Deshui Chen
Guangxi University
11 Papers
Deshui Chen is an academic researcher from Guangxi University. The author has contributed to research in topics: Biology & Chemistry. The author has co-authored 1 publications.
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Papers
Effects of light on growth, feeding rate, digestion, and antioxidation in juvenile razor clams Sinonovacula constricta
Mengqi Zhang,Fei Kong,Bin Ma,Deshui Chen,Zhaoshou Ran,Shuo Nan Ma,Kai Liao,Jiayi Cao,Lin Zhang,Xiaojun Yan,Jilin Xu +10 more
TL;DR: In this article , the effects of seven light treatments (white, violet, blue, cyan, green, yellow, and red) on juvenile Sinonovacula constricta (length, 693.79 ± 82.91 μm), employing dark treatment as a control.
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Eyeless razor clam Sinonovacula constricta discriminates light spectra through opsins to guide Ca2+ and cAMP signaling pathways.
Fei Kong,Zhaoshou Ran,Mengqi Zhang,Kai Liao,Deshui Chen,Xiaojun Yan,Jilin Xu +6 more
TL;DR: The eyeless razor clam Sinonovacula constricta is introduced as a model to clarify the underlying molecular basis and phototransduction mechanism of opsins in marine bivalves and their potential functions in nonvisual photosensitivity.
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Effects of dietary carbohydrate/lipid ratios on growth, body composition, amylase activity, oxidative status, and mTOR/autophagy pathway in juvenile clam, Sinonovacula constricta
Kai Liao,Yang Liu,Deshui Chen,Jilin Xu +3 more
TL;DR: This study investigates the effects of dietary carbohydrate/lipid ratios on growth, body composition, and metabolic pathways in juvenile clams, Sinonovacula constricta, revealing an optimal ratio of 3.01 and highlighting the importance of carbohydrate and lipid balance for clam growth and health.
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mTOR Plays a Conserved Role in Regulation of Nutritional Metabolism in Bivalve Sinonovacula constricta
TL;DR: In this paper , the role of mTOR in nutrient metabolism in bivalve mollusks was investigated in Sinonovacula constricta using an activator (MHY1485) or inhibitor (rapamycin) of mtor.
Enhancing the Thermotolerance of Isochrysis zhangjiangensis Through Co-culturing With Algoriphagus marincola
TL;DR: Findings indicate that A. marincola effectively helps I. zhangjiangensis withstand high temperature stress, leading to improved yield of microalgae during high temperature conditions.
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