Wenjun Peng scite author profile

Pathogens and parasites represent significant threats to the health and well-being of honeybee species that are key pollinators of agricultural crops and flowers worldwide. We conducted a nationwide survey to determine the occurrence and prevalence of pathogens and parasites in Asian honeybees, Apis cerana, in China. Our study provides evidence of infections of A. cerana by pathogenic Deformed wing virus (DWV), Black queen cell virus (BQCV), Nosema ceranae, and C. bombi species that have been linked to population declines of European honeybees, A. mellifera, and bumble bees. However, the prevalence of DWV, a virus that causes widespread infection in A. mellifera, was low, arguably a result of the greater ability of A. cerana to resist the ectoprasitic mite Varroa destructor, an efficient vector of DWV. Analyses of microbial communities from the A. cerana digestive tract showed that Nosema infection could have detrimental effects on the gut microbiota. Workers infected by N. ceranae tended to have lower bacterial quantities, with these differences being significant for the Bifidobacterium and Pasteurellaceae bacteria groups. The results of this nationwide screen show that parasites and pathogens that have caused serious problems in European honeybees can be found in native honeybee species kept in Asia. Environmental changes due to new agricultural practices and globalization may facilitate the spread of pathogens into new geographic areas. The foraging behavior of pollinators that are in close geographic proximity likely have played an important role in spreading of parasites and pathogens over to new hosts. Phylogenetic analyses provide insights into the movement and population structure of these parasites, suggesting a bidirectional flow of parasites among pollinators. The presence of these parasites and pathogens may have considerable implications for an observed population decline of Asian honeybees.

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Digital coding of mechanical stress in a dynamic covalent shape memory polymer network

Zhang

et al. 2018

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Controlling stresses in materials presents many unusual opportunities for their engineering applications. The potential for current approaches is severely limited by the intrinsic tie between the stress and the geometric shape. Here, we report a material concept that allows stress management in a highly efficient digital manner while decoupling the stress and the geometric shape. This is realized in a dynamic covalent shape memory polymer network, for which the elastic shape memory sets the baseline stress level and maintains the geometric shape while the plasticity enabled by the dynamic bond exchange allows stress tuning. With a digital gray scale photothermal mechanism, any arbitrarily defined stress distribution can be created in a free-standing polymer film. The naturally invisible stresses can be further visualized as mechanical colors under polarized light, revealing its potential for encoding hidden information. Our approach expands the technological potential in many areas for which stresses are relevant.

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High-throughput single-EV liquid biopsy: Rapid, simultaneous, and multiplexed detection of nucleic acids, proteins, and their combinations

Zhou

Wu²,

et al. 2020

Sci. Adv.

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MicroRNAs (miRNAs), mRNA, and proteins in/on extracellular vesicles (EVs) represent potential cancer biomarkers. Concurrent detection of multiple biomarkers at a single-EV level would greatly improve prognosis and/or diagnosis and understanding of EV phenotypes, biogenesis, and functions. Here, we introduced a High-throughput Nano-bio Chip Integrated System for Liquid Biopsy (HNCIB) system for simultaneous detection of proteins and mRNA/miRNA in a single EV. Validated through systematic control experiments, HNCIB showed high reliability, sensitivity, and specificity. In a panel of 34 patients with lung adenocarcinoma (LUAD) and 35 healthy donors, HNCIB detected an up-regulated expression of programmed death-ligand 1 mRNA and protein and miR-21 in EVs derived from patients with LUAD compared to those from healthy donors. HNCIB has low sample requirement (~90 μl), fast assay time (~6 hours), and high throughput (up to 384 samples per assay) and would have great potential in the study of EVs and their clinical applications.

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Architecture of the native major royal jelly protein 1 oligomer

Tian

Guo

et al. 2018

Nat Commun

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Honeybee caste development is nutritionally regulated by royal jelly (RJ). Major royal jelly protein 1 (MRJP1), the most abundant glycoprotein among soluble royal jelly proteins, plays pivotal roles in honeybee nutrition and larvae development, and exhibits broad pharmacological activities in humans. However, its structure has long remained unknown. Herein, we identify and report a 16-molecule architecture of native MRJP1 oligomer containing four MRJP1, four apisimin, and eight unanticipated 24-methylenecholesterol molecules at 2.65 Å resolution. MRJP1 has a unique six-bladed β-propeller fold with three disulfide bonds, and it interacts with apisimin mainly by hydrophobic interaction. Every four 24-methylenecholesterol molecules are packaged by two MRJP1 and two apisimin molecules. This assembly dimerizes to form an H-shaped MRJP14-apisimin4-24-methylenecholesterol8 complex via apisimin in a conserved and pH-dependent fashion. Our findings offer a structural basis for understanding the pharmacological effects of MRJPs and 24-methylenecholesterol, and provide insights into their unique physiological roles in bees.

