Peptideconjugation DNA-peptide conjugates represent a sophisticated class of biomolecular constructs that covalently link DNA (or RNA) sequences with synthetic peptides. This fusion of two distinct biological polymers, DNA and peptides, harnesses the unique properties of each to create novel functionalities applicable across diverse fields, from therapeutics and diagnostics to nanotechnology and materials science.作者:ER Taylor·2023·被引用次数:10—DNA–peptide conjugatesoffer an opportunity to marry the benefits of both biomolecular classes, combining the high level of programmability found with DNA, ... The programmability and structural versatility of DNA, combined with the diverse biological activities and recognition capabilities of peptides, make these conjugates powerful tools for scientific exploration and innovation作者:EM Zubin·1999·被引用次数:54—Oligonucleotide-peptide conjugateshave several applications, including their potential use as improved antisense agents for interfering with the RNA function ....
The creation of DNA-peptide conjugates typically involves sophisticated chemical conjugation strategies designed to form stable linkages between the two molecular components. A common approach is to utilize the amino group of a peptide and an activated functional group on the oligonucleotide, often resulting in an amide bond. Other methods include employing cross-linking chemistries or utilizing specific ligation techniques, such as native chemical ligation, to achieve precise and efficient conjugation. Solid-phase synthesis is frequently employed for the preparation of custom DNA-peptide conjugates, allowing for controlled assembly and purificationUS9161948B2 - Peptide oligonucleotide conjugates. The choice of conjugation strategy often depends on the desired linkage position, the length and sequence of both the DNA and peptide components, and the intended application of the conjugate.
The synergistic combination of DNA and peptide elements in conjugates unlocks a wide array of potential applications. In the realm of therapeutics, DNA-peptide conjugates are being explored for their ability to enhance the delivery and efficacy of nucleic acid-based drugs. For instance, peptides can facilitate cellular uptake or target specific cellular compartments, while the oligonucleotide component can be designed for gene silencing (e.2014年7月23日—We reportDNA catalysts (deoxyribozymes) that join tyrosine-containing peptides toRNA and DNA in one step and without requiring protecting groups.gInflammation-triggered self-immolative conjugates enable ...., antisense agents) or other therapeutic interventions. The conjugation can also protect both the DNA and peptide from enzymatic degradation, thereby increasing their stability and bioavailability in biological systems.
Beyond therapeutics, DNA-peptide conjugates are finding utility in diagnostics and as building blocks for advanced materials. Their ability to form stable and selective complexes makes them valuable for assays and biosensing applications2022年12月20日—ThisBNA-oligonucleotide-peptide conjugateallows selective intracellular targeting and expression of pDNA-encoded genes. The conjugation of .... Furthermore, these conjugates can self-assemble into higher-ordered structures, exhibiting properties similar to proteins or creating novel nanoscale architectures for various technological purposes. The programmability of DNA, coupled with the specific binding capabilities of peptides, allows for the design of intricate self-assembling systems. For example, DNA-peptide conjugates can be used for DNA-directed immobilization, enabling the binding of multiple antigens to a solid support.
As research into DNA-peptide conjugates continues to advance, new synthetic methodologies and applications are emerging. The development of more efficient and versatile conjugation chemistries remains an active area of investigation, aiming to expand the repertoire of accessible conjugate structures and improve their robustness. The exploration of their potential in areas like gene therapy, where DNA-NLS conjugates, for example, are being investigated for enhanced nuclear delivery, highlights the ongoing innovation.Conjugation Approaches for Peptide-Mediated Delivery of ... The ability to precisely tailor the properties of these conjugates by varying the DNA sequence, peptide sequence, and linkage chemistry positions them as key players in the future of molecular engineering and biotechnology.作者:Y Altrichter·2020·被引用次数:14—Conjugation of peptides with oligonucleotidesoffers opportunities for combining the strengths of both biopolymer classes.
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