Project description:Congenital anosmias can be complete (the lack of a sense of smell) or specific (the inability to detect specific smells). To date, only a single recessive gene underlying complete anosmia has been identified. Here we sequenced the exomes of 10 individuals from a single family, including three with complete anosmia, across three generations to identify the genetic basis of congenital anosmia in this family.
This data is part of a pre-publication release. For information on the proper use of pre-publication data shared by the Wellcome Trust Sanger Institute (including details of any publication moratoria), please see http://www.sanger.ac.uk/datasharing/
Project description:Congenital anosmias can be complete (the lack of a sense of smell) or specific (the inability to detect specific smells). Here we obtained genomic DNA from families with multiple individuals with anosmia, suggesting they are congenital. These include those inherited in a manner consistent with dominant and recessive alleles. We have sequenced the exomes of both affected and unaffected family members on the Illumina platform.
Project description:Numerous genetic conditions give rise to a scaly skin phenotype as a result of impaired barrier function. Differences in appearance suggest the response of epidermal cells depends upon the basic defect. The present work characterizes the departure of afflicted corneocytes from normal as judged by their proteomic profiles in three types of autosomal recessive congenital ichthyosis arising from defects in the genes PNPLA1, SDR9C7 and TGM1. The results show that the profiles were distinctive, each displaying a set of altered protein levels, but with a subset of common alterations. Departure from the normal profile was examined at three different anatomic sites (forearm, forehead, leg). Reflecting that the normal protein profile differed at these sites, comparing profiles from afflicted subjects revealed that the alterations in profile were site-dependent. These results suggest proteomic profiling can provide a quantitative measure of departure from the normal state of epidermis. Further development may find application to diagnosis, including identification of new genetic defects, and may help understand signaling pathways perturbed by the basic defects, supplementing visual evaluation of treatment.
