Investigation of neuronal cell type-specific gene expression of Ca2+/calmodulin-dependent protein kinase II

The promoter activity of the rat Ca²⁺/calmodulin-dependent protein kinase II gene was analyzed using the luciferase reporter gene in neuronal and non-neuronal cell lines. Neuronal cell type-specific promoter activity was found in the 5′-flanking region of α and β isoform genes of the kinase. Silencer elements were also found further upstream of promoter regions. A brain-specific protein bound to the DNA sequence of the 5′-flanking region of the gene was found by gel mobility shift analysis in the nuclear extract of the rat brain, including the cerebellum, forebrain, and brainstem, but not in that of non-neuronal tissues, including liver, kidney and spleen. The luciferase expression system and gel shift analysis can be used as an additional and better index by which to monitor gene expression in most cell types. Published: April 12, 2002     

Transfection of Schistosoma mansoni by electroporation and the description of a new promoter sequence for transgene expression

We sought to investigate the efficacy of electroporation for the introduction of plasmid-based DNA constructs into Schistosoma mansoni, and expanded our study to examine parameters governing transgene expression, including requirements of a 5′ and 3′ flanking sequence, as well as parasite developmental effects on transgene expression. We used luciferase as a reporter gene for this application. Our data show that electroporation allows the transfection of immature schistosomes, and defines 5′ promoter sequence from the schistosome actin gene (SmAct1.1), coupled promiscuously with various 3′ terminator sequences, as a powerful promoter of transgene expression in growing, but not early non-growing, schistosomula. The methodology described herein will facilitate ectopic expression of genes of interest in schistosomes.     

Construction of a novel sacB-based system for marker-free gene deletion in Corynebacterium glutamicum

Bacillus subtilis sacB gene with its 463 bp upstream region including its native promoter has been used for marker-free gene deletion in Corynebacterium glutamicum, but the role of this upstream region is not clear. In this study, it was demonstrated that the upstream region of sacB failed to efficiently promote its expression in C. glutamicum, and the native promoter of sacB is weak in C. glutamicum. The expression level of sacB under its native promoter in C. glutamicum is not high enough for cells to confer sucrose sensitivity. Therefore, a new promoter PlacM and a novel vector pDXW-3 were constructed. PlacM is 18 times stronger than the native promoter of sacB in C. glutamicum. The pDXW-3 contains B. subtilissacB with the PlacM fused at the 5′-end, a general Escherichia coli replicon oriE for easy cloning, a kanamycin resistance marker for selection, and a multiple unique restriction sites for XhoI, NotI, EagI, SalI, SacI, BamHI, and NheI, respectively. By using pDXW-3, the aceE gene in the chromosome of C. glutamicum was deleted. This sacB-based system should facilitate gene disruption and allelic exchange by homologous recombination in many bacteria.