Heme-deficient mutants of Salmonella typhimurium: two genes required for ALA synthesis.

Elliott T; Roth JR

doi:10.1007/bf00334369

Heme-deficient mutants of Salmonella typhimurium: two genes required for ALA synthesis.

Elliott T ¹,

Roth JR

Affiliations

1. Department of Biology, University of Utah, Salt Lake City 84112.
Authors
Elliott T¹
(1 author)

Molecular & General Genetics : MGG, 01 Apr 1989, 216(2-3):303-314
https://doi.org/10.1007/bf00334369 PMID: 2664454

Abstract

The first step in heme biosynthesis is the formation of 5-aminolevulinic acid (ALA). We have isolated, mapped and characterized a large number of Salmonella typhimurium mutants auxotrophic for ALA. These mutants carry defects in either one of two genes, both required for ALA synthesis. The previously identified hemA gene maps at 35 min, and the hemL gene maps at 5 min on the S. typhimurium genetic map. Mutants in hemA and hemL are defective for aerobic and anaerobic respiration, and appear to be oxygen sensitive. The Hem- phenotype of hemL mutants is less severe than that of hemA mutants. Although hemA and hemL mutants are deficient in heme synthesis, genetic tests indicate that they still synthesize two minor products of the heme pathway, siroheme and cobalamin (vitamin B12), under anaerobic conditions. In contrast, hemB, hemC and cysG mutants, blocked after ALA synthesis, make neither siroheme nor vitamin B12. Double mutants defective in both hemA and hemL also make siroheme. We suggest that hemA and hemL are required for one route of ALA synthesis and that a second, minor route of ALA synthesis may operate in S. typhimurium; this second pathway would be independent of the hemA and hemL functions.

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References

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Heme-deficient mutants of Salmonella typhimurium: two genes required for ALA synthesis.

Affiliations

Authors

Abstract

Full text links

References

Linkage map of Escherichia coli K-12, edition 7.

Cysteine auxotrophs of Salmonella typhimurium which grow without cysteine in a hydrogen/carbon dioxide atmosphere.

Bcale SI (1978) ?-aminolevulinic acid in plants: its biosynthesis, regulation and role in plastid development. Annu Rev Plant Physiol 29:95-120

Beljanski M, Beljanski M (1957) Sur la formation d'enzymes respiratoires chez un mutant d'Escherichia coli streptomycino-resistant et auxotrophe pour l'hemine. Ann Inst Pasteur 92:396-412

Procedure for identifying nonsense mutations.

Positive selection for loss of tetracycline resistance.

Burnham BF (1969) Metabolism of porphyrins and corrinoids. In: Greenberg DM (ed) Metabolic pathways, vol III. Amino acids and tetrapyrroles, 3rd edn. Academic Press, pp 403-537

delta-aminolaevulate dehydratase from Rhodopseudomonas spheroides.

Casadaban MJ, Cohen SN (1979) Lactose genes fused to exogenous promoters in one step using a Mu-lac bacteriophage: in vivo probe for transcriptional control sequences. Proc Natl Acad Sci USA 76:4530-4533

Castelfranco PA, Beale SI (1983) Chlorophyll biosynthesis: recent advances and areas of current interest. Annu Rev Plant Physiol 34:241-278

Citations & impact

Impact metrics

Citations of article over time

Article citations

Kinemage of action - proposed reaction mechanism of glutamate-1-semialdehyde aminomutase at an atomic level.

Mechanisms and physiological effects of protamine resistance in Salmonella enterica serovar Typhimurium LT2.

Genetic manipulation system in propionibacteria.

A mutant HemA protein with positive charge close to the N terminus is stabilized against heme-regulated proteolysis in Salmonella typhimurium.

Conditional stability of the HemA protein (glutamyl-tRNA reductase) regulates heme biosynthesis in Salmonella typhimurium.

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Search life-sciences literature (45,104,206 articles, preprints and more)

Heme-deficient mutants of Salmonella typhimurium: two genes required for ALA synthesis.

Author information

Affiliations

Authors

Abstract

Full text links

References

Bcale SI (1978) ?-aminolevulinic acid in plants: its biosynthesis, regulation and role in plastid development. Annu Rev Plant Physiol 29:95-120

Beljanski M, Beljanski M (1957) Sur la formation d'enzymes respiratoires chez un mutant d'Escherichia coli streptomycino-resistant et auxotrophe pour l'hemine. Ann Inst Pasteur 92:396-412

Burnham BF (1969) Metabolism of porphyrins and corrinoids. In: Greenberg DM (ed) Metabolic pathways, vol III. Amino acids and tetrapyrroles, 3rd edn. Academic Press, pp 403-537

Casadaban MJ, Cohen SN (1979) Lactose genes fused to exogenous promoters in one step using a Mu-lac bacteriophage: in vivo probe for transcriptional control sequences. Proc Natl Acad Sci USA 76:4530-4533

Castelfranco PA, Beale SI (1983) Chlorophyll biosynthesis: recent advances and areas of current interest. Annu Rev Plant Physiol 34:241-278

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