1.Direct Synthesis of Bienzyme-like Carbide-derived Carbons via Mild Electrochemical Oxidation of Ti 3AlC 2 MAX.
Yan Feng FANG ; Xiao Teng DING ; Geng Fang XU ; Shi Da GONG ; Yu Sheng NIU ; Zi Yu YAO ; Zhao Yong JIN ; Yao WANG ; Yuan Hong XU
Biomedical and Environmental Sciences 2022;35(3):215-224
Objective:
To develop effective alternatives to natural enzymes, it is crucial to develop nanozymes that are economical, resource efficient, and environmentally conscious. Carbon nanomaterials that have enzyme-like activities have been extensively developed as substitutes for traditional enzymes.
Methods:
Carbide-derived carbons (CDCs) were directly synthesized via a one-step electrochemical method from a MAX precursor using an ammonium bifluoride electrolyte at ambient conditions. The CDCs were characterized by systematic techniques.
Results:
CDCs showed bienzyme-like activities similar to that of peroxidase and superoxide dismutase. We systematically studied the dependence of CDC enzyme-like activity on different electrolytes and electrolysis times to confirm activity dependence on CDC content. Additionally, the synthesis mechanism and CDC applicability were elaborated and demonstrated, respectively.
Conclusion
The demonstrated synthesis strategy eliminates tedious intercalation and delamination centrifugation steps and avoids using high concentrations of HF, high temperatures, and halogen gases. This study paves the way for designing two-dimensional material-based nanocatalysts for nanoenzyme and other applications.
Ammonium Compounds/chemical synthesis*
;
Carbon/chemistry*
;
Electrochemical Techniques
;
Enzymes
;
Fluorides/chemical synthesis*
;
Humans
;
Nanostructures
;
Oxidation-Reduction
2.Biocatalysis of formaldehyde to L-xylose.
Zhailin CHU ; Xiaoyun LU ; Yuwan LIU ; Bo CUI ; Meidong JING ; Huifeng JIANG
Chinese Journal of Biotechnology 2020;36(5):942-948
It is of great significance to use biosynthesis to transform the inorganic substance formaldehyde into organic sugars. Most important in this process was to find a suitable catalyst combination to achieve the dimerization of formaldehyde. In a recent report, an engineered glycolaldehyde synthase was reported to catalyze this reaction. It could be combined with engineered D-fructose-6-phosphate aldolase, a "one-pot enzyme" method, to synthesize L-xylose using formaldehyde and the conversion rate could reach up to 64%. This process also provides a reference for the synthesis of other sugars. With the increasing consumption of non-renewable resources, it was of great significance to convert formaldehyde into sugar by biosynthesis.
Biocatalysis
;
Formaldehyde
;
chemistry
;
Fructose-Bisphosphate Aldolase
;
metabolism
;
Xylose
;
chemical synthesis
3.Production of L-2-aminobutyric acid from L-threonine using a trienzyme cascade.
Yan FU ; Junxuan ZHANG ; Xuerong FU ; Yuchen XIE ; Hongyu REN ; Jia LIU ; Xiulai CHEN ; Liming LIU
Chinese Journal of Biotechnology 2020;36(4):782-791
L-2-aminobutyric acid (L-ABA) is an important chemical raw material and chiral pharmaceutical intermediate. The aim of this study was to develop an efficient method for L-ABA production from L-threonine using a trienzyme cascade route with Threonine deaminase (TD) from Escherichia. coli, Leucine dehydrogenase (LDH) from Bacillus thuringiensis and Formate dehydrogenase (FDH) from Candida boidinii. In order to simplify the production process, the activity ratio of TD, LDH and FDH was 1:1:0.2 after combining different activity ratios in the system in vitro. The above ratio was achieved in the recombinant strain E. coli 3FT+L. Moreover, the transformation conditions were optimized. Finally, we achieved L-ABA production of 68.5 g/L with a conversion rate of 99.0% for 12 h in a 30-L bioreactor by whole-cell catalyst. The environmentally safe and efficient process route represents a promising strategy for large-scale L-ABA production in the future.
