CmaCh16G010860 (gene) Cucurbita maxima (Rimu) v1.1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGTATCCGTCTGCCAACGCGCTTGATTTTACTGTTACGGAACGTTGGTGCTGAAATTTGGATAGTTTCGCTCACACTGCATGAAATTACTTGCGTTTGTGAGAAAAGAGGGTTGAGATTGAGAATCTTTCACTCCTTGCGATTGAGAAGTATCAGGAATTGTTCTGATGGGAGGAGTTATTTCGATTTTTCTTTGTTCACGAAGCAGTTTAGATTTCTAAGAATATCAGTCTCTTATTTACTTTACTTTTATTTAAGAAGGCTAGCAATTCAGTTATGAATGTTCATAGATCACATTTATATTCACCATTTTGGTTTGGTGATTGGCATTCAATCTGAAGTTGGAAAATGGTGAAAATTATCCCATTATTGACTCAAATGTGCTTATGGGTGTTTGAGTAACAATATAACTCAATGAAGAATCCTACAGGAGCTCTTTTGTATAAGATAGAGGAGTTTTTGAATTGAATTCTTTTGGGAGGAGTTCCTTCAATTTTCATTGTTCACGAATCATTTTAGATTTCTAAGAATATTGATATGTTCTTTCATTTGTTGTTATTTAAGAAAAGGCAAGTTATTCAGCTGCAAATGTTCATAAACCATATTTATATTCACTAGATTGGTTTGGTGATTTTGGCATTCGATTTGAAGCTGGAAAATTTGGCTTGTTGGTTGTCAATGTCATAATTTTCCCATCGTTGAGTTCCTTCCGCTAGTTTTATTATGTCCTTGTGACTTCGGGTACCTTTTGATGGGGGCCGATTTTCGAATGCTACATTTCGAAAATGCTAAAGTCACAAGGTACCCAAATTGCCAAAATCTTCATGGGGTACCCCCATCAAAAGGTACCCAAAATTCAAAAATGCTACAAAAGGTACCCAAATTCGGCCCCCCCATGAAGAATTACTCAAAAGTACCAATTTAAATGTAAAACTGATTCGTCTATTGTGATCAACTTGTTCGTTCTCACTTTTTCTCCTGTGGATTTCTCATGTGGTTCTATTCTGTAGCCTTTGTCCTCAGTCAGGTGAATCCAACGAATGGCGGACTTGCCGGGTTCTTTGCAAGCCTGTTTGAGTATGGGGAAGGTGGCATTCTTAGCAATTTTGGTTTCCGGAGGAATTGTGTTGCAGATATTGGTAAGTAAAATTCTTTTTTGAAACTTTTGATTCATTGAACAATATCTTTAAAATTTTTGGGTTTAGAACACATTTTTGATATCTCGTTTATTATCTGCTATGGCAGGCATGTGCCTTGTACAATAATTGGTGGCCAATGCTAAGTGGTATATGACTAAAATTTCTCCTGGACCCTCTTTTAGTGCTTTTTACACCATGAAGTCTCTCTGCGGCTAAGTTTTATTTTTTATTTTTTATTTTATATATATATATATATATATATTTTATTTGCTGGACTTACTATACCGATTTCTTTTCCGCGAGTATGATTTTCCATCCACTAAACTTCTGTTTAAATACAGAATCTCTTAGTAATGGCTAGATAGAAGTGTTTTTCATCTCCACCATGCTCCACTTGAAACTTTATTTCTAGCATTTTTACTCGACATGACTCGTATAATGAAGAGTAAGGGTTTTCAATTGTTCATGTACGACCAGCCCCTCATCGAGAGATGTCGGTTGGAGGGTTGAGTGGTAACCAAAGGACAATTCGTTTTATTTCCTGTTTCTCTTTTTAATCACAAACCGATTTCCTATTTTTCTTCTAAAACGTTGGCAAGTTACAATCAAAATGATCATACCTTTTGATTGCTGCTTGTCACCACAATTTTTGTAGTGGTCATACCGATGTTGGGCATCTCTGTTTGATGAGGTTTACAATTTTTATGTGCATTTTATTATGGGACTTATTGTTCGATATTCTAATAAAGCTTGCAGAGCTTGTAGCTGTTCATGTAGTGTGTAATGACTGTGGCTTTCGAATCTGACATCCCCGTGTTCTTACCATTTGATTTCTTTCTTCAGTACAAATGTAGATAACTTTTTGTACAAATATATATTTTTCTTGACTAATTTCATGGCACTATTCTTTGCAGTGATAATGTATGTACTTCTCCCCATGCCTTTACTATTCTTTGCGGGATCTGATAGCTCTTCACTATATACTGATTCGACCGATAGGTTCGACTTTTGACTTCGTAACCCATTTGATAAGCGTTTTTAATCAGTTGAAAGCATTACTTTTAAGATATGAAAAGATTATCCAAAACAAACTTTTTGTATTCATAAAATTCACCTACTCTTCCTTTTCTCCCCACATATCATTATCATTGAGACAGCTGGATCAATGCGACAAAATTCTTGACCGGAGCCTCGACTATAGGAAGCATTGCCATCCCCATCATTCTGAAGCATGCCGGGATCATTGGCTGGGGGGCAATGGCAATGGACCTCTCGTCGTTTGTAGTATTCGTGATTGCCATTTTGTGTTTCATGGGGATGAGCGAAGACGACGGCTACACCATGTTCTGAGATACTGCATCTCCATGGCAATGAAGCTGAAGCTGTGTGCTATCTCCATCTGGTGAGGCTTCTGGTTTTGTTCTTTCTTGTCTGAGATTCTCCTACTACATCTGCACATGTTTAATGAAGATCATATATTTCTTCGTTGGTTTGTTGTTATCTTTGAATATTTGTTGTTATACCAAAATTGAGATGAGTAAGAAGGGGGTTGATAGTGTGATCCCAGGTTGTTGAGTGTAAATGTATATTTGAAAAGGAATGGGCATTGAACCAGATGTGAATTGTGACTGTTCTTGCCCCATGCTTGAAATGGGATGTATTTGTCTATTTGGTTTATAAATTTTGTGTATGAAACTCTCAATTATACTACAAATTTAATTTACAAGCTTTGAGATTTACGTCTTTTTAGTCTTTAAACTTTCAAAACTACAATTTCCTCTCGATCTTCGATGATGAATTAATACATAAGAGAGATGCGTTGAGAAAATGTGGGTCAAAATTTTGACGAAGGTTTTCCAATATCTGTATCGAAATCTTGTCAAGTTGGTACTTTTTAATCTTGTCGAGTTAGGTACTTTTTAATGAAACCTAAAATTTGTGAGATTTACTTGTATCCCTTTATTGGGAGTATGTGTTTTTAGATACACATAATTTGATTTGCATGAACACGAACATATAGCCCAACAGGATTCGTCTAAAACGTGTTCATGACTTGTGATCAATTCGAATTTCCTTACCAAAAAGGGAACAATATATGCACAAATTACAGAATAGATAGCAAGAAAAGACAATGAGTAGTCGCATATTCCCCATGGTGGATTCTCATTCTCATTCTCATTCTCATTCTCATTCTCAAGCTCCCCACGTCTCTACAAACCTGCATTTGCTCTGTTCTCCCAAAACCCATCTCCATTTCCGCTGCTTCTCAATACCCTTTGCAAATAACATATACATTCCCACAGACGGACACAAGCTTTTGCATCTTTTCATCAATCTCTGCCGGCGATGACGGCTTCAGAAGATGAAAATTCCATCGACAGGTAAATTCGCAGCCCGCAGATGGTTTTCTTTGTTAATTTAATGCTTTACTGTTTTCAATCTGAAATTTGTTCGTGATCGCAAACTATGACCTAATTTTCTGATGCATTTTGAAATGTGTCTCTGTATTCTTGTGATTCTTCTTGATCGTGCTCATATTGTTACGAATCTTGATTTCTCGCTTTCTATCTAATACTATCTCTTAATTGAAACTAGGGTTCTTTCTGCATTTGTGAAAATTTTAAGAGATTTGTTAGGTGGAAAAAAAGTGAAGTCATTGATCTTGACGCTTGAAGAAGTTGGTATTTGATTTAGATCATCATAGAGCCATCAATTTCTGGTACTTAGGTTCGATCAAATTTTGATGGCGTACGCCAAGCATTTTGAGTTTGTGCTTTATTTCAATTTGGTGCCTGTAGTTTTGTAAGTTTCAATTTAGTTCATATAGTTCGGTTTCATTGCATTACCAGCCTCCCTTTACCTGGAAATGCACCCCGTCCCTCCGTTTCTCATATCGTCAACCAACTTCTAGATATATCTTGTATTATGAGCGGTTTGTAATGACTTTTTAAGTGCTTAAAAATACTTTTCTGCCCTTAAAAAGTGATTCCAATCTGATCTTAAACGTTAGCTCATTGCCTCTTTTTGCCACGTCAAAAGAAAACATACATAGTAAATGTAACGGCTCAAGCCCACCGCTAGTAGATATTGTTCTTTTTGAACTTTCTCGTTCGGGCTTCTCTTCAAGGTTTTTAAAACGTCTCTGCTAGGGCGAGGTTTCCGTACCCTTATAAAAATGCTTCGTTCTCCTATTCGACCGATGTGGGATCTCACAATCTACCCCTTCGAGGCCTAGCGTCTTTGCTGGCACATTGCTTCGTGTCCATCCCCATTCGGGTCTCACCCTTCTCGCACCATATTGCCTGGTATCTGACTCTGATACTATTTGTAATGACCCAAGCCCATTGCTAGCCGATATTGTCTTTTTTGAATTTTTCCTTTCGAGCATCCCCTCAAGGTTTCTAAAATTTTAAAACGATGGGAACCAAATTGAAACAAAATGCAAACTATGGAGACTAAAGTGAAAATTAACCTATTAACTGTCGTAAAAGAAAGAAGTACGAGCACGGGATCGAAACATTTGTTTGTCACGACTTTAGTCAAACATAAGACGAACAAAGTCCACCAAAGTCCTTTTTAGTTTTCCCTTCAGCTTTTACTGCTTTAAATGATTTGGTTGCCTGTGCTATTCTGTTTTCCTTATTGCTTGTATTTTGGGAGCCAGCAAAAGCTCTCTTGTCATGCTTGCTCCCGTGGAAGCAGTTCTTTTCGATGTAGATGGAACATTGTGTGATTCGGATCCGCTTCATTACTATGCCTTCCGTGAAATGCTTCAAGAGGTTAGATTCATTTTGTTTTGTTTAGAAGGAAAAGATCAACATCCCACATTAGTTGTAGAGGGGAACGAAACATCTCTCATATGGGTGTGGAAACCTCTCCTTAGTAGATGCATTTTAAAACCGTGAGGCTGATGGTGATATGTAACGGGTTAAAGTAGACAATATCTGCTAGCAGTGGGCTTGGGCTGTTACAAATGGTATCAGGCTGGATGAGCAGTGTGCTAACGAGAACGTTGGACCCCCAAGGGGGTGGATTGTGAGATCCCACGTTGGTTGGAGTGTTTGGAGAGGGGAACGAAGCATTCATCATAAGGTTGTGGAAACCTCTCCCTAGTAGACGTGTTTTAAAACTATGAGGCCGAAAGTGATATGTAACGGGCTAAAGTGGACAATATCTACTAGCGGTGAGCTTGAGTTGTTACAGTAACATATGCTTTACAGATTGGTTTCAATGGTGGGGTTCCCATTGATGAGGAGTTTTTCATTAAAAATGTTGCTGGCAAGCATAACGATGATGTTGCCCGAGCAATATTCCCAGATGATTTCGGACGAGGTTTGAAATTTTGCAATGAGAAGGAGGCTATGTTTCGAAGGTAAATCTTTCTCTTCATACCTTAGAATGTCTTTATAGGTCTGATTAGACAATATAATCCAATAACTTGGCGCAACAGATTGGTTACCGAACAATTAAAACCCGTGAACGGTTTGTATAAAGTGAAGAAATGGATAGAAGACCACGGAGTGAAACGTGCTGCAGTTACGAACGCCCCTCGACCGAATGCCGAGCTCATGATCTCCATGCTTGGTCTTACGGATTTCTTCGAGGCTGTTATTATAGGTGGTGAATGTGAGCATGCCAAACCACATCCAGAACCATATTTAAAGGCTCTGGAAGTACTCAAAGTGACAAAGGATCACACTTTCATCTTTGAGGTCTGCCTTCTTTGGAAGAACAATTTTTCTTTTCCATGAACGTTCAACGAGCATGTTTGGAATTTGACACATCTTGACTGCTTTCCATTGCTAGGATTCTGCATCAGGGATCAAAGCCGGAGTGGCAGCCGAGATGCCTGTCGTCGGTATAGCTACGAGAAATCCCGAGCACTTATTGATGCAAGCCAAGCCTGCCCTCGTCGTAAAGGACTACGACGATCCGAGATTGTGGGCAGCTTTGGACGAACTCGACAAGAGAGGTGGTACCGTTAAGAACGCATGAATGATCGTCAATGGACGGTATTGATGAAATGGTCTCTCAGTTCATTGGTACTCTCTATCTTGTTCTTAAATAACTTAGCCGTAGAAATAAAGTTGCTTCGGCTCTCAATGCCAATCCTAATACAATCTTGTTGCCTTTCTTTCTTGTATTTGTTGGCTGAAATTCTCTCTCAAATTTTATCGATATAGAAAAATGACCAAAATACCCTCACACATCAACC ATGTATCCGTCTGCCAACGCGCTTGATTTTACTGTTACGGAACCCTTTGTCCTCAGTCAGGTGAATCCAACGAATGGCGGACTTGCCGGGTTCTTTGCAAGCCTGTTTGAGTATGGGGAAGGTGGCATTCTTAGCAATTTTGGTTTCCGGAGGAATTGTGTTGCAGATATTGTGATAATGTATGTACTTCTCCCCATGCCTTTACTATTCTTTGCGGGATCTGATAGCTCTTCACTATATACTGATTCGACCGATAGCTGGATCAATGCGACAAAATTCTTGACCGGAGCCTCGACTATAGGAAGCATTGCCATCCCCATCATTCTGAAGCATGCCGGGATCATTGGCTGGGGGGCAATGGCAATGGACCTCTCGTCGTTTGTAGTATTCGTGATTGCCATTTTGTGTTTCATGGGGATGAGCGAAGACGACGGCTACACCATACGGACACAAGCTTTTGCATCTTTTCATCAATCTCTGCCGGCGATGACGGCTTCAGAAGATGAAAATTCCATCGACAGCAAAAGCTCTCTTGTCATGCTTGCTCCCGTGGAAGCAGTTCTTTTCGATCATAACGATGATGTTGCCCGAGCAATATTCCCAGATGATTTCGGACGAGGTTTGAAATTTTGCAATGAGAAGGAGGCTATGTTTCGAAGATTGGTTACCGAACAATTAAAACCCGTGAACGGTTTGTATAAAGTGAAGAAATGGATAGAAGACCACGGAGTGAAACGTGCTGCAGTTACGAACGCCCCTCGACCGAATGCCGAGCTCATGATCTCCATGCTTGGTCTTACGGATTTCTTCGAGGCTGTTATTATAGGTGGTGAATGTGAGCATGCCAAACCACATCCAGAACCATATTTAAAGGCTCTGGAAGTACTCAAAGTGACAAAGGATCACACTTTCATCTTTGAGGATTCTGCATCAGGGATCAAAGCCGGAGTGGCAGCCGAGATGCCTGTCGTCGGTATAGCTACGAGAAATCCCGAGCACTTATTGATGCAAGCCAAGCCTGCCCTCGTCGTAAAGGACTACGACGATCCGAGATTGTGGGCAGCTTTGGACGAACTCGACAAGAGAGGTGGTACCGTTAAGAACGCATGAATGATCGTCAATGGACGGTATTGATGAAATGGTCTCTCAGTTCATTGGTACTCTCTATCTTGTTCTTAAATAACTTAGCCGTAGAAATAAAGTTGCTTCGGCTCTCAATGCCAATCCTAATACAATCTTGTTGCCTTTCTTTCTTGTATTTGTTGGCTGAAATTCTCTCTCAAATTTTATCGATATAGAAAAATGACCAAAATACCCTCACACATCAACC