Yao-Long Shi scite author profile

Yao-Long Shi

2Publications

48Citation Statements Received

146Citation Statements Given

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146

Affiliations

China National Environmental Monitoring Center, Institute of Zoology, Chinese Academy of Sciences

Publications

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Lipidomics Reveals Mitochondrial Membrane Remodeling Associated with Acute Thermoregulation in a Rodent with a Wide Thermoneutral Zone

Qian

Shi

et al. 2014

Lipids

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Mongolian gerbils (Meriones unguiculatus) have high physiological flexibility in response to acute temperature changes, and have the widest thermoneutral zone (TNZ, 26.5-38.9 °C) reported among small mammals. At the upper critical temperature (T(uc), 38.9 °C), body temperatures of gerbils were significantly increased (39-41 °C) while metabolic rates were maintained at the basal level. In contrast, below the lower critical temperature (T(lc), 26.5 °C), metabolism was elevated and body temperature stable. Rapid changes in mitochondrial membrane lipidome were hypothesized to play an important role during acute thermoregulation of gerbils. Taking advantage of a recent lipidomic technique, we examined changes in the membrane phospholipids environment and free fatty acids (FFA) production in mitochondria between 38 and 27 °C (in the TNZ), and between 27 and 16 °C (below the TNZ). At 38 °C, acute heat stress elicited distinct remodeling in mitochondrial membrane lipidome which related to a potential decrease in mitochondrial respiration and membrane fluidity compared to 27 °C. At 16 °C, a sharply decreased unsaturation index and increased chain lengths were detected in mitochondrial FFA production both in muscle and brown adipose tissue. Our results suggest that mitochondrial membrane lipid remodeling may stabilize membrane function and activity of respiration related membrane protein to maintain a stable metabolic rate at T(uc), and improve heat production by decomposing less fluid fatty acid conjugates of membrane lipids under acute cold exposure. These data therefore imply an important role of membrane remodeling during acute thermoregulation in a non-hibernating endotherm.

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Individuality and Transgenerational Inheritance of Social Dominance and Sex Pheromones in Isogenic Male Mice

et al. 2016

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Phenotypic variation and its epigenetic regulations within the inbred isogenic mice have long intrigued biologists. Here, we used inbred C57BL/6 mice to examine the individual differences and the inheritance of social dominance and male pheromones, expecting to create a model for studying the underlying epigenetic mechanisms for the evolution of these traits. We used a repeated male-male contest paradigm to form stable dominance-submission relationships between paired males and make superior or inferior quality manifest. Females showed olfactory preferences for the urine of dominant males to that of subordinate opponents. Gas chromatography-mass spectrometer analysis revealed that dominance-related or superior quality related pheromones were actually exaggerated male pheromone components (e.g., E-β-farnesene, hexadecanol, and 1-hexadecanol acetate) of preputial gland origin. Although the socially naïve sons of both dominant and subordinate males elicited the same female attraction when reaching adulthood, the former could dominated over the latter during undergoing the male-male competition and then gained more attraction of females. Our results demonstrated that social dominance or superior quality and the related pheromones were heritable and could be expressed through the interaction between aggression-related epigenotypes and male-male contests. It suggested that the evolution of sexually selected traits could be epigenetically determined and promoted through female mate choice. The epigenetic mechanisms driving the individual differences in behavior and male pheromones deserve further studies.

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Yao-Long Shi

Lipidomics Reveals Mitochondrial Membrane Remodeling Associated with Acute Thermoregulation in a Rodent with a Wide Thermoneutral Zone

Individuality and Transgenerational Inheritance of Social Dominance and Sex Pheromones in Isogenic Male Mice

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