Zinc deficiency affects the development of the central nervous system (CNS) through mechanisms only partially understood. We previously showed that zinc deficiency causes CNS oxidative stress, damaging microtubules and impairing protein nuclear shuttling. STAT1 and STAT3 transcription factors, which require nuclear import for their functions, play major roles in CNS development. Thus, we investigated whether zinc deficiency disrupts STAT1 and STAT3 signaling pathways in the developing fetal CNS, characterizing the involvement of oxidative stress and the cytoskeleton in the adverse effects. Maternal (gestation day 0-19) marginal zinc deficiency (MZD) reduced STAT1 and STAT3 tyrosine phosphorylation and their nuclear translocation in the embr...
We previously showed that zinc (Zn) deficiency affects the STAT3 signaling pathway in part through r...
The divalent cation zinc is an integral requirement for optimal cellular processes, whereby it contr...
Adequate zinc intake during prenatal and postnatal period is important for brain development. During...
Zinc deficiency affects the development of the central nervous system (CNS) through mechanisms only ...
Zinc deficiency affects the development of the central nervous system (CNS) through mechanisms only ...
We previously showed that zinc (Zn) deficiency affects the STAT3 signaling pathway in part through r...
Disturbances in neuronal differentiation and function are an underlying factor of many brain disorde...
Zinc is essential for normal brain development. Gestational severe zinc deficiency can lead to overt...
Zinc (Zn) deficiency during early development can result in multiple brain abnormalities and altered...
Adverse nutritional and environmental conditions during early development can irreversibly affect th...
During pregnancy, a decreased availability of zinc to the fetus can disrupt the development of the c...
This study investigated if a marginal zinc deficiency during gestation in rats could affect fetal ne...
This study investigated if a marginal zinc deficiency during gestation in rats could affect fetal ne...
Zinc is essential for normal brain development. Gestational severe zinc deficiency can lead to overt...
peer-reviewedDisturbances in neuronal differentiation and function are an underlying factor of many ...
We previously showed that zinc (Zn) deficiency affects the STAT3 signaling pathway in part through r...
The divalent cation zinc is an integral requirement for optimal cellular processes, whereby it contr...
Adequate zinc intake during prenatal and postnatal period is important for brain development. During...
Zinc deficiency affects the development of the central nervous system (CNS) through mechanisms only ...
Zinc deficiency affects the development of the central nervous system (CNS) through mechanisms only ...
We previously showed that zinc (Zn) deficiency affects the STAT3 signaling pathway in part through r...
Disturbances in neuronal differentiation and function are an underlying factor of many brain disorde...
Zinc is essential for normal brain development. Gestational severe zinc deficiency can lead to overt...
Zinc (Zn) deficiency during early development can result in multiple brain abnormalities and altered...
Adverse nutritional and environmental conditions during early development can irreversibly affect th...
During pregnancy, a decreased availability of zinc to the fetus can disrupt the development of the c...
This study investigated if a marginal zinc deficiency during gestation in rats could affect fetal ne...
This study investigated if a marginal zinc deficiency during gestation in rats could affect fetal ne...
Zinc is essential for normal brain development. Gestational severe zinc deficiency can lead to overt...
peer-reviewedDisturbances in neuronal differentiation and function are an underlying factor of many ...
We previously showed that zinc (Zn) deficiency affects the STAT3 signaling pathway in part through r...
The divalent cation zinc is an integral requirement for optimal cellular processes, whereby it contr...
Adequate zinc intake during prenatal and postnatal period is important for brain development. During...