Acid/base mutants of glycosidases, namely thioglycoligases, are able to catalyze thioglycosides synthesis. Now, many thioglycoligases, including ?-thioglucoligase, ?-thiomannoligase, ?-thiogalactoligase, ?-thioxyloligase and ?-thioglucoligase, have been developed from bacteria and archaebacteria, and applied in synthesizing various thioglycoligases. Recently, thioglycoligases have been used to glycosylate the glycoprotein and firstly generate the thioglycoprotein. The novel extended synthetic function of glycosidases would promote the development of glycobiology, biotechnology and pharmacy.

Objective To investigate effects of transcranial direct current stimulation on picture naming by those with Broca's aphasia recovering from a stroke.Methods Five patients with Broca's aphasia 6-12 months post-stroke served as their own controls.They all had lesions of the left frontal gyms or the basal ganglia.They received either anodic, cathodic or sham stimulation of the left Broca's area.They were then given a picture naming test.Results The average number of correct namings was 13.13 with anodic stimulation, 9.80 with cathodic and 10.15 with the sham stimulation.Compared with cathodic or sham stimulation, anodic stimulation of the left Broca's area can improve the picture-naming ability of aphasic stroke patients significantly more effectively.Conclusions Anodic stimulation of the left Broca's area can improve the picture-naming of cerebral apoplexy patients with Broca's aphasia.Such stimulation may increase the excitability of the left cortex, suggesting that the left Broca's area and its periphery play a very important role in language recovery after stroke.

Acute Disease ; Adult ; Emergency Nursing ; First Aid ; Humans ; Male ; Nitriles ; poisoning ; Young Adult

italic>γ-Aminobutyric acid (GABA) is a crucial inhibitory neurotransmitter found in various cells in the human body. While the GABAergic system is typically associated with the nervous system, recent research has revealed that immune cells and tumor cells also express components of this system. In the tumor microenvironment (TME), GABA is secreted to act extracellularly on other cells. GABA is metabolized via the GABA shunt and is involved in the tricarboxylic acid (TCA) cycle by generating succinate, which can provide energy for tumor cells. Activation of GABA receptors (GABARs) is a major pathway through which GABA participates in the regulation of antitumor immune responses. The activation of GABA type A receptors (GABA_ARs) can inhibit the activation and proliferation of T cells, elicit anti-inflammatory macrophages, and promote tumor cell growth and migration, while activation of GABA type B receptors (GABA_BRs) is generally considered to inhibit cancer cell migration and induce cancer cell apoptosis. In general, receptor activation inhibits immune cells, but the effect on tumor cells varies. Additionally, the downregulation of the expression levels of GABA transporters (GATs) is involved in tumor progression. Although antagonists of GABA metabolism and drugs that act on GABA receptors are considered therapeutic drugs for tumors, there have been few clinical studies conducted on them.

As an indispensable part of minority traditional medicine, mineral medicine has used with less dosage and reliable efficacy for the last thousand years. Based on the unearthed relics and medical literatures of past dynasties, the history of Han nationality ap- years, which had been recorded in main literature. But there is less comprehensive report of its usage in the other 55-minority nationality. This article was based on the analysis of ethnic minority literature of thousands of years, and conducted a comprehensive collation and analysis of mineral medicine. It was mostly determined that there was 20 minority groups using mineral medicine, with a total of 163 species (limited our references), and the most used is the Tibetan, accounting for 141. The most serious problems of mineral medicine are that species should be further investigated and researched, and then become the legal commercial medicine, and the classification principles of mineral medicine should be established. Through the traditional processing and experimental studies, the problems of attenuation and detoxification should be solved.
China ; ethnology ; History, Ancient ; History, Medieval ; Humans ; Medicine in Literature ; Medicine, Chinese Traditional ; history ; Minerals ; analysis ; pharmacology

Oligosaccharides are one of the essential physiological constituents of glycoproteins and glycolipids on mammalian cell surfaces and microbial metabolites. They have considerable potential as therapeutics but are only now slowly assuming this important role. One of the reasons for their slow development has been the considerable difficulty in synthesizing oligosaccharides on the scale necessary for their clinical evaluation. Classical chemical and enzymatic methods both have limitations in synthesizing large-scale oligosaccharides. In recent years, the rapid progress on molecular biotechnology has promoted the development of retaining glycosidases in oligosaccharides synthesis, which led to the production of a novel class of enzymatic activities termed the glycosynthases. These new enzymes are retaining glycosidase mutants in which the catalytic nucleophile has been converted to a non-nucleophilic residue,synthesizing oligosaccharides in high yields ( the highest yields reach 99%) without any hydrolysis. Furthermore thioglycoligases and thioglycosynthases have been developed subsequently in the past three years. Glycosynthases can be screened in high-throughput assay by the two-plasmid system and the yeast three-hybid system respectively. Their activity can be significantly enhanced by substituting alternative residues for nucleophile, additional random mutations and optimizing reaction conditions. Their regioselectivity can be modified through changes in receptors.

Protein kinases are intimately involved in the pathogenesis of many diseases such as cancer, inflammation, and autoimmune and neurological diseases. Therefore, kinases have been widely studied as drug targets over the past three decades. As of April, 2020, the FDA had approved 59 small molecule kinase inhibitors (SMKIs) in the emerging field of targeted drug therapy. This paper focuses on the biochemistry and pharmacology of these 59 SMKIs and 121 SMKIs for which structures can be retrieved and that are now in phase Ⅱ and Ⅲ clinical trials. In addition, this paper also conducts a simple analysis of several popular targets and their inhibitors.

Actins ; metabolism ; Aged ; Aged, 80 and over ; Carcinoma, Renal Cell ; metabolism ; pathology ; Cell Differentiation ; Female ; Humans ; Immunohistochemistry ; Keratin-7 ; metabolism ; Keratin-8 ; metabolism ; Kidney Neoplasms ; metabolism ; pathology ; Male ; Middle Aged ; Sarcoma ; metabolism ; pathology ; Vimentin ; metabolism

Cell Line, Tumor ; Choriocarcinoma ; pathology ; virology ; Female ; Hepatitis Antibodies ; immunology ; pharmacology ; Hepatitis B ; immunology ; Hepatitis B virus ; immunology ; Humans ; Microscopy, Atomic Force ; Uterine Neoplasms ; pathology

Objective To analyze the electrocardiography(ECG)data of pressure overload-induced cardiac hy pertrophy rats.Methods Pressure overload cardiac hypertrophy was induced by abdominal aorta constriction. Echocardiogram and heart weight measurement demonstrated the occurrence of cardiac hypertrophy.Standardized ECG parameters of limb and chest were measured and statistically analyzed.Results Two weeks after hypertrophy models were established,echocardiogram showed greater LVPWTd,IVSTd,LVDd.ECG showed that left axis deviation and higher R waves in V_A,V_B,V_C(P