Your search keyword '"Gooch, Barry D."' showing total 4 results

1. Functional domain organization of human APOBEC3G

Author

Gooch, Barry D. and Cullen, Bryan R.

Subjects

*PROTEINS, *CYTIDINE diphosphate choline, *RETROVIRUSES, *AMINO acids

Abstract

Abstract: Human APOBEC3 proteins exist in two forms containing either a single cytidine deaminase domain (CDA) or two CDAs. Strikingly, the proteins that are capable of effectively inhibiting the infectivity of Vif-deficient HIV-1 (HIV-1ΔVif), such as APOBEC3G (A3G), contain two CDAs. In contrast, single-domain APOBEC3 proteins such as APOBEC3A (A3A) are weak inhibitors of HIV-1ΔVif, even though A3A is an active cytidine deaminase and a potent inhibitor of retrotransposon mobility. Here, we demonstrate that the ability to bind to Gag and package into HIV-1 virions is entirely contained within the amino-terminal half of A3G. By changing three adjacent amino acids in A3A, to the sequence found in the N-terminal half of A3G, we were able to confer on A3A the ability to be efficiently incorporated into HIV-1 virions and to bind HIV-1 Gag. Nevertheless, this A3A mutant remained a weak inhibitor of HIV-1 infectivity, suggesting that segregation of the Gag-binding/virion incorporation and cytidine deaminase/virus-inhibition activities of APOBEC3 proteins into two tandem CDA regions promotes the efficient inhibition of retrovirus infectivity by APOBEC3 proteins. [Copyright &y& Elsevier]

Published

2008

2. Recognition of Duplex RNA by Helix-Threading Peptides.

Author

Gooch, Barry D. and Beal, Peter A.

Subjects

*RNA, *RIBOSE, *PEPTIDES, *PROTEINS, *MOLECULES, *ACRIDINE, *NAPHTHACRIDINONE

Abstract

Many important biological processes, from the interferon antiviral response to the generation of microRNA regulators of translation, involve duplex RNA. Small molecules capable of binding duplex RNA structures with high affinity and selectivity will be useful in regulating these processes and, as such, are valuable research tools and potentially therapeutic. In this paper, the synthesis and duplex FINA-binding properties of EDTA Fe-modified peptide-intercalator conjugates (PICs) are described. Peptide appendages at the 4- and 9-positions of the planar acridine ring system render these PICs threading intercalators, directing the substituents into both grooves of double helical RNA simultaneously. Directed hydroxyl radical cleavage experiments conducted with varying FINA stem-loop structures indicate a preferred binding polarity with the N- and G-termini of the PIC in the minor and major grooves, respectively. However, this binding polarity is shown to be dependent on both the structure of the PIC and the RNA secondary structure adjacent to the intercalation site. Definition of the minimal RNA structure required for binding to one of these PICs led to the identification of an intercalation site in a pre-microRNA from Caenorhabditis elegans. Results presented will guide both rational design and combinatorial approaches for the generation of new RNA binding PICs and will continue to facilitate the identification of naturally occurring RNA targets for these small molecules. [ABSTRACT FROM AUTHOR]

Published

2004

3. Preferred RNA Binding Sites for a Threading Intercalator Revealed by In Vitro Evolution

Author

Carlson, Coby B., Vuyisich, Momchilo, Gooch, Barry D., and Beal, Peter A.

Subjects

*RNA, *PROTEIN binding, *PEPTIDES

Abstract

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 (KD = 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. [Copyright &y& Elsevier]

Published

2003

4. Plasma Donors in the Southwestern United States Positively Contribute to the Diverse Therapeutic Antibody Profile of Immune Globulin Products.

Author

Ciencewicki, Jonathan M., Schouest, Katherine R., Gierman, Todd M., Vandeberg, Peter J., and Gooch, Barry D.

Subjects

*BLOOD plasma, *IMMUNOGLOBULINS, *GLOBULINS, *IMMUNOLOGICAL deficiency syndromes, *HEPATITIS A virus, *MEASLES virus

Abstract

Human-plasma-derived immune globulin (IG) is used in augmentation therapy to provide protective levels of antibodies to patients with primary immune deficiency diseases (PIDD) and for prophylaxis against infectious diseases. To maintain the breadth of antibodies necessary for clinical protection, it is important to understand regional patterns of antibody seroprevalence in source plasma from which IG products are manufactured. In this study, source plasma from donation centers in various locations of the Southwestern quarter of the United States was surveyed for antibody titers to hepatitis A virus (HAV), measles virus (MeV), and cytomegalovirus (CMV). A broad range of anti-HAV Ig plasma titers was observed among these centers, with some centers exhibiting 3–5 times the titers of the others. Minor to no differences were observed for levels of anti-MeV and anti-CMV, respectively. Importantly, elevated anti-HAV Ig titers were broadly observed across plasma units obtained from the centers exhibiting high titers, indicative of a potential regional phenomenon among donors as opposed to few donors with singularly high titers. Plasma from these high-titer centers conferred significantly greater neutralization against HAV in vitro. The outcomes of this study give a glimpse of the antibody diversity inherent in human plasma used to manufacture IG products.. [ABSTRACT FROM AUTHOR]

Published

2020