Uma Lakshmipathy Jonathan D. Chesnut Bhaskar Thyagarajan
This book focuses on practical applications for using adult and embryonic stem cells in the pharmaceutical development process. It emphasizes new technologies to help overcome the bottlenecks in developing stem cells as therapeutic agents. A key reference for professionals working in stem cell science, it presents the general principles and methodologies in stem cell research and covers topics such as derivitization and characterization of stem cells, stem cell culture and maintenance, stem cell engineering, applications of high-throughput screening, and stem cell genetic modification with...
This book focuses on practical applications for using adult and embryonic stem cells in the pharmaceutical development process. It emphasizes new tech...
This book describes basic cell engineering methods, emphasizing stem cell applications, and use of the genetically modified stem cells in cell therapy and drug discovery. Together, the chapters introduce and offer insights on new techniques for engineering of stem cells and the delivery of transgenes into stem cells via various viral and non-viral systems. The book offers a guide to the types of manipulations currently available to create genetically engineered stem cells that suit any investigator's purpose, whether it's basic science investigation, creation of disease models and screens, or...
This book describes basic cell engineering methods, emphasizing stem cell applications, and use of the genetically modified stem cells in cell therapy...
Human pluripotent stem cells such as human embryonic stem cells (hESC) and induced pluripotent stem cells (iPSC) with their unique developmental plasticity hold immense potential as cellular models for drug discovery and in regenerative medicine as a source for cell replacement. While hESC are derived from a developing embryo, iPSC are generated with forced expression of key transcription factors to convert adult somatic cells to ESC-like cells, a process termed reprogramming. Using iPSC overcomes ethical issues concerning the use of developing embryos and it can be generated from...
Human pluripotent stem cells such as human embryonic stem cells (hESC) and induced pluripotent stem cells (iPSC) with their unique developmental pl...
Comprehensive coverage of the entire induced pluripotent stem cell basic work flow Pluripotent stem cells (PSC) can divide indefinitely, self-renew, and can differentiate to functionally reconstitute almost any cell in the normal developmental pathway, given the right conditions.
Comprehensive coverage of the entire induced pluripotent stem cell basic work flow Pluripotent stem cells (PSC) can divide indefinitely, self-renew, ...