Understanding how the diversity of glycolipids,including how their chemical structures and composition affect their biological functions,is a remarkable fundamental challenge.In this work,we employed a rare monosaccha...Understanding how the diversity of glycolipids,including how their chemical structures and composition affect their biological functions,is a remarkable fundamental challenge.In this work,we employed a rare monosaccharide,3-deoxy-Dmanno-2-octulosonic acid(Kdo)to build a simple and biomimetic model to understand the diversity of glycolipids from the viewpoint of supramolecular chemistry.Kdo was chosen not only because its unusual 8-carbon acidic carbohydrate backbone is very different from common hexoses,but also because of its key structural role in lipopolysaccharides and prevalence in bacteria,plant life,and algae.It was found that although both of the two Kdo-lipids S-Kdo and Kdo-S derived from the same carbohydrate backbone and gave bicelles as their self-assembled morphology,experimental results revealed that the self-assembly showed pathway complexity.Bicelle is the thermodynamic product of S-Kdo,while for Kdo-S,the bicelle is only a kinetically trapped state,which finally transforms to a ribbon.Molecular simulation clearly revealed the different packing of Kdo-lipids in the bicelles with different contribution from hydrogen bonds and electrostatic interactions.展开更多
Several reports have been published detailing various platforms for obtaining crystals of membrane proteins to determine their structure including those that use disk shaped bilayers called bicelles. While these cryst...Several reports have been published detailing various platforms for obtaining crystals of membrane proteins to determine their structure including those that use disk shaped bilayers called bicelles. While these crystals have been readily grown and used for X-ray diffraction, the general understanding as to why bicelles are adequate for such a procedure or how to rationally choose conditions remains unknown. This review intends to discuss issues of protein stabilization and precipitation in the presence of lipids that may influence crystal formation.展开更多
The objective of this review is to outline the application of bicelles(or called bilayer micelles)and bilayer nanodisks in pharmaceutics,pharmaceutical analysis and biochemistry.The application of open disk-like struc...The objective of this review is to outline the application of bicelles(or called bilayer micelles)and bilayer nanodisks in pharmaceutics,pharmaceutical analysis and biochemistry.The application of open disk-like structures as model membrane and drug carrier has been described.The exploration of many reports in different fields suggested that these open disk-like structures have great potential in studying interactions between drug-membrane and structure/function studies of membrane-bound proteins.Furthermore,they could be applied as promising carriers for in vivo delivery of drugs,protein and peptide.展开更多
基金the financial support from the National Natural Science Foundation of China(grant nos.51721002,21861132012,91956127,and 21975047)NSFC/China(grant nos.21674114 and 91956127)for financial supportsupported by the Shanghai Municipal Science and Technology Major Project(grant no.2018SHZDZX01)and ZJ Lab.
文摘Understanding how the diversity of glycolipids,including how their chemical structures and composition affect their biological functions,is a remarkable fundamental challenge.In this work,we employed a rare monosaccharide,3-deoxy-Dmanno-2-octulosonic acid(Kdo)to build a simple and biomimetic model to understand the diversity of glycolipids from the viewpoint of supramolecular chemistry.Kdo was chosen not only because its unusual 8-carbon acidic carbohydrate backbone is very different from common hexoses,but also because of its key structural role in lipopolysaccharides and prevalence in bacteria,plant life,and algae.It was found that although both of the two Kdo-lipids S-Kdo and Kdo-S derived from the same carbohydrate backbone and gave bicelles as their self-assembled morphology,experimental results revealed that the self-assembly showed pathway complexity.Bicelle is the thermodynamic product of S-Kdo,while for Kdo-S,the bicelle is only a kinetically trapped state,which finally transforms to a ribbon.Molecular simulation clearly revealed the different packing of Kdo-lipids in the bicelles with different contribution from hydrogen bonds and electrostatic interactions.
文摘Several reports have been published detailing various platforms for obtaining crystals of membrane proteins to determine their structure including those that use disk shaped bilayers called bicelles. While these crystals have been readily grown and used for X-ray diffraction, the general understanding as to why bicelles are adequate for such a procedure or how to rationally choose conditions remains unknown. This review intends to discuss issues of protein stabilization and precipitation in the presence of lipids that may influence crystal formation.
文摘The objective of this review is to outline the application of bicelles(or called bilayer micelles)and bilayer nanodisks in pharmaceutics,pharmaceutical analysis and biochemistry.The application of open disk-like structures as model membrane and drug carrier has been described.The exploration of many reports in different fields suggested that these open disk-like structures have great potential in studying interactions between drug-membrane and structure/function studies of membrane-bound proteins.Furthermore,they could be applied as promising carriers for in vivo delivery of drugs,protein and peptide.
