Information report for AT3G16290
Gene Details
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Functional Descriptions
- GO:0009941 — located in — chloroplast envelope
- GO:0009534 — is active in — chloroplast thylakoid
- GO:0009793 — acts upstream of or within — embryo development ending in seed dormancy
- GO:0004176 — enables — ATP-dependent peptidase activity
- GO:0005515 — enables — protein binding
- GO:0016464 — enables — chloroplast protein-transporting ATPase activity
- GO:0004222 — enables — metalloendopeptidase activity
- GO:0062091 — part of — Ycf2/FtsHi complex
- GO:0009507 — located in — chloroplast
- GO:0016887 — enables — ATP hydrolysis activity
Functional Keywords
Literature and News
- The gene complement for proteolysis in the cyanobacterium Synechocystis sp. PCC 6803 and Arabidopsis thaliana chloroplasts. DOI: 10.1007/s00294-002-0309-8 ; PMID: 12185496
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- The Arabidopsis FtsH metalloprotease gene family: interchangeability of subunits in chloroplast oligomeric complexes. DOI: 10.1111/j.1365-313x.2003.02014.x ; PMID: 14996218
- Identification of genes required for embryo development in Arabidopsis. DOI: 10.1104/pp.104.045179 ; PMID: 15266054
- Laser capture microdissection for the analysis of gene expression during embryogenesis of Arabidopsis. DOI: 10.1111/j.1365-313X.2005.02355.x ; PMID: 15773857
- Identification of nuclear genes encoding chloroplast-localized proteins required for embryo development in Arabidopsis. DOI: 10.1104/pp.110.168120 ; PMID: 21139083
- FtsH proteases located in the plant chloroplast. DOI: 10.1111/j.1399-3054.2011.01548.x ; PMID: 22121866
- Nitrogen remobilization during leaf senescence: lessons from Arabidopsis to crops. DOI: 10.1093/jxb/erw365 ; PMID: 27707774
- Plastidial NAD-Dependent Malate Dehydrogenase: A Moonlighting Protein Involved in Early Chloroplast Development through Its Interaction with an FtsH12-FtsHi Protease Complex. DOI: 10.1105/tpc.18.00121 ; PMID: 29934433
- A Ycf2-FtsHi Heteromeric AAA-ATPase Complex Is Required for Chloroplast Protein Import. DOI: 10.1105/tpc.18.00357 ; PMID: 30309901
- Reduced expression of the proteolytically inactive FtsH members has impacts on the Darwinian fitness of Arabidopsis thaliana. DOI: 10.1093/jxb/erz004 ; PMID: 30721974
- Genome-wide identification of EMBRYO-DEFECTIVE (EMB) genes required for growth and development in Arabidopsis. DOI: 10.1111/nph.16071 ; PMID: 31334862
