Candida albicans HEX1 gene, a reporter of gene expression in Saccharomyces cerevisiae

A nonapeptide from IL-1β has been reported to be an immunostimulant and adjuvant. To investigate the possibility of enhancing the immunogenicity of recombinant antigens delivered by live-attenuated Salmonella strains, we inserted an oligonucleotide coding for the nonapeptide from murine IL-1β into the genes of three model proteins: LamB, MalE, and flagellin. The hybrid proteins were expressed and delivered in vivo by Salmonella aroA strains, and serum antibody responses were analyzed. The results showed that the nonapeptide induced an increase in the immune response against Salmonella-delivered flagellin, measured on day 28 post-immunization. However, the adjuvant effect was lost by day 42. In no case was an adjuvant effect detected for Salmonella-delivered LamB or MalE. Thus, by comparing the immune responses raised by purified MalE with and without the peptide, we investigated whether the insertion of the peptide affected the immunogenicity of the protein itself. Also in this case, a modest adjuvant effect was shown only after primary immunization and when very low doses of antigen were used. In conclusion, the immunomodulatory properties of the IL-1β peptide can also be detected when it is delivered in vivo by Salmonella; however, the effect is modest and antigen-dependent. Received: 30 May 1997 / Accepted: 15 September 1997     

Construction of a CUP1 promoter-based vector to modulate gene expression in Saccharomyces cerevisiae

We report the construction and characterization of a yeast shuttle-expression vector that can be used to express genes in yeast in a modulated form. This vector is centromeric, with a polylinker that optionally can provide an ATG start of translation. Expression features are based on the CUP1 yeast metallothionein gene promoter, which can be tightly modulated by copper.     

Temperature-Sensitive Lethal Pseudorevertants of ste Mutations in Saccharomyces cerevisiae

A procedure was devised to isolate mutations that could restore conjugational competence to temperature sensitive ste mutants and simultaneously confer temperature-sensitive lethal growth phenotypes. Three such mutations, falling into two complementation groups, were identified on the basis of suppression of ste5 alleles. These same mutations were later shown to be capable of suppressing ste4 and ste7 alleles. Five mutations in a single complementation group were isolated as suppressors of ste2 alleles. None of the mutations described in this study conferred a homogeneous cell cycle arrest phenotype, and all were shown to define complementation groups distinct from those previously identified in studies of cell division cycle (cdc) mutations. In no instance did pseudoreversion appear to be achieved by mutational G1 arrest of ste mutant cells. Instead, it is proposed that the mutations restore conjugation by reestablishing the normal pheromone response.     

PGA基因在酿酒酵母中的表达研究

本文根据GenBank 中巨大芽孢杆菌（Bacillus megaterium）的PGA基因序列设计了上下游引物,通过PCR扩增出巨大芽孢杆菌1.1741中的PGA基因。将该基因连接到T7lac启动子控制下的表达载体pYES2(amp+,ura+)上,构建了重组质粒pYES2-PGA。用LiAc/SSDNA/PEG方法将其转化进酿酒酵母(Saccharomyces cerevisiae)H158中表达,在不需要苯乙酸诱导的重组菌株发酵液中检测到了青霉素酰化酶活性,最高酶活达到0.75 U/ml。将该PGA基因测序结果与GenBank中巨大芽孢杆菌L04471.1、U07682.1和Z37542三株的PGA基因序列比对,表现出很高的同源性,分别达到97.1%、99.8% 和99.8%。