Routine use of MALDI-TOF MS for anaerobic bacterial identification in clinical microbiology.

In 2013, we adopted MALDI-TOF MS using the Bruker Biotyper system for identification of anaerobic bacteria into our routine clinical practice. Here, we describe our experience with the use of MALDI-TOF MS for anaerobic bacterial identification, highlighting its value in replacing the more costly and time-consuming 16S ribosomal RNA gene PCR plus sequencing-based approach as the primary method of anaerobic bacterial identification. We also describe our more recent experience with the use of early/rapid MALDI-TOF MS for identification of anaerobic bacteria performed on short incubation (4-6 h) plated aerobic media from anaerobic blood culture bottles positive for Gram-negative bacilli.

The cellular protein SPT6 is required for efficient replication of human cytomegalovirus.

The human cytomegalovirus tegument protein UL69 has been shown to be required for efficient viral replication at low multiplicities of infection. Several functions have been associated with UL69, including its ability to regulate cell cycle progression, translation, and the export of viral transcripts from the nucleus to the cytoplasm. However, it remains unclear which, if any, of these activities contribute to the phenotype observed with the UL69 deletion mutant.

The effects of aging and genotype on NMDA receptor expression in growth hormone receptor knockout (GHRKO) mice.

Caloric restriction enhances N-methyl-D-aspartate (NMDA) receptor binding and upregulates messenger RNA expression of the GluN1 subunit during aging. Old growth hormone receptor knockout mice resemble old calorically restricted rodents in enhanced life span and brain function, as compared with aged controls. This study examined whether aged growth hormone receptor knockout mice also show enhanced expression of NMDA receptors.

Binding of the human cytomegalovirus (HCMV) tegument protein UL69 to UAP56/URH49 is not required for efficient replication of HCMV.

The human cytomegalovirus (HCMV) tegument protein UL69 is important for efficient viral replication at low multiplicities of infection. Several molecular mechanisms by which UL69 contributes to HCMV replication have been proposed, including UL69's ability to interact with the mRNA export factors UAP56 and URH49 to facilitate the shuttling of viral mRNAs from the nuclei of infected cells. Using a UL69 viral mutant that is unable to bind UAP56 and URH49, we demonstrated that UL69's interaction with UAP56 or URH49 does not contribute to the growth phenotype associated with the UL69 deletion mutant.