We demonstrate improved peptide linkers which allow both conjugation to biomolecules such as DNA and self-assembly with luminescent semiconductor quantum dots.A hexahistidine peptidyl sequence was generated by standar...We demonstrate improved peptide linkers which allow both conjugation to biomolecules such as DNA and self-assembly with luminescent semiconductor quantum dots.A hexahistidine peptidyl sequence was generated by standard solid phase peptide synthesis and modified with the succinimidyl ester of iodoacetamide to yield a thiol-reactive iodoacetyl polyhistidine linker.The reactive peptide was conjugated to dye-labeled thiolated DNA which was utilized as a model target biomolecule.Agarose gel electrophoresis and fluorescence resonance energy transfer analysis confirmed that the linker allowed the DNA to self-assemble with quantum dots via metal-affinity driven coordination.In contrast to previous peptidyl linkers that were based on disulfide exchange and were thus labile to reduction,the reactive haloacetyl chemistry demonstrated here results in a more stable thioether bond linking the DNA to the peptide which can withstand strongly reducing environments such as the intracellular cytoplasm.As thiol groups occur naturally in proteins,can be engineered into cloned proteins,inserted into nascent peptides or added to DNA during synthesis,the chemistry demonstrated here can provide a simple method for self-assembling a variety of stable quantum dot bioconjugates.展开更多
Cyclic peptides have found applications in fields ranging from drug discovery to nanomaterials.Peptide stapling reagents crosslink two or more residues in peptides to generate macrocycles of diverse topology and intro...Cyclic peptides have found applications in fields ranging from drug discovery to nanomaterials.Peptide stapling reagents crosslink two or more residues in peptides to generate macrocycles of diverse topology and introduce linker units that might directly impact the properties and biological functions of cyclic peptides.Herein,we demonstrate that chlorooxime derivatives are cysteine-specific peptide bioconjugation and stapling reagents that generate stable thiohydroximate linkages.展开更多
A new pyridoxal-5-phosphate (PLP) derivative FHMDP was developed for the transamination of different pep- tides with three most hindered amino acid residues (Leu, Ile, Val) as their N-terminus. Compared to the pre...A new pyridoxal-5-phosphate (PLP) derivative FHMDP was developed for the transamination of different pep- tides with three most hindered amino acid residues (Leu, Ile, Val) as their N-terminus. Compared to the previously reported reactions of PLP derivatives, the N-terminus transamination could be accomplished efficiently with the new compound.展开更多
基金The authors acknowledge Stephen Lee and Ilya Elashvilli of the CB Directorate/Physical S&T Division(DTRA),ONR,NRL,and the NRLNSI for financial support.
文摘We demonstrate improved peptide linkers which allow both conjugation to biomolecules such as DNA and self-assembly with luminescent semiconductor quantum dots.A hexahistidine peptidyl sequence was generated by standard solid phase peptide synthesis and modified with the succinimidyl ester of iodoacetamide to yield a thiol-reactive iodoacetyl polyhistidine linker.The reactive peptide was conjugated to dye-labeled thiolated DNA which was utilized as a model target biomolecule.Agarose gel electrophoresis and fluorescence resonance energy transfer analysis confirmed that the linker allowed the DNA to self-assemble with quantum dots via metal-affinity driven coordination.In contrast to previous peptidyl linkers that were based on disulfide exchange and were thus labile to reduction,the reactive haloacetyl chemistry demonstrated here results in a more stable thioether bond linking the DNA to the peptide which can withstand strongly reducing environments such as the intracellular cytoplasm.As thiol groups occur naturally in proteins,can be engineered into cloned proteins,inserted into nascent peptides or added to DNA during synthesis,the chemistry demonstrated here can provide a simple method for self-assembling a variety of stable quantum dot bioconjugates.
基金supported by the National Natural Science Foundation(NSF)of China(grant nos.21922703 and 91953112)the NSF of Jiangsu Province(grant nos.BK20190004 and BK20202004)+2 种基金the National Key R&D Program of China(grant no.2019YFA0905800)Shenzhen Basic Research Program(grant no.JCYJ20180508-182240106)the Fundamental Research Funds for the Central Universities(grant nos.14380138 and 14380131).
文摘Cyclic peptides have found applications in fields ranging from drug discovery to nanomaterials.Peptide stapling reagents crosslink two or more residues in peptides to generate macrocycles of diverse topology and introduce linker units that might directly impact the properties and biological functions of cyclic peptides.Herein,we demonstrate that chlorooxime derivatives are cysteine-specific peptide bioconjugation and stapling reagents that generate stable thiohydroximate linkages.
基金Project supported by the National Natural Science Foundation of China (Nos. 20932006 and 21002056).
文摘A new pyridoxal-5-phosphate (PLP) derivative FHMDP was developed for the transamination of different pep- tides with three most hindered amino acid residues (Leu, Ile, Val) as their N-terminus. Compared to the previously reported reactions of PLP derivatives, the N-terminus transamination could be accomplished efficiently with the new compound.
