Wei Zhang scite author profile

Major capsid protein L1 of HPV16 was produced in a fused form in Escherichia coli using an inducible expression system. The protein formed insoluble aggregations (inclusion bodies) and the yield was more than 10% of total cell proteins. The inclusion bodies were isolated and solubilised with 8 M urea and the L1 proteins were purified by chromatographic separation. Following removal of the urea by gradual dialysis, the denatured L1 proteins spontaneously renatured and subsequently assembled into polymorphologic aggregations in vitro. Electron microscopy showed that the assembled material included structures resembling native empty capsids as well as incompletely formed capsids. After separation from the pool of polymorphologic structures by sucrose gradient sedimentation, the correctly formed virus-like particles (VLE. coliPs) were recognised by a HPV16 type-specific, conformational-dependent monoclonal antibody in an ELISA. This system offers not only a model for investigation of the intrinsic interactions that occur during L1 assembly, but also a potential route for convenient manufacture of highly purified VLP vaccines.

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A viral genome packaging motor transitions between cyclic and helical symmetry to translocate dsDNA

Woodson¹,

Pajak

Wang

et al. 2020

Preprint

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Molecular segregation and biopolymer manipulation require the action of molecular motors to do work by applying directional forces to macromolecules. The additional strand conserved E (ASCE) ring motors are an ancient family of molecular motors responsible for diverse tasks ranging from biological polymer manipulation (e.g. protein degradation and chromosome segregation) to establishing and maintaining proton gradients across mitochondrial membranes. Viruses also utilize ASCE segregation motors to package their genomes into their protein capsids and serve as accessible experimental systems due to their relative simplicity. We show by CryoEM focused image reconstruction that ASCE ATPases in viral dsDNA packaging motors adopt helical symmetry complementary to their dsDNA substrates. Together with previous data, including structural results showing these ATPases in planar ring conformations, our results suggest that these motors cycle between helical and planar cyclical symmetry, providing a possible mechanism for directional translocation of DNA. We further note that similar changes in quaternary structure have been observed for proteasome and helicase motors, suggesting an ancient and common mechanism of force generation that has been adapted for specific tasks over the course of evolution.

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A method for extracting high-quality total RNA from plant rich in polysaccharides and polyphenols using Dendrobium huoshanense

Liu

Han

et al. 2018

PLoS ONE

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Acquiring high quality RNA is the basis of plant molecular biology research, plant genetics and other physiological investigations. At present, a large number of nucleotide isolation methods have been exploited or modified, such as commercial kits, CTAB, SDS methods and so on. Due to the nature of different plants, extraction methods vary. Moreover, efficiency of certain approach cannot be guaranteed due to composition of different plants and extracting high quality RNA from plants rich in polysaccharides and polyphenols are often difficult. The physical and chemical properties of polysaccharides which are similar to nucleic acids and other secondary metabolites will be coprecipitated with RNA irreversibly. Therefore, how to remove polysaccharides and other secondary metabolites during RNA extraction is the primary challenge. Dendrobium huoshanense is an Orchidaceae perennial herb that is rich in polysaccharides and other secondary metabolites. By using D. huoshanense as the subject, we improved the method originated from CHAN and made it suitable for plants containing high amount of polysaccharides and polyphenols. The extracted total RNA was clear and non-dispersive, with good integrity and no obvious contamination with DNA and other impurities. And it was also evaluated by gel electrophoresis, nucleic acid quantitative detector and PCR assessment. Thus, as a simple approach, it is suitable and efficient in RNA isolation for plants rich in polysaccharides and polyphenols.

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High-Throughput Molecular Profiling of High-Grade Astrocytomas: The Utility of Fluorescence In Situ Hybridization on Tissue Microarrays (TMA-FISH)

Fuller

Wang

Zhang

et al. 2002

J Neuropathol Exp Neurol

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Insights into the Structure and Assembly of the Bacteriophage ϕ29 Double-Stranded DNA Packaging Motor

Cao

Saha

Wang

et al. 2014

J Virol

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The tailed double-stranded DNA (dsDNA) bacteriophage 29 packages its 19.3-kbp genome into a preassembled procapsid structure by using a transiently assembled phage-encoded molecular motor. This process is remarkable considering that compaction of DNA to near-crystalline densities within the confined space of the capsid requires that the packaging motor work against significant entropic, enthalpic, and DNA-bending energies. The motor consists of three phage-encoded components: the dodecameric connector protein gp10, an oligomeric RNA molecule known as the prohead RNA (pRNA), and the homomeric ring ATPase gp16. Although atomic resolution structures of the connector and different pRNA subdomains have been determined, the mechanism of self-assembly and the resulting stoichiometry of the various motor components on the phage capsid have been the subject of considerable controversy. Here a subnanometer asymmetric cryoelectron microscopy (cryo-EM) reconstruction of a connector-pRNA complex at a unique vertex of the procapsid conclusively demonstrates the pentameric symmetry of the pRNA and illuminates the relative arrangement of the connector and the pRNA. Additionally, a combination of biochemical and cryo-EM analyses of motor assembly intermediates suggests a sequence of molecular events that constitute the pathway by which the motor assembles on the head, thereby reconciling conflicting data regarding pRNA assembly and stoichiometry. Taken together, these data provide new insight into the assembly, structure, and mechanism of a complex molecular machine. IMPORTANCEViruses consist of a protein shell, or capsid, that protects and surrounds their genetic material. Thus, genome encapsidation is a fundamental and essential step in the life cycle of any virus. In dsDNA viruses, powerful molecular motors essentially pump the viral DNA into a preformed protein shell. This article describes how a viral dsDNA packaging motor self-assembles on the viral capsid and provides insight into its mechanism of action.

