Yeunsu Suh
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Explore the profile of Yeunsu Suh including associated specialties, affiliations and a list of published articles.
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33
Citations
310
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Recent Articles
1.
Kim D, Lee J, Suh Y, Chen P, Lee K
Poult Sci
. 2024 Dec;
104(2):104720.
PMID: 39729733
Advanced genetic and nutritional strategies aimed at modulating fat deposition can significantly reduce production costs and enhance profitability in the poultry industry. Melanophilin (MLPH) is recognized as a key gene...
2.
Choi W, Lee J, Kim D, Ma E, Suh Y, Lee S, et al.
Front Physiol
. 2024 Oct;
15:1467489.
PMID: 39397854
Genetic modification could provide direct functions of genes that could potentially contribute to diverse areas of research including genetics, developmental biology, and physiology. It has been reported that genes of...
3.
Ahn J, Suh Y, Lee K
Cells
. 2023 Feb;
12(4).
PMID: 36831292
White adipose tissue serves as a metabolically dynamic organ that can synthesize and secrete biologically active compounds such as adipokines as well as a caloric reservoir for maintaining energy homeostasis....
4.
Ahn J, Kim D, Park M, Suh Y, Lee H, Hwang S, et al.
Front Cell Dev Biol
. 2022 Oct;
10:978343.
PMID: 36274854
Spermatogenesis is the highly orchestrated process involving expression of a series of testicular genes. Testis-enriched genes are critical for cellular processes during spermatogenesis whose disruption leads to impaired spermatogenesis and...
5.
Kim D, Ahn J, Suh Y, Ziouzenkova O, Lee J, Lee K
Front Cell Dev Biol
. 2022 May;
10:876031.
PMID: 35493071
Retinol is an essential nutrient in animals. Its metabolites, specifically retinoic acid (RA), are crucial for cell differentiation, including adipogenesis. Retinol binding protein 7 (Rbp7) is under the control of...
6.
Kim D, Lee J, Suh Y, Ko J, Lee K
Front Cell Dev Biol
. 2022 Apr;
10:856881.
PMID: 35465310
Increased adipogenesis in muscle tissues is related to metabolic syndromes and muscle weakness in humans and improvement of meat quality in animal production. With growing evidence for pro-adipogenic functions of...
7.
Kim D, Choi Y, Lee J, Shin S, Kim S, Suh Y, et al.
Animals (Basel)
. 2022 Mar;
12(5).
PMID: 35268106
Myostatin (Mstn)-A, the main isoform among Mstn splicing variants, functions as a negative regulator, whereas Mstn-B functions as a positive regulator in muscle development. Because broiler chickens are a fast-growing...
8.
Kim D, Lee J, Suh Y, Cressman M, Lee K
Poult Sci
. 2021 Jul;
100(8):101277.
PMID: 34198089
The study of adipogenesis is one of the most important areas for not only regulating meat quality, but production efficiency associated with fat accretion in the poultry species. Current in...
9.
Lee J, Kim D, Suh Y, Lee K
Poult Sci
. 2021 Mar;
100(5):101057.
PMID: 33743496
Current research of avian adipogenesis has been dependent on primary preadipocytes culture due to the lack of commercially available immortal preadipocyte cell lines in avian species. In addition to primary...
10.
Kim D, Choi Y, Suh Y, Shin S, Lee J, Hwang S, et al.
Poult Sci
. 2021 Feb;
100(4):100978.
PMID: 33588344
Genetic selection of quail for a low body weight for more than 80 generations established a low-weight (LW) Japanese quail line that has been previously characterized to have a muscle...