCTGGACTCAAACCGCACCACCGTATAGGTCAGGTTTTTCTTCGAGATTTACGCAGGAAGGAAGAGTTGTTTGTAGCTTATTTCTAGCATTTTGTTTGACGAACTGGTGTGGTTATTTCATTTTCCCCTCATGCATTTTGTTTTACTTAAAGTTGAAACAGCACTAGGTTTTCTTTGAAAGTAACCAAGAATTGGAGTGGAAAATAATAGAACTGGCTTCCAATTTTAAACTGAAAACCCGAACTTCCGGCATTAGCGTTCATTATTTGATTCAATTTCAGCACTGGGAGTAAGTGGAGGGCCCGATAGCATGGCTCTTTGTGTTCTTATGGCGGGTTGGAAAACGGATAGCCTGAATGGCACTGGTAAGAGCAGCACGTTTATCGGTGGGCTCCTGGCAATAGTCGTGGATCACGGGCTTCGCGCTGAGAGCAGAGACGAGGCAAATGTTGTGCGGAATCGAGTTACTCAAATGGGTACAACAACTCTGCACGTGTACTATTTGTCAGCTTTTCTTCATTATGATAAATCAGTTCAATCCAAGTTTCTGATATGTTCGGTTCGCATATTACTTGTGTAGGCATCAGATGCGAGATTGCGTCTTGTGATTGGTTAGATGGTAAACCAAAGCAGGGCCATTTGCAAGAAGCAGCTCGTGATATGAGGTAGTTTGCCGTTCTTCAAAATATGCTAAATTTCTGTTGTGAAGATTGTTGTTCTCGGCTTTGCTTTTAGTATGAGCTACTTATACTGATAGCTTGCTGTCATAATGATTCACTAATTTGTGATTTTAATGAATGAATTTGCTTTAATTTCAGATATCAAATGTTGCAGAAAGTTTGTGTCCAACACAAAATTGGAGTGATACTTGTTGCACATCATGCTGATGACCAGGTTAAATCCTCTTATCAAGCATGCTGCGTGCATTTTCAACTGAAGCTCTTGCCTTATTAGTTGACAAAAAGTGTCCCATTTCCCCCAATCTTAGAATTTGCATGTTTGCTATAGCTTGTACCGTAACTTTATATTCTTTAGGATTGTTATAAACTGAATTAGTTGCTATGCTGCAAGCTTGTTACAGATGCTAGAAATATAGTGATTGCTGAGACACAATGCAGGCTGAGTTATTCATTCTGAGGTTATCTCGCAGTAGTGGCGTGCTTGGACTTGCTGGCATGCCTTTCACTTCTCAGATTTTCTCCCCGCATCGATATTCCTACAGTGAAGTTTCAAAGAATTATGGCATTCTTCTCGTGAGACCACTAATGGAATTCTCTAAAGATGACTTGTACAAGGTTAAAAGTTCAAATCACATAAAAGTATCTATGAAGAGCATACTTACATTCATTTGGCTAAGACTATTCATGTTAACATTACTCCACACTTTGCAGATATGTCAAGGTGCTAATCAAGATTGGGTTGAAGATCCAACAAATCGAAGTTCCTTGTTTGCTCGAAATAGAATTCGGATGTCATTAGGAGATATGTCATCATGTGAGTAGCTTGAGAGCTAATATCTATGAGGTGCTTTTTGTTGTCACTATTCATATTATTATTCAAATAAGGAATGACTTCATTAACACTTGTACTAGAAGGAAAGATAAAATATTCTCCTAAGCGAGAGAAAAAGGAGTTTTAAAAAAGAAGATTTAGGTTAACTCCATCTAGAGGTAAAAAAACATCACTATATTTTTGTTTTTCATTTTTCAACCTATCTAGAAACGGGCATAATTTCTATCCTAGACAATGCCCGAATAACAGTGTCTGCATAATGAGTCCATAAAGACCTTTGTTTTCACAGAAACCATGGCCCATTAAAAGTCTTGAATATTTAAAGGAGTTTACAAACTGAGATAAACAGCTGAGAGAAAAACCACTGATTTCGTTGGTGCCTTGGCGGGTTTGCTAAGGTTATAATATAATAGTCAAGGATTGTTTTGTTTCCTATAAATGGTTCCTCAATGATTACTTATGAGATTCATGATTTCATCTCAGCATTTTTTTGAGTTTCAGGTACTCTCAAGTCTGAGCTACATGCCATTATTTCCGCCTGTAGGAAAACACGCTTATTTGTTGATCACGCTTGTTTAAGCCTGGCAAATTTGACTTTGACGATAACAGAGGTGGTTATGTTCTTTACGTTTGTGTGTATTCTGATCTTACAGTTCCACATTAATTTTTAGGAATTTCATTCTGTTTGTCCCTCCAAAAGTTCTCTCTCTGTACCCTCATTTGTTTAATATTCTTATGTTTTGATGGATGGGTTTTTGGATGATGCTTCTTGTAGCTGGGATATGCCATTATTAATTTGGAGATTCTCAATCAATTGAAAATTCAAGATATTTGCTTGTCGAAGTTCTTGTCCTTAGTTTTACAGGTAAAATGTTAAATATTTTATTGAGAACCTTCATTTTTATTTTGGAGCAATTGACCAATTAGCATTAATGTTGGTTCATCTAATATTGTCAGTTCATCTCTCAGAGGCACAGACCTGTTAGAGGTAACACTGCAAAGCTGGTTTTAGACTACATTCAAACAGTTCCTTGCAGGGTAATACAAATCAATATCTATTTCCAGATATTTGTCCTTGCTGTATTTGTACATGGCTAAATATATTTGAAATTGTTTATTATTAGTGAATTAAGCATAATTTACATGTCATCATGTGCATCTGTCAGAGGCTTGATGGAAAAGGAATGTCATAATGGTGGTTGATTTTACCTGCCGTATAAAAGAACCTCTTTTTCCCCCTTTTTACATGTTTGGTTTTACTAGTGTTCTTATTCCAATATGCTTGAAATATACCTCGTCATTGCATCTATATCACTTTTTCTTTTTTTATTTCATTTTTGTAATCAAATTTCATGATCTTGTAAATGAATGTTTTTTGGCATACCATCGGGCTTCAGCTTCGTCAAACTCTTGCCTTGTGTACTTTATATGGAGTTAAGAAATCTAAATGTTTCTTGGGACTGTGTGTTTAAGTGAACTATTTGTGTAAAATGATAACTTCATAGCAAGAGTACATCTACCAAAGTTTCAGCCTTGTTTGTCGAGGAGAACATTACATGAACTTCGTAGATTTTTAAAATTTAAAGAATTAAAATAGATATCAACCTGAAGGCCGGCCCAGTAATCAGTCTTTTTCCTAATGTACTTTTTGGCTACATCAAGTATTCTTATTTAATACCGTACTCATGAAGTTCAGTTAATTGAGTATTAAGCATGACCTGTGTAGTTCTATTGCACATTTATTTACAAATGGAAGGGGGTTGGCCTGTTATACATCATTATGCATCAACAACCTTTTTCTCCAATTTTCATTAATTTTCAAGGGGTACTTTGTTTAATTCTGTTTTTGTAATTAATCGATTTCCTCTATTCCTTGGATTCTTATTCATTATCAAAAACCCATGCAGACCTCACTGACAGCAGCTGGGTGCTACATTTGTCCAGCTCCTGGATCCAAGGGCACCAGGTGCATAGTTTCTTGTTCCGTGGATTGCCCCTTGCCTTCCGCAGTAGAAGTTTTCCATGTCCCTTCTTATAAAGAAGAGAGGCACGCTATTTCTGGCGGGTTAGAACAAATCATTAATGACGGGAAATCGTATTTAGAACACTTCATTCCTAAAGCTTCAGATGTGCATTTCCTGGATACAACACCTGAATCTGTTCTAGATGAAGCAAAAAGGTTAAACATTCTCGGTGAATCAACCTATAGGATCATTGTATCACTGCAGATGCAAGAAACCCAACTCTTCAAAGCAGAACCAAAAGTCACTCCTGGTTATGAAACGAAGCATGGTTCACACTCTGTAAGTACTTTATCCAGTGGACTGCTTAAGTGGGGGCAGATATGTAACTATATGAACAGGTTCTTTATCACATGGAAAGTAAAGGATGAAAATGAAGATAATTCTATTTCTGATGCGGCTAGTTGCAACACAATTTGCAAGTGCTGTGCGTTAGGCTGTGATATGGAATTAGAGGTGCGGCACATGACCGAATCCAATTGGCTTTATCTATCCAAGTTGTCTGAGGGCACGGTGGAGAATTTTCATGATCAAAGAGACACTTCAGCCAGTTCGAAGGAGCCGACCATGGAGAATGCGAGTAGATGTTTGAAGTATGCCAGCTCGTCGGCTAGAAAAGCATTAGTGCTGTTGAAATTGATTCCAGTTGCTGCAAGAAAAAGCCTTCCTGTACTGGTCAATCAAAAAGGGCTGCTTCTAAGTATTCCAGTACGTATACATTTTACAACTACATGATAAACTGCAAACTACATGTTCAAAGGGATTGGATCCCTCCAATTCAATAGAATTGGAAAAGATCCAGTCCTTGACTTGTGCCTTAGAACAATTTAGACTGCCTAATTCATATATCATCAATTGTTCTGAAAAGTAGAACTAGAGAGAGATTAGAGGAATTGCATTAATGTGAGCGATCATATTAAAGAAGAAACACCATTACCATGTTCCAAGTTCCTAACTTACACATTCTGAACTTTATAATTGGTAGTTTTTCAAACATATCTATCATTCTGATATCCTTTCCTTTGTCTGGTGGTTCTTTCAGAGCATCAAGTTCAGCCATTGTCCATGGTTGATGGCATCTGCGGAGTTCAAACCACGGGTACCATTCGGTGGAGGTCATAGTTCATTCATGTAAGTAGATGCCAGTTTCTGCACACAAGCTCGACCATTCCACGAACGAATGGCCAAAGCTTGCATAGCATTCGCATTGAAAAAGGGTAACTGTAACTCATGCGATGCTGTAACTAGCGGTTGAAAACTAAGGGCATATTTGATATTGTCTTTTTTTTTAACTGTCTTGAATTAAGTGTTCTAATTTTTCAGTTTGTTTTTTAAAATTGAAAATCAGGGTATGTAGTAATAATTATGCTTGCTAAACTAACATTTCAAGAATTATATGGTTAACAAATAAGAGCTCAGCAATAAAATTCAATGAAATTTCTCATCCATTTAAAATTGAAAATCCAAATAATTAAGAGCCATCAATAAAATAAGGGGAAAAAGAACCAAAATTGTATGTACCAAAAAGTTCAAGCACAACATAAAATATTAAAAAACATGATTTCATTCAATAATCGAAAAGGGATACTTGATATTAAAATAAAACTACTAAAATGGTCATCCCAATCCTCTTTTTTTTTTTCAAATTAAATAACAAATAAATAAATAAAAGATTCTTGTATATAAATGCTACCGTGGCCACCCTTACTTCCTATCATCCATTCGACTCTAATTTAATTTAATTTTTTGAGAGCCTCAAAAAAGCGTCCAGAAATCCGAAAATGATAAAATTTGTGGATAAGAATCTCTAATGGATTTCACAACACAAACTTTGGCCACTAGAAAACAACACTGCCTCGTCTACATGGAGCGGCTGCTCCTGGTGCTTGCCTTTCATGCAACTTCCATCCATGCAAATACACCACCGTCGTCCGCTCCTCCTTTTGCAGCTGCACATCTGAAGCGGTACATCCTCATCTTCTTTAGCTCCTTAATTGAACAATTCAATTATGACCCACTTCCCAGATCCTAGACGGGTGTGTTTTGAATTTACTTCCTGGTGTTTTTGGTCATCAATTTGATTGAACTGGATACAGATTCTCTGTTGGGGGTTTTGAATTTAACTTTTGGATACGTGTTTTTTTGAAGAATTTGGCTGGAGATGGGAGAATTTGAACTGAATTGGATTTTGATTTTAATTCATTTGGATATAAACAAATCCCATTTGGGATTCGGTTGCTTTGCACTTGGTTCTTGATTTTCTTTGGTGTTTTATCTGTAGATTTCATATTGGACGTGCTTCTTCTCCAGTCATCTTCACATATCCAGAGGCAGTGAAAGACAATGTTGTAATATGTTGGGATTTGGTGGGTATTGATTTTCTTTGA