Genome-wide analysis of histone modifications in human pancreatic islets.

The global diabetes epidemic poses a major challenge. Epigenetic events contribute to the etiology of diabetes; however, the lack of epigenomic analysis has limited the elucidation of the mechanistic basis for this link. To determine the epigenetic architecture of human pancreatic islets we mapped the genome-wide locations of four histone marks: three associated with gene activation-H3K4me1, H3K4me2, and H3K4me3-and one associated with gene repression, H3K27me3.

Glucocorticoid receptor interacting protein-1 restores glucocorticoid responsiveness in steroid-resistant airway structural cells.

Glucocorticoid (GC) insensitivity represents a profound challenge in managing patients with asthma. The mutual inhibition of transcriptional activity between GC receptor (GR) and other regulators is one of the mechanisms contributing to GC resistance in asthma. We recently reported that interferon regulatory factor (IRF)-1 is a novel transcription factor that promotes GC insensitivity in human airway smooth muscle (ASM) cells by interfering with GR signaling (Tliba et al.

Site-directed mutagenesis of the Thauera aromatica strain T1 tutE tutFDGH gene cluster.

Benzylsuccinate synthase, encoded by the tutF, tutD, and tutG genes of Thauera aromatica strain T1, is responsible for the first step of anaerobic toluene metabolism. Previous work has shown that these genes are part of the tutE tutFDGH gene cluster and strains carrying a mutation in the tutE, tutF, tutD, or tutG genes are unable to metabolize toluene. In this study, we performed site-directed mutagenesis of the tutE, tutF, and tutG genes and determined that the cysteines at position 72 and 79 of TutE are likely to be critical for the radical activation of benzylsuccinate synthase, while the cysteine alanine at positions 9 and 10 of TutF, and the cysteine at position 29 of TutG are also essential for toluene metabolism.