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Sequences
The following sequences are available for this feature:
Gene sequence (with intron) Legend: polypeptideexonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. ATGAAAAGGTCCTTGAAGTTTTTATTTTTAAAAAGAAAAAACGAAAAAGGAGGAGGAATTCTCGAAACGGCCCCTGCTGCGTAAAGCGTCCATTTTCTCATTCACGAACTCCTCAGAGCTCGTGGCGGCAGAGTGGAAGGCTAGCGCTAGAAGCAGCGGCGCGCAATTTGACTCCATTCCTTCGCTTATTTCCGATTACTTCTTCGTTTTGCTTTAATCTAGCATTTCCAATCAGACATTCAAAGGTAAAGTTCTTCTGGTCCTCTTCTTCTTTTTCTTTCTAATTTTGTATTTGTTGGTTTCGTGAATTCACTGGTGTCTTGATATTCTTTTTAATTTTTTTCTTCTTTTTTGCCTATTTGTTCATCAGATCTCATTCCTTGTTTGCTGATGTACTATTTCTGTTTCGTTATTTTTAGATCTTTTGATTAAGATGATGGGTTTTTGGGTGTATTTTGTATTTATTGAATTTTGAATCATGGCTGTAATCTCGATTTTCAGGGTTTAGTAATTATAGCAGGGTGCTATTTTTAGGTTTTTTTTTTCTGTGTTGAAATAGGAATGAATAGCGTACTCTGTTTAATTTTGGGGGAAAAGATTGTGGCGATTTTGGGTCGTTTGATGCCGTGACAGAGTAGACATTGAATGTGGCGTCTGTTTTACGAGGATTCTGATTCTATTGTAGGCATCATCAGGAATTCAAAGTCGCTGCAGCTTTCTGTAGCTTATATTTCCGGTTCTTCATGTCTAGTTGTACTTCCTAAAACTTTTGACGAAAGAATGAGCGGGGCAGGCTCCTTTGTTGCAATTTTATGGTCAACTTCCTATAAAGTTCTGATTCATTGATGACTCGAGCAAAACATATTCTCTTGGTCCTGATTGTTTCAATTCAGTTCTAAATTTTCTGAACCAATTTAGTTGTCTTTGTTCATAACAAATTCAGTGATACCACCTTTCATTTCCAACACCAATATATTCATTCTCTTTTCAATGTTTAGATATGTCCTTTTAATTATTTGTCTTTCTCTGATCCCCCAAACAGTGGCTATTTGTAACCATCTTTACATTAAAAGACTCGCTAGCTATTTCTACTATACACCATATTAGCAATCCCATGAAAGTGCTTTTGCGATCAATCAGAATTTTTTGCTTGTACCATGCATATTAAGGTGGAGCACCATTCCATTTGTGATCAAATCCTCTATGGGGAGTTTTCAGCTTGTTGACTGCCTCTCAAAAGCTACCTTGCCTTCTTCAGTATCCTGTTTGTGAATCTTTGATCCCACCTTGAGATTGTTGATCTCTCCTCTTTTCTGGCTTGTGGTTCCTATTGCAGTATATGGGCTATATTTTTTATTTCTCTTACCCATTGTTCTTTCTAAGTTTCTCTTTATCCTAGAAACAATTGCTTCGTGTGTGAGTAATGGATATAAATTTTAGCTTGGTCTCTAAGTCCTATTATCACGTTAACTTCAACTGTAATTTTGACCTGTTCTCGCATCATCACATGTCATTTTTACTGAAAATGTTATAAAGAAGGATAGAAGTTAAGCTTTTTCAGCAATCTCTTATATTTTGTAAGTTGAAAGACAGATAGAGAGTTCTCAAACCTTTGCCAGCAGAATTTAAGCTAGTACTGGGTGATCGTTGATGTCATCCAAAATCAAATCAGCATTCCTTCTCTTAAGATTTTGTCATTAATTCAGTAGTACCATTTCTTGCTATTTAACTGAGTTCCCACTTTGGTAGTTTTTGAGCTTCATCCATAGTGTTTTGGTTATCTTATATTGAAACTATAGTGTCAAAGCTTCTTAAAACTTCTGGCAGGAGACACTGTCTTCAAGATTCATCGTATAACTCATCTAAGCTAATGTGGGTAGTTGTTATGTAAGGAATATTGAGGTTTCACGTTTGGTTTTTCACGAGAATCAAAACCTGGGAAGAGCAGGTCTGTCATGTGGTTGTAGGTGAAAGACCAAAATTTTATGATGCAAAAATCCCAAATGATTGTCCCGGATTCTAAGAATGGATTTTGAGGGTTTAACGGTTTTTTGGGGAATACAATTTTTGAACTTATAAAGTAATATCATGATTTAGTTTATGGGGTTTTAATGTTGAGTCTTACCGTTCGATTTTGCATCATTTTCTTGCTTGACTTCATCAGTTACAACATCTCATATTTTTTTGTGTACTGCTCTTCAGGGTATTATTTCAGATTAATGGCGTCCAAGTTGACTCAGTTGCAGTCCAAGGCCACTCAAGCATCACAATTTGTGTTGAAACATGGGTGTTCCTACTACAAGCAATTGTTGGAGCAAAACAAGCAATTTATTCAGGAGCCACCTACCGTGGAGAAATGCAACCTACTTTCTAAGCAATTGTTTTACACTCGTCTTGCCAGGTCGTACTTTCTACACTCTCTTTATGTTGGTATATTGTTTGCCTTTATTGCTTTGGAAGAAACATTTACCAGTGCTTTTGGAAGAAACACATGATAAGTATGTTTTAAAATTTTATATTTATTTACAGTTTTGTAGTATCATCTAAATTCACATTTATTTTTTTAACATAAAAAGCCGTCATATACAAGTGAATCATGAATTTGAATATACATAAGGCCAATTGAAAATCCTCTTTTAGCATCTGGGATAATCTGATGTATTATTTTCTGGATGGAGCTATATAGCTTGTTGCACTGAATTGCAGTTAAACTTGTTTTACCATTATGGACCTGTGGTCATGTGAATATATATTCTTTTGTAATCTTATAGCTAAAGAATTGTGAGCAAAATCTTTGTGTGGAACGTGAGGCCAAAAGAACATCATTTTGACTTGCATCTTATCGATACAGTATTCCAGGTCGGTATGAATCATTCCACAAGGAACTCAATTACGTAAAACAATTATGGAAGAACAGACAAGATCTAAAGGTGGAAGAGGCTGGTATTGCTGCCCTATTTGGGCTGGAGTGCTTTGCATGGTTTTGTGCTGGTGAAATTGTGGGAAGGGGTTTTACTTTCACCGGATACTATGTCTGAGGTTCTTCATTTTAGTTCATCCTTAAGCTTGCTTGCTTCCCTTGGTCATTGTTTCTACCATTTTCGAATAACTGAAATTCTTCATGAAATTTTGTTGTTTTTCTGCCATTTTTTGTGAATCATAGTCCTTGGTGAAGAAATCAGTTTCCTTATTAGTAATAATCCAGAGTAAGTTTGGATGGATAATGATGCTGTTGCTTCTGTTCATCTTCTCTTCTGTTCATCTTGTGTTCATCTCGTGTTCATCTCTTGAATCATGATAGAATAGAACTTCCAATTGTGAGTTCA mRNA sequence ATGAAAAGCATTTCCAATCAGACATTCAAAGGGTATTATTTCAGATTAATGGCGTCCAAGTTGACTCAGTTGCAGTCCAAGGCCACTCAAGCATCACAATTTGTGTTGAAACATGGGTGTTCCTACTACAAGCAATTGTTGGAGCAAAACAAGCAATTTATTCAGGAGCCACCTACCGTGGAGAAATGCAACCTACTTTCTAAGCAATTGTTTTACACTCGTCTTGCCAGTATTCCAGGTCGGTATGAATCATTCCACAAGGAACTCAATTACGTAAAACAATTATGGAAGAACAGACAAGATCTAAAGGTGGAAGAGGCTGGTATTGCTGCCCTATTTGGGCTGGAGTGCTTTGCATGGTTTTGTGCTGGTGAAATTGTGGGAAGGGGTTTTACTTTCACCGGATACTATGTCTGAGGTTCTTCATTTTAGTTCATCCTTAAGCTTGCTTGCTTCCCTTGGTCATTGTTTCTACCATTTTCGAATAACTGAAATTCTTCATGAAATTTTGTTGTTTTTCTGCCATTTTTTGTGAATCATAGTCCTTGGTGAAGAAATCAGTTTCCTTATTAGTAATAATCCAGAGTAAGTTTGGATGGATAATGATGCTGTTGCTTCTGTTCATCTTCTCTTCTGTTCATCTTGTGTTCATCTCGTGTTCATCTCTTGAATCATGATAGAATAGAACTTCCAATTGTGAGTTCA Coding sequence (CDS) ATGAAAAGCATTTCCAATCAGACATTCAAAGGGTATTATTTCAGATTAATGGCGTCCAAGTTGACTCAGTTGCAGTCCAAGGCCACTCAAGCATCACAATTTGTGTTGAAACATGGGTGTTCCTACTACAAGCAATTGTTGGAGCAAAACAAGCAATTTATTCAGGAGCCACCTACCGTGGAGAAATGCAACCTACTTTCTAAGCAATTGTTTTACACTCGTCTTGCCAGTATTCCAGGTCGGTATGAATCATTCCACAAGGAACTCAATTACGTAAAACAATTATGGAAGAACAGACAAGATCTAAAGGTGGAAGAGGCTGGTATTGCTGCCCTATTTGGGCTGGAGTGCTTTGCATGGTTTTGTGCTGGTGAAATTGTGGGAAGGGGTTTTACTTTCACCGGATACTATGTCTGA Protein sequence MKSISNQTFKGYYFRLMASKLTQLQSKATQASQFVLKHGCSYYKQLLEQNKQFIQEPPTVEKCNLLSKQLFYTRLASIPGRYESFHKELNYVKQLWKNRQDLKVEEAGIAALFGLECFAWFCAGEIVGRGFTFTGYYV
