Topical Reversion at the HIS1 Locus of Saccharomyces cerevisiae • A Tale of Three Mutants

Mutants of the HIS1 locus of the yeast Saccharomyces cerevisiae are suitable reporters for spontaneous reversion events because most reversions are topical, that is, within the locus itself. Thirteen mutations of his1-1 now have been identified with respect to base sequence. Revertants of three mutants and their spontaneous reversion rates are presented: (1) a chain termination mutation (his1-208, née his1-1) that does not revert by mutations of tRNA loci and reverts only by intracodonic suppression; (2) a missense mutation (his1-798, née his1-7) that can revert by intragenic suppression by base substitutions of any sort, including a back mutation as well as one three-base deletion; and (3) a −1 frameshift mutation (his1-434, née his1-19) that only reverts topically by +1 back mutation, +1 intragenic suppression, or a −2 deletion. Often the +1 insertion is accompanied by base substitution events at one or both ends of a run of A's. Missense suppressors of his1-798 are either feeders or nonfeeders, and at four different locations within the locus, a single base substitution encoding an amino acid alteration will suffice to turn the nonfeeder phenotype into a feeder phenotype. Late-appearing revertants of his1-798 were found to be slowly growing leaky mutants rather than a manifestation of adaptive mutagenesis. Spontaneous revertants of his1-208 and his1-434 produced no late-arising colonies.

A Search for a General Phenomenon of Adaptive Mutability

The most prominent systems for the study of adaptive mutability depend on the specialized activities of genetic elements like bacteriophage Mu and the F plasmid. Searching for general adaptive mutability, we have investigated the behavior of Salmonella typhimurium strains with chromosomal lacZ mutations. We have studied 30 revertible nonsense, missense, frameshift, and insertion alleles. One-third of the mutants produced ≥10 late revertant colonies (appearing three to seven days after plating on selective medium). For the prolific mutants, the number of late revertants showed rank correlation with the residual β-galactosidase activity; for the same mutants, revertant number showed no correlation with the nonselective reversion rate (from fluctuation tests). Leaky mutants, which grew slowly on selective medium, produced late revertants whereas tight nongrowing mutants generally did not produce late revertants. However, the number of late revertants was not proportional to residual growth. Using total residual growth and the nonselective reversion rate, the expected number of late revertants was calculated. For several leaky mutants, the observed revertant number exceeded the expected number. We suggest that excess late revertants from these mutants arise from general adaptive mutability available to any chromosomal gene.

Isolation and purification of granule-associated proteins relevant for poly(3-hydroxybutyric acid) biosynthesis from methylotrophic bacteria relying on the serine pathway

The poly(3-hydroxybutyric acid) (PHB) granules from eight methylotrophic bacteria that use the serine pathway were isolated in a sucrose gradient (1–2 M); these bacteria included members of the genus Methylobacterium, Mycoplana rubra, and PHB-leaky mutants of Methylobacterium rhodesianum. As shown by sodium dodecyl sulfate – polyacrylamide gel electrophoresis, the granules from all investigated methylotrophic strains revealed two major bands representing small proteins. An efficient purification procedure for these two low molecular weight proteins associated with the PHB granules was developed by solubilization of the proteins with Triton X-114 and affinity chromatography on Procion Blue-H-ERD.Key words: poly(3-hydroxybutyric acid), granule-associated proteins, methylotrophic bacteria.

Isolation and characterization of a Tn5-induced tolQ mutant of Escherichia coli

Transposon mutagenesis was used to isolate an Escherichia coli mutant that released into the external medium a heterologous protein, the Aeromonas hydrophila aerolysin. Genetic mapping and phenotypic characterization of E. coli CM209 showed that Tn5 is inserted in the tolQ gene. This mutant strain released a significant amount of unprocessed (proaerolysin) protein into the external medium, together with other periplasmic proteins. Similar levels of the toxin were detected in the intracellular compartments of the parental and mutant strains. Whereas inactivation of the tolQ gene itself was responsible for some of the phenotypic properties of strain CM209, such as tolerance to group A colicins or to filamentous bacteriophages, the leaky phenotype was associated with a polar effect exerted by Tn5 on distal genes of the tolQRA cluster.Key words: Tn5, tolQ gene, aerolysin, leaky mutants.

Identification of amino acid changes affecting yeast uroporphyrinogen decarboxylase activity by sequence analysis of hem12 mutant alleles

The molecular basis of the uroporphyrinogen decarboxylase defect in eleven yeast ‘uroporphyric’ mutants was investigated. Uroporphyrinogen decarboxylase, an enzyme of the haem-biosynthetic pathway, catalyses the decarboxylation of uroporphyrinogen to coproporphyrinogen and is encoded by the HEM12 gene in the yeast Saccharomyces cerevisiae. The mutations were identified by sequencing the mutant hem12 alleles amplified in vitro from genomic DNA extracted from the mutant strains. Four mutations leading to the absence of enzyme protein were found: one mutation caused the substitution of the translation initiator Met to Ile, a two-base deletion created a frameshift at codon 247 and two nonsense mutations were found at codons 50 and 263. Four different point mutations were identified in seven ‘leaky’ mutants with residual modified uroporphyrinogen decarboxylase activity; each of three mutations was found in two independently isolated mutants. The nucleotide transitions resulted in the amino acid substitutions Ser-59 to Phe, Thr-62 to Ile, Leu-107 to Ser, or Ser-215 to Asn, all located in or near highly conserved regions. The results suggest that there is a single active centre in uroporphyrinogen decarboxylase, the geometry of which is affected in the mutant enzymes.

METHYL METHANESULFONATE MUTAGENESIS IN BACTERIOPHAGE T4

ABSTRACT MMS induces diverse rII mutations from a wild-type background in bacteriophage T4. About 56% are base pair substitutions, about 30% are frameshift mutations, and the remainder is a miscellaneous set of rapidly reverting or leaky mutants of unknown composition; but deletions were not detected. MMS-induced forward mutation is sharply reduced by the mutations px and y, which also reduce ultraviolet, photodynamic and γ-ray mutagenesis and increase killing by all of these agents. Thus, many of the mutations arise via the T4 WXY system. The induction of G:C → A:T transitions was detected even in a px or y background using sensitive reversion tests, and the few forward rII mutations that were induced from this background also behaved like transition mutations. Thus, some MMS-induced mutations arise independently of the WXY system, perhaps as a result of the (rather weak) ability of MMS to alkylate the O6 position of guanine.