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肽自组装体由于具有结构稳定、易调控、生物相容性好、可生物降解等优点,在构筑新型材料及生物医药领域表现出了巨大潜力。本文介绍了肽自组装的概念、机理和应用,详细归纳了刺激响应型肽自组装的研究进展;按照刺激源的不同将刺激响应型肽自组装分为pH响应型肽自组装、温度响应型肽自组装、溶剂响应型肽自组装、光响应型肽自组装、超声波响应型肽自组装以及离子响应型肽自组装;列举了肽自组装在药物控释、脊髓损伤修复、仿酶催化、生物模板等领域的应用。最后,基于目前肽自组装存在的一些问题(如影响肽自组装结构的外界因素不易精准把控、自组装的研究与生命科学领域的交叉程度低等)对肽自组装的发展做了展望。 相似文献
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本文以三代聚谷氨酸肽类树枝状分子(G3-Glu)为大分子引发剂,引发N-羧基-L-苯丙氨酸-环内酸酐(NCA-Phe)的开环聚合反应,制备聚谷氨酸树枝状大分子-聚苯丙氨酸嵌段共聚物.嵌段共聚物通过自组装形成以聚苯丙氨酸链段为核,聚谷氨酸树枝状大分子为壳的胶束.将抗肿瘤药物阿霉素负载到高分子胶束中,研究其药物释放性能及体外抗肿瘤效果.结果表明,共聚物胶束具有良好的生物相容性.载药胶束具有药物缓释效果,药物持续释放时间可达60h.载药胶束的体外抗肿瘤实验表明其对肝癌细胞HepG2具有很好的杀灭效果,共培养48h后对癌细胞的杀死率可高达75%. 相似文献
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聚肽接枝共聚物的自组装行为研究 总被引:2,自引:0,他引:2
Polymeric micelles of poly(γ-benzyl L-glutamate)(PBLG)-poly(ethylene oxide)(PEO) graft copolymer were prepared by the dialysis method in deionized water. Fluorescence spectroscopy, nuclear magnetic resonance(NMR) and transmission electron microscope(TEM) were used for the investigation of the self-assembly of PBLG-PEO graft copolymer. Fluorescence spectrosco0y measurements suggest that PBLG-PEO graft copolymer associates to form polymeric micelles in water. ^1H NMR measurements further prove that in aqueous medium PBLG-PEO graft copolymer could assemble into polymeric micelles with PBLG segments as the hydrophobic inner core and PEO segments as the hydrophilic shell. The results of the TEM observations show that the polymeric micelles of PBLG-PEO graft copolymer are almost spindly shaped, which are different from the morphology of the spherical micelles formed by PBLG-PEO block copolymer. Polymeric micelles formed by polypeptide copolymer have potential application as drug carrier in controlled-release delivery system. 相似文献
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胶原是人类最主要的结构蛋白,在体内通过自组装形成具有D带的纤维结构,构成人体的各种组织。胶原蛋白具有优异的生物相容性、生物可降解性、无毒性、低免疫性等特点,在材料科学、生物医学、组织工程、生物传感器等领域得到了越来越多的研究和应用。近年来,人们发现,通过合理调控外界环境,胶原蛋白在体外能自组装形成有序的超分子聚集结构,胶原蛋白在体外的自组装行为引起了研究者的广泛关注,逐渐成为研究的热点。本文概括了胶原的自组装机理、外界环境条件对胶原自组装的影响以及胶原自组装基复合材料等方面的工作。 相似文献
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模拟酶,又称人工酶,是在分子水平上模拟天然酶活性部位的形状、大小及其微环境等结构特征的分子或分子聚集体。随着纳米科学和超分子技术的发展,构筑具有生物催化活性的超分子模拟酶已经成为科学研究和应用开发领域的热点。肽组装金属酶是以多肽分子为基本单元,在非共价作用力协同作用下形成的超分子组装体。相比其他功能性材料,肽人工金属酶的结构及生物化学性质更接近天然酶,其分子本身更利于修饰改造,且生物相容性和功能性较好,使其在模拟酶方面具有独特优势。本文总结了近年来通过多肽自组装构建人工金属酶的研究进展,重点综述了多肽组装模式、组装体微观结构、超分子结构、金属活性中心微环境以及pH值对模拟酶催化活性的影响。增加自组装微结构的稳定性、增加催化活性以及扩大由人工酶催化的反应类型是肽人工金属酶研究中的主要挑战。构筑更加稳定的肽自组装纳米结构及更加精确的活性中心以模拟天然酶的结构和活性中心是正确的策略。 相似文献
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Synthetic bioactive aromatic peptide amphiphiles have been recognized as key elements of emerging biomedical strategies due to their biocompatibility, design flexibility, and functionality. Inspired by natural proteins, we synthesized two supramolecular materials of phenyl-capped Ile-Lys-Val-Ala-Val (Ben-IKVAV) and perfluorophenyl-capped Ile-Lys-Val-Ala-Val (PFB-IKVAV). We employed UV-vis absorption, fluorescence, circular dichroism, and Fourier-transform infrared spectroscopy to examine the driving force in the self-assembly of the newly discovered materials. It was found that both compounds exhibited ordered π-π interactions and secondary structures, especially PFB-IKVAV. The cytotoxicity of human mesenchymal stem cells (hMSCs) and cell differentiation studies was also performed. In addition, the immunofluorescent staining for neuronal-specific markers of MAP2 was 4.6 times (neural induction medium in the presence of PFB-IKVAV) that of the neural induction medium (control) on day 7. From analyzing the expression of neuronal-specific markers in hMSCs, it can be concluded that PFB-IKVAV may be a potential supramolecular biomaterial for biomedical applications. 相似文献
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生物分子自组装对生物体有重要意义,利用生物分子构筑具有功能性的有序组装体一直是人们关注的焦点.肽分子是一类重要的组装基元,肽的超分子自组装可形成多种纳米或微米尺度的结构,并可应用于能源、医药等领域.如何实现肽自组装结构的精准调控以及精准调控肽自组装实现功能化,是目前该领域面临的新挑战.肽的自组装是基于非共价键力的协同作用实现的,通过各种因素调节这些非共价键力的作用,是实现自组装结构调控和功能化的关键.虽然自组装结构调控可以通过改变外部环境调控,但是通过精确分子设计、组装基元分子间的相互作用调控可以更好地实现结构的精准调控;并有利于进一步通过引入功能性分子作为组装基元,实现自组装体的功能化.本文将针对肽自组装体的结构调控以及功能化两个方面对相关研究进行综述. 相似文献
