AT5G36880.1
Subcellular Consensus
(Prediction and Experimental) min: :max .
SUBAcon:plastid 1.000 ASURE: plastid What is SUBAcon? |
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Experimental Localisations and PPI |
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SUBAcon links
AGI-AGI relationships |
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Description (TAIR10) | protein_coding : acetyl-CoA synthetase | ||||||||||||||||||||
Curator Summary (TAIR10) |
Encodes a plastidic acetyl-coA synthetase. This enzyme plays a role in converting acetate to acetyl-coA in the plastids. It does not appear to be a major contributor to fatty acid biosynthesis based on mutant phenotypes. The enzyme seems to act as a monomer and may play an important role in preventing the toxic accumulation of fermentation products including acetaldehyde, acetate, and ethanol. It participates in the pyruvate dehydrogenase bypass pathway | ||||||||||||||||||||
Computational Description (TAIR10) |
acetyl-CoA synthetase (ACS); FUNCTIONS IN: acetate-CoA ligase activity; INVOLVED IN: metabolic process, acetate metabolic process; LOCATED IN: cytosol, chloroplast stroma, chloroplast; EXPRESSED IN: 26 plant structures; EXPRESSED DURING: 15 growth stages; CONTAINS InterPro DOMAIN/s: Acetate--CoA ligase (InterPro:IPR011904), AMP-binding, conserved site (InterPro:IPR020845), AMP-dependent synthetase/ligase (InterPro:IPR000873); BEST Arabidopsis thaliana protein match is: acyl-activating enzyme 17 (TAIR:AT5G23050.1); Has 1807 Blast hits to 1807 proteins in 277 species: Archae - 0; Bacteria - 0; Metazoa - 736; Fungi - 347; Plants - 385; Viruses - 0; Other Eukaryotes - 339 (source: NCBI BLink). | ||||||||||||||||||||
Protein Annotations |
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Coordinates (TAIR10) | chr5:-:14534961..14539084 | ||||||||||||||||||||
Molecular Weight (calculated) | 76737.10 Da | ||||||||||||||||||||
IEP (calculated) | 5.32 | ||||||||||||||||||||
GRAVY (calculated) | -0.17 | ||||||||||||||||||||
Length | 693 amino acids | ||||||||||||||||||||
Sequence (TAIR10) (BLAST) |
001: MSSNSLRHVE SMSQLPSGAG KISQLNAVVL GESLASEEND LVFPSKEFSG QALVSSPQQY MEMHKRSMDD PAAFWSDIAS EFYWKQKWGD QVFSENLDVR 101: KGPISIEWFK GGITNICYNC LDKNVEAGLG DKTAIHWEGN ELGVDASLTY SELLQRVCQL ANYLKDNGVK KGDAVVIYLP MLMELPIAML ACARIGAVHS 201: VVFAGFSADS LAQRIVDCKP NVILTCNAVK RGPKTINLKA IVDAALDQSS KDGVSVGICL TYDNSLATTR ENTKWQNGRD VWWQDVISQY PTSCEVEWVD 301: AEDPLFLLYT SGSTGKPKGV LHTTGGYMIY TATTFKYAFD YKSTDVYWCT ADCGWITGHS YVTYGPMLNG ATVVVFEGAP NYPDPGRCWD IVDKYKVSIF 401: YTAPTLVRSL MRDDDKFVTR HSRKSLRVLG SVGEPINPSA WRWFFNVVGD SRCPISDTWW QTETGGFMIT PLPGAWPQKP GSATFPFFGV QPVIVDEKGN 501: EIEGECSGYL CVKGSWPGAF RTLFGDHERY ETTYFKPFAG YYFSGDGCSR DKDGYYWLTG RVDDVINVSG HRIGTAEVES ALVLHPQCAE AAVVGIEHEV 601: KGQGIYAFVT LLEGVPYSEE LRKSLVLMVR NQIGAFAAPD RIHWAPGLPK TRSGKIMRRI LRKIASRQLE ELGDTSTLAD PSVVDQLIAL ADV |
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See Also |
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Citation
If you find this resource useful please cite one of the following publications:
Hooper CM, Castleden I, Tanz SK, Aryamanesh, and Millar, AH (2017) SUBA4: the interactive data analysis centre for Arabidopsis subcellular protein locations Nucleic Acids Res. Jan 4;45(D1):D1064-D1074. doi: 10.1093/nar/gkw1041 (PubMed)
Hooper CM, Tanz SK, Castleden IR, Vacher MA, Small ID, Millar AH (2014) "SUBAcon: a consensus algorithm for unifying the subcellular localization data of the Arabidopsis proteome. Bioinformatics." 1;30(23):3356-64. (Bioinformatics) (PubMed)