Two enzymes, TilS and HprT, can form a complex to function as a transcriptional activator for the cell division protease gene ftsH in Bacillus subtilis

The FtsH protein is an ATP-dependent cytoplasmic membrane protease involved in the control of membrane protein quality, cell division and heat shock response in Bacillus subtilis and many other bacteria. TilS, the tRNA(Ile2) lysidine synthetase, is a tRNA-binding protein that can modify pre-tRNA(Ile...

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Veröffentlicht in:	Journal of biochemistry (Tokyo) 2014-01, Vol.155 (1), p.5-16
Hauptverfasser:	Lin, Ta-Hui, Hu, Yi-Nei, Shaw, Gwo-Chyuan
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino Acid Sequence Amino Acyl-tRNA Synthetases - genetics Amino Acyl-tRNA Synthetases - physiology Bacillus subtilis - enzymology Bacillus subtilis - metabolism Bacillus subtilis - physiology Bacterial Proteins - genetics Bacterial Proteins - physiology Base Sequence Cell Division Chromatography, Gel Electrophoretic Mobility Shift Assay Gene Expression Regulation, Bacterial Molecular Sequence Data Peptide Hydrolases - genetics Peptide Hydrolases - metabolism Real-Time Polymerase Chain Reaction Trans-Activators - physiology
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container_title	Journal of biochemistry (Tokyo)
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creator	Lin, Ta-Hui Hu, Yi-Nei Shaw, Gwo-Chyuan
description	The FtsH protein is an ATP-dependent cytoplasmic membrane protease involved in the control of membrane protein quality, cell division and heat shock response in Bacillus subtilis and many other bacteria. TilS, the tRNA(Ile2) lysidine synthetase, is a tRNA-binding protein that can modify pre-tRNA(Ile2). HprT, the hypoxanthine-guanine phosphoribosyltransferase, is implicated in purine salvage. Both tilS and hprT are essential for cell viability of B. subtilis. In this report, by co-purification experiments and gel filtration analyses, we show that there is complex formation between co-expressed TilS and HprT. Electrophoretic mobility shift assays and in vitro transcription analyses demonstrated that the TilS/HprT complex functions as a specific DNA-binding protein that can stimulate ftsH transcription in vitro. Two regions located upstream of the ftsH promoter have been identified as the TilS/HprT-binding sites and shown to be required for TilS/HprT-dependent ftsH transcription in vitro and in vivo. Results from gel supershift assays support the notion that the TilS/HprT complex likely employs its distinct segments for interaction with these two distinct TilS/HprT-binding sites, respectively. In conclusion, we present the first evidence that bi-functional TilS and HprT can form a complex to function as a transcriptional activator to stimulate ftsH transcription.
doi_str_mv	10.1093/jb/mvt081
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TilS, the tRNA(Ile2) lysidine synthetase, is a tRNA-binding protein that can modify pre-tRNA(Ile2). HprT, the hypoxanthine-guanine phosphoribosyltransferase, is implicated in purine salvage. Both tilS and hprT are essential for cell viability of B. subtilis. In this report, by co-purification experiments and gel filtration analyses, we show that there is complex formation between co-expressed TilS and HprT. Electrophoretic mobility shift assays and in vitro transcription analyses demonstrated that the TilS/HprT complex functions as a specific DNA-binding protein that can stimulate ftsH transcription in vitro. Two regions located upstream of the ftsH promoter have been identified as the TilS/HprT-binding sites and shown to be required for TilS/HprT-dependent ftsH transcription in vitro and in vivo. Results from gel supershift assays support the notion that the TilS/HprT complex likely employs its distinct segments for interaction with these two distinct TilS/HprT-binding sites, respectively. 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TilS, the tRNA(Ile2) lysidine synthetase, is a tRNA-binding protein that can modify pre-tRNA(Ile2). HprT, the hypoxanthine-guanine phosphoribosyltransferase, is implicated in purine salvage. Both tilS and hprT are essential for cell viability of B. subtilis. In this report, by co-purification experiments and gel filtration analyses, we show that there is complex formation between co-expressed TilS and HprT. Electrophoretic mobility shift assays and in vitro transcription analyses demonstrated that the TilS/HprT complex functions as a specific DNA-binding protein that can stimulate ftsH transcription in vitro. Two regions located upstream of the ftsH promoter have been identified as the TilS/HprT-binding sites and shown to be required for TilS/HprT-dependent ftsH transcription in vitro and in vivo. Results from gel supershift assays support the notion that the TilS/HprT complex likely employs its distinct segments for interaction with these two distinct TilS/HprT-binding sites, respectively. 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Results from gel supershift assays support the notion that the TilS/HprT complex likely employs its distinct segments for interaction with these two distinct TilS/HprT-binding sites, respectively. In conclusion, we present the first evidence that bi-functional TilS and HprT can form a complex to function as a transcriptional activator to stimulate ftsH transcription.</abstract><cop>England</cop><pmid>24001521</pmid><doi>10.1093/jb/mvt081</doi><tpages>12</tpages></addata></record>
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source	MEDLINE; Oxford University Press Journals All Titles (1996-Current); Alma/SFX Local Collection
subjects	Amino Acid Sequence Amino Acyl-tRNA Synthetases - genetics Amino Acyl-tRNA Synthetases - physiology Bacillus subtilis - enzymology Bacillus subtilis - metabolism Bacillus subtilis - physiology Bacterial Proteins - genetics Bacterial Proteins - physiology Base Sequence Cell Division Chromatography, Gel Electrophoretic Mobility Shift Assay Gene Expression Regulation, Bacterial Molecular Sequence Data Peptide Hydrolases - genetics Peptide Hydrolases - metabolism Real-Time Polymerase Chain Reaction Trans-Activators - physiology
title	Two enzymes, TilS and HprT, can form a complex to function as a transcriptional activator for the cell division protease gene ftsH in Bacillus subtilis
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