Xianwu Zhou scite author profile

Metal nanoparticles (MNPs) have been widely used in several fields including catalysis, bioengineering, photoelectricity, antibacterial, anticancer, and medical imaging due to their unique physical and chemical properties. In the traditional synthesis method of MNPs, toxic chemicals are generally used as reducing agents and stabilizing agents, which is fussy to operate and extremely environment unfriendly. Based on this, the development of an environment-friendly synthesis method of MNPs has recently attracted great attention. The use of plant extracts as reductants and stabilizers to synthesize MNPs has the advantages of low cost, environmental friendliness, sustainability, and ease of operation. Besides, the as-synthesized MNPs are nontoxic, more stable, and more uniform in size than the counterparts prepared by the traditional method. Thus, green preparation methods have become a research hotspot in the field of MNPs synthesis. In this review, recent advances in green synthesis of MNPs using plant extracts as reductants and stabilizers have been systematically summarized. In addition, the insights into the potential applications and future development for MNPs prepared by using plant extracts have been provided.

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Upgrading of biomass-derived furanic compounds into high-quality fuels involving aldol condensation strategy

Qian

Liu

et al. 2021

Fuel

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Transcriptome and N6-Methyladenosine RNA Methylome Analyses in Aortic Dissection and Normal Human Aorta

Zhou

Chen

Zhou

et al. 2021

Front. Cardiovasc. Med.

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Objective: To investigate the N6-methyladenosine (m6A) modification and the expressions of the m6A regulatory genes in the acute aortic dissection (AD).Methods: MeRIP-seq and RNA-seq experiments of aortic media tissue samples obtained from AD (n = 4) and Controls (n = 4) were conducted. m6A methylation quantification was used to measure the total mRNA m6A level. The five m6A regulators mRNA expressions were analyzed by quantitative polymerase chain reaction (qPCR). Western blot analyses and immunofluorescence staining were used to detect the difference of METTL14 protein expression in the aortas of AD and Normal.Results: Among AD patients, we detected significantly elevated levels of m6A in total RNA. Compared with the normal group, the up methylated coding genes of AD were primarily enriched in the processes associated with extracellular fibril organization, while the genes with down methylation were enriched in the processes associated with cell death regulation. Furthermore, many differentially methylated m6A sites (DMMSs) coding proteins were mainly annotated during the extracellular matrix and inflammatory responses.Conclusions: These findings indicate that differential m6A methylation and m6A regulatory genes, including MTEEL14 and FTO, may act on functional genes through RNA modification, thereby regulating the pathogenesis of aortic dissection.

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Preliminary study of Cell Wall Structure and its Mechanical Properties of C3H and HCT RNAi Transgenic Poplar Sapling

Zhou

Ren

et al. 2018

Sci Rep

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This research focused on the cell wall structure and its mechanical properties of down-regulated Coumaroyl shikimate 3-hydroxylase (C3H) transgenic poplar and down-regulated hydroxycinnamoyl CoA: shikimate hydroxycinnamoyl transferase (HCT) transgenic poplar (Populus alba × P. glandulosa cv ‘84 k’). The wood samples with respect to microstructure, the longitudinal elastic modulus (MOE) and hardness of wood fiber secondary cell wall were investigated. The results show that the lignin contents in the two transgenic poplar woods were lower than non-modified wood. The C3H transgenic poplar and HCT transgenic poplar have more than 18.5% and 16.1% cellulose crystalline regions than non-modified poplar respectively. The diameter of the fiber cell and the vessel element of transgenic poplars are smaller. Double radial vessel cell wall thicknesses of both transgenic poplars were smaller than non-modified poplar. Cell wall ratios for the transgenic poplar were higher than non-modified poplar and cell wall density was significantly lower in both C3H and HCT transgenic poplar. The cell wall MOEs of C3H and HCT transgenic poplar was 5.8% and 7.0% higher than non-modified poplar. HCT can be more effective than C3H to modify the trees by considerably increasing mechanical properties of the cell wall.

