Klhl30-KO Mouse

KLHL30, a Kelch-like gene, is emerging as a significant regulator in multiple biological processes. It has been associated with pathways related to muscle development, lipid metabolism, and potentially circadian rhythm. In the context of muscle-related processes, its function is of particular importance, and genetic models could potentially further elucidate its role in these complex biological systems [1-2].

In myoblasts, KLHL30 has a crucial role. Transcriptomic and qPCR analyses show its up-regulation during myoblast differentiation. Overexpression of KLHL30 promotes myoblast differentiation and myotube formation by up-regulating myogenic transcription factors like MYOD, MYOG, and MEF2C, while its knockdown has the opposite effect. Additionally, KLHL30 decreases the number of cells in the S stage, depressing myoblast proliferation [1]. In Nelore cattle, KLHL30 is identified as a hub gene associated with intramuscular fat content, suggesting it may have effects on muscle metabolism, though the exact role in lipid metabolism is yet to be clarified [2].

In summary, KLHL30 is an essential regulator in myoblast proliferation and differentiation. Its potential role in lipid metabolism in Nelore cattle also indicates its importance in muscle-related metabolic processes. The study of KLHL30 through model-based research, such as potential KO/CKO mouse models, could further clarify its role in these biological processes and potentially in related disease conditions. [1-2]

References:

1. Chen, Genghua, Yin, Yunqian, Lin, Zetong, Chen, Jiahui, Luo, Wen. 2021. Transcriptome profile analysis reveals KLHL30 as an essential regulator for myoblast differentiation. In Biochemical and biophysical research communications, 559, 84-91. doi:10.1016/j.bbrc.2021.04.086. https://pubmed.ncbi.nlm.nih.gov/33933993/

2. Dos Santos Silva, Danielly Beraldo, Fonseca, Larissa Fernanda Simielli, Pinheiro, Daniel Guariz, Chardulo, Luis Artur Loyola, de Albuquerque, Lucia Galvão. 2019. Prediction of hub genes associated with intramuscular fat content in Nelore cattle. In BMC genomics, 20, 520. doi:10.1186/s12864-019-5904-x. https://pubmed.ncbi.nlm.nih.gov/31238883/