生物信息学技术

The success of culturing CHO cells solely depends on functionality of the used media. Cell culture technology is more than 50 years old, and the knowledge of cell requirements increased steadily. In the beginning, animal-sourced components were the key to growth. Nowadays state-of-the-art ...

Shaking technology in combination with small-scale disposable plastic vessels has become a notable bioprocess optimization tool widely exploited for cells grown in suspension. This chapter focuses on the two most accommodating culture systems: 50 mL centrifugation tubes and 96- ...

Microbioreactors are increasingly used within animal cell biotechnology to grow mammalian cells for cell line screening and to facilitate process development. Many such devices have been reported in the literature, but only a small number are available commercially. Microbiore ...

Microcarrier technology opened new perspectives for anchorage-dependent cell culture, by providing increased surface areas for cell adhesion and proliferation, and therefore improving both cell and product yields obtained in these cultures. The establishment of a successf ...

The history of the culture of animal cell lines is littered with published and much unpublished experience with cell lines that have become switched, mislabelled, or cross-contaminated during laboratory handling. To deliver valid and good quality research and to avoid waste of time and res ...

Transient transfection is a well-established method to rapidly express recombinant proteins from mammalian cells. Accelerating activity in biotherapeutic drug development, demand for protein-based reagents, vaccine research, and large initiatives in structural and fu ...

Transient gene expression (TGE) has become a powerful tool over the last decade, as time to market is a key factor in biopharmaceutical industry. TGE is used to produce small amounts of recombinant protein for functional and structural studies. To broaden the applicability of the method, the sca ...

Traditional cell line development is quite laborious and time-consuming as it is based on the random integration of the gene of interest which leads to unpredictable expression behavior. In opposition, recombinase-mediated cassette exchange systems represent a powerful genetic ...

The development of mammalian cell cycle synchronization techniques has greatly advanced our understanding of many cellular regulatory events and mechanisms specific to different phases of the cell cycle. In this chapter, we describe a high-throughput microfluidic-based appr ...

Viral nanoparticles (VNPs) are a novel class of bionanomaterials that harness the natural biocompatibility of viruses for the development of therapeutics, vaccines, and imaging tools. The plant virus, cowpea mosaic virus (CPMV), has been successfully engineered to create novel can ...

The variable domains of antibodies can be expressed as a fusion with pIII, a minor coat protein of the bateriophage M13, for the generation of phage-display antibody reagents. The phage-display system is routinely used to enrich for recombinant antibodies against a specific target antigen ...

Tailless T4 nanoparticles (NPs) have large surface areas consisting of more than 105 diverse surface reactive groups and offer great flexibility in chemical modification for tailoring the desired functionality. Dye-conjugated T4 NPs exhibiting bright fluorescence are bioco ...

Viral nanoparticles derived from tobacco mosaic virus (TMV) find applications in various fields. We report the purification and chemical modification of TMV which is a hollow rod-shaped plant viral nanoparticle with modifiable interior and exterior surfaces. We describe methods to ...

Viral nanoblock provides specific positioning of recognition moieties and dye molecules which can be used as a signal-generating element and enhance detection sensitivity. The methods described herein use a 30 nm viral nanoblock to couple a variety of proteins and peptides for the incor ...

The development of methods for the production of empty Cowpea mosaic virus (CPMV) virus-like particles (VLPs) that are devoid of RNA, eVLPs, has renewed promise in CPMV capsid technologies. The recombinant nature of CPMV eVLP production means that the extent and variety of genetic modificat ...

A modified version of the rod-shaped Tobacco Mosaic Virus (TMV1cys) provides a robust template for the self-assembly and fabrication of high-surface-area materials for numerous applications including batteries and sensors. TMV1cys surface fabrication is facilitated by the ad ...

Bottom-up self-assembly techniques are a powerful method of building nanoscale structures in an energy efficient and cost effective manner. The use of biological templates, such as proteins, takes advantage of the monodispersity and precision of naturally evolved systems to produ ...

Polyelectrolyte surface-modified cowpea mosaic virus (CPMV) can be used for the templated synthesis of narrowly dispersed gold nanoparticles. Cationic polyelectrolyte, poly(allylamine) hydrochloride, is electrostatically bound to the external surface of the virus cap ...

Templated mineralization of virus particles provides routes to narrowly dispersed nanoparticles that are not readily prepared by other means. The templated mineralization of metal or metal oxide on the external surface of wild-type cowpea mosaic virus (CPMV), a plant virus, is facili ...

Phage display is a biotechnique that fuses functional peptides on the outer surface of filamentous phage by inserting DNA encoding the peptides into the genes of its coat proteins. The resultant peptide-displayed phage particles have been widely used as biotemplates for the synthesis of f ...