Kozo Makino
Osaka University
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Featured researches published by Kozo Makino.
Journal of Molecular Biology | 1989
Kozo Makino; Hideo Shinagawa; Mitsuko Amemura; Takeshi Kawamoto; Masami Yamada; Atsuo Nakata
PhoB protein is the transcriptional activator for genes in the phosphate regulon of Escherichia coli, such as phoA and pstS, that are induced by phosphate deprivation. PhoR protein activates PhoB when phosphate is limiting and inactivates it when phosphate is in excess. We constructed a plasmid with a mutant phoR gene (phoR1084), which encoded a PhoR protein (PhoR1084) lacking the amino-terminal hydrophobic region of the intact protein. The cells carrying the plasmid overproduced PhoR1084, which was recovered in the soluble fraction of the cell lysate. We purified the Phor1084 protein and showed that it was autophosphorylated in the presence of ATP, and the phosphate group on the protein was rapidly transferred to PhoB. The phosphorylation of PhoB protein occurred concurrently with the acquisition of the ability to activate transcription from the pstS promoter. On the basis of these findings, we propose that phosphorylated PhoB protein activates transcription from the promoters of the phosphate regulon, and that the role of PhoR is to catalyze the formation and breakdown of phosphorylated PhoB in response to phosphate concentrations in the medium.
Journal of Molecular Biology | 1988
Kozo Makino; Hideo Shinagawa; Mitsuko Amemura; Sigenobu Kimura; Atsuo Nakata; Akira Ishihama
Expression of the genes in the phosphate regulon, including the pstS (phoS) and phoB genes, is positively regulated by PhoB protein when phosphate is limited. We purified PhoB protein from overproducing cells and studied its interaction with the pstS gene. It binds specifically to the DNA fragment containing the promoter region of pstS. The transcription initiation site of the gene in vivo was identified by S1 nuclease mapping and primer-extension experiments. In-vitro transcription of pstS was activated by the PhoB protein, and the initiation site of transcription agreed with the in-vivo initiation site. Activation of in-vitro transcription by PhoB protein required both the normal sigma factor (sigma 70) and core RNA polymerase. PhoB protein binding sites on the promoter regions of pstS and phoB were determined by footprinting experiments with DNase I and a methylating agent. In both cases the protein binds to the pho box, the concensus sequence shared by regulatory regions of genes in the phosphate regulon. Our findings indicate that PhoB protein recognizes and binds to the pho box and activates transcription of the genes in the phosphate regulon.
Molecular Genetics and Genomics | 1989
Sigenobu Kimura; Kozo Makino; Hideo Shinagawa; Mitsuko Amemura; Atsuo Nakata
SummaryThe pstS gene belongs to the phosphate regulon whose expression is induced by phosphate starvation and regulated positively by the PhoB protein. The phosphate (pho) box is a consensus sequence shared by the regulatory regions of the genes in the pho regulon. We constructed two series of deletion mutations in a plasmid in vitro, with upstream and downstream deletions in the promoter region of pstS, which contains two pho boxes in tandem, and studied their promoter activity by connecting them with a promoterless gene for chloramphenicol acetyltransferase. Deletions extending into the upstream pho box but retaining the downstream pho box greatly reduced promoter activity, but the remaining activity was still regulated by phosphate levels in the medium and by the PhoB protein, indicating that each pho box is functional. No activity was observed in deletion mutants which lacked the remaining pho box or the-10 region. Therefore, the pstS promoter was defined to include the two pho boxes and the-10 region. The PhoB protein binding region in the pstS regulatory region was studied with the deletion plasmids by a gelmobility retardation assay. The results suggest the protein binds to each pho box on the pstS promoter. A phoB deletion mutant was constructed, and we demonstrated that expression of pstS was strictly dependent on the function of the PhoB protein.
Journal of Bacteriology | 1989
Atsuo Nakata; Mitsuko Amemura; Kozo Makino
Journal of Bacteriology | 1988
Hideo Shinagawa; Kozo Makino; Mitsuko Amemura; Sigenobu Kimura; Hiroshi Iwasaki; Atsuo Nakata
Journal of Bacteriology | 1991
M Kasahara; Kozo Makino; Mitsuko Amemura; Atsuo Nakata; Hideo Shinagawa
Journal of Bacteriology | 1991
Kozo Makino; Soo-Ki Kim; Hideo Shinagawa; Mitsuko Amemura; Atsuo Nakata
Journal of Bacteriology | 1989
Masami Yamada; Kozo Makino; Mitsuko Amemura; Hideo Shinagawa; Atsuo Nakata
Journal of Bacteriology | 1989
Hiroshi Iwasaki; Toshikazu Shiba; Kozo Makino; Atsuo Nakata; Hideo Shinagawa
Journal of Bacteriology | 1989
Tae-Yoon Lee; Kozo Makino; Hideo Shinagawa; Mitsuko Amemura; Atsuo Nakata