Research Note: Interactions among the MDA5, MAVS, and STING signaling pathways in chicken cells.

Innate immunity, as an organism's first line of defense, plays a crucial role in rapidly responding to and protecting the body against invading pathogens. As a cytosolic RNA sensor for viral infections, including infections caused by influenza virus, the innate immune system in chickens has 2 major pathogen-recognition receptors (PRRs): Toll-like receptor 3 (TLR3) and melanoma differentiation-associated protein 5 (MDA5). The signaling pathways activated by PRRs are complex, systemic processes that underlie the response to foreign molecules.

Transposition and the Expression of Human Cystatin C in Transgenic Chickens.

A bioreactor can be used for mass production of therapeutic proteins and other bioactive substances. Although various methods have been developed using microorganisms and animal cells, advanced strategies are needed for the efficient production of biofunctional proteins. In microorganisms, post-translational glycosylation and modification are not performed properly, while animal cell systems require more time and expense.

Muscle differentiation induced by p53 signaling pathway-related genes in myostatin-knockout quail myoblasts.

The myostatin (MSTN) gene is of interest in the livestock industry because mutations in this gene are closely related to growth performance and muscle differentiation. Thus, in this study, we established MSTN knockout (KO) quail myoblasts (QM7) and investigated the regulatory pathway of the myogenic differentiation process. We used clustered regularly interspaced short palindromic repeats (CRISPR)/Cas9 to generate MSTN KO QM7 cells and subsequently isolated a single cell-derived MSTN KO QM7 subline with 10- and 16-nucleotide deletions that induced translational frameshift mutations.

Functional analyses of miRNA-146b-5p during myogenic proliferation and differentiation in chicken myoblasts.

Background: In the poultry and livestock industries, precise genetic information is crucial for improving economic traits. Thus, functional genomic studies help to generate faster, healthier, and more efficient animal production. Chicken myoblast cells, which are required for muscle development and regeneration, are particularly important because chicken growth is closely related to muscle mass.

Generation of myostatin-knockout chickens mediated by D10A-Cas9 nickase.

Many studies have been conducted to improve economically important livestock traits such as feed efficiency and muscle growth. Genome editing technologies represent a major advancement for both basic research and agronomic biotechnology development. The clustered regularly interspaced short palindromic repeats (CRISPR)/Cas9 technical platform is a powerful tool used to engineer specific targeted loci.