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Dynamic Monitoring of MicroRNA–DNA Hybridization Using DNAase-Triggered Signal Amplification

et al. 2015

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Dynamically monitoring microRNA (miRNA)-DNA reactions is critical for elucidating various biological processes. However, traditional strategies fail to capture this dynamic event because the original targets are preamplified. In the present study, we developed an amplification-free strategy for real-time monitoring of miRNA-DNA hybridization that integrates the advantages of both duplex-specific nuclease (DSN)-triggered signal amplification and single-stranded DNA probe coating facilitated by reduced graphene oxide. DSN-mediated miRNA recognition was found to consist of two phases: hybridization and hybridization cleavage. In the presence of miRNA and DSN, hybridization of a 22-mer miRNA-DNA could be completed within 7 min by observing the angle increase in a surface plasmon resonance (SPR) biosensor. The subsequent hybridization-cleavage process could be visualized as a gradual SPR angle decrease that occurred until all coated probes were hydrolyzed. In addition, for miRNA-21 detection, the proposed linear signal amplification assay demonstrated a sensitivity of 3 fM over a dynamic range of 5 orders of magnitude.

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Barcoded Microchips for Biomolecular Assays

et al. 2014

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Multiplexed assay of analytes is of great importance for clinical diagnostics and other analytical applications. Barcode-based bioassays with the ability to encode and decode may realize this goal in a straightforward and consistent manner. We present here a microfluidic barcoded chip containing several sets of microchannels with different widths, imitating the commonly used barcode. A single barcoded microchip can carry out tens of individual protein/nucleic acid assays (encode) and immediately yield all assay results by a portable barcode reader or a smartphone (decode). The applicability of a barcoded microchip is demonstrated by human immunodeficiency virus (HIV) immunoassays for simultaneous detection of three targets (anti-gp41 antibody, anti-gp120 antibody, and anti-gp36 antibody) from six human serum samples. We can also determine seven pathogen-specific oligonucleotides by a single chip containing both positive and negative controls.

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Multiplex profiling of glycoproteins using a novel bead‐based lectin array

Wang

Zhang

et al. 2013

Proteomics

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Lectin array is becoming important in profiling targeted glycan/glycoprotein, but weak interaction between lectin and glycan causes low sensitivity of the approach. This study aims to develop a bead-based lectin array for improving the sensitivity of glycosylation profiling. Lectins are chemically coupled to fluorescent dye coated microbeads, and glycan-lectin recognition is carried out three dimensionally. The performance of this platform was evaluated, and the LOD of lectin Ricinus communis agglutinin 120 (RCA120) was 50 pg/mL (1 pM) of asialofetuin, providing the bead-based lectin microarray with the highest sensitivity among the reported lectin microarrays. Furthermore, multiplexed assay was performed, which allowed the simultaneous detection of multiple carbohydrate epitopes in a single reaction vessel. The glycosylation patterns of hepatocellular carcinoma associated immunoglobulin G were analyzed, and increased (α-1,6) core fucosylation and (α-2,6) sialylation patterns were observed, which may provide significant clinical evidence for disease diagnosis.

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Wei Zhang

Expression of Human Papillomavirus Type 16 L1 Protein inEscherichia coli:Denaturation, Renaturation, and Self-Assembly of Virus-like Particlesin Vitro

A viral genome packaging motor transitions between cyclic and helical symmetry to translocate dsDNA

A method for extracting high-quality total RNA from plant rich in polysaccharides and polyphenols using Dendrobium huoshanense

High-Throughput Molecular Profiling of High-Grade Astrocytomas: The Utility of Fluorescence In Situ Hybridization on Tissue Microarrays (TMA-FISH)

Insights into the Structure and Assembly of the Bacteriophage ϕ29 Double-Stranded DNA Packaging Motor

Dynamic Monitoring of MicroRNA–DNA Hybridization Using DNAase-Triggered Signal Amplification

Barcoded Microchips for Biomolecular Assays

Multiplex profiling of glycoproteins using a novel bead‐based lectin array

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