AAGAAAAAAAACAAGATTTATATAGTCAAAGTGTGGGTCCTTGAAATATTTTTAATTTGGGCAGATAAACCCGCCGTGGGGAGGAAGTTCCCTCTAAATCCAGCTCTTGACGAGGGGCGATACGACAGAGAGTATACTGGGAGAGTTGCAAGCCATGGCGCAGAGCCTAATCCCGAGGGCGCAATCGGGAACAAACCACTCGTTCTTCCTCTTATCTTCCAAATCTAAATTTTCATCGCCAAGATTCCAATTCCCCTTCATGCTACCACGTCTTCGTCTTCTTCCTCTGTCTCGCTGTTTCTGCAGGTATTCTTCTTTGCAAGAACCAATCGACATGTGCAAGTACAGGGAAGCTTTCTCCAAGCGCATGGATATGGCTGGACTCAAACCGCACCACCGTATAGCACTGGGAGTAAGTGGAGGGCCCGATAGCATGGCTCTTTGTGTTCTTATGGCGGGTTGGAAAACGGATAGCCTGAATGGCACTGGTAAGAGCAGCACGTTTATCGGTGGGCTCCTGGCAATAGTCGTGGATCACGGGCTTCGCGCTGAGAGCAGAGACGAGGCAAATGTTGTGCGGAATCGAGTTACTCAAATGGGCATCAGATGCGAGATTGCGTCTTGTGATTGGTTAGATGGTAAACCAAAGCAGGGCCATTTGCAAGAAGCAGCTCGTGATATGAGATATCAAATGTTGCAGAAAGTTTGTGTCCAACACAAAATTGGAGTGATACTTGTTGCACATCATGCTGATGACCAGGCTGAGTTATTCATTCTGAGGTTATCTCGCAGTAGTGGCGTGCTTGGACTTGCTGGCATGCCTTTCACTTCTCAGATTTTCTCCCCGCATCGATATTCCTACAGTGAAGTTTCAAAGAATTATGGCATTCTTCTCGTGAGACCACTAATGGAATTCTCTAAAGATGACTTGTACAAGATATGTCAAGGTGCTAATCAAGATTGGGTTGAAGATCCAACAAATCGAAGTTCCTTGTTTGCTCGAAATAGAATTCGGATGTCATTAGGAGATATGTCATCATGTACTCTCAAGTCTGAGCTACATGCCATTATTTCCGCCTGTAGGAAAACACGCTTATTTGTTGATCACGCTTGTTTAAGCCTGGCAAATTTGACTTTGACGATAACAGAGCTGGGATATGCCATTATTAATTTGGAGATTCTCAATCAATTGAAAATTCAAGATATTTGCTTGTCGAAGTTCTTGTCCTTAGTTTTACAGTTCATCTCTCAGAGGCACAGACCTGTTAGAGGTAACACTGCAAAGCTGGTTTTAGACTACATTCAAACAGTTCCTTGCAGGACCTCACTGACAGCAGCTGGGTGCTACATTTGTCCAGCTCCTGGATCCAAGGGCACCAGGTGCATAGTTTCTTGTTCCGTGGATTGCCCCTTGCCTTCCGCAGTAGAAGTTTTCCATGTCCCTTCTTATAAAGAAGAGAGGCACGCTATTTCTGGCGGGTTAGAACAAATCATTAATGACGGGAAATCGTATTTAGAACACTTCATTCCTAAAGCTTCAGATGTGCATTTCCTGGATACAACACCTGAATCTGTTCTAGATGAAGCAAAAAGGTTAAACATTCTCGGTGAATCAACCTATAGGATCATTGTATCACTGCAGATGCAAGAAACCCAACTCTTCAAAGCAGAACCAAAAGTCACTCCTGGTTATGAAACGAAGCATGGTTCACACTCTGTAAGTACTTTATCCAGTGGACTGCTTAAGTGGGGGCAGATATGTAACTATATGAACAGGTTCTTTATCACATGGAAAGTAAAGGATGAAAATGAAGATAATTCTATTTCTGATGCGGCTAGTTGCAACACAATTTGCAAGTGCTGTGCGTTAGGCTGTGATATGGAATTAGAGGTGCGGCACATGACCGAATCCAATTGGCTTTATCTATCCAAGTTGTCTGAGGGCACGGTGGAGAATTTTCATGATCAAAGAGACACTTCAGCCAGTTCGAAGGAGCCGACCATGGAGAATGCGAGTAGATGTTTGAAGTATGCCAGCTCGTCGGCTAGAAAAGCATTAGTGCTGTTGAAATTGATTCCAGTTGCTGCAAGAAAAAGCCTTCCTGTACTGGTCAATCAAAAAGGGCTGCTTCTAAGTATTCCAAGCATCAAGTTCAGCCATTGTCCATGGTTGATGGCATCTGCGGAGTTCAAACCACGGGTACCATTCGGTGGAGGTCATAGTTCATTCATAAAACAACACTGCCTCGTCTACATGGAGCGGCTGCTCCTGGTGCTTGCCTTTCATGCAACTTCCATCCATGCAAATACACCACCGTCGTCCGCTCCTCCTTTTGCAGCTGCACATCTGAAGCGATTTCATATTGGACGTGCTTCTTCTCCAGTCATCTTCACATATCCAGAGGCAGTGAAAGACAATGTTGTAATATGTTGGGATTTGGTGGGTATTGATTTTCTTTGA ATGGCGCAGAGCCTAATCCCGAGGGCGCAATCGGGAACAAACCACTCGTTCTTCCTCTTATCTTCCAAATCTAAATTTTCATCGCCAAGATTCCAATTCCCCTTCATGCTACCACGTCTTCGTCTTCTTCCTCTGTCTCGCTGTTTCTGCAGGTATTCTTCTTTGCAAGAACCAATCGACATGTGCAAGTACAGGGAAGCTTTCTCCAAGCGCATGGATATGGCTGGACTCAAACCGCACCACCGTATAGCACTGGGAGTAAGTGGAGGGCCCGATAGCATGGCTCTTTGTGTTCTTATGGCGGGTTGGAAAACGGATAGCCTGAATGGCACTGGTAAGAGCAGCACGTTTATCGGTGGGCTCCTGGCAATAGTCGTGGATCACGGGCTTCGCGCTGAGAGCAGAGACGAGGCAAATGTTGTGCGGAATCGAGTTACTCAAATGGGCATCAGATGCGAGATTGCGTCTTGTGATTGGTTAGATGGTAAACCAAAGCAGGGCCATTTGCAAGAAGCAGCTCGTGATATGAGATATCAAATGTTGCAGAAAGTTTGTGTCCAACACAAAATTGGAGTGATACTTGTTGCACATCATGCTGATGACCAGGCTGAGTTATTCATTCTGAGGTTATCTCGCAGTAGTGGCGTGCTTGGACTTGCTGGCATGCCTTTCACTTCTCAGATTTTCTCCCCGCATCGATATTCCTACAGTGAAGTTTCAAAGAATTATGGCATTCTTCTCGTGAGACCACTAATGGAATTCTCTAAAGATGACTTGTACAAGATATGTCAAGGTGCTAATCAAGATTGGGTTGAAGATCCAACAAATCGAAGTTCCTTGTTTGCTCGAAATAGAATTCGGATGTCATTAGGAGATATGTCATCATGTACTCTCAAGTCTGAGCTACATGCCATTATTTCCGCCTGTAGGAAAACACGCTTATTTGTTGATCACGCTTGTTTAAGCCTGGCAAATTTGACTTTGACGATAACAGAGCTGGGATATGCCATTATTAATTTGGAGATTCTCAATCAATTGAAAATTCAAGATATTTGCTTGTCGAAGTTCTTGTCCTTAGTTTTACAGTTCATCTCTCAGAGGCACAGACCTGTTAGAGGTAACACTGCAAAGCTGGTTTTAGACTACATTCAAACAGTTCCTTGCAGGACCTCACTGACAGCAGCTGGGTGCTACATTTGTCCAGCTCCTGGATCCAAGGGCACCAGGTGCATAGTTTCTTGTTCCGTGGATTGCCCCTTGCCTTCCGCAGTAGAAGTTTTCCATGTCCCTTCTTATAAAGAAGAGAGGCACGCTATTTCTGGCGGGTTAGAACAAATCATTAATGACGGGAAATCGTATTTAGAACACTTCATTCCTAAAGCTTCAGATGTGCATTTCCTGGATACAACACCTGAATCTGTTCTAGATGAAGCAAAAAGGTTAAACATTCTCGGTGAATCAACCTATAGGATCATTGTATCACTGCAGATGCAAGAAACCCAACTCTTCAAAGCAGAACCAAAAGTCACTCCTGGTTATGAAACGAAGCATGGTTCACACTCTGTAAGTACTTTATCCAGTGGACTGCTTAAGTGGGGGCAGATATGTAACTATATGAACAGGTTCTTTATCACATGGAAAGTAAAGGATGAAAATGAAGATAATTCTATTTCTGATGCGGCTAGTTGCAACACAATTTGCAAGTGCTGTGCGTTAGGCTGTGATATGGAATTAGAGGTGCGGCACATGACCGAATCCAATTGGCTTTATCTATCCAAGTTGTCTGAGGGCACGGTGGAGAATTTTCATGATCAAAGAGACACTTCAGCCAGTTCGAAGGAGCCGACCATGGAGAATGCGAGTAGATGTTTGAAGTATGCCAGCTCGTCGGCTAGAAAAGCATTAGTGCTGTTGAAATTGATTCCAGTTGCTGCAAGAAAAAGCCTTCCTGTACTGGTCAATCAAAAAGGGCTGCTTCTAAGTATTCCAAGCATCAAGTTCAGCCATTGTCCATGGTTGATGGCATCTGCGGAGTTCAAACCACGGGTACCATTCGGTGGAGGTCATAGTTCATTCATAAAACAACACTGCCTCGTCTACATGGAGCGGCTGCTCCTGGTGCTTGCCTTTCATGCAACTTCCATCCATGCAAATACACCACCGTCGTCCGCTCCTCCTTTTGCAGCTGCACATCTGAAGCGATTTCATATTGGACGTGCTTCTTCTCCAGTCATCTTCACATATCCAGAGGCAGTGAAAGACAATGTTGTAATATGTTGGGATTTGGTGGGTATTGATTTTCTTTGA MAQSLIPRAQSGTNHSFFLLSSKSKFSSPRFQFPFMLPRLRLLPLSRCFCRYSSLQEPIDMCKYREAFSKRMDMAGLKPHHRIALGVSGGPDSMALCVLMAGWKTDSLNGTGKSSTFIGGLLAIVVDHGLRAESRDEANVVRNRVTQMGIRCEIASCDWLDGKPKQGHLQEAARDMRYQMLQKVCVQHKIGVILVAHHADDQAELFILRLSRSSGVLGLAGMPFTSQIFSPHRYSYSEVSKNYGILLVRPLMEFSKDDLYKICQGANQDWVEDPTNRSSLFARNRIRMSLGDMSSCTLKSELHAIISACRKTRLFVDHACLSLANLTLTITELGYAIINLEILNQLKIQDICLSKFLSLVLQFISQRHRPVRGNTAKLVLDYIQTVPCRTSLTAAGCYICPAPGSKGTRCIVSCSVDCPLPSAVEVFHVPSYKEERHAISGGLEQIINDGKSYLEHFIPKASDVHFLDTTPESVLDEAKRLNILGESTYRIIVSLQMQETQLFKAEPKVTPGYETKHGSHSVSTLSSGLLKWGQICNYMNRFFITWKVKDENEDNSISDAASCNTICKCCALGCDMELEVRHMTESNWLYLSKLSEGTVENFHDQRDTSASSKEPTMENASRCLKYASSSARKALVLLKLIPVAARKSLPVLVNQKGLLLSIPSIKFSHCPWLMASAEFKPRVPFGGGHSSFIKQHCLVYMERLLLVLAFHATSIHANTPPSSAPPFAAAHLKRFHIGRASSPVIFTYPEAVKDNVVICWDLVGIDFL Homology
BLAST of CmaCh11G006120 vs. ExPASy Swiss-Prot
Match: A5ERG8 (tRNA(Ile)-lysidine synthase OS=Bradyrhizobium sp. (strain BTAi1 / ATCC BAA-1182) OX=288000 GN=tilS PE=3 SV=1) HSP 1 Score: 128.6 bits (322), Expect = 2.9e-28 Identity = 81/205 (39.51%), Postives = 106/205 (51.71%), Query Frame = 0
BLAST of CmaCh11G006120 vs. ExPASy Swiss-Prot
