Through structural-based sequence alignment, we show that the spa

Through structural-based sequence alignment, we show that the spatial position of the D206 side chain is strictly

conserved throughout HAD family. Our results strongly suggest that Asp206 and its equivalent residues in other HAD family members play important structural and possible mechanistic roles.”
“The hippocampus and cerebellum represent anatomically and functionally distinct parts of the human brain. The RNA-Seq technique makes it possible to investigate the human transcriptome with unprecedented resolution, allowing identification of differential mRNA splicing and promoter usage on a genome-wide scale. We undertook whole-mRNA sequencing of samples from the human hippocampus and cerebellum. A bioinformatic analysis revealed distinct expression patterns of genes related to the molecular physiology of neurons and glial cells. Upregulated genes in hippocampal tissue included serpin peptidase inhibitor, clade A (SERPINA3), Saracatinib price lymphocyte antigen 6 complex, locus H (LY6H) and transthyretin (TTR). In cerebellum, the cerebellin 3 precursor (CLBN3) and Zic family member 4 (ZIC4) genes were EPZ004777 order significantly upregulated. These changes were validated in independent donor samples

by gRT-PCR. The hippocampus and the cerebellum showed striking differences in splicing patterns and promoter usage. A notable example of this was the gene for NGFI-A binding protein 2 (NAB2), which displayed tissue-specific isoforms which may affect its function as a transcriptional repressor. (C) 2013 Elsevier Ireland Ltd. All rights reserved.”
“ATP-dependent

proteases are crucial for cellular homeostasis. By degrading short-lived regulatory proteins, they play an important role in the control of many cellular pathways and, through the degradation of abnormally misfolded proteins, protect the cell from a buildup of aggregates. Disruption or disregulation of mammalian mitochondrial Lon protease leads to severe changes in the cell, linked with carcinogenesis, apoptosis, and necrosis. Here we present the structure of the proteolytic domain of human mitochondrial Lon at 2 angstrom resolution. Electron transport chain The fold resembles those of the three previously determined Lon proteolytic domains from Escherichia coli, Methanococcus jannaschii, and Archaeoglobus fulgidus. There are six protomers in the asymmetric unit, four arranged as two dimers. The intersubunit interactions within the two dimers are similar to those between adjacent subunits of the hexameric ring of E. coil Lon, suggesting that the human Lon proteolytic domain also forms hexamers. The active site contains a 3(10) helix attached to the N-terminal end of alpha-helix 2, which leads to the insertion of Asp852 into the active site, as seen in M. jannaschii. Structural considerations make it likely that this conformation is proteolytically inactive. When comparing the intersubunit interactions of human with those of E.

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