Your search keyword '"Li, Peng-Yun"' showing total 2 results

1. A SALT-INDUCED CHLOROPLAST PROTEIN IN DUNALIELLA SALINA (CHLOROPHYTA)1

Author

Li Peng-Yun, Xia Zhong-Hao, Zhang Xiaoning, Liu Zhili, and Lu Shan

Subjects

biology, Osmotic concentration, Plant Science, Chlorophyta, Hill reaction, Aquatic Science, Photosynthesis, biology.organism_classification, Halophile, Chloroplast, chemistry.chemical_compound, chemistry, Biochemistry, Dunaliella salina, Glycerol

Abstract

The unicellular green alga Dunaliella salina Teod, is halophilic and wall-less. The cell acclimates to osmotic stresses by accumulation or degradation of glycerol. To investigate other mechanisms involved in its physiological recovery following hyperosmotic shocks, protein profiles from cells grown in various salinities were compared. A 13-kDa protein (P13) accumulated when cells were subjected to drastic hyperosmotic shock. Front our results with antibiotic-treated cells and purified chloroplasts, we believe that this component results from de novo translation in chloroplasts. The solubility of P13 was strongly promoted by Triton X-100. Its accumulation was correlated with the recovery of photosynthesis.

Published

1996

2. A SALT-INDUCED CHLOROPLAST PROTEIN IN <em>DUNALIELLA SALINA</em> (CHLOROPHYTA).

Author

Lu Shan, Zhang Xiao-Ning, Edward J., Li Peng-Yun, Edward J., Liu Zhi-Li, Edward J., and Xia Zhong-Hao, Edward J.

Subjects

GREEN algae, CHLOROPLASTS, PROTEINS, SALT, OSMOREGULATION

Abstract

The unicellular green alga Dunaliella salina Teod. is halophilic and wall-less. The cell acclimates to osmotic stresses by accumulation or degradation of glycerol. To investigate other mechanisms involved in its physiological recovery following hyperosmotic shocks, protein profiles from cells grown in various salinities were compared. A 13-kDa protein (P13) accumulated when cells were subjected to drastic hyperosmotic shock. From our results with antibiotic-treated cells and purified chloroplasts, we believe that this component results from de novo translation in chloroplasts. The solubility of P13 was strongly promoted by Triton X-100. Its accumulation was correlated with the recovery of photosynthesis. [ABSTRACT FROM AUTHOR]

Published

1996