Choline-mediated Aggregation and Dissociation of Autolysin of Streptococcus pneumoniae(Biological Chemistry)
スポンサーリンク
概要
- 論文の詳細を見る
The low molecular weight, inactive form of pneumococcal amidase called E-amidase showed the full activity and a high molecular mass (>500kDa) when the enzyme was incubated with high concentrations of choline followed by the removal of excess choline. Before the removal of choline, the enzyme showed a low molecular mass-material (about 36kDa) similar to that of the original E-amidase, suggesting that the aggregation of the protein took place upon the removal of choline. Furthermore, the addition of choline to the native C-amidase (active form) which had a high molecular mass (>500kDa) caused dissociation to a low molecular mass enzyme (about 36kDa) in the presence of choline. These dissociated enzymes reaggregated upon the removal of choline.
- 社団法人日本農芸化学会の論文
- 1990-05-23
著者
-
Shinagawa Akira
Department Of Applied Biological Science Faculty Of Science And Technology Science University Of Tok
-
Seto Hiroyuki
Department Of Applied Biological Science Faculty Of Science And Technology Science University Of Tok
-
Seto Hiroyuki
Department Of Applied Biological Science Faculty Of Science And Technology Science University Of Tok
関連論文
- High-turnover osteoporosis is induced by cyclosporin A in rats
- Integrated Pyroelectric Infrared Sensor Using PbTiO_3 Thin Film : C-3: SENSORS
- Conversion of Pneumococcal Inactive Amidase to the Active Form by Several Structural Analogues of Choline(Biological Chemistry)
- Isolation and Characterization of a Transformation Deficient Mutant of Streptococcus pneumoniae that is Defective in the Production of an Activator(Microbiology & Fermentation Industry)
- Effects of pH on the Aggregation of Choline-treated E-Amidase of Streptococcus pneumoniae(Biological Chemistry)
- Choline-mediated Aggregation and Dissociation of Autolysin of Streptococcus pneumoniae(Biological Chemistry)
- Genetic Transformation in a Synchronous Culture of Streptococcus pneumoniae(Microbiology & Fermentation Industry)
- 14. Assessment of bone mineral density in rat by using pQCT.
- Identification of Arsenobetaine as a Major Arsenic Compound in the Ivory Shell Buccinum striatissimum