Dear Editor,As one of the most abundant modifications on mRNA in mammal,A^6-methyladenosine(m6A)has been demonstrated to play important roles in various biological processes including nuclear RNA export,mRNA splicing,...Dear Editor,As one of the most abundant modifications on mRNA in mammal,A^6-methyladenosine(m6A)has been demonstrated to play important roles in various biological processes including nuclear RNA export,mRNA splicing,miRNA processing,mRNA degradation and translation(Shi et al.,2019).Importantly,different m6A reader proteins have been shown to play central roles in these processes.展开更多
Nanogels hold promise as soft and functional carriers and nanoreactors,but whether they will ever reach the stage of large-scale application depends crucially on efficient production methods,and on what interesting pr...Nanogels hold promise as soft and functional carriers and nanoreactors,but whether they will ever reach the stage of large-scale application depends crucially on efficient production methods,and on what interesting properties and functionalities they can have.In particular,nanogels consisting of highly charged polyelectrolyte have not yet been very much explored.Here,the authors present a novel and generic strategy for controlled and efficient synthesis of a large diversity of polyelectrolyte nanogels.The method is based on polymerizing an ionic monomer in the presence of an oppositely charged polyion-neutral diblock copolymer as template,while adding a cross-linker.The growing polymer chains assemble with the template,forming polyion complex micelles,which dissociate upon increasing salt concentration.Subsequent separation yields nanogels with well-controlled size and properties,and free template polymers that can be used again.Our design can be applied generally to a wide range of both cationic and anionic monomers,as well as various cross-linkers.Scaled-up production presents no problems as increasing monomer concentration(hundreds of mM)and reaction volume(up to 1 L)hardly compromise product quality.Moreover,the obtained nanogels with their well-controlled size,morphology,chemistry,and cross-linking degree perform well as soft nanocarriers and catalytic nanoreactors.展开更多
文摘Dear Editor,As one of the most abundant modifications on mRNA in mammal,A^6-methyladenosine(m6A)has been demonstrated to play important roles in various biological processes including nuclear RNA export,mRNA splicing,miRNA processing,mRNA degradation and translation(Shi et al.,2019).Importantly,different m6A reader proteins have been shown to play central roles in these processes.
基金supported by the 1000 Foreign Experts Program(no.WQ20163100341)the Shanghai Municipal Natural Science Foundation(nos.17ZR1440500 and 18490740100)d the Fundamental Research Funds for the Central Universities(no.222201714003).
文摘Nanogels hold promise as soft and functional carriers and nanoreactors,but whether they will ever reach the stage of large-scale application depends crucially on efficient production methods,and on what interesting properties and functionalities they can have.In particular,nanogels consisting of highly charged polyelectrolyte have not yet been very much explored.Here,the authors present a novel and generic strategy for controlled and efficient synthesis of a large diversity of polyelectrolyte nanogels.The method is based on polymerizing an ionic monomer in the presence of an oppositely charged polyion-neutral diblock copolymer as template,while adding a cross-linker.The growing polymer chains assemble with the template,forming polyion complex micelles,which dissociate upon increasing salt concentration.Subsequent separation yields nanogels with well-controlled size and properties,and free template polymers that can be used again.Our design can be applied generally to a wide range of both cationic and anionic monomers,as well as various cross-linkers.Scaled-up production presents no problems as increasing monomer concentration(hundreds of mM)and reaction volume(up to 1 L)hardly compromise product quality.Moreover,the obtained nanogels with their well-controlled size,morphology,chemistry,and cross-linking degree perform well as soft nanocarriers and catalytic nanoreactors.