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Deletion of ACTA2 in mice promotes angiotensin II induced pathogenesis of thoracic aortic aneurysms and dissections

et al. 2018

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Structure and Monomer Ratio of Lignin in C3H and HCT RNAi Transgenic Poplar Saplings

Zhou

Yang

et al. 2020

ChemistrySelect

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Wild type poplar hybrid (Populus alba × P. glandulosa cv‘84k′), p‐coumaroyl shikimate 3′‐hydroxylase (C3H) downregulated transgenic poplar and hydroxycinnamoyl CoA: shikimate hydroxycinnamoyl transferase (HCT) downregulated transgenic poplar were used as experimental materials. The techniques of two‐dimensional heteronuclear single‐quantum coherence nuclear magnetic resonance (2D‐HSQC‐NMR) spectroscopy and pyrolysis coupled to gas chromatography‐mass spectrometry (Py‐GC/MS) were used for the analysis and comparison of the lignin structure and monomer ratio between the wild type poplar hybrid and transgenic plants. The results of these analyses showed that the lignin of all poplar samples contained β‐O‐4′ aryl ether linkages and their derivative substructures, resinol substructures, spirodienone substructures, phenylcoumarane substructures, p‐hydroxycinnamyl alcohol end groups, syringyl units, p‐hydroxyphenyl units, guaiacyl units, p‐hydroxybenzoate substructures, and ferulate. Downregulation of C3H and HCT in double transgenic poplar reduced the β‐O‐4′ relative content of lignin in poplar. The S unit, H unit, and S/G ratio in the C3H‐downregulated transgenic poplar were increased, while its G unit was decreased. The S unit and S/G ratio in HCT‐downregulated transgenic poplar were decreased while its G unit was increased. The C3H‐downregulated transgenic poplar was a superior material for biomass energy, pulping, and papermaking than the HCT‐downregulated transgenic poplar.

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Functionalization and Antibacterial Applications of Cellulose-Based Composite Hydrogels

Bao

Song

et al. 2022

Polymers

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Pathogens, especially drug-resistant pathogens caused by the abuse of antibiotics, have become a major threat to human health and public health safety. The exploitation and application of new antibacterial agents is extremely urgent. As a natural biopolymer, cellulose has recently attracted much attention due to its excellent hydrophilicity, economy, biocompatibility, and biodegradability. In particular, the preparation of cellulose-based hydrogels with excellent structure and properties from cellulose and its derivatives has received increasing attention thanks to the existence of abundant hydrophilic functional groups (such as hydroxyl, carboxy, and aldehyde groups) within cellulose and its derivatives. The cellulose-based hydrogels have broad application prospects in antibacterial-related biomedical fields. The latest advances of preparation and antibacterial application of cellulose-based hydrogels has been reviewed, with a focus on the antibacterial applications of composite hydrogels formed from cellulose and metal nanoparticles; metal oxide nanoparticles; antibiotics; polymers; and plant extracts. In addition, the antibacterial mechanism and antibacterial characteristics of different cellulose-based antibacterial hydrogels were also summarized. Furthermore, the prospects and challenges of cellulose-based antibacterial hydrogels in biomedical applications were also discussed.

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Role of c-Abl in Ang II-induced aortic dissection formation: Potential regulatory efficacy on phenotypic transformation and apoptosis of VSMCs

et al. 2020

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Xianwu Zhou

Plant-Extract-Mediated Synthesis of Metal Nanoparticles

Upgrading of biomass-derived furanic compounds into high-quality fuels involving aldol condensation strategy

Transcriptome and N6-Methyladenosine RNA Methylome Analyses in Aortic Dissection and Normal Human Aorta

Preliminary study of Cell Wall Structure and its Mechanical Properties of C3H and HCT RNAi Transgenic Poplar Sapling

Deletion of ACTA2 in mice promotes angiotensin II induced pathogenesis of thoracic aortic aneurysms and dissections

Structure and Monomer Ratio of Lignin in C3H and HCT RNAi Transgenic Poplar Saplings

Functionalization and Antibacterial Applications of Cellulose-Based Composite Hydrogels

Role of c-Abl in Ang II-induced aortic dissection formation: Potential regulatory efficacy on phenotypic transformation and apoptosis of VSMCs

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