Mutations in the HERG K+-Ion channel: A novel link between long QT syndrome and sudden infant death syndrome

In a 7-week-old infant who experienced sudden infant death syndrome (SIDS), a novel missense mutation was identified in KCNH2, causing a lysine-to-glutamic acid amino acid substitution at position 101 (K101E). KCNH2 codes for the HERG ion channel and mutations in the gene are associated with congenital long-QT syndrome (LQTS), and in the family of this case of SIDS, the mutation was associated with Torsades de pointes tachycardia, making SIDS the most likely outcome of congenital LQTS

Isolation of an oxalate-resistant Ashbya gossypii strain and its improved riboflavin production

An oxalate-resistant strain of Ashbya gossypii was naturally isolated from spores grown on an oxalate-containing medium, and its medium was optimized to improve riboflavin production. Riboflavin production by the resistant strain was three-fold higher than that by the wild-type organism when grown in flask cultures. Medium optimization increased the riboflavin production by the resistant strain to 5 g l(-1), which was five-fold higher than that obtained by the wild-type strain. The productivity was reproduced in a 3-l bioreactor. During the early growth phase, the specific activity of isocitrate lyase in the oxalate-resistant strain was slightly higher than that in the wild-type strain. Proteomic analysis of the oxalate-resistant strain revealed that the expression of aldose reductase and cobalamin-independent methionine synthase decreased significantly. This is the first report that describes the natural isolation of a riboflavin producer using an antimetabolite-containing medium to enhance the riboflavin production level. This method should also be useful for improving the productivity of other bioproducts since it does not require any mutations or genetic modifications of the microorganism.publishe