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Diversity of Nosema associated with bumblebees (Bombus spp.) from China

Li¹,

Chen

Wu³

et al. 2012

International Journal for Parasitology

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Light‐Coded Digital Crystallinity Patterns Toward Bioinspired 4D Transformation of Shape‐Memory Polymers

Peng

Zhang

Liu

et al. 2020

Adv Funct Materials

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Spatially heterogeneous distribution of active components is key to the diverse shape-morphing behaviors of biological species and their associated functions. Artificial morphing materials employing similar strategies have widened the design space for advanced functional devices. Typically, the spatial heterogeneity is introduced during the material synthesis/fabrication step and cannot be altered afterward. An approach that allows spatio-selective programming of crystallinity in a shape-memory polymer (SMP) by a digital photothermal effect is reported. The light-patternable crystallinity affects greatly the shape morphing behavior. Consequently, a pre-stretched 2D film with spatial heterogeneity in crystallinity can morph with time into designable 3D permanent shapes, achieving the 4D transformation. This approach utilizes a reprocessible thermoplastic SMP (polylactide) and the programming relies on a physical phase transformation (crystallization) instead of chemical heterogeneity. This allows repeated erasing and reprogramming using the same material, suggesting a versatile and sustainable means for manufacturing advanced morphing devices.

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Cross-Species Infection of Deformed Wing Virus Poses a New Threat to Pollinator Conservation

Li¹,

Peng²,

Wu³

et al. 2011

jnl. econ. entom.

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The Deformed wing virus (family Iflaviridae, genus Iflavirus, DWV), one of the most prevalent and common viruses in honey bees, Apis mellifera L., is present in both laboratory-reared and wild populations of bumble bees, Bombus huntii Greene. Our studies showed that DWV infection spreads throughout the entire body of B. huntii and that the concentration of DWV is higher in workers than in males both collected in the field and reared in the laboratory, implying a possible association between the virus infection and foraging activities. Further results showed that gut tissue of B. huntii can support the replication of DWV, suggesting that B. huntii is a biological host for DWV, as are honey bees. Bumble bees and honey bees sometimes share nectar and pollen resources in the same field. The geographical proximity of two host species probably plays an important role in host range breadth of the virus.

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Autonomous Off‐Equilibrium Morphing Pathways of a Supramolecular Shape‐Memory Polymer

et al. 2021

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SMP) can only switch monotonically between its temporary and permanent shapes. Advanced hydrogels [11][12][13] incorporating distinct hydrogel components in a composite manner allow access to much more sophisticated shape-shifting behaviors such as reversible buckling. However, the behavior typically requires complex external triggering, for example, two/ more different stimuli. Similarly, multi-SMP capable of complex shifting amongst more than two shapes demands access to multi-step temperature control in both the programming and recovery processes. [14,15] From the standpoint of device applications, shape programming step is typically conducted outside the device deployment/utilization process. Complex programming thus does not compromise the device potential. On the contrary, the necessary conditions to trigger the device deployment may place severe limitation on the practical values. In other words, a mechanism that allows triggering complex shape-shifting with an easily accessible stimulation method is highly desirable. The recently emerged temporal programming comes into sight. [16][17][18] It utilizes time as a naturally available stimulus to control the shape-shifting behavior instead of other conventional physical stimuli such as temperature and pH. Although elegant, the concept suffers from two notable drawbacks. First, its shapeshifting starts immediately after the programming without a controlling mechanism for its onset. Second, accessing complex autonomous shape-shifting behaviors with temporal programming requires imposing correspondingly sophisticated programming forces. Both these limitations arise from the fact that current temporal shape-shifting systems utilize time as the sole programming parameter to control the shape-shifting behavior. [16] With the realization of the universal time-temperature superposition for polymers, we hypothesize that controlling the programming temperature can greatly extend the scope of autonomous shape-shifting. This is non-trivial since temperature control can be achieved digitally in a non-contact spatioselective way via for instance a photothermal mechanism. [19][20][21] We also conjecture that a glass transition below room temperature may allow switching on-off the autonomous shapeshifting. With these thoughts in mind, we design a T g -based network with strong time-temperature dependent ureidopyrimidinone hydrogen bonds (UPy) moieties. [15,[22][23][24][25] Herein, UPy motif is chosen because of its strong quadruple hydrogenThe diverse morphing behaviors of living creatures arise from their unlimited pathways. In contrast, the equilibrium-driven morphing pathways of common synthetic shape-shifting materials are very limited. For a shape-memory polymer (SMP), its recovery from the temporary shape(s) to the permanent shape typically requires external stimulation and follows a single fixed route. Herein, a covalently crosslinked SMP is designed with ample ureidopyrimidinone (UPy) supramolecular moieties in the network. The UPy units endow the SMP with strong time...

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Wenjun Peng

The Prevalence of Parasites and Pathogens in Asian Honeybees Apis cerana in China

Digital coding of mechanical stress in a dynamic covalent shape memory polymer network

High-throughput single-EV liquid biopsy: Rapid, simultaneous, and multiplexed detection of nucleic acids, proteins, and their combinations

Architecture of the native major royal jelly protein 1 oligomer

Diversity of Nosema associated with bumblebees (Bombus spp.) from China

Light‐Coded Digital Crystallinity Patterns Toward Bioinspired 4D Transformation of Shape‐Memory Polymers

Cross-Species Infection of Deformed Wing Virus Poses a New Threat to Pollinator Conservation

Autonomous Off‐Equilibrium Morphing Pathways of a Supramolecular Shape‐Memory Polymer

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