Natural products have been the biggest single source of anticancer drugs and there are continued efforts to explore the chemical diversity provided by nature in order to find new lead compounds. Bioassay test methods have developed into high throughput screening assays using both cell-based and molecular approaches. The various ways to detect effects on cell viability and cell proliferation are summarised and examples are given of developments using three-dimensional cultures and cancer stem cells. Cell-based reporter assays have also been created in order to look more directly for effects on specific physiological pathways. The molecular assays include those directed at microtubules and related proteins and at many different protein kinase...
Drug screening is a long and costly process confronted with low productivity and challenges in using...
Each bioactive compound induces phenotypic changes in target cells that can be made visible by label...
High content screening (HCS), the large-scale automated analysis of the temporal and spatial changes...
Natural products have been the biggest single source of anticancer drugs and there are continued eff...
The discovery of chemical compounds able to modify the way cells proliferate, differentiate or die c...
Copyright: © Fox et al. This is an open-access article distributed under the terms of the Creative ...
Over the past few years, establishment and adaptation of cell-based assays for drug development and ...
This chapter focuses on the promising post-genomic technologies being used for discovery of new, saf...
A high throughput anti-cancer drug leads screening method has been successfully established employin...
One of the reasons for the failure of potential anticancer drugs in clinical trials is the imperfect...
The rapid development of new biomaterials and techniques to modify them challenge our capability to ...
This study covers the isolation, testing, and identification of natural products with anticancer pro...
A primary reason why potential anticancer drugs fail in clinical trials is the limitations of existi...
258-264Most of the currently used cancer therapeutics are natural products. These agents were gene...
Background: Recently, immunotherapy has shown a lot of promise in cancer treatment and different imm...
Drug screening is a long and costly process confronted with low productivity and challenges in using...
Each bioactive compound induces phenotypic changes in target cells that can be made visible by label...
High content screening (HCS), the large-scale automated analysis of the temporal and spatial changes...
Natural products have been the biggest single source of anticancer drugs and there are continued eff...
The discovery of chemical compounds able to modify the way cells proliferate, differentiate or die c...
Copyright: © Fox et al. This is an open-access article distributed under the terms of the Creative ...
Over the past few years, establishment and adaptation of cell-based assays for drug development and ...
This chapter focuses on the promising post-genomic technologies being used for discovery of new, saf...
A high throughput anti-cancer drug leads screening method has been successfully established employin...
One of the reasons for the failure of potential anticancer drugs in clinical trials is the imperfect...
The rapid development of new biomaterials and techniques to modify them challenge our capability to ...
This study covers the isolation, testing, and identification of natural products with anticancer pro...
A primary reason why potential anticancer drugs fail in clinical trials is the limitations of existi...
258-264Most of the currently used cancer therapeutics are natural products. These agents were gene...
Background: Recently, immunotherapy has shown a lot of promise in cancer treatment and different imm...
Drug screening is a long and costly process confronted with low productivity and challenges in using...
Each bioactive compound induces phenotypic changes in target cells that can be made visible by label...
High content screening (HCS), the large-scale automated analysis of the temporal and spatial changes...