Institute of Molecular BioSciences, Massey University, Private Bag 11222, Palmerston North, New Zealand.
Microb Biotechnol. 2012 Mar;5(2):188-202. doi: 10.1111/j.1751-7915.2011.00293.x. Epub 2011 Sep 9.
Proteins are often found attached to surfaces of self-assembling biological units such as whole microbial cells or subcellular structures, e.g. intracellular inclusions. In the last two decades surface proteins were identified that could serve as anchors for the display of foreign protein functions. Extensive protein engineering based on structure-function data enabled efficient display of technically and/or medically relevant protein functions. Small size, diversity of the anchor protein as well as support structure, genetic manipulability and controlled cultivation of phages, bacterial cells and yeasts contributed to the establishment of designed and specifically functionalized tools for applications as sensors, catalysis, biomedicine, vaccine development and library-based screening technologies. Traditionally, phage display is employed for library screening but applications in biomedicine and vaccine development are also perceived. For some diagnostic purposes phages are even too small in size so other carrier materials where needed and gave way for cell and yeast display. Only recently, intracellular inclusions such as magnetosomes, polyhydroxyalkanoate granules and lipid bodies were conceived as stable subcellular structures enabling the display of foreign protein functions and showing potential as specific and tailor-made devices for medical and biotechnological applications.
蛋白质通常附着在自组装生物单元的表面上,例如整个微生物细胞或亚细胞结构,例如细胞内包涵体。在过去的二十年中,已经鉴定出了一些表面蛋白,它们可以作为展示外源蛋白功能的锚点。基于结构-功能数据的广泛蛋白质工程使技术上和/或医学上相关的蛋白质功能的高效展示成为可能。噬菌体、细菌细胞和酵母的小尺寸、锚定蛋白的多样性以及支持结构、遗传可操作性和可控培养,为传感器、催化、生物医学、疫苗开发和基于文库的筛选技术等应用提供了设计和特定功能化的工具。传统上,噬菌体展示用于文库筛选,但也应用于生物医学和疫苗开发。对于一些诊断目的,噬菌体的尺寸甚至太小,因此需要其他载体材料,从而为细胞和酵母展示提供了途径。直到最近,磁小体、聚羟基烷酸颗粒和脂滴等细胞内包涵体才被认为是稳定的亚细胞结构,能够展示外源蛋白功能,并显示出作为医学和生物技术应用的特定和定制设备的潜力。
