The development of various types of virus-like particles (VLPs) has accelerated over the past two decades as the importance of VLPs for generating nextgeneration vaccines has been appreciated. Yeast has advantages such as scalable fermentation, low risk of contamination by adventitious agents, low production costs and the ability to produce VLPs with reliable qualities. It is generally recognized that yeast is suitable for producing VLPs that have simple structures and are produced intracellularly. However, recently there has been much effort to extend its applicability, and there is now evidence that it can be used as an expression platform for the productions of VLPs not only of nonenveloped viruses but also of enveloped viruses. Moreover, evidences indicated that yeast allows secretory VLP productions. Meanwhile, it has become evident that the quality and quantity of yeast-derived VLPs are influenced by the choice of plasmid and promoter, the ratio of the structural proteins produced. Here, we review the characteristics of the yeast expression system in terms of the production of VLP and compare it with other expression systems. We also consider strategies for VLP production in yeast and factors that need to be taken into account.
Our data indicate that the normal range of absolute neutrophil counts should be adjusted and cutoff values for neutropenia should be re-established according to sex and race. NLR and PLR cutoff values for disease evaluation should be established separately according to race and age.
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