Kathryn V. Holmes: A Career of Contributions to the Coronavirus Field.

Over the past two years, scientific research has moved at an unprecedented rate in response to the COVID-19 pandemic. The rapid development of effective vaccines and therapeutics would not have been possible without extensive background knowledge on coronaviruses developed over decades by researchers, including Kathryn (Kay) Holmes. Kay's research team discovered the first coronavirus receptors for mouse hepatitis virus and human coronavirus 229E and contributed a wealth of information on coronaviral spike glycoproteins and receptor interactions that are critical determinants of host and tissue specificity.

Persistent growth of a human plasma-derived hepatitis C virus genotype 1b isolate in cell culture.

HCV (hepatitis C virus) research, including therapeutics and vaccine development, has been hampered by the lack of suitable tissue culture models. Development of cell culture systems for the growth of the most drug-resistant HCV genotype (1b) as well as natural isolates has remained a challenge. Transfection of cultured cells with adenovirus-associated RNA(I) (VA RNA(I)), a known interferon (IFN) antagonist and inhibitor of dsRNA-mediated antiviral pathways, enhanced the growth of plasma-derived HCV genotype 1b.

Far-upstream elements are dispensable for tissue-specific proenkephalin expression using a Cre-mediated knock-in strategy.

Several cis-regulatory DNA elements are present in the 5' upstream regulatory region of the enkephalin gene (ENK) promoter. To determine their role in conferring organ-specificity of ENK expression in mice and to circumvent the position effects from random gene insertion that are known to often frustrate such analysis in transgenic mice, we used a Cre-mediated gene knock-in strategy to target reporter constructs to a "safe haven" loxP-tagged locus in the hypoxanthine phosphoribosyltransferase (HPRT) gene. Here we report reliable and reproducible reporter gene expression under the control of the 5' upstream regulatory region of the mouse ENK gene in gene-modified mice using this Cre-mediated knock-in strategy.

Oral immunization with HCV-NS3-transformed Salmonella: induction of HCV-specific CTL in a transgenic mouse model.

Background & Aims: The ability to induce cytotoxic T cells is considered an important feature of a candidate hepatitis C virus (HCV) vaccine. We used an oral immunization strategy with attenuated HCV-NS3-transformed Salmonella typhimurium to deliver DNA directly to the gut-associated lymphoid tissue.

Methods: HLA-A2.

Nuclear targeting determinants of the phage P1 cre DNA recombinase.

The Cre DNA recombinase of bacteriophage P1 has become a useful tool for genomic manipulation in mice and other eukaryotes. Because Cre is of prokaryotic origin, the 38 kDa protein has been presumed to gain access to the eukaryotic nucleus simply because it is sufficiently small to pass through the nuclear pore by passive diffusion. Instead, we show here that Cre carries nuclear targeting determinants that efficiently direct Cre entry into the nucleus of mammalian cells.