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Ruyue Luo Yuan Wan Xinyi Luo Guicen Liu Zhaoxu Li Jialei Chen Di Su Na Lu Zhongli Luo 《Molecules (Basel, Switzerland)》2022,27(2)
Self-assembly peptide nanotechnology has attracted much attention due to its regular and orderly structure and diverse functions. Most of the existing self-assembly peptides can form aggregates with specific structures only under specific conditions and their assembly time is relatively long. They have good biocompatibility but no immunogenicity. To optimize it, a self-assembly peptide named DRF3 was designed. It contains a hydrophilic and hydrophobic surface, using two N-terminal arginines, leucine, and two c-terminal aspartate and glutamic acid. Meanwhile, the c-terminal of the peptide was amidated, so that peptide segments were interconnected to increase diversity. Its characterization, biocompatibility, controlled release effect on antigen, immune cell recruitment ability, and antitumor properties were examined here. Congo red/aniline blue staining revealed that peptide hydrogel DRF3 could be immediately gelled in PBS. The stable β-sheet secondary structure of DRF3 was confirmed by circular dichroism spectrum and IR spectra. The observation results of cryo-scanning electron microscopy, transmission electron microscopy, and atomic force microscopy demonstrated that DRF3 formed nanotubule-like and vesicular structures in PBS, and these structures interlaced with each other to form ordered three-dimensional nanofiber structures. Meanwhile, DRF3 showed excellent biocompatibility, could sustainably and slowly release antigens, recruit dendritic cells and promote the maturation of dendritic cells (DCs) in vitro. In addition, DRF3 has a strong inhibitory effect on clear renal cell carcinoma (786-0). These results provide a reliable basis for the application of peptide hydrogels in biomedical and preclinical trials. 相似文献
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纳米材料的自组装研究进展 总被引:15,自引:0,他引:15
本文主要评述了近年来纳米材料自组装的研究进展,即对以纳米材料(包括零维的纳米粒子和一维的纳米管/线)为单元而开展的自组装方面的工作进行了介绍。将纳米材料自组装为各种尺度的有序结构会产生更优异的整体的协同性质,这对于以纳米材料为基础而构筑的微纳米器件有着重要的意义。由于目前纳米材料的研究主要集中在零维和一维体系,因此,本文分别就此两种体系的自组装行为进行了评述。具体内容包括:单分子层薄膜修饰的无机纳米粒子的自组装、大分子修饰的无机纳米粒子的自组装、未被修饰的无机纳米粒子的自组装;表面张力及毛细管力诱导的一维纳米材料的自组装、模板诱导的一维纳米材料的自组装、静电力诱导的一维纳米材料的自组装。 相似文献
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Dr. Hao Sun Dr. Wei Cao Dr. Nanzhi Zang Dr. Tristan D. Clemons Georg M. Scheutz Ziying Hu Dr. Matthew P. Thompson Yifei Liang Maria Vratsanos Xuhao Zhou Wonmin Choi Prof. Dr. Brent S. Sumerlin Prof. Dr. Samuel I. Stupp Prof. Dr. Nathan C. Gianneschi 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2020,132(43):19298-19304
Herein, we report the photoinitiated polymerization-induced self-assembly (photo-PISA) of spherical micelles consisting of proapoptotic peptide–polymer amphiphiles. The one-pot synthetic approach yielded micellar nanoparticles at high concentrations and at scale (150 mg mL−1) with tunable peptide loadings up to 48 wt. %. The size of the micellar nanoparticles was tuned by varying the lengths of hydrophobic and hydrophilic building blocks. Critically, the peptide-functionalized nanoparticles imbued the proapoptotic “KLA” peptides (amino acid sequence: KLAKLAKKLAKLAK) with two key properties otherwise not inherent to the sequence: 1) proteolytic resistance compared to the oligopeptide alone; 2) significantly enhanced cell uptake by multivalent display of KLA peptide brushes. The result was demonstrated improved apoptosis efficiency in HeLa cells. These results highlight the potential of photo-PISA in the large-scale synthesis of functional, proteolytically resistant peptide–polymer conjugates for intracellular delivery. 相似文献
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棒-线(Rod-Coil)型分子的合成及其自组装行为研究是当前超分子材料研究领域的重要研究方向. 与传统的柔性(Coil-Coil)型嵌段聚合物和Rod-Coil型嵌段聚合物相比, Rod-Coil型分子表现出不同的相行为、自组织特性和微结构, 可以自组装形成多种纳米结构. 研究结果显示, 横向分子间氢键是Rod-Coil型分子自组装形成液晶相和(或)有机凝胶等自组装体的主要驱动力. 主要介绍目前文献报道的横向分子间氢键驱动下的Rod-Coil型分子自组装. 相似文献