Lifei Qiu scite author profile

Lifei Qiu

5Publications

126Citation Statements Received

162Citation Statements Given

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Affiliations

China Agricultural University, Shaanxi Normal University

Publications

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Gene reuse facilitates rapid radiation and independent adaptation to diverse habitats in the Asian honeybee

et al. 2020

Sci. Adv.

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Animals with recent shared ancestry frequently adapt in parallel to new but similar habitats, a process often underlined by repeated selection of the same genes. Yet, in contrast, few examples have demonstrated the significance of gene reuse in colonization of multiple disparate habitats. By analyzing 343 genomes of the widespread Asian honeybee, Apis cerana, we showed that multiple peripheral subspecies radiated from a central ancestral population and adapted independently to diverse habitats. We found strong evidence of gene reuse in the Leucokinin receptor (Lkr), which was repeatedly selected in almost all peripheral subspecies. Differential expression and RNA interference knockdown revealed the role of Lkr in influencing foraging labor division, suggesting that Lkr facilitates collective tendency for pollen/nectar collection as an adaptation to floral changes. Our results suggest that honeybees may accommodate diverse floral shifts during rapid radiation through fine-tuning individual foraging tendency, a seemingly complex process accomplished by gene reuse.

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Diversity and functional analysis of Chinese bumblebee gut microbiota reveal the metabolic niche and antibiotic resistance variation of Gilliamella

et al. 2020

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Bumblebees play an important role in maintaining the balance of natural and agricultural ecosystems, and the characteristic gut microbiota of bumblebees exhibit significant mutualistic functions. China has the highest diversity of bumblebees; however, gut microbiota of Chinese bumblebees have mostly been investigated through cultureindependent studies. Here, we analyzed the gut communities of bumblebees from Sichuan, Yunnan, and Shaanxi provinces in China through 16S ribosomal RNA amplicon sequencing and bacterial isolation. It revealed that the bumblebees examined in this study harbored two gut enterotypes as previously reported: one is dominated by Gilliamella and Snodgrassella, and the other is distinguished by prevalent environmental species. The gut compositions obviously varied among different individual bees. We then isolated 325 bacterial strains and the comparative genomic analysis of Gilliamella strains revealed that galactose and pectin digestion pathways were conserved in strains from bumblebees, while genes for the utilization of arabinose, mannose, xylose, and rhamnose were mostly lost. Only two strains from the Chinese bumblebees possess the multidrug-resistant gene emrB, which is phylogenetically closely related to that from the symbionts of soil entomopathogenic nematode. In contrast, tetracycline-resistant genes were uniquely present in three strains from the USA. Our results illustrate the prevalence of strain-level variations in the metabolic potentials and the distributions of antibiotic-resistant genes in Chinese bumblebee gut bacteria.

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Defining honeybee subspecies in an evolutionary context warrants strategized conservation

Qiu¹,

Dong²,

Li³

et al. 2023

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Risk assessment of geological hazards in Southern Shaanxi based on machine learning

Zhou¹,

Qiu²,

Dong³

et al. 2022

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Research on Felicity ratio change law and prewarning index in sandstone grading cycle loading and unloading process

Zhong¹,

Shen²,

Qiu³

et al. 2022

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Lifei Qiu

Gene reuse facilitates rapid radiation and independent adaptation to diverse habitats in the Asian honeybee

Diversity and functional analysis of Chinese bumblebee gut microbiota reveal the metabolic niche and antibiotic resistance variation of Gilliamella

Defining honeybee subspecies in an evolutionary context warrants strategized conservation

Risk assessment of geological hazards in Southern Shaanxi based on machine learning

Research on Felicity ratio change law and prewarning index in sandstone grading cycle loading and unloading process

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