ATGTATCCGTCTGCCAACGCGCTTGATTTTACTGTTACGGAACCCTTTGTCCTCAGTCAGGTGAATCCAACGAATGGCGGACTTGCCGGGTTCTTTGCAAGCCTGTTTGAGTATGGGGAAGGTGGCATTCTTAGCAATTTTGGTTTCCGGAGGAATTGTGTTGCAGATATTGTGATAATGTATGTACTTCTCCCCATGCCTTTACTATTCTTTGCGGGATCTGATAGCTCTTCACTATATACTGATTCGACCGATAGCTGGATCAATGCGACAAAATTCTTGACCGGAGCCTCGACTATAGGAAGCATTGCCATCCCCATCATTCTGAAGCATGCCGGGATCATTGGCTGGGGGGCAATGGCAATGGACCTCTCGTCGTTTGTAGTATTCGTGATTGCCATTTTGTGTTTCATGGGGATGAGCGAAGACGACGGCTACACCATACGGACACAAGCTTTTGCATCTTTTCATCAATCTCTGCCGGCGATGACGGCTTCAGAAGATGAAAATTCCATCGACAGCAAAAGCTCTCTTGTCATGCTTGCTCCCGTGGAAGCAGTTCTTTTCGATCATAACGATGATGTTGCCCGAGCAATATTCCCAGATGATTTCGGACGAGGTTTGAAATTTTGCAATGAGAAGGAGGCTATGTTTCGAAGATTGGTTACCGAACAATTAAAACCCGTGAACGGTTTGTATAAAGTGAAGAAATGGATAGAAGACCACGGAGTGAAACGTGCTGCAGTTACGAACGCCCCTCGACCGAATGCCGAGCTCATGATCTCCATGCTTGGTCTTACGGATTTCTTCGAGGCTGTTATTATAGGTGGTGAATGTGAGCATGCCAAACCACATCCAGAACCATATTTAAAGGCTCTGGAAGTACTCAAAGTGACAAAGGATCACACTTTCATCTTTGAGGATTCTGCATCAGGGATCAAAGCCGGAGTGGCAGCCGAGATGCCTGTCGTCGGTATAGCTACGAGAAATCCCGAGCACTTATTGATGCAAGCCAAGCCTGCCCTCGTCGTAAAGGACTACGACGATCCGAGATTGTGGGCAGCTTTGGACGAACTCGACAAGAGAGGTGGTACCGTTAAGAACGCATGA MYPSANALDFTVTEPFVLSQVNPTNGGLAGFFASLFEYGEGGILSNFGFRRNCVADIVIMYVLLPMPLLFFAGSDSSSLYTDSTDSWINATKFLTGASTIGSIAIPIILKHAGIIGWGAMAMDLSSFVVFVIAILCFMGMSEDDGYTIRTQAFASFHQSLPAMTASEDENSIDSKSSLVMLAPVEAVLFDHNDDVARAIFPDDFGRGLKFCNEKEAMFRRLVTEQLKPVNGLYKVKKWIEDHGVKRAAVTNAPRPNAELMISMLGLTDFFEAVIIGGECEHAKPHPEPYLKALEVLKVTKDHTFIFEDSASGIKAGVAAEMPVVGIATRNPEHLLMQAKPALVVKDYDDPRLWAALDELDKRGGTVKNA Homology
BLAST of CmaCh16G010860 vs. ExPASy Swiss-Prot
Match: Q9ZVJ5 (Haloacid dehalogenase-like hydrolase domain-containing protein Sgpp OS=Arabidopsis thaliana OX=3702 GN=SGPP PE=1 SV=2) HSP 1 Score: 265.0 bits (676), Expect = 1.3e-69 Identity = 131/243 (53.91%), Postives = 163/243 (67.08%), Query Frame = 0
BLAST of CmaCh16G010860 vs. ExPASy Swiss-Prot
Match: Q9AST6 (Vacuolar protein sorting-associated protein 55 homolog OS=Arabidopsis thaliana OX=3702 GN=At1g32410 PE=2 SV=1) HSP 1 Score: 126.3 bits (316), Expect = 7.0e-28 Identity = 63/92 (68.48%), Postives = 80/92 (86.96%), Query Frame = 0
BLAST of CmaCh16G010860 vs. ExPASy Swiss-Prot
