Synthesis of nitrogenase in mutants of the cyanobacterium Anabaena sp. strain PCC 7120 affected in heterocyst development or metabolism.

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J Bacteriol. 1992 October; 174(19): 6025-6032

research-article

Synthesis of nitrogenase in mutants of the cyanobacterium Anabaena sp. strain PCC 7120 affected in heterocyst development or metabolism.

A Ernst, T Black, Y Cai, J M Panoff, D N Tiwari and C P Wolk

MSU-DOE Plant Research Laboratory, Michigan State University, East Lansing 48824-1312.

ABSTRACT

Mutants of Anabaena sp. strain PCC 7120 that are incapable ofsustained growth with air as the sole source of nitrogen weregenerated by using Tn5-derived transposons. Nitrogenase wasexpressed only in mutants that showed obvious morphologicalsigns of heterocyst differentiation. Even under rigorously anaerobicconditions, nitrogenase was not synthesized in filaments thatwere unable to develop heterocysts. These results suggest thatcompetence to synthesize nitrogenase requires a process thatleads to an early stage of visible heterocyst development andare consistent with the idea that synthesis of nitrogenase isunder developmental control (J. Elhai and C. P. Wolk, EMBO J.9:3379-3388, 1990). We isolated mutants in which differentiationwas arrested at an intermediate stage of heterocyst formation,suggesting that differentiation proceeds in stages; those mutants,as well as mutants with aberrant heterocyst envelopes and amutant with defective respiration, expressed active nitrogenaseunder anaerobic conditions only. These results support the ideathat the heterocyst envelope and heterocyst respiration arerequired for protection of nitrogenase from inactivation byoxygen. In the presence of air, such mutants contained lessnitrogenase than under anaerobic conditions, and the Fe-proteinwas present in a posttranslationally modified inactive form.We conclude that internal partial oxygen pressure sufficientto inactivate nitrogenase is insufficient to repress synthesisof the enzyme completely. Among mutants with an apparently intactheterocyst envelope and normal respiration, three had virtuallyundetectable levels of dinitrogenase reductase under all conditionsemployed. However, three others expressed oxygen-sensitive nitrogenaseactivity, suggesting that respiration and barrier to diffusionof gases may not suffice for oxygen protection of nitrogenasein these mutants; two of these mutants reduced acetylene toethylene and ethane.

J Bacteriol. 1992 October; 174(19): 6025-6032

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