From ENU mutagenesis to population genetics

Advances in Metabolic Engineering for the Accumulation of Astaxanthin Biosynthesis

Astaxanthin, a lipophilic carotenoid renowned for its strong antioxidant activity, holds significant commercial value across industries such as feed, food, and cosmetics. Although astaxanthin can be synthesized through chemical methods, it may contain toxic by-products in the synthesized astaxanthin, limiting its application in medicine or functional food. Natural astaxanthin can be extracted from algae, however, the cultivation cycle of algae is relatively longer compared to microorganisms. With the advancement of synthetic biology and metabolic engineering, the method of microbial fermentation has emerged as a promising strategy for the large-scale production of astaxanthin. This article provides a comprehensive overview of the research progress in astaxanthin biosynthesis, highlighting the use of the natural host Xanthophyllomyces dendrorhous, and the heterologous hosts Yarrowia lipolytica and Saccharomyces cerevisiae. Additionally, future research prospects are also discussed.

The low frequency of recessive disease: insights from ENU mutagenesis, severity of disease phenotype, GWAS associations, and demography: an analytical review

A survey of a select panel of 14 genetic diseases with mixed inheritance confirms that, while autosomal recessive (AR) disease genes are more numerous than autosomal dominant (AD) or X-linked (XL) ones, they make a smaller average contribution to disease. Data collected from N-ethyl-N-nitrosourea (ENU) mutagenesis studies show a similar excess of AR mutations. The smaller AR contribution may partially reflect disease severity, but only in the comparison of AR with AD mutations. On the contrary, XL mutations for the 14 diseases are generally more severe. Genome-wide associations studies (GWAS) data provide fresh insight into the shortage, with a limited negative selection effect mediated by the pleiotropic expression of recessive disease genes in other deleterious phenotypes. Genomic data provide further evidence of purging selection in a past European population bottleneck followed by a dramatic population explosion, now more clearly associated with past climate change. We consider these likely to be the main factors responsible for the low AR to AD/XL inheritance ratio.