Information report for AT5G37510
Gene Details
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Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0025281 — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
- GO:0009793 — acts upstream of or within — embryo development ending in seed dormancy
- GO:0042773 — involved in — ATP synthesis coupled electron transport
- GO:0009853 — acts upstream of or within — photorespiration
- GO:0005739 — located in — mitochondrion
- GO:0016020 — located in — membrane
- GO:0008137 — enables — NADH dehydrogenase (ubiquinone) activity
- GO:0031966 — located in — mitochondrial membrane
- GO:0005747 — part of — mitochondrial respiratory chain complex I
Functional Keywords
- root , pollen , guard cell
Literature and News
- Analysis of the Arabidopsis mitochondrial proteome. DOI: 6919 ; PMID: 11743115
- The impact of oxidative stress on Arabidopsis mitochondria. DOI: 10.1046/j.1365-313x.2002.01474.x ; PMID: 12492832
- Mitochondrial complex I from Arabidopsis and rice: orthologs of mammalian and fungal components coupled with plant-specific subunits. DOI: 10.1016/s0005-2728(03)00045-8 ; PMID: 12837548
- Microarray and differential display identify genes involved in jasmonate-dependent anther development. DOI: 10.1023/a:1025045217859 ; PMID: 13677466
- Experimental analysis of the Arabidopsis mitochondrial proteome highlights signaling and regulatory components, provides assessment of targeting prediction programs, and indicates plant-specific mitochondrial proteins. DOI: 10.1105/tpc.016055 ; PMID: 14671022
- Identification of genes required for embryo development in Arabidopsis. DOI: 10.1104/pp.104.045179 ; PMID: 15266054
- Light regulation of the Arabidopsis respiratory chain. Multiple discrete photoreceptor responses contribute to induction of type II NAD(P)H dehydrogenase genes. DOI: 10.1104/pp.104.046698 ; PMID: 15333756
- Coordination of nuclear and mitochondrial genome expression during mitochondrial biogenesis in Arabidopsis. DOI: 10.1105/tpc.104.030254 ; PMID: 15829605
- Disruption of a nuclear gene encoding a mitochondrial gamma carbonic anhydrase reduces complex I and supercomplex I + III2 levels and alters mitochondrial physiology in Arabidopsis. DOI: 10.1016/j.jmb.2005.04.062 ; PMID: 15935378
- Proteome mapping of mature pollen of Arabidopsis thaliana. DOI: 10.1002/pmic.200402011 ; PMID: 16247729
- Characterization of transformed Arabidopsis with altered alternative oxidase levels and analysis of effects on reactive oxygen species in tissue. DOI: 10.1104/pp.105.070763 ; PMID: 16299171
- Carbonic anhydrase subunits form a matrix-exposed domain attached to the membrane arm of mitochondrial complex I in plants. DOI: 10.1074/jbc.M511542200 ; PMID: 16407270
- Mitochondrial acyl carrier proteins in Arabidopsis thaliana are predominantly soluble matrix proteins and none can be confirmed as subunits of respiratory Complex I. DOI: 10.1007/s11103-007-9156-9 ; PMID: 17406791
