Abstract

Maternal nutrition, including the availability of micronutrients such as zinc, influences the health of the offspring. Using Drosophila melanogaster, we studied the impact of zinc deficiency on development and reproduction, as well as the effects of maternal zinc status on the offspring's expression of zinc transporters across F1 to F3 generations. Zinc deficiency was induced by adding N,N,N',N'-Tetrakis (2-pyridylmethyl)-ethylenediamine (TPEN) to the diet on which the eggs representing the F0 generation flies were laid. Then, virgin F0 females were mated with control males to produce F1, and subsequently thereafter to generate F2 and F3. Offspring from F1 to F3 were analyzed for body zinc status and zinc transporter mRNA levels. We found that zinc deficiency significantly (p < 0.05) impaired the development of flies, as evidenced by a reduced eclosion rate of zinc-deficient flies. Similarly, zinc deficiency significantly (p < 0.05) reduced the egg-laying rate in F0 flies, highlighting its impact on reproductive functions. Also, zinc levels were consistently lower in the F0 and persisted in subsequent generations for both male and female offspring, indicating transgenerational alterations in zinc status. Furthermore, gene expression analysis revealed significant (p < 0.05) variations in the mRNA levels of dZip42C.1, dZnT63C, dZip71B, and dZnT35C genes across different generations and between male and female offspring. These findings indicate gender-specific dynamics of gene expression in response to zinc deficiency, suggesting potential regulatory mechanisms involved in maintaining zinc homeostasis. Our study emphasizes the detrimental effects of zinc deficiency on development and reproduction in Drosophila and highlights potential implications for offspring and human health.

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