Influence of Iron Deprivation on the Membrane Composition of Anacystis Nidulans

Overview

Journal Plant Physiol

Specialty Physiology

Date 1984 Jan 1

PMID 16663393

Citations 28

Authors

J A Guikema

L A Sherman

Affiliations

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Abstract

Cultures of the cyanobacterium Anacystis nidulans were grown under iron-deficient conditions and then restored by the addition of iron. Membrane proteins from iron-deficient and iron-restored cells were analyzed by lithium dodecyl sulfate-polyacrylamide gradient gel electrophoresis. The incorporation of [(35)S]sulfate into membrane proteins and lactoperoxidase-catalyzed (125)I iodination were used to monitor the rates of polypeptide biosynthesis and surface exposure of membrane proteins, respectively. These polypeptide profiles revealed major differences in the membrane composition of iron-deficient and normal cells. Iron deficiency caused a decrease in the amount of certain important membrane proteins, reflecting a decreased rate of biosynthesis of these peptides. Several photosystem II peptides also showed an increase in surface exposure after iron stress. In addition, iron deficiency led to the synthesis of proteins at 34 and 52 kilodaltons which were not present in normal cells. When iron was restored to a deficient culture, a metabolic sequence was initiated within the first 12 h after the addition of iron which led to phenotypically normal cells. Pulse labeling with [(35)S]sulfate during this period demonstrated that iron addition initiates a coordinated pattern of synthesis that leads to the assembly of normal membranes.

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