- Proteomic study of the Arabidopsis thaliana chloroplastic envelope membrane utilizing alternatives to traditional two-dimensional electrophoresis. DOI: 10.1021/pr034025j ; PMID: 12938931
- Sorting signals, N-terminal modifications and abundance of the chloroplast proteome. DOI: 10.1371/journal.pone.0001994 ; PMID: 18431481
Gene Resources
Homologs
- Brassica oleracea Bol025435, Bo5g126260
Sequences
cDNA Sequence
- >AT3G16290.1
GTTCTGTGTTCTGTTTCTTCTATCCCTTTAGCCTGGGAAATGATGAAGCTCATTGCTACGTTTTAATGGCGATCACTCTATCTCGACTAGCTTGGTTTATTGCAATTCACTTCTTCATGTAAGTTAAATTCACTCTACTTCAATTGAATCACATCATGGCTTGTCGTTTCCCTCTGCATTCTTCGTCACCTTCTCAATTCCTTTCACCGGAAAATCGTCAGAGACTACCCAGAAATTACCCTTCAATCTCATGCCAAAACAATTCAGCTACGAACGTTGTCCATGAAGATGGTGATGATAACGACAAAGCCAAGACAAACCAAGTCAATCTTCTCGCAATACCAATCACACTCACTATAATCTCCGCTTCTCTAGCCAAACCGTCGTTCGCGGCTGCGAAGGTAACGGAGAGAAAGAGAACTCAGAAGAAACCTCAGGAGGCTTTGACACTTGAACAGCTTAAAGCTTGGTCCAAAGATTTACCTGTAGTTTCGAATCGTATACCTTATACTGACATTTTGAGCTTAAAAGCTGAAGGTAAGCTTAAGCATGTGATAAAGCCTCCTAATTTAAGTTTGCGGCAAAAGGCAGAGCCTGTGTTAGTAGTTTTGGAGGATTCTAGAGTATTAAGGACTGTGTTGCCTTCTTTAGAGGGTAATAAGAGGTTTTGGGAACAATGGGATGAGTTAGGGATTGATGTACAATGTGTTAATGCTTATACTCCTCCGGTTAAGAGACCTCCTGTGCCGTCTCCTTATTTAGGATTTTTGTGGAAAGTTCCTGCTTATATGTTAACATGGGTTAAGCCAAAGAAGGAGTCTAAACGTGCTGCTGAGTTGAAGAGAATGAGGGAGGATTTCAAGAGGCAGAGGAAGGAGGAGATTGAGACGATGAAAGAGGAAAGAGTGATGATGGAAAAGACAATGAAGGCGCAGAAGAAACAACAGGAGAGGAAGAAAAGGAAGGCTGTTAGGAAGAAGAAATACGAGGAGTCTCTGCGTGAGGCGAGGAAAAATTATCGAGATATGGCGGATATGTGGGCAAGATTGGCTCAGGATCCTAATGTGGCTACTGCTCTTGGATTGGTATTCTTTTATATATTTTACCGTGTGGTGGTTCTCAACTATAGGAAGCAAAAGAAGGATTATGAAGACAGGTTGAAGATTGAGAAGGCGGAAGCAGATGAGAGGAAGAAAATGAGGGAGTTGGAAAGGGAGATGGAGGGAATTGAGGAAGAGGATGAGGAGGTTGAGGAAGGTACAGGTGAGAAAAATCCTTACTTACAGATGGCGATGCAGTTCATGAAGTCAGGTGCACGTGTGAGACGAGCATCAAATAAGAGGTTACCTGAGTATCTTGAGAGAGGTGTGGATGTCAAATTTACAGATGTTGCTGGACTTGGGAAGATTCGTCTTGAACTTGAGGAAATCGTTAAGTTTTTTACTCATGGAGAGATGTACCGCAGGAGAGGGGTCAAGATTCCAGGTGGTATTCTTTTATGTGGGCCTCCTGGGGTCGGAAAAACTTTACTGGCAAAAGCTGTAGCTGGTGAAGCAGGAGTCAATTTCTTCTCTATCTCTGCTTCTCAGTTTGTGGAAATATATGTTGGTGTTGGTGCATCTCGTGTCCGAGCATTATACCAAGAAGCTAGAGAAAATGCTCCATCTGTGGTCTTCATTGATGAATTGGATGCTGTTGGAAGGGAGCGTGGGTTAATAAAGGGTTCTGGAGGACAAGAAAGGGATGCCACTCTTAATCAGCTACTTGTTTCTTTAGATGGTTTTGAAGGAAGGGGAGAGGTCATCACCATTGCTTCCACAAACAGACCAGACATTCTCGATCCTGCGCTTGTGAGGCCTGGACGGTTCGACCGCAAAATCTTTATCCCTAAACCTGGTCTTATTGGACGGATGGAAATTCTGCAGGTTCATGCTCGTAAGAAGCCGATGGCTGAAGATTTAGACTATATGGCAGTTGCTAGCATGACAGATGGCATGGTTGGAGCAGAGCTTGCTAATATTGTTGAGATCGCGGCAATTAATATGATGCGTGATGGAAGAACAGAGTTAACAACAGATGATTTGCTTCAAGCTGCACAAATAGAAGAAAGAGGAATGTTAGATAGAAAAGACAGGAGCTTGGAGACATGGCGACAAGTTGCGATCAATGAAGCTGCAATGGCTGTTGTAGCAGTGAACTTTCCTGATATGAAGAATATAGAATTTCTGACAATCAACCCTAGAGCTGGTAGAGAATTGGGTTATGTCCGGGTGAAGATGGATCATATCAAATTTAAGGAAGGCATGCTTAGTCGACAATCCATCTTGGATCACATCACTGTTCAGTTAGCACCCCGTGCTGCAGATGAACTATGGTACGGTGAGGATCAGTTAAGCACGATATGGGCTGAAACATCGGATAACGCAAGATCAGCTGCTCGATCATTGGTTCTTGGTGGTCTTTCTGATAAGCATCATGGCTTGAATAACTTCTGGGTAGCTGATCGAATTAACGATATTGATGTGGAGGCATTGCGGATATTGAACATGTGTTACGAGCGTGCTAAAGAGATTCTTGGAAGAAACAGGACGCTCATGGACGAGGTGGTAGAGAAACTGGTTCAAAAGAAAAGTCTAACGAAACAAGAATTCTTCACTCTTGTTGAGCTCTATGGGTCCAGTAAACCAATGCCACCGAGTATCCTTGAACTTAGGAAGATCAAACGGCTTGAGCTAGAAGAGATGGTGCTGAAACTGGACATGACTACCGCAAGAAACAGTTCATAAGATGATTGTAATTTGGAGAAAAGAGACAGTTCGTGACAATCGTAGGGAATAAACATCAAAAACCCATTATAGAGACAATGAGGTTGATCCTTTATCTATATTTCCTCTGTAATCTTTGTAATAGTACATGTTAGATAATTCTTTGAGCTTCAATATAGTATAACACTTCTTTTTATCCATATTGAAGCAATAGTCAATTTTAAATTGTTTCACATATCTTGAAAAAAGGATTATGAATTTTTATGTCATGAACTTATGTGGAGCATGTGGATTATTTTAATTTGCTATATATAAAAATTGGAAGACA
CDS Sequence
- >AT3G16290.1
ATGGCTTGTCGTTTCCCTCTGCATTCTTCGTCACCTTCTCAATTCCTTTCACCGGAAAATCGTCAGAGACTACCCAGAAATTACCCTTCAATCTCATGCCAAAACAATTCAGCTACGAACGTTGTCCATGAAGATGGTGATGATAACGACAAAGCCAAGACAAACCAAGTCAATCTTCTCGCAATACCAATCACACTCACTATAATCTCCGCTTCTCTAGCCAAACCGTCGTTCGCGGCTGCGAAGGTAACGGAGAGAAAGAGAACTCAGAAGAAACCTCAGGAGGCTTTGACACTTGAACAGCTTAAAGCTTGGTCCAAAGATTTACCTGTAGTTTCGAATCGTATACCTTATACTGACATTTTGAGCTTAAAAGCTGAAGGTAAGCTTAAGCATGTGATAAAGCCTCCTAATTTAAGTTTGCGGCAAAAGGCAGAGCCTGTGTTAGTAGTTTTGGAGGATTCTAGAGTATTAAGGACTGTGTTGCCTTCTTTAGAGGGTAATAAGAGGTTTTGGGAACAATGGGATGAGTTAGGGATTGATGTACAATGTGTTAATGCTTATACTCCTCCGGTTAAGAGACCTCCTGTGCCGTCTCCTTATTTAGGATTTTTGTGGAAAGTTCCTGCTTATATGTTAACATGGGTTAAGCCAAAGAAGGAGTCTAAACGTGCTGCTGAGTTGAAGAGAATGAGGGAGGATTTCAAGAGGCAGAGGAAGGAGGAGATTGAGACGATGAAAGAGGAAAGAGTGATGATGGAAAAGACAATGAAGGCGCAGAAGAAACAACAGGAGAGGAAGAAAAGGAAGGCTGTTAGGAAGAAGAAATACGAGGAGTCTCTGCGTGAGGCGAGGAAAAATTATCGAGATATGGCGGATATGTGGGCAAGATTGGCTCAGGATCCTAATGTGGCTACTGCTCTTGGATTGGTATTCTTTTATATATTTTACCGTGTGGTGGTTCTCAACTATAGGAAGCAAAAGAAGGATTATGAAGACAGGTTGAAGATTGAGAAGGCGGAAGCAGATGAGAGGAAGAAAATGAGGGAGTTGGAAAGGGAGATGGAGGGAATTGAGGAAGAGGATGAGGAGGTTGAGGAAGGTACAGGTGAGAAAAATCCTTACTTACAGATGGCGATGCAGTTCATGAAGTCAGGTGCACGTGTGAGACGAGCATCAAATAAGAGGTTACCTGAGTATCTTGAGAGAGGTGTGGATGTCAAATTTACAGATGTTGCTGGACTTGGGAAGATTCGTCTTGAACTTGAGGAAATCGTTAAGTTTTTTACTCATGGAGAGATGTACCGCAGGAGAGGGGTCAAGATTCCAGGTGGTATTCTTTTATGTGGGCCTCCTGGGGTCGGAAAAACTTTACTGGCAAAAGCTGTAGCTGGTGAAGCAGGAGTCAATTTCTTCTCTATCTCTGCTTCTCAGTTTGTGGAAATATATGTTGGTGTTGGTGCATCTCGTGTCCGAGCATTATACCAAGAAGCTAGAGAAAATGCTCCATCTGTGGTCTTCATTGATGAATTGGATGCTGTTGGAAGGGAGCGTGGGTTAATAAAGGGTTCTGGAGGACAAGAAAGGGATGCCACTCTTAATCAGCTACTTGTTTCTTTAGATGGTTTTGAAGGAAGGGGAGAGGTCATCACCATTGCTTCCACAAACAGACCAGACATTCTCGATCCTGCGCTTGTGAGGCCTGGACGGTTCGACCGCAAAATCTTTATCCCTAAACCTGGTCTTATTGGACGGATGGAAATTCTGCAGGTTCATGCTCGTAAGAAGCCGATGGCTGAAGATTTAGACTATATGGCAGTTGCTAGCATGACAGATGGCATGGTTGGAGCAGAGCTTGCTAATATTGTTGAGATCGCGGCAATTAATATGATGCGTGATGGAAGAACAGAGTTAACAACAGATGATTTGCTTCAAGCTGCACAAATAGAAGAAAGAGGAATGTTAGATAGAAAAGACAGGAGCTTGGAGACATGGCGACAAGTTGCGATCAATGAAGCTGCAATGGCTGTTGTAGCAGTGAACTTTCCTGATATGAAGAATATAGAATTTCTGACAATCAACCCTAGAGCTGGTAGAGAATTGGGTTATGTCCGGGTGAAGATGGATCATATCAAATTTAAGGAAGGCATGCTTAGTCGACAATCCATCTTGGATCACATCACTGTTCAGTTAGCACCCCGTGCTGCAGATGAACTATGGTACGGTGAGGATCAGTTAAGCACGATATGGGCTGAAACATCGGATAACGCAAGATCAGCTGCTCGATCATTGGTTCTTGGTGGTCTTTCTGATAAGCATCATGGCTTGAATAACTTCTGGGTAGCTGATCGAATTAACGATATTGATGTGGAGGCATTGCGGATATTGAACATGTGTTACGAGCGTGCTAAAGAGATTCTTGGAAGAAACAGGACGCTCATGGACGAGGTGGTAGAGAAACTGGTTCAAAAGAAAAGTCTAACGAAACAAGAATTCTTCACTCTTGTTGAGCTCTATGGGTCCAGTAAACCAATGCCACCGAGTATCCTTGAACTTAGGAAGATCAAACGGCTTGAGCTAGAAGAGATGGTGCTGAAACTGGACATGACTACCGCAAGAAACAGTTCATAA
Protein Sequence
- >AT3G16290.1
MACRFPLHSSSPSQFLSPENRQRLPRNYPSISCQNNSATNVVHEDGDDNDKAKTNQVNLLAIPITLTIISASLAKPSFAAAKVTERKRTQKKPQEALTLEQLKAWSKDLPVVSNRIPYTDILSLKAEGKLKHVIKPPNLSLRQKAEPVLVVLEDSRVLRTVLPSLEGNKRFWEQWDELGIDVQCVNAYTPPVKRPPVPSPYLGFLWKVPAYMLTWVKPKKESKRAAELKRMREDFKRQRKEEIETMKEERVMMEKTMKAQKKQQERKKRKAVRKKKYEESLREARKNYRDMADMWARLAQDPNVATALGLVFFYIFYRVVVLNYRKQKKDYEDRLKIEKAEADERKKMRELEREMEGIEEEDEEVEEGTGEKNPYLQMAMQFMKSGARVRRASNKRLPEYLERGVDVKFTDVAGLGKIRLELEEIVKFFTHGEMYRRRGVKIPGGILLCGPPGVGKTLLAKAVAGEAGVNFFSISASQFVEIYVGVGASRVRALYQEARENAPSVVFIDELDAVGRERGLIKGSGGQERDATLNQLLVSLDGFEGRGEVITIASTNRPDILDPALVRPGRFDRKIFIPKPGLIGRMEILQVHARKKPMAEDLDYMAVASMTDGMVGAELANIVEIAAINMMRDGRTELTTDDLLQAAQIEERGMLDRKDRSLETWRQVAINEAAMAVVAVNFPDMKNIEFLTINPRAGRELGYVRVKMDHIKFKEGMLSRQSILDHITVQLAPRAADELWYGEDQLSTIWAETSDNARSAARSLVLGGLSDKHHGLNNFWVADRINDIDVEALRILNMCYERAKEILGRNRTLMDEVVEKLVQKKSLTKQEFFTLVELYGSSKPMPPSILELRKIKRLELEEMVLKLDMTTARNSS