Match: B3CLY6 (tRNA(Ile)-lysidine synthase OS=Wolbachia pipientis subsp. Culex pipiens (strain wPip) OX=570417 GN=tilS PE=3 SV=1) HSP 1 Score: 124.0 bits (310), Expect = 7.3e-27 Identity = 96/328 (29.27%), Postives = 162/328 (49.39%), Query Frame = 0
BLAST of CmaCh11G006120 vs. ExPASy Swiss-Prot
Match: Q9XBG6 (tRNA(Ile)-lysidine synthase OS=Bradyrhizobium diazoefficiens (strain JCM 10833 / BCRC 13528 / IAM 13628 / NBRC 14792 / USDA 110) OX=224911 GN=tilS PE=3 SV=1) HSP 1 Score: 123.2 bits (308), Expect = 1.2e-26 Identity = 78/221 (35.29%), Postives = 112/221 (50.68%), Query Frame = 0
BLAST of CmaCh11G006120 vs. ExPASy Swiss-Prot
Match: C0R4S1 (tRNA(Ile)-lysidine synthase OS=Wolbachia sp. subsp. Drosophila simulans (strain wRi) OX=66084 GN=tilS PE=3 SV=1) HSP 1 Score: 123.2 bits (308), Expect = 1.2e-26 Identity = 97/328 (29.57%), Postives = 161/328 (49.09%), Query Frame = 0
BLAST of CmaCh11G006120 vs. ExPASy Swiss-Prot
Match: Q73FR9 (tRNA(Ile)-lysidine synthase OS=Wolbachia pipientis wMel OX=163164 GN=tilS PE=3 SV=1) HSP 1 Score: 121.3 bits (303), Expect = 4.7e-26 Identity = 96/328 (29.27%), Postives = 161/328 (49.09%), Query Frame = 0
BLAST of CmaCh11G006120 vs. TAIR 10
Match: AT3G24560.2 (Adenine nucleotide alpha hydrolases-like superfamily protein ) HSP 1 Score: 682.6 bits (1760), Expect = 3.8e-196 Identity = 364/651 (55.91%), Postives = 455/651 (69.89%), Query Frame = 0
BLAST of CmaCh11G006120 vs. TAIR 10
Match: AT3G24560.1 (Adenine nucleotide alpha hydrolases-like superfamily protein ) HSP 1 Score: 459.1 bits (1180), Expect = 6.8e-129 Identity = 260/496 (52.42%), Postives = 326/496 (65.73%), Query Frame = 0
BLAST of CmaCh11G006120 vs. TAIR 10
Match: AT3G24560.3 (Adenine nucleotide alpha hydrolases-like superfamily protein ) HSP 1 Score: 398.3 bits (1022), Expect = 1.4e-110 Identity = 237/486 (48.77%), Postives = 299/486 (61.52%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
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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