细胞技术

Cell-penetrating peptides (CPPs) are widely used to deliver macromolecular cargoes to intracellular sites of action. Many CPPs have been demonstrated to rely on cell surface heparan sulfate proteoglycans (HSPGs) for efficient cellular entry and delivery. In this chapter, we descri ...

The ability to predict properties such as peptide binding and insertion into membranes is an important and time-saving asset in the design of new cell-penetrating peptides (CPPs). Methods to predict those properties are described here, which make use of calculations performed with the Wi ...

Nowadays, the analysis of the uptake and intracellular distribution of cell-penetrating peptides mostly relies on fluorescence microscopy, using fluorescently labeled CPP analogs. However, fluorescence microscopy does not reveal to which degree fluorescence reflects t ...

CPPs are generally short cationic peptides that have the capability to interact directly with membranes. Most CPPs attain a three-dimensional structure when interacting with bilayers, while they are more or less unstructured in aqueous solution. To understand the relationship bet ...

Due to the poor permeability of the plasma membrane, several strategies are designed to enhance the transfer of therapeutics into cells. Over the last 20 years, small peptides called Cell-Penetrating Peptides (CPPs) have been widely developed to improve the cellular delivery of biomole ...

The chapter deals with some biophysical methods used for investigating CPP-induced changes in membrane properties by spectroscopy methods such as fluorescence or NMR and methods used for probing CPP-induced leakage in membranes. Some useful model systems for biomembranes are des ...

In the last 15 years, an ever expanding pool of cell-penetrating peptides (CPPs) has been discovered and recently focus has shifted towards improving already existing CPPs by different modifications. Since the number of published peptide sequences with cell-penetrating ability is n ...

CPPs have for numerous years been utilized as delivery vectors of various pharmaceutically interesting cargoes, both in vitro and in vivo. As CPPs are gradually approaching the bedsides, investigating toxicity associated with these highly interesting peptides becomes increas ...

Despite the quickly widening application of cell-penetrating peptides (CPP) for the cellular delivery of various macromolecules, the cell entry mechanisms of these peptides have remained elusive so far. The basic features of the translocation of CPPs into cells have been mapped by fluo ...

The number of various cargo delivered into cells by CPPs demonstrates the effective transport abilities of these short-peptidic sequences. Over the years of research, the translocation process of CPP–cargo complexes has been mapped to being of mostly endocytic nature, however, there is ...

As more and more studies utilize cell-penetrating peptides to deliver pharmacologically interesting substances, there is a growing need to understand their effect on the plasma membrane. If a cell-penetrating peptide together with its cargo is to be used as a drug, it is necessary to underst ...

Cationic peptides are efficiently taken up by biological cells through different pathways, which can be exploited for delivery of intracellular drugs. For example, their endocytosis is known since 1967, and this typically produces entrapment of the peptides in endocytotic vesicle ...

Cell-penetrating peptides are short, often hydrophilic peptides that get access to the intracellular milieu. They have aroused great interest both in academic and applied research. First, cellular internalization of CPPs often involves the crossing of a biological membrane (pla ...

The classical view on how peptides enter cells has been changed due to the development in the research field of cell-penetrating peptides (CPPs). During the last 15 years, more than 100 peptide sequences have been published to enter cells and also to bring different biological cargoes with them. H ...

Transfected cell microarrays, arrays of cells expressing defined cDNAs, are promising technologies that can enable the functional analysis of many proteins in parallel. This technique has been adapted for the comparative functional analysis of single-chain antibodies (scFvs) ...

Blood is a tremendous source of data for diagnostic purposes. Thanks to the qualitative and quantitative analysis of the different cell types carried into the blood stream. To that end, cell capture of several cell types at different locations on a microarray is an interesting alternative to cl ...

DNA, protein and cell microarrays are increasingly used in a multitude of bioassays. All of these arrays require substrates that are suitable for the immobilisation and display of arrayed probe molecules whilst at the same time resisting non-specific interactions of biomolecules with ...

Cell-based microarrays are promising tools for high-throughput functional analysis of gene products, but their application has been limited to adherent cells due to the difficulty in immobilization of non-adherent cells. Herein, we have introduced our techniques that can rapidly a ...

Polymer microarrays as platforms for cell-based assays are presented, offering a unique approach to high-throughput cellular analysis. These high-throughput (HT) platforms are used for the screening of new materials with the purpose of first finding substrates upon which a specific ...

Genome-wide functional annotation of genes is one of the major challenges in current biology. Such investigation requires a high-throughput methodology for efficient and parallel overexpression or silencing of multiplexed genes in living cells. The transfection method descr ...