CmaCh16G006010 (gene) Cucurbita maxima (Rimu) v1.1
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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.ATGGACACAGTAAGGAAAACTTAGATCTTTGTCATTGGGTTTACTAGCATAGTCTTTACTTTATCAGGGATTCTTAAAAGGCCAATAGGATCAGGTTTGACCTTGTTTATGGGTTCTGACGTTTTCACCTTTTAGCTCACTATTAGGAGTTTACACACTCAATTTTCATGTAAGTTCGGCTGAAAAAAAAACGGAGCTCTTGCCACCACCAATAGAATGTGTTTATATTTATTACATTTCTTTTGGGAGAACAATGTCTTAGTGTTTTCTAAATGGAAGTTGTTATTCGTTAGTTATAAAGTCGAGTGTCAAGTTGTGCAGGGTAGTCTATGCTCTTGGTGGGGGGAGATTCAAGGCAGCTCATAGGGTTTCAAACTTAAGAGAAGGATGATTTCTTCGAGGAAAGTTTACGAGATGGATATGAATGTATCTGGGAATTCGAGGGTCAGGAAATCAAAAGTGGATTTACATAGCTTCCCGGAGATGAGTAGGATTGAAAGGACGAGAGTTTCATCGAGAATTTTGAGGATTGAATTAGGCTTAGGAGATCGTTGGAGGTGGTGAATATTAGTGAGAGCTCTAGATGGAAGAAAAATTCCCATGTCCAATGGATTTAGGAGGATGATGCTAATAGAACCTAGGAGGAAGAGTAACCTAGTGAATGTGAGTACGACCTCTTTCACTTAGGAAGAGGATATGTCTCACATCCTCCAATGTTTGTATCTTCCTTCGTGCAACGTTGTTTGTAGGCATTAAGGGGGGGTTTTTTGTAAGGGGTTGTTTTTTTTTTTTTTTTTTGATAAGAAACAAACTTTTCATTATCAAGGGAAGAATACACAAGGAGGGGAGATGAGATATCCCCACACACCAAAGGCTTACATAAAAGATGCCCAACTGGTAACAACGAGATAAGCTATAATTACAAAATAATTTAGAAGTGCTAGACGAAGTAGAAGCAAAAAGAGTGAAAGGATCCCGAAAACCTCCCTGCTAGACTCATGGCTATTGAAAAGCCTCGAGTTTCTTTCAAACCAAAGCTGCCAAAGGAGGGCAAACACCCCTTTAGACCAAAGAATCTTGGCTTGCCCTTTAAAATGCATGCCAGCAATGAGCTGACATAGGGCCTCTGACGCTTTGCTAGGCCAACACCATTGAATACTGAAGACTTTGAGTTATACTTTGTGGCATTCACTTTCCTCCATATGGTCTCCTTCTCATCATGAAACACCAGCCCCATTTGGCAAGGGGAGCCCAATTCCTCATGGCAAGGTTACAATAGAAATAGGGAGGGAAGTTATTTCCCAGTTTATAAGATTTATCATTCCATCCACTTTGCCACCTTTATTACCCAGTCTAAGCTTTCCTTCTGCCAATAGGATATTGCGATCTATGAAGTAAAAACGACACAGTTTAAGTAATTTTTCATGACATGCAATAATTATCCTTTTGCTTTAGACTTTTCATATATCTTTTATTTTCCTTTTGAAAATTTGGGAATCATTGTGAGCTTGTTTTGATATATTTATGACAAAGACATGTTCATACACTTGGACACAACTATTAATTTATTTGGTTTCGTACATTCTTTATTGAACCGAACCATGAAAGGCTGCTTTCACTTACGCTTATATGCTGATGACATATATAAGTTTATGAGACGTGTTTATATAATTGAATATACTGTTCTAGTGCCATTTATGTTTAGTGTAGGCAGTGCCTATGTACTTGCTCCTTAGGAAGCATAAGTTATAGCTTCGAAGAAAGAAGCTTATCTGTCAATGGTTTCTTTGTTTAAACAGAATGAAATGAACTACTGAGTTTGAGGAAAAAAAATTGGTTTAAACTTGCAGAAGAAAGTAAAGATGCATCCATCCATTTATGAGGATAATATTGATAACCATCGCCTCTCTACAGAAAGGATAAGTTGCAGCAAAAGATTTAAAGCTTCGACCGAGTCCGTATTCGCCACGTGTTCTAATTCTTGTCCAACCGTTCGAAGTAATTGTATTAGTAGTAGTCTAACAACAGAAGTTGGGAAGGGACTCAAGAATCAAGCAGTCTTGAATGGTGATATACCATCTGAAATGGAAGACGATCATCCGAATGAAGATTCAGCTGAGGAGACGGTTCCCGTGGGTGCTTTATGTCAAGCAGATTTACCTGAATGGACTGGTAATAATTCCGATAGTGACTCTAAATGGCTAGGGACACGGTTGTGGCCTCTTCAACACAGAAATAGTAATTCCGTACGTGATAGACGCGCCATTGGCAGAGGGAGACCGGATTCATGTGGCTGCCAATTTCCAGGTTCGGTTGAATGTTTTAGATTTCACATAGCTGAAGCAAGGATGAGATTAAAGCTCGAGCTTGGCTCGACATTCTTTGCATGGAGATTTCATCAAATGGGGGAGGAAATATCTCTGCAATGGACAGCTGAGGAGGAAAAGAGATTTAAGGAGTTGGCTATGTCAAGTTTCAACAATCATAATCGGTGCTTTTGGGACTATTCCTTGAGATGGTTTCCAATGAAATCAAGGAAAAATCTGATAAGCTATTACTTCAATGTGTTTCTTTTACGGCTGAGAAGCTATCAGAATCGCGTAACTCCGAATAGCATCGATAGCGACGATGAAGATTTTGAGTTTGGTTGTGTTAGTGGTGGGTTTGGAGACAAGGCAATGGAAGTTTTAGGCTCAAAGTCTTTAGAATGTTCTATAAACAGACAGGTCACAGATGTGGAGTAGTCTAAAAGTGGAGCAGAATCTGAAGTATCCAAAAAAGAGGGAAAGGAACGCAATTTGACAAGAACTCGAGTTACGTTTTAGCTATACAACACCGATATCGGTACTTTATCGTACTAGGTATTATATTTTTTGGGGAGGATCTGTATGGTATCGGCTGGTGAGAAATATGAGGACCAAAGAGAGCCATTGCTACATTTGTTTGTTCTGAATTTGTGCTGTGTGGAACTCAATCTGATAGTTCTTGGTTTTGTATTTGGAGTTTGGTTTTAATCATTCCAAGGGGCTCTGATAAGAAAGCTTGAGAATAGCTTACCAGACACGTTTATATCAGTGATTCGTGGAAAATTTTGTCATATTTTTAAATAATTTGTCGAGGTAACGTTTGTATATAATGATTGAATCTTCGTTGTCGCCTATTATATTAAGGCCTAGAATTTTTTGTTTACTAATCTAACCGAATAAGAGAATGGTTGGTTGTGCACAAGGTTAACGATGAAGTCGACAACTATTCGGGAGATGGACACAAAGAAAGTAAAGATGCATCCATCCATTTATGAGGATAATATTGATAACCATCGCCTCTCTACAGAAAGGATAAGTTGCAGCAAAAGATTTAAAGCTTCGACCGAGTCCGTATTCGCCACGTGTTCTAATTCTTGTCCAACCGTTCGAAGTAATTGTATTAGTAGTAGTCTAACAACAGAAGTTGGGAAGGGACTCAAGAATCAAGCAGTCTTGAATGGTGATATACCATCTGAAATGGAAGACGATCATCCGAATGAAGATTCAGCTGAGGAGACGGTTCCCGTGGGTGCTTTATGTCAAGCAGATTTACCTGAATGGACTGGTAATAATTCCGATAGTGACTCTAAATGGCTAGGGACACGGTTGTGGCCTCTTCAACACAGAAATAGTAATTCCGTACGTGATAGACGCGCCATTGGCAGAGGGAGACCGGATTCATGTGGCTGCCAATTTCCAGGTTCGGTTGAATGTTTTAGATTTCACATAGCTGAAGCAAGGATGAGATTAAAGCTCGAGCTTGGCTCGACATTCTTTGCATGGAGATTTCATCAAATGGGGGAGGAAATATCTCTGCAATGGACAGCTGAGGAGGAAAAGAGATTTAAGGAGTTGGCTATGTCAAGTTTCAACAATCATAATCGGTGCTTTTGGGACTATTCCTTGAGATGGTTTCCAATGAAATCAAGGAAAAATCTGATAAGCTATTACTTCAATGTGTTTCTTTTACGGCTGAGAAGCTATCAGAATCGCGTAACTCCGAATAGCATCGATAGCGACGATGAAGATTTTGAGTTTGGTTGTGTTAGTGGTGGGTTTGGAGACAAGGCAATGGAAGTTTTAGGCTCAAAGTCTTTAGAATGTTCTATAAACAGACAGGTCACAGATGTGGAGTAGTCTAAAAGTGGAGCAGAATCTGAAGTATCCAAAAAAGAGGGAAAGGAACGCAATTTGACAAGAACTCGAGTTACGTTTTAGCTATACAACACCGATATCGGTACTTTATCGTACTAGGTATTATATTTTTTGGGGAGGATCTGTATGGTATCGGCTGGTGAGAAATATGAGGACCAAAGAGAGCCATTGCTACATTTGTTTGTTCTGAATTTGTGCTGTGTGGAACTCAATCTGATAGTTCTTGGTTTTGTATTTGGAGTTTGGTTTTAATCATTCCAAGGGGCTCTGATAAGAAAGCTTGAGAATAGCTTACCAGACACGTTTATATCAGTGATTCGTGGAAAATTTTGTCATATTTTTAAATAATTTGTCGAGGTAACGTTTGTATATAATGATTGAATCTTCGTTGTCGCCTATTATATTAAGGCCTAGAATTTTTTGTTTACTAATCTAACCGAATAAGAGAATGGTTGGTTGTGCACAAGGTTAACGATGAAGTCGACAACTATTCGGGAG ATGGACACAAAGAAAGTAAAGATGCATCCATCCATTTATGAGGATAATATTGATAACCATCGCCTCTCTACAGAAAGGATAAGTTGCAGCAAAAGATTTAAAGCTTCGACCGAGTCCGTATTCGCCACGTGTTCTAATTCTTGTCCAACCGTTCGAAGTAATTGTATTAGTAGTAGTCTAACAACAGAAGTTGGGAAGGGACTCAAGAATCAAGCAGTCTTGAATGGTGATATACCATCTGAAATGGAAGACGATCATCCGAATGAAGATTCAGCTGAGGAGACGGTTCCCGTGGGTGCTTTATGTCAAGCAGATTTACCTGAATGGACTGGTAATAATTCCGATAGTGACTCTAAATGGCTAGGGACACGGTTGTGGCCTCTTCAACACAGAAATAGTAATTCCGTACGTGATAGACGCGCCATTGGCAGAGGGAGACCGGATTCATGTGGCTGCCAATTTCCAGGTTCGGTTGAATGTTTTAGATTTCACATAGCTGAAGCAAGGATGAGATTAAAGCTCGAGCTTGGCTCGACATTCTTTGCATGGAGATTTCATCAAATGGGGGAGGAAATATCTCTGCAATGGACAGCTGAGGAGGAAAAGAGATTTAAGGAGTTGGCTATGTCAAGTTTCAACAATCATAATCGGTGCTTTTGGGACTATTCCTTGAGATGGTTTCCAATGAAATCAAGGAAAAATCTGATAAGCTATTACTTCAATGTGTTTCTTTTACGGCTGAGAAGCTATCAGAATCGCGTAACTCCGAATAGCATCGATAGCGACGATGAAGATTTTGAGTTTGGTTGTGTTAGTGGTGGGTTTGGAGACAAGGCAATGGAAGTTTTAGGCTCAAAGTCTTTAGAATGTTCTATAAACAGACAGGTCACAGATGTGGAGTAG MDTKKVKMHPSIYEDNIDNHRLSTERISCSKRFKASTESVFATCSNSCPTVRSNCISSSLTTEVGKGLKNQAVLNGDIPSEMEDDHPNEDSAEETVPVGALCQADLPEWTGNNSDSDSKWLGTRLWPLQHRNSNSVRDRRAIGRGRPDSCGCQFPGSVECFRFHIAEARMRLKLELGSTFFAWRFHQMGEEISLQWTAEEEKRFKELAMSSFNNHNRCFWDYSLRWFPMKSRKNLISYYFNVFLLRLRSYQNRVTPNSIDSDDEDFEFGCVSGGFGDKAMEVLGSKSLECSINRQVTDVE Homology
BLAST of CmaCh16G006010 vs. ExPASy Swiss-Prot
