胶原蛋白模拟肽-PNA(GGG)3 共轭物和富含 C 的 DNA 的超分子复合物:pH 值诱导的从三重双工到三重单工的可逆转换。

IF 5.8 3区 医学 Q1 MATERIALS SCIENCE, BIOMATERIALS
Shahaji H More, Marc Schmutz, Loïc Jierry, Krishna N Ganesh
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引用次数: 0

摘要

众所周知,肽可形成纳米颗粒,而 DNA 双链、三链和四链可形成刚性纳米结构。因此,肽与 DNA/RNA 的共价共轭会产生混合自组装特征,并可能导致不同于其单独成分的有趣的纳米组装。在此,我们报告了一种胶原蛋白仿生肽的制备方法,该肽的骨架中含有赖氨酸,烷基氨基侧链与富含 G 的 PNA 辐射共轭[collagen-(PNA-GGG)3]。在中性 pH 值下,在富含 C 的互补 DNA(dCCCTTTCCC)的存在下,胶原蛋白模拟三倍体通过 PNA-GGG :DNA-CCC 双链相互连接,从而形成更大的纳米结构组装体。当 pH 值降至 4.5 时,三联体-二联体集合体解离,释放出质子化的富 C DNA,并立即折叠成 i-motif。当 pH 值升高到 7.2(中性)时,i-motif 展开为线性 DNA,并重新形成 PNA-GGG :DNA-CCC双链将胶原三联体相互连接起来。pH 值诱导的组装和拆卸转换在几个周期内是可逆的。混合胶原-(PNAGGG)3 :DNA-C3T3C3三重二联体以及包括i-motif在内的单个组装成分的特征通过紫外和CD熔融、荧光、TEM和凝胶电泳进行了表征。根据 CD 和荧光特性的变化,确定了 pH 诱导的可逆转换。肽-DNA 共轭物在生物学和材料科学领域都有广泛的应用,从治疗和给药到诊断和分子开关。因此,本文所描述的三重肽-PNA 共轭物及其与 DNA 的双联物的原型组合具有潜力,可以通过改变 PNA/DNA 序列来捕获功能性配体/药物,并在 pH 值可控的环境中释放出来,从而将其精心设计成合理的系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Supramolecular multiplexes from collagen mimetic peptide-PNA(GGG)3 conjugates and C-rich DNA: pH-induced reversible switching from triplex-duplex to triplex-i-motif.

Peptides are well known for forming nanoparticles, while DNA duplexes, triplexes and tetraplexes create rigid nanostructures. Accordingly, the covalent conjugation of peptides to DNA/RNA produces hybrid self-assembling features and may lead to interesting nano-assemblies distinct from those of their individual components. Herein, we report the preparation of a collagen mimetic peptide incorporating lysine in its backbone, with alkylamino side chains radially conjugated with G-rich PNA [collagen-(PNA-GGG)3]. In the presence of complementary C-rich DNA (dCCCTTTCCC) at neutral pH, the collagen mimetic triplexes were interconnected by PNA-GGG : DNA-CCC duplexes, leading to the formation of larger assemblies of nanostructures. Upon decreasing the pH to 4.5, the dissociation of the triplex-duplex assembly released the protonated C-rich DNA, which immediately folded into an i-motif. With an increase in the pH to 7.2 (neutral), the i-motif unfolded into linear DNA, which reformed the PNA-GGG : DNA-CCC duplex interconnecting the collagen triplexes. The pH-induced switching of the assembly and disassembly was reversible over a few cycles. The hybrid collagen-(PNAGGG)3 : DNA-C3T3C3 triplex-duplex and the individual components of the assembly including the i-motif were characterized by UV and CD melting, fluorescence, TEM and gel electrophoresis. The pH-induced reversible switching was established by the changes in the CD and fluorescence properties. Peptide-DNA conjugates have wide applications in both biology and materials science, ranging from therapeutics and drug delivery to diagnostics and molecular switches. Thus, the prototype ensemble of the triplex peptide-PNA conjugate and its duplex with DNA described herein has potential for elaboration into rationally designed systems by varying the PNA/DNA sequences to trap functional ligands/drugs for release in pH-controlled environments.

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来源期刊
Biomaterials Science
Biomaterials Science MATERIALS SCIENCE, BIOMATERIALS-
CiteScore
11.50
自引率
4.50%
发文量
556
期刊介绍: Biomaterials Science is an international high impact journal exploring the science of biomaterials and their translation towards clinical use. Its scope encompasses new concepts in biomaterials design, studies into the interaction of biomaterials with the body, and the use of materials to answer fundamental biological questions.
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