Huili Wang scite author profile

Accumulating evidence shows that hydrogen sulfide (H(2)S) plays various physiological roles in plants, such as seed germination, root organogenesis, abiotic stress tolerance, and senescence of cut flowers. However, whether H(2)S participates in the regulation of ripening and senescence in postharvest fruits remains unknown. In the present study, the effect of H(2)S on postharvest shelf life and antioxidant metabolism in strawberry fruits was investigated. Fumigation with H(2)S gas released from the H(2)S donor NaHS prolonged postharvest shelf life of strawberry fruits in a dose-dependent manner. Strawberry fruits fumigated with various concentrations of H(2)S sustained significantly lower rot index, higher fruit firmness, and kept lower respiration intensity and polygalacturonase activities than controls. Further investigation showed that H(2)S treatment maintained higher activities of catalase, guaiacol peroxidase, ascorbate peroxidase, and glutathione reductase and lower activities of lipoxygenase relative to untreated controls. H(2)S also reduced malondialdehyde, hydrogen peroxide, and superoxide anion to levels below control fruits during storage. Moreover, H(2)S treatment maintained higher contents of reducing sugars, soluble proteins, free amino acid, and endogenous H(2)S in fruits. We interpret these data as indicating that H(2)S plays an antioxidative role in prolonging postharvest shelf life of strawberry fruits.

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Chromatin configurations in the germinal vesicle of mammalian oocytes

Tan

Wang

Sun

et al. 2008

Molecular Human Reproduction

168

144

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In all the studied mammalian species, chromatin in the germinal vesicle (GV) is initially decondensed with the nucleolus not surrounded by heterochromatin (the NSN configuration). During oocyte growth, the GV chromatin condenses into perinucleolar rings (the SN configuration) or other corresponding configurations with or without the perinucleolar rings, depending on species. During oocyte maturation, the GV chromatin is synchronized in a less condensed state before germinal vesicle breakdown (GVBD) in species that has been minutely studied. Oocytes may also take on a SN/corresponding configuration during early atresia, but they undergo GVBD at the advanced stage of atresia. As not all the species show the SN configuration while in all the species, gene transcription always stops at the late stage of oocyte growth, it is suggested that not the formation of perinucleolar rings but a thorough condensation of GV chromatin is essential for transcriptional repression. The GV chromatin configuration is highly correlated with oocyte competence; oocytes must end the NSN configuration before they gain the full meiotic competence, and they must take on the SN/corresponding configurations and stop gene transcription before they acquire the competence for early embryonic development. While factors inhibiting follicle atresia tend to synchronize oocytes in a chromatin configuration toward maturation, factors inducing follicle atresia tend to synchronize oocytes in a chromatin configuration reminiscent of early atresia. Furthermore, although condensation of GV chromatin is associated with transcriptional repression, both processes may not be associated with histone deacetylation during oocyte growth.

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Decrease in Calcium Concentration Triggers Neuronal Retinoic Acid Synthesis during Homeostatic Synaptic Plasticity

Wang

Zhang²,

Hintze³

et al. 2011

J. Neurosci.

124

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Blockade of synaptic activity induces homeostatic plasticity, in part by stimulating synthesis of all-trans retinoic acid (RA), which in turn increases AMPA receptor synthesis. However, the synaptic signal that triggers RA synthesis remained unknown. Using multiple activity-blockade protocols that induce homeostatic synaptic plasticity, here we show that RA synthesis is activated whenever postsynaptic Ca2+-entry is significantly decreased, and that RA is required for up-regulation of synaptic strength under these homeostatic plasticity conditions, suggesting that Ca2+ plays an inhibitory role in RA synthesis. Consistent with this notion, we demonstrate that both transient Ca2+-depletion by membrane-permeable Ca2+-chelators and chronic blockage of L-type Ca2+-channels induces RA synthesis. Moreover, the source of dendritic Ca2+ entry that regulates RA synthesis is not specific as mild depolarization with KCl is sufficient to reverse synaptic scaling induced by L-type Ca2+-channel blocker. By expression of a dihydropyridine-insensitive L-type Ca2+-channel, we further show that RA acts cell-autonomously to modulate synaptic transmission. Our findings suggest that in synaptically active neurons, modest ‘basal’ levels of postsynaptic Ca2+ physiologically suppress RA synthesis, whereas in synaptically inactive neurons, decreases in the resting Ca2+-levels induce homeostatic plasticity, by stimulating synthesis of RA that then acts in a cell-autonomous fashion to increase AMPA receptor function.

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Hydrogen sulfide acts as a regulator of flower senescence in plants

Zhang

et al. 2011

Postharvest Biology and Technology

221

115

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Multiple epigenetic factors predict the attention deficit/hyperactivity disorder among the Chinese Han children

Chen

Luo

et al. 2015

Journal of Psychiatric Research

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Huili Wang

Hydrogen Sulfide Prolongs Postharvest Shelf Life of Strawberry and Plays an Antioxidative Role in Fruits

Chromatin configurations in the germinal vesicle of mammalian oocytes

Decrease in Calcium Concentration Triggers Neuronal Retinoic Acid Synthesis during Homeostatic Synaptic Plasticity

Hydrogen sulfide acts as a regulator of flower senescence in plants

Multiple epigenetic factors predict the attention deficit/hyperactivity disorder among the Chinese Han children

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