Comparative genetic analysis: the utility of mouse genetic systems for studying human monogenic disease

One of the long-term goals of mutagenesis programs in the mouse has been to generate mutant lines to facilitate the functional study of every mammalian gene. With a combination of complementary genetic approaches and advances in technology, this aim is slowly becoming a reality. One of the most important features of this strategy is the ability to identify and compare a number of mutations in the same gene, an allelic series. With the advent of gene-driven screening of mutant archives, the search for a specific series of interest is now a practical option. This review focuses on the analysis of multiple mutations from chemical mutagenesis projects in a wide variety of genes and the valuable functional information that has been obtained from these studies. Although gene knockouts and transgenics will continue to be an important resource to ascertain gene function, with a significant proportion of human diseases caused by point mutations, identifying an allelic series is becoming an equally efficient route to generating clinically relevant and functionally important mouse models

Clinical and morphologic features of a myopathy associated with a point mutation in the mitochondrial tRNA(Pro) gene

We studied a 9-year-old girl with progressive weakness of her extremities for two years. Her neurologic evaluation showed weakness of proximal muscles but no ophthalmoparesis. With the exception of elevated serum lactic acid, the general blood screen, EMG, nerve conduction velocity tests, and ECG were normal. Light and electron microscopy of a muscle biopsy showed proliferation of mitochondria containing disorganized cristae. Activities of respiratory chain enzymes containing mitochondrial DNA (mtDNA)-encoded subunits were significantly impaired in muscle homogenates. A G-->A transition at position 15990 previously detected in this patient's muscle was not present in peripheral blood cells of her mother or sister. However, the patient's WBCs appeared to contain a very small percentage of mutant mtDNAs, indicating that the mutation may have originated during early embryogenesis