Effect of nano-CaO particle on the microstructure,mechanical properties and corrosion behavior of lean Mg-1Zn alloy

The effects of nano-CaO contents on the microstructure,mechanical properties and corrosion resistance of lean Mg-1Zn alloy were investigated.The results showed that the addition of nano-CaO significantly refined the grain size and improved mechanical properties of the Mg-1Zn alloy.At the same time,CaO reacted with molten Mg in situ to form nano-MgO,whose corrosion product in SBF solution was the same with the degradation product of Mg matrix,resulting in the enhanced compactness of the Mg(OH)_(2) layer and reduced corrosion rate of matrix.The Mg-1Zn alloy had lower corrosion resistance due to excessively large grain size and shedding of corrosion products.The composite with 0.5 wt.%CaO had the best corrosion resistance with a weight loss of 9.875 mg·y^(-1)·mm^(-2)due to the small number of Ca_(2)Mg_(6)Zn_(3) phase and suitable grain size.While for composites with high content of CaO(0.7 wt.%and 1.0 wt.%),they had lower corrosion resistance due to the coexistence of large number of Ca_(2)Mg_(6)Zn_(3) and Mg_(2)Ca at grain boundaries,especially for 1.0 wt.%CaO composite,resulting from the strong micro-galvanic corrosion.

Concise Synthesis of Lactococcus garvieae Lipoteichoic Acids Through an Additive-Modulated Preactivation Protocol and the Immunological Studies

Lipoteichoic acids(LTAs)are macroamphiphiles composed of alditol,lipid,phosphate,and carbohydrate units.Due to their inherent complexity,it is a severe challenge to access LTAs with structural integrity from natural sources for biological or immunological evaluation.Here,we describe the first total synthesis of Lactococcus garvieae LTA(type II LTA),containing five distinct 1,2-cis gluco/galactopyranosidic linkages,via a novel additive-modulated O-glycosyl trichloroacetimidate preactivation glycosidation strategy.This strategy features(1)high glycosidation yields and excellent 1,2-cis stereoselectivities independent of the donor anomeric configuration,(2)common and inexpensive reagents as promoters and additives,(3)application to standard glycosyl imidate donors without resorting to participating protection,and(4)general application to reactive and less reactive glycosyl acceptors.Thus,via the precise stereocontrolled construction of three galactopyranosidic and two glucopyranosidic bonds on a multigram scale,a series of structurally well-defined LTA molecules were successfully assembled.Immunological evaluation of these type II synthetic LTAs showed a structure–activity relationship in the stimulation of a proinflammatory response.

Recent Advances in Glycopeptide and Glycoprotein Synthesis:A Refined Synthetic Probe towards the Biological World

Comprehensive Summary Protein glycosylation is the most complex and diverse form of post-translational modification in human body.Meanwhile,glycosylation of peptides and proteins emerges as a promising strategy to improve the pharmacokinetic profile of peptide-and protein-based therapeutics.Owing to the importance of protein glycosylation,a rigorous evaluation of the relationship between the precise structure and biological function of glycoproteins has to be performed.Recently,chemical synthesis,chemoenzymatic synthesis and semisynthesis strategies have attracted extensive attentions towards the preparation of structurally defined glycopeptides and glycoproteins;the obtained synthetic glycoforms thus enable the thorough investigation of specific effects of protein glycosylation.

Divergent Synthesis of Core m1,Core m2 and Core m3 O-Mannosyi Glycopeptides via a Chemoenzymatic Approach

O-Mannosylation plays a vital role in the regulation of a variety range of biological processes,for instance,brain and muscle development.However,the precise function remains largely unknown due to its innate heterogeneity.In this regard,it is still welcome to develop efficient methods to access diverse structurally-defined glycopeptides.In this study,a diversity-oriented assembly of O-mannosylα-dystroglycan(α-DG)glycopeptides has been achieved via a chemoenzymatic strategy.This strategy features(i)gram scale divergent synthesis of core m1,core m2 and core m3 mannosylated amino acids from judiciously designed protecting group strategies and chemical glycosidation;(i)efficient glycopeptide assembly via the optimized microwave-assisted solid phase peptide synthesis(SPpS);and(ii)enzymatic elaboration of the core glycan structures to install galactosyl and sialyl-galactosyl moieties.The efficiency and flexibility of this chemoenzymatic approach was demonstrated with the construction of 12 glycopeptides with different core m1,core m2 and core m3 mannosyl glycans,including a core m2 glycopeptide bearing a heptasaccharide for the first time.