Characterization of a novel plasmid pXZ608 from Corynebacterium glutamicum

Functional analysis of the pBC1 replicon from Bifidobacterium catenulatum L48

To determine the minimal replicon of pBC1 (a 2.5-kb cryptic plasmid of Bifidobacterium catenulatum L48) and to check the functionality of its identified open reading frames (ORFs) and surrounding sequences, different segments of pBC1 were amplified by polymerase chain reaction (PCR) and cloned into pBif, a replication probe vector for bifidobacteria. The largest fragment tested in this manner encompassed most of the pBC1 sequence, while the shortest just included the repB gene and its immediate upstream sequences. Derivatives were all shown to allow replication in bifidobacteria. Surprisingly, both the transformation frequency and segregational stability in the absence of antibiotic selection decreased with reducing plasmid length. The relative copy number of the constructs (ranging from around 3 to 23 copies per chromosome equivalent, as compared to 30 copies for the original pBC1) was shown to be strain dependent and to decrease with reducing plasmid length. These results suggest that, although not essential, the copG-like and orfX-like genes of pBC1 play important roles in pBC1 replication. Interruption of repB produced a construct incapable of replicating in bifidobacteria. The analysis of pBC1 will allow its use in the construction of general and specific cloning vectors.

Isolation and characterization of a rolling-circle-type plasmid from Rhodococcus erythropolis and application of the plasmid to multiple-recombinant-protein expression

We isolated, sequenced, and characterized the cryptic plasmid pRE8424 from Rhodococcus erythropolis DSM8424. Plasmid pRE8424 is a 5,987-bp circular plasmid; it carries six open reading frames and also contains cis-acting elements, specifically a single-stranded origin and a double-stranded origin, which are characteristic of rolling-circle-replication plasmids. Experiments with pRE8424 derivatives carrying a mutated single-stranded origin sequence showed that single-stranded DNA intermediates accumulated in the cells because of inefficient conversion from single-stranded DNA to double-stranded DNA. This result indicates that pRE8424 belongs to the pIJ101/pJV1 family of rolling-circle-replication plasmids. Expression vectors that are functional in several Rhodococcus species were constructed by use of the replication origin from pRE8424. We previously reported a cryptic plasmid, pRE2895, from R. erythropolis, which may replicate by a theta-type mechanism, like ColE2 plasmids. The new expression vectors originating from pRE8424 were compatible with those derived from pRE2895. Coexpression experiments with these compatible expression vectors indicated that the plasmids are suitable for the simultaneous expression of multiple recombinant proteins.

Characterization of the cryptic plasmid pCC1 from Corynebacterium callunae and its use for vector construction

The complete nucleotide sequence of the cryptic plasmid pCC1 from Corynebacterium callunae (4109 bp) was determined. DNA sequence analysis revealed five open reading frames longer than 200 bp. One of the deduced polypeptides showed homology with the Rep proteins encoded by plasmids of the pIJ101/pJV1 family of plasmids replicating by the rolling-circle (RC) mechanism. Within this plasmid family, the Rep protein of pCC1 showed the highest degree of similarity to the Rep proteins of corynebacterial plasmids pAG3 and pBL1. These data suggest that the plasmid pCC1 replicates by the RC mechanism. The Escherichia coli/Corynebacterium glutamicum shuttle cloning vector pSCCD1, carrying the pCC1 rep gene on the 2.1-kb DNA fragment and the streptomycin/spectinomycin resistance determinant, was constructed. This vector is stably maintained in population of C. glutamicum cells grown in the absence of selection pressure and it is compatible with plasmid vectors based on corynebacterial plasmids pBL1 and pSR1.

Plasmids in Corynebacterium glutamicum and their molecular classification by comparative genomics

Endogenous plasmids and selectable resistance markers are a fundamental prerequisite for the development of efficient recombinant DNA techniques in industrial microorganisms. In this article, we therefore summarize the current knowledge about endogenous plasmids in amino acid-producing Corynebacterium glutamicum isolates. Screening studies identified a total of 24 different plasmids ranging in size from 2.4 to 95 kb. Although most of the C. glutamicum plasmids were cryptic, four plasmids carried resistance determinants against the antibiotics chloramphenicol, tetracycline, streptomycin-spectinomycin, and sulfonamides. Considerable information is now available on the molecular genetic organization of 12 completely sequenced plasmid genomes from C. glutamicum. The deduced mechanism of plasmid DNA replication and the degree of amino acid sequence similarity among replication initiator proteins was the basis for performing a classification of the plasmids into four distinct C. glutamicum plasmid families.