动态聚合物及其特殊性能

动态聚合物因结构中含有动态键而会在外界刺激(如光、热及pH等)下做出响应,因此具备一些特殊性能,成为高分子材料领域一个重要的研究方向。动态键包括动态非共价键和动态共价键,文中简要介绍了2类动态键的特点及常见的动态键,进一步回顾和总结了动态聚合物的自修复、高拉伸、可回收、形状记忆等特殊性能,并简要对动态聚合物所面临的挑战和关键问题进行了展望。

In silico curation of QTL-rich clusters and candidate gene identification for plant height of bread wheat

Many genetic loci for wheat plant height(PH) have been reported, and 26 dwarfing genes have been catalogued. To identify major and stable genetic loci for PH, here we thoroughly summarized these functionally or genetic verified dwarfing loci from QTL linkage analysis and genome-wide association study published from 2003 to 2022. A total of 332 QTL, 270 GWAS loci and 83 genes for PH were integrated onto chromosomes according to their locations in the IWGSC RefSeq v2.1 and 65 QTL-rich clusters(QRC) were defined. Candidate genes in each QRC were predicted based on IWGSC Annotation v2.1 and the information on functional validation of homologous genes in other species. A total of 38 candidate genes were predicted for 65 QRC including three GA2ox genes in QRC-4B-IV, QRC-5A-VIII and QRC-6A-II(Rht24) as well as GA 20-oxidase 2(TaSD1-3A) in QRC-3A-IV. These outcomes lay concrete foundations for mapbased cloning of wheat dwarfing genes and application in breeding.

Simultaneous determination of ivabradine and N-desmethylivabradine in human plasma and urine using a LC-MS/MS method: application to a pharmacokinetic study

A sensitive and specific liquid-chromatography tandem mass spectrometry(LC-MS/MS)assay has been developed and validated for the simultaneous quantification of ivabradine and its active metabolite N-desmethylivabradine in human plasma and urine.The assay employed a single liquid–liquid extraction of the analytes from plasma and urine samples,and diazepam was used as internal standard(IS).The chromatographic separation was achieved on a Diamonsil C18 column(150 mm4.6 mm,5 mm,Dikma)using a mixture of methanol and aqueous 5 mM ammonium acetate buffer containing 0.2%formic acid(80:20,v/v)as mobile phase.The assay for ivabradine and N-desmethylivabradine in plasma showed good linearity(r≥0.99)over the ranges 0.1013–101.3 ng/mL and 0.085–25.5 ng/mL,respectively.The assay for ivabradine and N-desmethylivabradine in urine showed good linearity(r≥0.99)over the ranges 10.13–6078 ng/mL and 8.5–850 ng/mL,respectively.The intra-and inter-day accuracy and precision values were found to be within the assay variability limits(RSD<15%)in accordance with FDA guidelines.The methods were successfully used for evaluating the pharmacokinetic properties of ivabradine and N-desmethylivabradine in human plasma and urine in Chinese healthy volunteers.

Prosthetic heart valves for transcatheter aortic valve replacement

Transcatheter aortic valve replacement (TAVR) has the advantages of less trauma and faster postoperative recovery, which has brought the possibility to the elderly patient with valvular heart disease and is gradually replacing surgical aortic valve replacement (SAVR). The interventional valve used in TAVR needs to be compressed and transported through the catheter to the lesion site, and can still recover its original shape, structure and performance. This process requires that the material should be flexible, and the rigid mechanical valves in SAVR are not suitable. Recently, decellularized biological valves have been widely used in clinical practice, but their poor durability causes a limitation for long-term implantation. Therefore, the anti-calcification modification of biological valves and the design of new polymeric valves with good biostability have gained considerable attention. This review summarizes the calcification mechanism of biological valves and the research progress in anti-calcification modification strategies. Besides, the development of new polymeric valves is included, with special attention to representative cases, such as polysiloxane, polytetrafluor- ethylene, poly(styrene-block-isobutylene-block-styrene), and polyurethane- based materials. Finally, the challenges and future perspectives of artificial heart valve materials are discussed.