Abstract Full Text:PDF Recommended articles Mail to Author How to Cite

¹ Tianjin Normal University, College of life science, Tianjin, China DOI : 10.4194/TRJFAS25726 Viewed : 55 - Downloaded : 53 Neocaridina davidi, a member of Decapoda within Crustacea, stands out due to its petite stature, robust reproductive capabilities and short molting cycle. Consequently, it has emerged as a valuable experimental model for investigations spanning ecology, development, physiology, and toxicology. Despite the pivotal role of Hypoxia Inducible Factor-1α (HIF-1α) in diverse physiological processes like biological hypoxia stress, cellular growth, and stress resistance, its functionality in crustaceans remains underexplored. Moreover, the role and function of HIF-1α in crustaceans, especially in embryonic stages, have been insufficiently addressed. This study delves into the function of HIF-1α during embryonic development. Initially, the complete sequence of the HIF-1α gene was acquired. Notably, the expression of HIF-1α during the cleavage stage surpassed that of subsequent phases. Subsequently, dsRNAHIF-1α was introduced into sexually mature shrimp, revealing that the inhibitory impact of dsRNA on gene expression in the parental generation could be inherited by the offspring, exerting a specific gene silencing effect in the embryo. The consequences of silencing HIF-1α in embryos manifested as varying degrees of premature division termination, besides, the glycolysis in the embryos was also affected by HIF-1α suppression. These results provide data support for understanding the early embryonic development of crustaceans and HIF-1α functions within it. Keywords : HIF-1α Embryo cleavage Maternal protein Glycolysis Crustacean