- Resolving and identifying protein components of plant mitochondrial respiratory complexes using three dimensions of gel electrophoresis. DOI: 10.1021/pr700595p ; PMID: 18189341
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Differential gene expression profiles of the mitochondrial respiratory components in illuminated Arabidopsis leaves. DOI: 10.1093/pcp/pcp090 ; PMID: 19567377
- Systems analysis of seed filling in Arabidopsis: using general linear modeling to assess concordance of transcript and protein expression. DOI: 10.1104/pp.109.152413 ; PMID: 20118269
- Internal architecture of mitochondrial complex I from Arabidopsis thaliana. DOI: 10.1105/tpc.109.073726 ; PMID: 20197505
- Proteomic approach to characterize mitochondrial complex I from plants. DOI: 10.1016/j.phytochem.2010.11.012 ; PMID: 21167537
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- Genome-wide identification of EMBRYO-DEFECTIVE (EMB) genes required for growth and development in Arabidopsis. DOI: 10.1111/nph.16071 ; PMID: 31334862
- Analysis of the Arabidopsis mitochondrial proteome. DOI: 6919 ; PMID: 11743115
- The impact of oxidative stress on Arabidopsis mitochondria. DOI: 10.1046/j.1365-313x.2002.01474.x ; PMID: 12492832
- Mitochondrial complex I from Arabidopsis and rice: orthologs of mammalian and fungal components coupled with plant-specific subunits. DOI: 10.1016/s0005-2728(03)00045-8 ; PMID: 12837548
- Experimental analysis of the Arabidopsis mitochondrial proteome highlights signaling and regulatory components, provides assessment of targeting prediction programs, and indicates plant-specific mitochondrial proteins. DOI: 10.1105/tpc.016055 ; PMID: 14671022
- The hydrophobic proteome of mitochondrial membranes from Arabidopsis cell suspensions. DOI: 10.1016/j.phytochem.2004.03.028 ; PMID: 15276431
- Proteome mapping of mature pollen of Arabidopsis thaliana. DOI: 10.1002/pmic.200402011 ; PMID: 16247729
- Carbonic anhydrase subunits form a matrix-exposed domain attached to the membrane arm of mitochondrial complex I in plants. DOI: 10.1074/jbc.M511542200 ; PMID: 16407270
- Resolving and identifying protein components of plant mitochondrial respiratory complexes using three dimensions of gel electrophoresis. DOI: 10.1021/pr700595p ; PMID: 18189341
- Sorting signals, N-terminal modifications and abundance of the chloroplast proteome. DOI: 10.1371/journal.pone.0001994 ; PMID: 18431481
- The hydrophobic proteome of mitochondrial membranes from Arabidopsis cell suspensions. DOI: 10.1016/j.phytochem.2004.03.028 ; PMID: 15276431
- Proteome mapping of mature pollen of Arabidopsis thaliana. DOI: 10.1002/pmic.200402011 ; PMID: 16247729
- Sorting signals, N-terminal modifications and abundance of the chloroplast proteome. DOI: 10.1371/journal.pone.0001994 ; PMID: 18431481
Gene Resources
- UniProt: B9DFQ9
- EMBL: AK316868, CP002688
- AlphaFoldDB: B9DFQ9
- EnsemblPlants: AT5G37510.1
- Gramene: AT5G37510.1