Aminobutyrates
;
chemical synthesis
;
Bacillus thuringiensis
;
enzymology
;
Candida
;
enzymology
;
Escherichia coli
;
enzymology
;
Formate Dehydrogenases
;
metabolism
;
Leucine Dehydrogenase
;
metabolism
;
Threonine
;
metabolism
;
Threonine Dehydratase
;
metabolism
4.Synthetic biology for the synthesis of mogroside V - a review.
Zemin SUN ; Bo LÜ ; Yongjun FENG
Chinese Journal of Biotechnology 2020;36(10):2017-2028
Mogroside V, a component with high content and sweetness in mogrosides, has many pharmacological activities such as relieving cough, reducing sputum, anti-cancer, anti-oxidation, regulating blood sugar, making it a natural nonsugar sweetener with therapeutic functions, and showing a broad market prospect. However, the limited resources and high extraction costs have restricted its widespread use. The rapid development of synthetic biology has provided a new idea for the production of plant natural products. The low-cost and large-scale production will be realized through the construction of a microbial cell factory for mogroside V. Here, we briefly introduce the structure and pharmacological activity of mogroside V, and review progress in applying synthetic biology for its synthesis, and also discuss the challenges faced by the current research, to provide a reference for further studies on the biosynthesis of mogroside V.
Biological Products/chemistry*
;
Sweetening Agents/chemical synthesis*
;
Synthetic Biology
;
Triterpenes/chemical synthesis*
5.Synthesis and antitumor activity of novel indole podophyllotoxin derivatives.
Dan-Li TIAN ; Chun-Po LIANG ; Jing LIANG ; Hong CHEN
China Journal of Chinese Materia Medica 2019;44(12):2532-2537
According to drug design flattening principle,a series of novel indole podophyllotoxin derivatives which were introduced different indole substituents in C-4 position on the basis of podophyllotoxin nucleus were synthesized with the starting material podophyllotoxin and 1 H-indole-5-carboxylic acid. Its anti-tumor activity in vitro was tested in order to screen for high-efficiency and low-toxic compounds. Six target compounds were synthesized,and were confirmed by~1 H-NMR,~(13)C-NMR,HR-ESI-MS and melting point determination analysis. All these target compounds were not reported by previous literature. Using etoposide as positive control drug,all the target compounds were screened for cytotoxicity against He La cells,K562 cells and K562/A02 cell in vitro by MTT method. The antitumor activity screening results showed that compounds 4 b,4 e,4 f exhibited higher inhibitory rate against He La cells and K562 cells than those of control drug VP-16. This route has the advantages on simple operation and reasonable design,provides some practical reference value for the further development on the structure modification of podophyllotoxin and study on anti-tumor activity.
Antineoplastic Agents
;
chemical synthesis
;
pharmacology
;
Drug Screening Assays, Antitumor
;
HeLa Cells
;
Humans
;
Indoles
;
chemical synthesis
;
pharmacology
;
K562 Cells
;
Podophyllotoxin
;
chemical synthesis
;
pharmacology
;
Structure-Activity Relationship
6.Synthesis and anti-tumor activity of ginsenoside Rh_2 caprylic acid monoester.
Wei-Yun ZHANG ; Fa-Gui LIU ; Yi-Nan ZHENG
China Journal of Chinese Materia Medica 2019;44(17):3758-3762
Ginsenoside Rh_2,firstly isolated from red ginseng,is protopanaxadiol type of steroidal saponin. Rh_2 possessed variety of activities,but bioavailability of oral administration Rh_2 was extremely low due to poor absorption. Moreover,ginsenoside Rh_2 exhibited toxicity on human normal cells. Therefore,to improve stronger anti-tumor activity and attenuate toxicity,it was essential to design and optimize chemical structure of ginsenoside Rh_2. Through n-octanoylchloride modifications,a novel ester derivative of ginsenoside Rh_2 named caprylic acid monoester of Rh_2( C-Rh_2) was designed and synthesized. Structure of novel ginsenoside derivative was identified by1 D and 2 D NMR,as well as ESI-MS analyses. Anti-tumor effect of C-Rh_2 was tested on H22 tumor bearing mice. C-Rh_2 displayed certain anti-tumor activities and exhibited less toxicity than Rh_2. In the present study,C-Rh_2 as ester form of ginsenoside Rh_2 showed better anti-tumor activity and less toxicity,but the specific mechanism needs further investigation.
