Safety, immunogenicity and efficacy of an mRNA-based COVID-19 vaccine, GLB-COV2-043, in preclinical animal models.

Several COVID-19 vaccines, some more efficacious than others, are now available and deployed, including multiple mRNA- and viral vector-based vaccines. With the focus on creating cost-effective solutions that can reach the low- and medium- income world, GreenLight Biosciences has developed an mRNA vaccine candidate, GLB-COV2-043, encoding for the full-length SARS-CoV-2 Wuhan wild-type spike protein. In pre-clinical studies in mice, GLB-COV2-043 induced robust antigen-specific binding and virus-neutralizing antibody responses targeting homologous and heterologous SARS-CoV-2 variants and a T1-biased immune response.

Community-based participatory research to improve alumni transition from an intensive research training program for historically underrepresented undergraduates.

Various initiatives for undergraduates from historically underrepresented backgrounds attempt to address disparities in the completion of science, technology, engineering, mathematics (STEM) degrees and the pursuit of careers in scientific research. Intensive research training programs for historically underrepresented undergraduates may include multiple components, such as authentic research experiences, advising and mentoring, supplemental curriculum, and financial assistance. Following comprehensive support during program participation, the post-program transition may present a vulnerable period in students' career trajectories.

Adhesive Functions or Pseudogenization of Type Va Autotransporters in Species.

Adhesion to host cells is a key step for successful infection of many bacterial pathogens and may define tropism to different host tissues. To do so, bacteria display adhesins on their surfaces. is an intracellular pathogen capable of proliferating in a wide variety of cell types.

Ordered patterning of the sensory system is susceptible to stochastic features of gene expression.

Sensory neuron numbers and positions are precisely organized to accurately map environmental signals in the brain. This precision emerges from biochemical processes within and between cells that are inherently stochastic. We investigated impact of stochastic gene expression on pattern formation, focusing on (), a key determinant of sensory fate in .

The effector mechanism of siRNA spherical nucleic acids.

Spherical nucleic acids (SNAs) are nanostructures formed by chemically conjugating short linear strands of oligonucleotides to a nanoparticle template. When made with modified small interfering RNA (siRNA) duplexes, SNAs act as single-entity transfection and gene silencing agents and have been used as lead therapeutic constructs in several disease models. However, the manner in which modified siRNA duplex strands that comprise the SNA lead to gene silencing is not understood.