Homology
BLAST of CmaCh11G006750 vs. TAIR 10
Match: AT2G19680.1 (Mitochondrial ATP synthase subunit G protein ) HSP 1 Score: 204.5 bits (519), Expect = 5.4e-53 Identity = 100/121 (82.64%), Postives = 109/121 (90.08%), Query Frame = 0 Query: 17 MASKLTQLQSKATQASQFVLKHGCSYYKQLLEQNKQFIQEPPTVEKCNLLSKQLFYTRLA 76 MASKL QLQSKA QAS+FV KHG SYYKQLLEQNKQ+IQEP T+EKC+ LSKQL YTRLA Sbjct: 1 MASKLVQLQSKACQASKFVAKHGNSYYKQLLEQNKQYIQEPATIEKCSELSKQLLYTRLA 60
Query: 77 SIPGRYESFHKELNYVKQLWKNRQDLKVEEAGIAALFGLECFAWFCAGEIVGRGFTFTGY 136 SIPGRYE+F KE++Y K L KNR +LKVE+AGIAALFGLECFAWFCAGEIVGRGFTFTGY Sbjct: 61 SIPGRYETFRKEVDYAKNLLKNRANLKVEDAGIAALFGLECFAWFCAGEIVGRGFTFTGY 120
Query: 137 Y 138 Y Sbjct: 121 Y 121
BLAST of CmaCh11G006750 vs. TAIR 10
Match: AT2G19680.2 (Mitochondrial ATP synthase subunit G protein ) HSP 1 Score: 204.5 bits (519), Expect = 5.4e-53 Identity = 100/121 (82.64%), Postives = 109/121 (90.08%), Query Frame = 0 Query: 17 MASKLTQLQSKATQASQFVLKHGCSYYKQLLEQNKQFIQEPPTVEKCNLLSKQLFYTRLA 76 MASKL QLQSKA QAS+FV KHG SYYKQLLEQNKQ+IQEP T+EKC+ LSKQL YTRLA Sbjct: 1 MASKLVQLQSKACQASKFVAKHGNSYYKQLLEQNKQYIQEPATIEKCSELSKQLLYTRLA 60
Query: 77 SIPGRYESFHKELNYVKQLWKNRQDLKVEEAGIAALFGLECFAWFCAGEIVGRGFTFTGY 136 SIPGRYE+F KE++Y K L KNR +LKVE+AGIAALFGLECFAWFCAGEIVGRGFTFTGY Sbjct: 61 SIPGRYETFRKEVDYAKNLLKNRANLKVEDAGIAALFGLECFAWFCAGEIVGRGFTFTGY 120
Query: 137 Y 138 Y Sbjct: 121 Y 121
BLAST of CmaCh11G006750 vs. TAIR 10
Match: AT4G26210.1 (Mitochondrial ATP synthase subunit G protein ) HSP 1 Score: 201.4 bits (511), Expect = 4.6e-52 Identity = 97/121 (80.17%), Postives = 109/121 (90.08%), Query Frame = 0 Query: 17 MASKLTQLQSKATQASQFVLKHGCSYYKQLLEQNKQFIQEPPTVEKCNLLSKQLFYTRLA 76 MASKL QL+SKA +AS+FV KHG +YYKQLL++NK +IQEP T+EKCN LSKQL YTRLA Sbjct: 1 MASKLLQLKSKACEASKFVSKHGTTYYKQLLDKNKMYIQEPATIEKCNELSKQLLYTRLA 60
Query: 77 SIPGRYESFHKELNYVKQLWKNRQDLKVEEAGIAALFGLECFAWFCAGEIVGRGFTFTGY 136 SIPGR ESF KE+N+VK LWKNR DLKVE+AGIAALFGLECFAW+CAGEIVGRGFTFTGY Sbjct: 61 SIPGRSESFWKEVNHVKGLWKNRADLKVEDAGIAALFGLECFAWYCAGEIVGRGFTFTGY 120
Query: 137 Y 138 Y Sbjct: 121 Y 121
BLAST of CmaCh11G006750 vs. TAIR 10