- Orthologous matrix: QAMAYGV
- ExpressionAtlas: AT5G37510
- InterPro: IPR000283, IPR001041, IPR006656
- PANTHER: PTHR43105, PTHR43105:SF13
- SUPFAM: SSF53706, SSF54292, SSF54862
- PROSITE: PS00641, PS00642, PS00643
- Gene3D: 3.10.20.740, 3.30.70.20, 3.40.228.10
- SWISS-MODEL: B9DFQ9
- Conserved Domain Database: cd00207, cd02773
Sequences
cDNA Sequence
- >AT5G37510.1
CAATTATAATATCCAAAATAAAAGCCCATAAAGCCCAAAACTCACTCATTCGTGTCTCCTTCTCTCTCGCACAAATGCTTCAGGAGTTCTCACAACAAGATCGAGAAATACACACATAGAAGACGAAGAAGAAGAAGAAGACGATACAGATCCACAACGCCATGGGTTTAGGCATCTTAGCTTCTCGAACAATTCGACCAGCTTCACGTCTTCTTCAATCTCAAACCTCCAATTTCTTCCTCCGCACAATCGTCTCAAAACCAGAGCTCCAATCTCCTGAATCCGCTGCTGTCTCTGAGCCTGAGCCGCCGACACAGATTCTCCCTCCTAGAAACCCTGTAGGTGGAGCACGCGTCCACTTCTCGAATCCTGAAGATGCGATCGAGGTCTTTGTCGATGGTTACGCGGTCAAAGTCCCTAAAGGATTCACTGTTCTTCAGGCTTGTGAGGTCGCTGGAGTTGATATCCCGAGGTTTTGTTATCATTCTCGTTTATCTATTGCTGGAAATTGCAGGATGTGTCTTGTTGAGGTTGAGAAATCTCCTAAGCCTGTAGCTTCATGTGCCATGCCTGCGCTTCCTGGGATGAAGATTAAGACTGATACACCGATAGCTAAGAAGGCGAGGGAGGGAGTGATGGAGTTTTTGTTGATGAATCACCCTTTGGATTGTCCTATTTGTGACCAAGGAGGAGAGTGTGATCTTCAGGATCAGTCTATGGCTTTTGGATCTGATAGAGGACGTTTTACTGAGATGAAAAGATCTGTTGTTGATAAGAATCTTGGTCCTCTTGTGAAGACTGTTATGACTCGGTGTATCCAGTGTACAAGGTGTGTACGATTTGCTTCTGAAGTTGCTGGGGTTCAGGATCTTGGTATACTAGGTCGTGGTAGTGGAGAGGAAATTGGAACTTATGTTGAAAAGCTTATGACCAGTGAACTCTCTGGAAATGTTATTGATATCTGTCCTGTTGGAGCCTTGACCTCAAAGCCTTTTGCCTTTAAAGCCAGAAACTGGGAGTTGAAAGCAACAGAAACTATTGATGTTAGTGATGCTGTTGGGTCCAACATCCGTGTTGATAGTAGAGGACCAGAAGTAATGCGTATCATTCCACGCCTGAATGAGGATATAAACGAAGAATGGATATCTGACAAAACCCGATTCTGTTATGACGGCCTGAAAAGACAAAGGCTGAGCGACCCTATGATCCGAGATTCCGATGGACGATTCAAGGCAGTGAGCTGGCGTGATGCCTTGGCTGTTGTGGGTGATATCATTCATCAGGTGAAGCCAGATGAGATTGTTGGAGTAGCAGGTCAGCTATCTGATGCGGAATCCATGATGGTACTGAAGGACTTCGTTAACAGAATGGGCTCAGACAATGTATGGTGTGAAGGAACAGCTGCTGGTGTTGATGCTGATCTTAGATACAGTTATCTGATGAACACTAGCATCAGTGGACTTGAAAACGCCGATCTCTTCCTTCTCATCGGTACCCAGCCTAGGGTGGAAGCTGCAATGGTGAATGCTAGGATCTGCAAGACAGTCCGTGCATCAAATGCCAAGGTTGGATATGTTGGTCCACCTGCAGAGTTCAATTACGACTGCAAACACCTCGGGACTGGGCCTGATACTCTCAAGGAAATTGCTGAGGGACGGCATCCATTCTGTACGGCTCTCAAGAACGCCAAAAACCCTGCAATCATTGTTGGTGCTGGGCTCTTCAACAGAACTGATAAAAATGCTATCCTCTCTTCTGTGGAGTCCATTGCACAAGCCAACAATGTTGTCCGACCAGACTGGAACGGTCTCAACTTTCTCCTTCAGTATGCTGCCCAAGCGGCTGCTCTTGATCTTGGTCTCATTCAACAGTCCGCCAAAGCCCTCGAGTCTGCAAAATTCGTCTACTTGATGGGAGCAGACGATGTAAATGTTGACAAGATTCCTAAAGACGCCTTTGTGGTTTACCAAGGACACCATGGAGACAAAGCGGTTTACCGTGCAAACGTAATTCTCCCTGCATCGGCCTTCACTGAGAAAGAAGGAACCTATGAAAATACTGAAGGATTTACCCAACAGACTGTTCCAGCTGTTCCAACAGTTGGTGATGCAAGAGATGACTGGAAGATTGTGAGAGCCTTATCCGAGGTCTCGGGTGTGAAGCTTCCATACAACTCAATCGAAGGTGTTAGATCAAGAATAAAGAGCGTTGCACCAAATCTAGTCCACACAGATGAGCGAGAGCCAGCTGCTTTTGGGCCTTCATTGAAGCCTGAGTGCAAGGAGGCAATGAGCACAACACCGTTCCAAACCGTGGTTGAGAACTTTTACATGACAAACTCGATCACAAGAGCATCAAAGATCATGGCGCAGTGCAGTGCCGTGCTCTTGAAAAAGTGAGAGCTTTAACTTGGGTTTTCACATTTTCTCTCTTTTCGCAAAAATAAAGATACTGATTCTTCGTTTGCTGTCCTCTTTATAGACCTTTTGTTTAAGCCTGAGTATCACTGTATCTCGGGTTTAGCTTGCGGTGAAATCTATAAGCAATTTGCAATAAGCACATTGTTAGATTCAAAACTTTGCAGTGTTAATTGGATGCTTTGTGGCATCTTGTATTGTTCTTATTAGGACTCCCTTTTACATTTGCATATATGAATTTGGAGGCATGGCGATATATACAATCTCTACTTTTATCGTTTGTTCTTAACCATTGTGATTGTTACAAATAATGCAAATCTTGA - >AT5G37510.2