Match: Q9K6Y7 (Pyrophosphatase PpaX OS=Bacillus halodurans (strain ATCC BAA-125 / DSM 18197 / FERM 7344 / JCM 9153 / C-125) OX=272558 GN=ppaX PE=3 SV=1) HSP 1 Score: 70.1 bits (170), Expect = 6.0e-11 Identity = 39/126 (30.95%), Postives = 63/126 (50.00%), Query Frame = 0
BLAST of CmaCh16G010860 vs. ExPASy Swiss-Prot
Match: Q9X0Y1 (Phosphorylated carbohydrates phosphatase TM_1254 OS=Thermotoga maritima (strain ATCC 43589 / DSM 3109 / JCM 10099 / NBRC 100826 / MSB8) OX=243274 GN=TM_1254 PE=1 SV=1) HSP 1 Score: 68.9 bits (167), Expect = 1.3e-10 Identity = 38/129 (29.46%), Postives = 70/129 (54.26%), Query Frame = 0
BLAST of CmaCh16G010860 vs. ExPASy Swiss-Prot
Match: B7GL49 (Pyrophosphatase PpaX OS=Anoxybacillus flavithermus (strain DSM 21510 / WK1) OX=491915 GN=ppaX PE=3 SV=1) HSP 1 Score: 62.4 bits (150), Expect = 1.2e-08 Identity = 36/111 (32.43%), Postives = 52/111 (46.85%), Query Frame = 0
BLAST of CmaCh16G010860 vs. TAIR 10
Match: AT2G38740.1 (Haloacid dehalogenase-like hydrolase (HAD) superfamily protein ) HSP 1 Score: 265.0 bits (676), Expect = 9.0e-71 Identity = 131/243 (53.91%), Postives = 163/243 (67.08%), Query Frame = 0
BLAST of CmaCh16G010860 vs. TAIR 10
Match: AT1G32410.1 (Vacuolar protein sorting 55 (VPS55) family protein ) HSP 1 Score: 126.3 bits (316), Expect = 5.0e-29 Identity = 63/92 (68.48%), Postives = 80/92 (86.96%), Query Frame = 0
BLAST of CmaCh16G010860 vs. TAIR 10
Match: AT1G32410.2 (Vacuolar protein sorting 55 (VPS55) family protein ) HSP 1 Score: 126.3 bits (316), Expect = 5.0e-29 Identity = 63/92 (68.48%), Postives = 80/92 (86.96%), Query Frame = 0
BLAST of CmaCh16G010860 vs. TAIR 10
Match: AT1G32410.3 (Vacuolar protein sorting 55 (VPS55) family protein ) HSP 1 Score: 126.3 bits (316), Expect = 5.0e-29 Identity = 63/92 (68.48%), Postives = 80/92 (86.96%), Query Frame = 0
BLAST of CmaCh16G010860 vs. TAIR 10
Match: AT1G32410.4 (Vacuolar protein sorting 55 (VPS55) family protein ) HSP 1 Score: 126.3 bits (316), Expect = 5.0e-29 Identity = 63/92 (68.48%), Postives = 80/92 (86.96%), 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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