Match: AT4G26210.2 (Mitochondrial ATP synthase subunit G protein ) HSP 1 Score: 201.4 bits (511), Expect = 4.6e-52 Identity = 97/121 (80.17%), Postives = 109/121 (90.08%), Query Frame = 0 Query: 17 MASKLTQLQSKATQASQFVLKHGCSYYKQLLEQNKQFIQEPPTVEKCNLLSKQLFYTRLA 76 MASKL QL+SKA +AS+FV KHG +YYKQLL++NK +IQEP T+EKCN LSKQL YTRLA Sbjct: 1 MASKLLQLKSKACEASKFVSKHGTTYYKQLLDKNKMYIQEPATIEKCNELSKQLLYTRLA 60
Query: 77 SIPGRYESFHKELNYVKQLWKNRQDLKVEEAGIAALFGLECFAWFCAGEIVGRGFTFTGY 136 SIPGR ESF KE+N+VK LWKNR DLKVE+AGIAALFGLECFAW+CAGEIVGRGFTFTGY Sbjct: 61 SIPGRSESFWKEVNHVKGLWKNRADLKVEDAGIAALFGLECFAWYCAGEIVGRGFTFTGY 120
Query: 137 Y 138 Y Sbjct: 121 Y 121
BLAST of CmaCh11G006750 vs. TAIR 10
Match: AT4G29480.1 (Mitochondrial ATP synthase subunit G protein ) HSP 1 Score: 201.1 bits (510), Expect = 6.0e-52 Identity = 96/121 (79.34%), Postives = 107/121 (88.43%), Query Frame = 0 Query: 17 MASKLTQLQSKATQASQFVLKHGCSYYKQLLEQNKQFIQEPPTVEKCNLLSKQLFYTRLA 76 MASKL Q+QSKA +AS+FV KHG SYY+QLLE+NKQ+IQEP TVEKC LSKQL YTRLA Sbjct: 1 MASKLIQVQSKACEASKFVAKHGTSYYRQLLEKNKQYIQEPATVEKCQELSKQLLYTRLA 60
Query: 77 SIPGRYESFHKELNYVKQLWKNRQDLKVEEAGIAALFGLECFAWFCAGEIVGRGFTFTGY 136 SIPGRYE+F KE++Y K LWKNR LKVE+AGIAALFGLECFAW+CAGEI GRGFTFTGY Sbjct: 61 SIPGRYETFWKEVDYAKNLWKNRSGLKVEDAGIAALFGLECFAWYCAGEIAGRGFTFTGY 120
Query: 137 Y 138 Y Sbjct: 121 Y 121
The following BLAST results are available for this feature:
Match Name | E-value | Identity | Description | |
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
IPR Term | IPR Description | Source | Source Term | Source Description | Alignment |
IPR006808 | ATP synthase, F0 complex, subunit G, mitochondrial | PFAM | PF04718 | ATP-synt_G | coord: 31..136 e-value: 2.3E-23 score: 82.9 |
IPR006808 | ATP synthase, F0 complex, subunit G, mitochondrial | PANTHER | PTHR12386 | ATP SYNTHASE SUBUNIT | coord: 10..138 |
None | No IPR available | PANTHER | PTHR12386:SF34 | ATPASE, F0 COMPLEX, SUBUNIT G-RELATED | coord: 10..138 |
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.
Category |
Term Accession |
Term Name |
biological_process |
GO:0015986 |
ATP synthesis coupled proton transport |
cellular_component |
GO:0000276 |
mitochondrial proton-transporting ATP synthase complex, coupling factor F(o) |
molecular_function |
GO:0015078 |
proton transmembrane transporter activity |
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