Refined genetic map of the obligate methylotroph Methylobacillus flagellatum.

We present a refined genetic map of the obligate methylotroph Methylobacillus flagellatum. New, Hfr (high-frequency-of-transfer) donors, and pulsed-field gel electrophoresis, were used to determine that M. flagellatum contains one approximately 3.1-Mb circular chromosome, and no plasmids. A correlation between time-of-entry units and DNA length was established. Using in vivo and in vitro cloning, and sequencing, a number of new genetic markers were identified and mapped; in addition, the nature of some of the previously mapped markers was elucidated.

Mutations in the Corynebacterium glutamicum proline biosynthetic pathway: a natural bypass of th proA step.

Two chromosomal loci containing the Corynebacterium glutamicum ATCC 17965 proB and proC genes were isolated by complementation of Escherichia coli proB and proC auxotrophic mutants. Together with a proA gene described earlier, these new genes describe the major C. glutamicum proline biosynthetic pathway. The proB and proA genes, closely linked in most bacteria, are in C. glutamicum separated by a 304-amino-acid open reading frame (unk) whose predicted sequence resembles that of the 2-hydroxy acid dehydrogenases. C. glutamicum mutants that carry null alleles of proB, proA, and proC were constructed or isolated from mutagenized cultures. Single proC mutants are auxotrophic for proline and secrete delta1-pyrroline-5-carboxylate, which are the expected phenotypes of bacterial proC mutants. However, the phenotypes or proB and proA mutants are unexpected. A proB mutant has a pleiotropic phenotype, being both proline auxotrophic and affected in cell morphology. Null proA alleles still grow slowly under proline starvation, which suggests that a proA-independent bypass of this metabolic step exists in C. glutamicum. Since proA mutants are complemented by a plasmid that contains the wild-type asd gene of C. glutamicum, the asd gene may play a role in this bypass.

Multicopy suppression by asd gene and osmotic stress-dependent complementation by heterologous proA in proA mutants.

Auxotrophic proA mutants of Escherichia coli were complemented by two different classes of Corynebacterium glutamicum genes. One of these was the asd gene. The E. coli asd gene also complements the same proA alleles. Complementation of proA by the asd+ gene requires a high asd dosage and the proB and the proC gene products. The reciprocal complementation pattern (asd by the proA+ gene) was not observed. This complementation appears to be due to multicopy suppression by a proline biosynthetic gene whose product was expected to play a negligible role in this pathway. The other class of complementing clones carries the C. glutamicum proA gene. Complementation of E. coli proA mutants by the C. glutamicum proA+ gene was optimal at high osmolarity.

Corrected gene assignments of Escherichia coli pro- mutations.

We have reevaluated the gene assignments of the proline mutant alleles of some known Pro- Escherichia coli strains. Of nine proline auxotrophs included in the study, five presented phenotypes inconsistent with their previously assigned genotypes. We discuss the possible sources and the consequences of these assignment errors.

Genetic mapping of the obligate methylotroph Methylobacillus flagellatum: characteristics of prime plasmids and mapping of the chromosome in time-of-entry units.

A pULB113 (RP4::mini-Mu cts) plasmid was used to generate a library of prime plasmids carrying fragments of the Methylobacillus flagellatum genome. The genes carried by these prime plasmids were identified by complementation after transfer to suitably marked Escherichia coli and Pseudomonas aeruginosa strains. The hybrid plasmids were used for complementation mapping with a range of E. coli, M. flagellatum, and P. aeruginosa mutants. A preliminary map of the M. flagellatum genome section with seven groups of linked markers was obtained. Three of seven groups contain an overlapping sequence of cloned genes and can be considered as one large group of linked genes. A high-frequency-of-recombination donor of M. flagellatum (strain MFK64) mobilized the chromosome in a polarized manner from a single transfer origin. The donor was used to construct a time-of-entry map of the M. flagellatum chromosome. This was achieved by determining the time of entry of six randomly dispersed markers, four of which are included in known groups of linked markers. The linear map of M. flagellatum reported here consists of 44 markers.

Construction of Hfr-like donors of the obligate methanol-oxidizing bacterium Methylobacillus flagellatum KT.

The transposon-loaded plasmid pAS8-121, incapable of autonomous replication in Gram-negative bacteria of non-enteric group, was transferred to Methylobacillus flagellatum KT wild type strain MFK1. The transconjugants arose at a frequency of 10(-7) per donor cell. The majority of the transconjugants tested exhibited the transfer of all selected chromosomal markers at rather high (10(-4)-10(-6) per donor cell) but similar frequencies. Only one of the obtained donors, designated MFK 64, was capable of mobilizing M. flagellatum KT chromosome in a polarized manner. The integrated nature of the plasmid in this and other MFK1 (pAS8-121) derivatives was supported by the results of DNA-DNA hybridization.