CAATTATAATATCCAAAATAAAAGCCCATAAAGCCCAAAACTCACTCATTCGTGTCTCCTTCTCTCTCGCACAAATGCTTCAGGAGTTCTCACAACAAGATCGAGAAATACACACATAGAAGACGAAGAAGAAGAAGAAGACGATACAGATCCACAACGCCATGGGTTTAGGCATCTTAGCTTCTCGAACAATTCGACCAGCTTCACGTCTTCTTCAATCTCAAACCTCCAATTTCTTCCTCCGCACAATCGTCTCAAAACCAGAGCTCCAATCTCCTGAATCCGCTGCTGTCTCTGAGCCTGAGCCGCCGACACAGATTCTCCCTCCTAGAAACCCTGTAGGTGGAGCACGCGTCCACTTCTCGAATCCTGAAGATGCGATCGAGGTCTTTGTCGATGGTTACGCGGTCAAAGTCCCTAAAGGATTCACTGTTCTTCAGGCTTGTGAGGTCGCTGGAGTTGATATCCCGAGGTTTTGTTATCATTCTCGTTTATCTATTGCTGGAAATTGCAGGATGTGTCTTGTTGAGGTTGAGAAATCTCCTAAGCCTGTAGCTTCATGTGCCATGCCTGCGCTTCCTGGGATGAAGATTAAGACTGATACACCGATAGCTAAGAAGGCGAGGGAGGGAGTGATGGAGTTTTTGTTGATGAATCACCCTTTGGATTGTCCTATTTGTGACCAAGGAGGAGAGTGTGATCTTCAGGATCAGTCTATGGCTTTTGGATCTGATAGAGGACGTTTTACTGAGATGAAAAGATCTGTTGTTGATAAGAATCTTGGTCCTCTTGTGAAGACTGTTATGACTCGGTGTATCCAGTGTACAAGGTGTGTACGATTTGCTTCTGAAGTTGCTGGGGTTCAGGATCTTGGTATACTAGGTCGTGGTAGTGGAGAGGAAATTGGAACTTATGTTGAAAAGCTTATGACCAGTGAACTCTCTGGAAATGTTATTGATATCTGTCCTGTTGGAGCCTTGACCTCAAAGCCTTTTGCCTTTAAAGCCAGAAACTGGGAGTTGAAAGCAACAGAAACTATTGATGTTAGTGATGCTGTTGGGTCCAACATCCGTGTTGATAGTAGAGGACCAGAAGTAATGCGTATCATTCCACGCCTGAATGAGGATATAAACGAAGAATGGATATCTGACAAAACCCGATTCTGTTATGACGGCCTGAAAAGACAAAGGCTGAGCGACCCTATGATCCGAGATTCCGATGGACGATTCAAGGCAGTGAGCTGGCGTGATGCCTTGGCTGTTGTGGGTGATATCATTCATCAGGTGAAGCCAGATGAGATTGTTGGAGTAGCAGGTCAGCTATCTGATGCGGAATCCATGATGGTACTGAAGGACTTCGTTAACAGAATGGGCTCAGACAATGTATGGTGTGAAGGAACAGCTGCTGGTGTTGATGCTGATCTTAGATACAGTTATCTGATGAACACTAGCATCAGTGGACTTGAAAACGCCGATCTCTTCCTTCTCATCGGTACCCAGCCTAGGGTGGAAGCTGCAATGGTGAATGCTAGGATCTGCAAGACAGTCCGTGCATCAAATGCCAAGGTTGGATATGTTGGTCCACCTGCAGAGTTCAATTACGACTGCAAACACCTCGGGACTGGGCCTGATACTCTCAAGGAAATTGCTGAGGGACGGCATCCATTCTGTACGGCTCTCAAGAACGCCAAAAACCCTGCAATCATTGTTGGTGCTGGGCTCTTCAACAGAACTGATAAAAATGCTATCCTCTCTTCTGTGGAGTCCATTGCACAAGCCAACAATGTTGTCCGACCAGACTGGAACGGTCTCAACTTTCTCCTTCAGTATGCTGCCCAAGCGGCTGCTCTTGATCTTGGTCTCATTCAACAGTCCGCCAAAGCCCTCGAGTCTGCAAAATTCGTCTACTTGATGGGAGCAGACGATGTAAATGTTGACAAGATTCCTAAAGACGCCTTTGTGGTTTACCAAGGACACCATGGAGACAAAGCGGTTTACCGTGCAAACGTAATTCTCCCTGCATCGGCCTTCACTGAGAAAGAAGGAACCTATGAAAATACTGAAGGATTTACCCAACAGACTGTTCCAGCTGTTCCAACAGTTGGTGATGCAAGAGATGACTGGAAGATTGTGAGAGCCTTATCCGAGGTCTCGGGTGTGAAGCTTCCATACAACTCAATCGAAGGTGTTAGATCAAGAATAAAGAGCGTTGCACCAAATCTAGTCCACACAGATGAGCGAGAGCCAGCTGCTTTTGGGCCTTCATTGAAGCCTGAGTGCAAGGAGGCAATGAGCACAACACCGTTCCAAACCGTGGTTGAGAACTTTTACATGACAAACTCGATCACAAGAGCATCAAAGATCATGGCGCAGTGCAGTGCCGTGCTCTTGAAAAAGTGAGAGCTTTAACTTGGGTTTTCACATTTTCTCTCTTTTCGCAAAAATAAAGATACTGATTCTTCGTTTGCTGTCCTCTTTATAGACCTTTTGTTTAAGCCTGAGTATCACTGTATCTCGGGTTTAGCTTGCGGTGAAATCTATAAGCAATTTGCAATAAGCACATTGTTAGATTCAAAACTTTGCAGTGTTAATTGGATGCTTTGTGGCATCTTGTATTGTTCTTATTAGGACTCCCTTTTACATTTGCATATATGAATTTGGAGGCATGGCGATATATACAATCTCTACTTTTATCGTTTGTTCTTAACCATTGTGATTGTTACAAATAATGCAAATCTTGA
CDS Sequence
Protein Sequence