Momchilo Vuyisich scite author profile

In pursuit of small molecules capable of controlling the function of RNA targets, we have explored the RNA binding properties of peptide-acridine conjugates (PACs). In vitro evolution (SELEX) was used to isolate RNAs capable of binding the PAC Ser-Val-Acr-Arg, where Acr is an acridine amino acid. The PAC binds RNA aptamers selectively and with a high degree of discrimination over DNA. PAC binding sites contain the base-paired 5'-CpG-3' sequence, a known acridine intercalation site. However, RNA structure flanking this sequence causes binding affinities to vary over 30-fold. The preferred site (K(D) = 20 nM) contains a base-paired 5'-CpG-3' step flanked on the 5' side by a 4 nt internal loop and the 3' side by a bulged U. Several viral 5'- and 3'-UTR RNA sequences that likely form binding sites for this PAC are identified.

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Forest floor community metatranscriptomes identify fungal and bacterial responses to N deposition in two maple forests

Hesse

Mueller

Vuyisich

et al. 2015

Front. Microbiol.

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Anthropogenic N deposition alters patterns of C and N cycling in temperate forests, where forest floor litter decomposition is a key process mediated by a diverse community of bacteria and fungi. To track forest floor decomposer activity we generated metatranscriptomes that simultaneously surveyed the actively expressed bacterial and eukaryote genes in the forest floor, to compare the impact of N deposition on the decomposers in two natural maple forests in Michigan, USA, where replicate field plots had been amended with N for 16 years. Site and N amendment responses were compared using about 74,000 carbohydrate active enzyme transcript sequences (CAZymes) in each metatranscriptome. Parallel ribosomal RNA (rRNA) surveys of bacterial and fungal biomass and taxonomic composition showed no significant differences in either biomass or OTU richness between the two sites or in response to N. Site and N amendment were not significant variables defining bacterial taxonomic composition, but they were significant for fungal community composition, explaining 17 and 14% of the variability, respectively. The relative abundance of expressed bacterial and fungal CAZymes changed significantly with N amendment in one of the forests, and N-response trends were also identified in the second forest. Although the two ambient forests were similar in community biomass, taxonomic structure and active CAZyme profile, the shifts in active CAZyme profiles in response to N-amendment differed between the sites. One site responded with an over-expression of bacterial CAZymes, and the other site responded with an over-expression of both fungal and different bacterial CAZymes. Both sites showed reduced representation of fungal lignocellulose degrading enzymes in N-amendment plots. The metatranscriptome approach provided a holistic assessment of eukaryote and bacterial gene expression and is applicable to other systems where eukaryotes and bacteria interact.

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Identification of Binding Sites for Both dsRBMs of PKR on Kinase-Activating and Kinase-Inhibiting RNA Ligands

2002

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The RNA-dependent protein kinase (PKR) is an interferon-induced, RNA-activated enzyme that phosphorylates and inhibits the function of the translation initiation factor eIF-2. PKR has a double-stranded RNA-binding domain (dsRBD) composed of two copies of the dsRNA binding motif (dsRBM). PKR's dsRBD is involved in the regulation of the enzyme as dsRNAs of cellular and viral origins bind to the dsRBD, leading to either activation or inhibition of PKR's kinase activity. In this study, we site-specifically modified each of the dsRBMs of PKR's dsRBD with the hydroxyl radical generator EDTA small middle dotFe and performed cleavage studies on kinase-activating and kinase-inhibiting RNAs. These experiments led to the identification of binding sites for the individual dsRBMs on various RNA ligands including a viral activating RNA (TAR from HIV-1), a viral inhibiting RNA (VA(I) RNA from adenovirus), an aptamer RNA that activates PKR, and a small synthetic inhibiting RNA. These results indicate that some RNAs interact only with one dsRBM, while others can bind both dsRBMs of PKR. In addition, EDTA small middle dotFe modification coupled with site-directed mutagenesis was used to assess the extent of cooperativity in the binding of the two dsRBMs. These experiments support the hypothesis that simultaneous binding of both dsRBMs of PKR occurs on kinase activating RNA ligands.

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A global benchmark study using affinity-based biosensors

Rich

Papalia

Flynn

et al. 2009

Analytical Biochemistry

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To explore the variability in biosensor studies, 150 participants from 20 countries were given the same protein samples and asked to determine kinetic rate constants for the interaction. We chose a protein system that was amenable to analysis using different biosensor platforms as well as by users of different expertise levels. The two proteins (a 50-kDa Fab and a 60-kDa glutathione S-transferase [GST] antigen) form a relatively high-affinity complex, so participants needed to optimize several experimental parameters, including ligand immobilization and regeneration conditions as well as analyte concentrations and injection/dissociation times. Although most participants collected binding responses that could be fit to yield kinetic parameters, the quality of a few data sets could have been improved by optimizing the assay design. Once these outliers were removed, the average reported affinity across the remaining panel of participants was 620 pM with a standard deviation of 980 pM. These results demonstrate that when this biosensor assay was designed and executed appropriately, the reported rate constants were consistent, and independent of which protein was immobilized and which biosensor was used.

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