Examining Barriers to Early Hearing Diagnosis.

Purpose: Many factors create barriers for early hearing detection and intervention (EHDI), especially those related to unfavorable social determinants of health (SDOH). The primary aim of this study was to evaluate diagnostic timing of infants at risk for congenital hearing loss in consideration of known barriers. Understanding the specific barriers to early diagnosis can inform interventions to improve timeliness of diagnosis and subsequent habilitation.

Using Functional Genetics in Haploid Cells for Drug Target Identification.

Pooled genetic screens are a powerful tool to identify targets for drug development as well as chemogenetic interactions. Various complementary methods for mutagenesis are available to generate highly complex cell populations, including mRNA knockdown, directed genome editing, as well as random genome mutagenesis. With the availability of a growing number of haploid mammalian cell lines, random mutagenesis is becoming increasingly powerful and represents an attractive alternative, e.

Unbiased compound-protein interface mapping and prediction of chemoresistance loci through forward genetics in haploid stem cells.

Forward genetic screens in haploid mammalian cells have recently emerged as powerful tools for the discovery and investigation of recessive traits. Use of the haploid system provides unique genetic tractability and resolution. Upon positive selection, these screens typically employ analysis of loss-of-function (LOF) alleles and are thus limited to non-essential genes.

A reversible haploid mouse embryonic stem cell biobank resource for functional genomics.

The ability to directly uncover the contributions of genes to a given phenotype is fundamental for biology research. However, ostensibly homogeneous cell populations exhibit large clonal variance that can confound analyses and undermine reproducibility. Here we used genome-saturated mutagenesis to create a biobank of over 100,000 individual haploid mouse embryonic stem (mES) cell lines targeting 16,970 genes with genetically barcoded, conditional and reversible mutations.

Structural basis for competitive interactions of Pex14 with the import receptors Pex5 and Pex19.

Protein import into peroxisomes depends on a complex and dynamic network of protein-protein interactions. Pex14 is a central component of the peroxisomal import machinery and binds the soluble receptors Pex5 and Pex19, which have important function in the assembly of peroxisome matrix and membrane, respectively. We show that the N-terminal domain of Pex14, Pex14(N), adopts a three-helical fold.

Recognition of a functional peroxisome type 1 target by the dynamic import receptor pex5p.

Peroxisomes require the translocation of folded and functional target proteins of various sizes across the peroxisomal membrane. We have investigated the structure and function of the principal import receptor Pex5p, which recognizes targets bearing a C-terminal peroxisomal targeting signal type 1. Crystal structures of the receptor in the presence and absence of a peroxisomal target, sterol carrier protein 2, reveal major structural changes from an open, snail-like conformation into a closed, circular conformation.