Match: Q9LDD4 (AT-rich interactive domain-containing protein 2 OS=Arabidopsis thaliana OX=3702 GN=ARID2 PE=1 SV=1) HSP 1 Score: 214.5 bits (545), Expect = 1.6e-54 Identity = 130/300 (43.33%), Postives = 168/300 (56.00%), Query Frame = 0
BLAST of CmaCh16G006010 vs. ExPASy Swiss-Prot
Match: Q84JT7 (AT-rich interactive domain-containing protein 1 OS=Arabidopsis thaliana OX=3702 GN=ARID1 PE=2 SV=1) HSP 1 Score: 159.1 bits (401), Expect = 8.0e-38 Identity = 87/190 (45.79%), Postives = 115/190 (60.53%), Query Frame = 0
BLAST of CmaCh16G006010 vs. TAIR 10
Match: AT4G11400.1 (ARID/BRIGHT DNA-binding domain;ELM2 domain protein ) HSP 1 Score: 214.5 bits (545), Expect = 1.1e-55 Identity = 130/300 (43.33%), Postives = 168/300 (56.00%), Query Frame = 0
BLAST of CmaCh16G006010 vs. TAIR 10
Match: AT2G46040.1 (ARID/BRIGHT DNA-binding domain;ELM2 domain protein ) HSP 1 Score: 159.1 bits (401), Expect = 5.7e-39 Identity = 87/190 (45.79%), Postives = 115/190 (60.53%), Query Frame = 0
BLAST of CmaCh16G006010 vs. TAIR 10
Match: AT5G04110.1 (DNA GYRASE B3 ) HSP 1 Score: 132.9 bits (333), Expect = 4.3e-31 Identity = 73/206 (35.44%), Postives = 115/206 (55.83%), Query Frame = 0
BLAST of CmaCh16G006010 vs. TAIR 10
Match: AT2G03470.2 (ELM2 domain-containing protein ) HSP 1 Score: 98.2 bits (243), Expect = 1.2e-20 Identity = 65/183 (35.52%), Postives = 92/183 (50.27%), Query Frame = 0
BLAST of CmaCh16G006010 vs. TAIR 10
Match: AT1G26580.1 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: 24 plant structures; EXPRESSED DURING: 15 growth stages; BEST Arabidopsis thaliana protein match is: ELM2 domain-containing protein (TAIR:AT2G03470.1); Has 161 Blast hits to 161 proteins in 17 species: Archae - 0; Bacteria - 0; Metazoa - 1; Fungi - 4; Plants - 156; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 97.1 bits (240), Expect = 2.6e-20 Identity = 67/211 (31.75%), Postives = 108/211 (51.18%), 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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