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Shuttle Plasmids (shuttle + plasmid)
Selected AbstractsA novel neisserial shuttle plasmid: A useful new tool for meningococcal researchFEMS MICROBIOLOGY LETTERS, Issue 1 2005Clíona A. O' Dwyer Abstract We report the identification and nucleotide sequence analysis of a cryptic plasmid pMIDG2830 from the Gram-negative bacterium Neisseria flavescens. The largest open reading frame encodes a protein similar to the replication protein, RepA, found in pAB49 from Acinetobacter baumannii and pNI10 from Pseudomonas. Modified by the incorporation of a kanamycin resistance cassette, the plasmid can be stably maintained in Escherichia coli and Neisseria meningitidis, and can be used as a shuttle plasmid in meningococcal research. [source] Tools for the genetic manipulation of Zygosaccharomyces rouxiiFEMS YEAST RESEARCH, Issue 8 2007Lenka Pribylova Abstract A set of tools for the genetic manipulation of the osmotolerant yeast Zygosaccharomyces rouxii was developed. Auxotrophic mutants (ura3 leu2, ura3 ade2, ura3 leu2 ade2) derived from the CBS 732 type strain were prepared. Centromeric and episomal Z. rouxii/Escherichia coli shuttle plasmids with different marker genes (ScURA3, ZrLEU2, ZrADE2) and with multiple cloning sites were constructed, together with a plasmid enabling green fluorescent protein-tagging. A system for repeatable targeted gene deletion in Z. rouxii was established, involving first the integration of a PCR-generated loxP,kanMX,loxP cassette and second the removal of kanMX from the genome using a Z. rouxii plasmid harbouring cre recombinase. [source] Influence of genetic background on transformation and expression of Green Fluorescent Protein in Actinobacillus actinomycetemcomitansMOLECULAR ORAL MICROBIOLOGY, Issue 5 2005W. Teughels Background/aims:, The development of an electro-transformation system and the construction of shuttle plasmids for Actinobacillus actinomycetemcomitans have enhanced the molecular analysis of virulence factors. However, inefficient transformation is frequently encountered. This study investigated the efficiency of electro-transformation and expression of Green Fluorescent Protein (GFP) in 12 different A. actinomycetemcomitans strains. The influence of the plasmid vector, serotype, and phenotype were the major factors taken into consideration. Material and methods:, Twelve serotyped A. actinomycetemcomitans strains were independently electro-transformed with two different Escherichia coli,A. actinomycetemcomitans shuttle plasmids (pVT1303 and pVT1304), both containing an identical ltx-GFPmut2 gene construct but a different backbone (pDMG4 and pPK1, respectively). The transformation efficiency, transformation frequency, and electro-transformation survival rate were determined by culture techniques. GFP expression was observed at the colony level by fluorescence microscopy. Results:, All strains could be transformed with both plasmids. However, major differences were observed for the transformation efficiency, transformation frequency, and electro-transformation survival rate between strains. The data demonstrated that plasmid vector, serotype, and phenotype are key players for obtaining a successful transformation. An inverted relationship between the electro-transformation survival rate and tranformation frequency was also observed. GFP expression was also influenced by phenotype, serotype and plasmid vector. Conclusions:, The serotype of A. actinomycetemcomitans has an important influence on its survival after electro-transformation and on transformation frequency. The expression of GFP is strain and plasmid vector dependent. [source] | ||||||||||