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A strain-specific alteration of proteomic expression in mouse liver fructose 1,6-bisphosphatase isoforms by alcohol

Cited 6 time in Web of Science Cited 7 time in Scopus
Authors

Park, Bokyung; Oh, Seung Hyun; Seong, Je Kyung; Paik, Young Ki

Issue Date
2004-11
Publisher
John Wiley & Sons Ltd.
Citation
Proteomics, Vol.4 No.11, pp.3413-3421
Abstract
To study alcohol-related metabolism across inbred mouse strains, liver tissues from C57BL/6J (B6, an alcohol-preferring mouse) and DBA/2J (D2, an alcohol-avoiding strain) mice were analyzed for proteomic expression patterns over time after a single-dose of alcohol (1.5 g/kg ingestion). Despite no significant difference in the elimination rate of blood ethanol, two-dimensional electrophoresis gel images of liver proteins showed that proteins in B6 mice exhibited faster response and more quantitative (spot numbers) and qualitative (spot densities) changes than in D2 mice. Among the differentially expressed metabolic enzymes, four variants (alpha, beta, gamma and delta) of fructose 1,6-bisphosphatase (FBPase), a key regulatory gluconeogenic enzyme, showed remarkable changes in expression with time across the strains. The degree of spot alteration in alpha- and gamma-variants of FBPase in B6 mice was much higher than in D2 mice, while the beta- and delta-forms were not changed as much. Mass spectrometry (MS) analysis showed that the 1714.9 +/- 1 mass peak from the alpha- and gamma-variants of FBPase was much stronger than that of the beta- and delta-variants in both strains regardless of spot density. This MS peak contains 2-ANHAPFETDISTLTR-16, located at the N-terminal of FBPase, where the N-terminal alanine was found to be trimethylated. Thus, we propose this N-terminal fragment as a potential site for enzyme modification in response to ethanol, allowing for differences in two-dimensional gel spot intensity of variants of FBPase in the two mouse strains.
ISSN
1615-9853
URI
https://hdl.handle.net/10371/208620
DOI
https://doi.org/10.1002/pmic.200400975
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  • College of Veterinary Medicine
  • Department of Veterinary Medicine
Research Area Metabolic syndrome model construction and omics research, Mouse locomotion and metabolic phenotyping analysis, Study of immune regulatory response in obesity, 대사증후군 모델 구축 및 오믹스 연구, 마우스 운동 및 대사 표현형 분석, 비만에서의 면역 조절 반응 연구

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