Animals
;
Caprylates
;
Ginsenosides
;
chemical synthesis
;
pharmacology
;
Mice
;
Molecular Structure
;
Neoplasms, Experimental
;
drug therapy
;
Saponins
7.Automated microfluidic chip system for radiosynthesis of PET imaging probes.
Ming LEI ; Jian-Zhang PAN ; Guang-Ming XU ; Pei-Zhen DU ; Mei TIAN ; Hong ZHANG
Journal of Zhejiang University. Science. B 2019;20(11):865-867
Positron emission tomography (PET) is a powerful non-invasive molecular imaging technique for the early detection, characterization, and "real-time" monitoring of disease, and for investigating the efficacy of drugs (Phelps, 2000; Ametamey et al., 2008). The development of molecular probes bearing short-lived positron-emitting radionuclides, such as 18F (half-life 110 min) or 11C (half-life 20 min), is crucial for PET imaging to collect in vivo metabolic information in a time-efficient manner (Deng et al., 2019). In this regard, one of the main challenges is rapid synthesis of radiolabeled probes by introducing the radionuclides into pharmaceuticals as soon as possible before injection for a PET scan. Although many potential PET probes have been discovered, only a handful can satisfy the demand for a highly efficient synthesis procedure that achieves radiolabeling and delivery for imaging within 1-2 radioisotope half-lives. Only a few probes, such as 2-deoxy-2-[18F]fluoro-D-glucose (18F-FDG) and [18F]fluorodopa, are routinely produced on a commercial scale for daily clinical diagnosis (Grayson et al., 2018; Carollo et al., 2019).
Lab-On-A-Chip Devices
;
Positron-Emission Tomography/methods*
;
Radioisotopes/chemistry*
;
Radiopharmaceuticals/chemical synthesis*
;
Solid Phase Extraction
8.Facile Synthesis of the Magnetic Metal Organic Framework Fe3O4@UiO-66-NH2 for Separation of Strontium.
Liang Liang YIN ; Xiang Yin KONG ; Yao ZHANG ; Yan Qin JI
Biomedical and Environmental Sciences 2018;31(6):483-488
A magnetic metal organic framework (MMOF) was synthesized and used to separate Sr2+ in aqueous solution. The shape and structure of prepared Fe3O4@UiO-66-NH2 were characterized, and the absorbed concentration of strontium was determined through inductively coupled plasma mass spectrometry. The results indicated that Fe3O4 and UiO-66-NH2 combined through chemical bonding. The experimental adsorption results for separation of Sr2+ in aqueous solution indicated that the adsorption of Sr2+ to Fe3O4@UiO-66-NH2 increased drastically from pH 11 to pH 13. The adsorption isotherm model indicated that the adsorption of Sr2+ conformed to the Freundlich isotherm model (R2 = 0.9919). The MMOF thus inherited the superior qualities of magnetic composites and metal organic frameworks, and can easily be separated under an external magnetic field. This MMOF thus has potential applications as a magnetic adsorbent for low level radionuclide 90Sr.
Adsorption
;
Ferrosoferric Oxide
;
chemistry
;
Hydrogen-Ion Concentration
;
Metal-Organic Frameworks
;
chemical synthesis
;
chemistry
;
Models, Theoretical
;
Nanoparticles
;
chemistry
;
Strontium
;
analysis
;
Surface Properties
;
Water Pollutants, Radioactive
;
analysis
;
Water Purification
;
methods
9.Epithelial cell adhesion efficacy of a novel peptide identified by panning on a smooth titanium surface.
