Hang Zhao scite author profile

Nuclear factor Y (NF-Y) is an evolutionarily conserved trimeric transcription factor complex present in nearly all eukaryotes. The heterotrimeric NF-Y complex consists of three subunits, NF-YA, NF-YB, and NF-YC, and binds to the CCAAT box in the promoter regions of its target genes to regulate their expression. Yeast and mammal genomes generally have single genes with multiple splicing isoforms that encode each NF-Y subunit. By contrast, plant genomes generally have multi-gene families encoding each subunit and these genes are differentially expressed in various tissues or stages. Therefore, different subunit combinations can lead to a wide variety of NF-Y complexes in various tissues, stages, and growth conditions, indicating the potentially diverse functions of this complex in plants. Indeed, many recent studies have proved that the NF-Y complex plays multiple essential roles in plant growth, development, and stress responses. In this review, we highlight recent progress on NF-Y in Arabidopsis thaliana, including NF-Y protein structure, heterotrimeric complex formation, and the molecular mechanism by which NF-Y regulates downstream target gene expression. We then focus on its biological functions and underlying molecular mechanisms. Finally, possible directions for future research on NF-Y are also presented.

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The Wisdom of Honeybee Defenses Against Environmental Stresses

Zhao

Liu

et al. 2018

Front. Microbiol.

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As one of the predominant pollinator, honeybees provide important ecosystem service to crops and wild plants, and generate great economic benefit for humans. Unfortunately, there is clear evidence of recent catastrophic honeybee colony failure in some areas, resulting in markedly negative environmental and economic effects. It has been demonstrated that various environmental stresses, including both abiotic and biotic stresses, functioning singly or synergistically, are the potential drivers of colony collapse. Honeybees can use many defense mechanisms to decrease the damage from environmental stress to some extent. Here, we synthesize and summarize recent advances regarding the effects of environmental stress on honeybees and the wisdom of honeybees to respond to external environmental stress. Furthermore, we provide possible future research directions about the response of honeybees to various form of stressors.

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Transcriptomic and metabolomic landscape of the molecular effects of glyphosate commercial formulation on Apis mellifera ligustica and Apis cerana cerana

Zhao

Guo

et al. 2020

Science of The Total Environment

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Analyses of the function of DnaJ family proteins reveal an underlying regulatory mechanism of heat tolerance in honeybee

Zhao

Guo

et al. 2020

Science of The Total Environment

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Arabidopsis NUCLEAR FACTOR Y A8 inhibits the juvenile-to-adult transition by activating transcription of MIR156s

Zhao

Lin

et al. 2020

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Vegetative (juvenile-to-adult) and flowering (vegetative-to-reproductive) phase changes are crucial in the life cycle of higher plants. MicroRNA156 (miR156) and its target SQUAMOSA PROMOTER BINDING PROTEIN-LIKE (SPL) genes are master regulators that determine vegetative phase changes. The miR156 level gradually declines as a plant ages and its expression is rapidly repressed by sugar. However, the underlying regulatory mechanism of transcriptional regulation of the MIR156 gene remains largely unknown. In this study, we demonstrated that Arabidopsis NUCLEAR FACTOR Y A8 (NF-YA8) binds directly to CCAAT cis-elements in the promoters of multiple MIR156 genes, thus activating their transcription and inhibiting the juvenile-to-adult transition. NF-YA8 was highly expressed in juvenile-stage leaves, and significantly repressed with developmental age and by sugar signals. Our results suggest that NF-YA8 acts as a signaling hub, integrating internal developmental age and sugar signals to regulate the transcription of MIR156s, thus affecting the juvenile-to-adult and flowering transitions.

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Molecular and functional dissection of EARLY-FLOWERING 3 (ELF3) and ELF4 in Arabidopsis

Zhao

Tian

et al. 2021

Plant Science

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Arabidopsis ELF4-like proteins EFL1 and EFL3 influence flowering time

Lin

Zhao

Gan

et al. 2019

Gene

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Response mechanisms to heat stress in bees

Zhao

Guo

et al. 2021

Apidologie

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Bees are vitally important in natural and agricultural ecosystems, providing key pollination services to wild plants and crops. Increasing reports of regional declines of bee populations have attracted intense attention worldwide. Challenges to bee health are multifactorial and include poor nutrition, heat stress, agrochemicals, and pathogens. The impact of heat stress is a relatively minor factor in current bee declines compared with agrochemicals and pathogens. However, heat stress has adverse impacts on foraging activity, pollination services, task-related physiology, immunocompetence, reproductive capacity, growth, and development of bees, and these adverse impacts are variable in different bee species. Heat stress-related damage to bees receives extra attention when it is accompanied by climate change. Heat-tolerance mechanisms are key enablers for bee survival under hightemperature stress conditions, and we now understand that both behavior and molecular regulation strongly impact the ability of bees to reduce damage from heat stress. In this review, we summarize and synthesize previous findings about the detrimental effects of heat stress to bees and discuss the strategies bees use to cope with heat stress. Bee species mentioned here are mainly honeybees, bumblebees, and stingless bees, with a focus on the honeybee Apis mellifera .bees / population decline / heat stress / climate change / defense strategies

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Hang Zhao

The Arabidopsis thaliana Nuclear Factor Y Transcription Factors

The Wisdom of Honeybee Defenses Against Environmental Stresses

Transcriptomic and metabolomic landscape of the molecular effects of glyphosate commercial formulation on Apis mellifera ligustica and Apis cerana cerana

Analyses of the function of DnaJ family proteins reveal an underlying regulatory mechanism of heat tolerance in honeybee

Arabidopsis NUCLEAR FACTOR Y A8 inhibits the juvenile-to-adult transition by activating transcription of MIR156s

Molecular and functional dissection of EARLY-FLOWERING 3 (ELF3) and ELF4 in Arabidopsis

Arabidopsis ELF4-like proteins EFL1 and EFL3 influence flowering time

Response mechanisms to heat stress in bees

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