| Description |
1 online resource (222 pages) |
| Series |
Methods in Bioengineering |
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Methods in bioengineering.
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| Contents |
Methods in Bioengineering: Stem Cell Bioengineering; Contents; Preface; Chapter 1 Somatic Cell Nuclear Transfer and Derivation of Embryonic Stem Cells; 1.1 Introduction; 1.2 Materials for Nuclear Transfer; 1.2.1 Equipment for mouse nuclear transfer; 1.2.2 Reagents for mouse nuclear transfer; 1.3 Methods for Nuclear Transfer; 1.3.1 Preparation of enucleation and nuclear transfer pipettes; 1.3.2 Medium preparation; 1.3.3 Animal preparation; 1.3.4 Nuclear transfer; 1.3.5 Enucleation; 1.3.6 Preparation of donor cells; 1.3.7 Nuclear transfer; 1.3.8 Activation |
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1.3.9 Embryo culture and embryo transfer1.4 Derivation of Mouse ntES Cells; 1.5 Materials for Embryonic Stem Cell Derivation; 1.6 Methods for Embryonic Stem Cell Derivation; 1.6.1 Derivation of ntES cells; 1.6.2 In vitro characterization of ntES cells; 1.6.3 In vivo characterization of ntES cells; 1.7 Discussion and Commentary; 1.8 Summary Points; Acknowledgments; References; Chapter 2 Derivation of Mouse Parthenogenetic Embryonic Stem Cells; 2.1 Introduction; 2.2 Materials; 2.2.1 Reagents; 2.2.2 Equipment; 2.2.3 Media recipe; 2.3 Methods; 2.3.1 Generation of p(MI) embryos |
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2.3.2 Generation of p(MII) embryos2.3.3 Generation of p(hap) embryos; 2.3.4 Derivation of p(MI), p(MII), and p(hap) ES cells; 2.3.5 ES cell characterization; 2.3.6 Teratoma induction; 2.4 Data Acquisition, Anticipated Results, and Interpretation; 2.5 Discussion and Commentary; 2.6 Summary Points; Acknowledgments; References; Chapter 3 Generation of Mice from Embryonic Stem Cells Using Tetraploid Embryos as Hosts; 3.1 Introduction; 3.2 Experimental Design; 3.3 Materials; 3.3.1 Preparation of 4n embryos: Mice and reagents; 3.3.2 Preparation of 4n embryos: Equipment |
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3.3.3 ES cells and culture conditions3.3.4 Micromanipulation system; 3.4 Methods; 3.4.1 Preparation of host embryos; 3.4.2 Electrofusion of two-cell stage embryos; 3.4.3 Removal of the zona pellucida; 3.4.4 Generation of ES multiple 4n embryos by aggregation; 3.4.5 Generation of ES 4n embryos by blastocyst injection; 3.4.6 Data acquisition; 3.5 Anticipated Results; 3.6 Discussion and Commentary; 3.7 Application Notes; 3.8 Summary Points; Acknowledgments; References; Chapter4 Bioreactor Design and Implementation; 4.1 Introduction; 4.2 Experimental Methods and Materials |
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4.2.1 General system description4.2.2 Closed system; 4.2.3 Hollow-fiber bioreactor; 4.2.4 CES fluid circuit; 4.2.5 Oxygenator design; 4.2.6 Monitoring; 4.2.7 User interface; 4.3 Anticipated Results; 4.3.1 MSC source 1: Loading whole BM marrow into the CES; 4.3.2 MSC source 2 or 3: Loading preselected MSC into the CES; 4.4 Discussion and Commentary; 4.5 Application Notes; 4.5.1 Therapeutic dose of MSC grown from a whole BM sample; 4.5.2 Nonadherent cell culture: Kg1a cells grown in suspension; 4.6 Summary Points; Chapter 5 Extracellular Matrix Microarrays and Stem Cell Fate; 5.1 Introduction |
| Summary |
In stem cell research there are several key methods that, once mastered, can be extremely powerful. These methods enable you to rigorously test hypotheses, compare results to?gold standards,? and may even spur improvements to existing protocols. This book describes numerous methods to derive, manipulate, target, and prepare stem cells for clinical use. The methods described here help you derive and test human embryonic stem cells, analyze bone marrow stem cell function in vitro and in vivo, image a stem cell transplant, cryopreserve stem cells and differentiate stem cells using microscale tec |
| Notes |
Print version record |
| Subject |
Bioengineering.
|
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Stem cells -- Research.
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Stem cells.
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Biotechnology
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Stem Cells
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bioengineering.
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Bioengineering
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Stem cells
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Stem cells -- Research
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| Form |
Electronic book
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| Author |
Yarmush, Martin
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| ISBN |
9781596934030 |
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1596934034 |
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