Hidemichi KIHARA ; David M KIM ; Masazumi NAGAI ; Toshiki NOJIRI ; Shigemi NAGAI ; Chia-Yu CHEN ; Cliff LEE ; Wataru HATAKEYAMA ; Hisatomo KONDO ; John DA SILVA
International Journal of Oral Science 2018;10(3):21-21
Epithelial attachment via the basal lamina on the tooth surface provides an important structural defence mechanism against bacterial invasion in combating periodontal disease. However, when considering dental implants, strong epithelial attachment does not exist throughout the titanium-soft tissue interface, making soft tissues more susceptible to peri-implant disease. This study introduced a novel synthetic peptide (A10) to enhance epithelial attachment. A10 was identified from a bacterial peptide display library and synthesized. A10 and protease-activated receptor 4-activating peptide (PAR4-AP, positive control) were immobilized on commercially pure titanium. The peptide-treated titanium showed high epithelial cell migration ability during incubation in platelet-rich plasma. We confirmed the development of dense and expanded BL (stained by Ln5) with pericellular junctions (stained by ZO1) on the peptide-treated titanium surface. In an adhesion assay of epithelial cells on A10-treated titanium, PAR4-AP-treated titanium, bovine root and non-treated titanium, A10-treated titanium and PAR4-AP-treated titanium showed significantly stronger adhesion than non-treated titanium. PAR4-AP-treated titanium showed significantly higher inflammatory cytokine release than non-treated titanium. There was no significant difference in inflammatory cytokine release between A10-treated and non-treated titanium. These results indicated that A10 could induce the adhesion and migration of epithelial cells with low inflammatory cytokine release. This novel peptide has a potentially useful application that could improve clinical outcomes with titanium implants and abutments by reducing or preventing peri-implant disease.
Amino Acid Sequence
;
Animals
;
Benzeneacetamides
;
chemical synthesis
;
pharmacology
;
Cattle
;
Cell Adhesion
;
drug effects
;
Cell Movement
;
drug effects
;
Cells, Cultured
;
Cytokines
;
metabolism
;
Dental Implants
;
Enzyme-Linked Immunosorbent Assay
;
Epithelial Attachment
;
drug effects
;
Epithelial Cells
;
cytology
;
metabolism
;
Microscopy, Confocal
;
Microscopy, Electron, Scanning
;
Piperidones
;
chemical synthesis
;
pharmacology
;
Platelet-Rich Plasma
;
Receptors, Thrombin
;
Surface Properties
;
Titanium
;
chemistry
10.Research Status of the Skeletalre Construction of Chest Wall.
Daixing ZHONG ; Lei WANG ; Xiaofei LI ; Lijun HUANG
Chinese Journal of Lung Cancer 2018;21(4):273-276
Chest wall defect may be caused by many factors such as the resection of tumor and trauma, and the reconstruction of bone-defection is still the key point of thoracic surgery. With the development of material science, more and more new materials have been used in medical practice, which makes huge progress in the surgery of chest wall. However, none of these materials satisfy all the practical needs of the reconstruction. Recently, with the development of the capacity of computer, 3D-printing technology has been gradually used in clinical work, and the idea of individual treatment has been accepted by more and more people. The weakness of these materials may be solved by the new material and the application of individual treatment, which could also make great advance in chest wall surgery. This article will make a summary of the research on the reconstruction of chest wall.
.
Animals
;
Biocompatible Materials
;
chemical synthesis
;
chemistry
;
Humans
;
Printing, Three-Dimensional
;
Reconstructive Surgical Procedures
;
instrumentation
;
methods
;
Thoracic Neoplasms
;
surgery
;
Thoracic Wall
;
surgery
;
transplantation

Result Analysis
Print
Save
E-mail