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Guide to Techniques in Mouse Development, Part A comprehensively covers new technologies and methodologies that have appeared for the study of mouse development. - Update of volume 225 of Methods in Enzymology, Guide to Techniques in Mouse Development, edited by P.M. Wassarman and M.L. DePamphilis and published in 1993 - Covers new technologies and methodologies, including: - new techniques for the cryopreservation of gametes and embryos - production of transgenic and null (knockout) animals (use of ES cells) - generation of conditional/inducible mutant animals - use of gene-trap mutagenesis - analysis of allele-specific expresion - use of new reporter constructs - humanizing of transgenic animals - transcript profiling of mouse development - imaging of mouse development - rederivation of animals and use of mouse genomics
This volume comprehensively covers new technologies and methodologies that have appeared for the study of mouse development - Update of volume 225, Guide to Techniques in Mouse Development, edited by P.M. Wassarman and M.L. DePamphilis and published in 1993 - Comprehensively covers: - new techniques for the cryopreservation of gametes and embryos - production of transgenic and null (knockout) animals (use of ES cells) - generation of conditional/inducible mutant animals, use of gene-trap mutagenesis - analysis of allele-specific expression, use of new reporter constructs - humanizing of transgenic animals - transcript profiling of mouse development - imaging of mouse development - rederivation of animals and use of mouse genomics
The Guide to Investigation of Mouse Pregnancy is the first publication to cover the mouse placenta or the angiogenic tree the mother develops to support the placenta. This much-needed resource covers monitoring of the cardiovascular system, gestational programming of chronic adult disease, epigenetic regulation, gene imprinting, and stem cells. Offering detailed and integrated information on how drugs, biologics, stress, and manipulations impact pregnancy in the mouse model, this reference highlights techniques used to analyze mouse pregnancy. Joining the ranks of much referenced mouse resources, The Guide to Investigation of Mouse Pregnancy is the only manual providing needed content on pregnancy in animal models for translational medicine and research. - Provides instruction on how to collect pre-clinical data on pregnancy in mouse models for eventual use in human applications - Describes the angiogenic tree the mother's uterus develops to support pregnancy and the monitoring of pregnancy-induced cardiovascular changes - Educates readers on placental cell lineages, decidual development including immune cells, epigenetic regulation, gene imprinting, stem cells, birth and lactation - Discusses how stress, environmental toxicants and other manipulations impact upon placental function and pregnancy success
This volume provides, for the first time, an extensive compilation of those state-of-the-art methods that have revolutionized the use of mice as an experimental system. This volume is a unique source for detailed descriptions to be used in research by both experienced and novice researchers - Germ cells and embryos; Fertilization; Gene expression: messenger RNA, reporter genes, proteins, methylation; Gene identification; Nuclear transplantation; Transgenic animals: pronuclear injection, embryonic stem cells, and gene targeting; Lineage analysis.
Produced by microbes on a large scale, methane is an important alternative fuel as well as a potent greenhouse gas. This volume focuses on microbial methane metabolism, which is central to the global carbon cycle. Both methanotrophy and methanogenesis are covered in detail. Topics include isolation and classification of microorganisms, metagenomics approaches, biochemistry of key metabolic enzymes, gene regulation and genetic systems, and field measurements. The state-of-the-art techniques described here will both guide researchers in specific pursuits and educate the wider scientific community about this exciting and rapidly developing field. - Topics include isolation and classification of microorganisms, metagenomics approaches, biochemistry of key metabolic enzymes, gene regulation and genetic systems, and field measurements - The state-of-the-art techniques described here will both guide researchers in specific pursuits and educate the wider scientific community about this exciting and rapidly developing field
The combination of faster, more advanced computers and more quantitatively oriented biomedical researchers has recently yielded new and more precise methods for the analysis of biomedical data. These better analyses have enhanced the conclusions that can be drawn from biomedical data, and they have changed the way that experiments are designed and performed. This volume, along with the 2 previous Computer Methods volumes for the Methods in Enzymology serial, aims to inform biomedical researchers about recent applications of modern data analysis and simulation methods as applied to biomedical research. - Presents step-by-step computer methods and discusses the techniques in detail to enable their implementation in solving a wide range of problems - Informs biomedical researchers of the modern data analysis methods that have developed alongside computer hardware - Presents methods at the "nuts and bolts" level to identify and resolve a problem and analyze what the results mean
Produced by microbes on a large scale, methane is an important alternative fuel as well as a potent greenhouse gas. This volume focuses on microbial methane metabolism, which is central to the global carbon cycle. Both methanotrophy and methanogenesis are covered in detail. Topics include isolation and classification of microorganisms, metagenomics approaches, biochemistry of key metabolic enzymes, gene regulation and genetic systems, and field measurements. The state of the art techniques described here will both guide researchers in specific pursuits and educate the wider scientific community about this exciting and rapidly developing field. - Topics include isolation and classification of microorganisms, metagenomics approaches, biochemistry of key metabolic enzymes, gene regulation and genetic systems and field measurements - The state-of-the-art techniques described here will both guide researchers in specific pursuits and educate the wider scientific community about this exciting and rapidly developing field
Systems biology is a term used to describe a number of trends in bioscience research and a movement that draws on those trends. This volume in the Methods in Enzymology series comprehensively covers the methods in systems biology. With an international board of authors, this volume is split into sections that cover subjects such as machines for systems biology, protein production and quantification for systems biology, and enzymatic assays in systems biology research. This volume in the Methods in Enzymology series comprehensively covers the methods in systems biology With an international board of authors, this volume is split into sections that cover subjects such as machines for systems biology, protein production and quantification for systems biology, and enzymatic assays in systems biology research
Produced by microbes on a large scale, methane is an important alternative fuel as well as a potent greenhouse gas. This volume focuses on microbial methane metabolism, which is central to the global carbon cycle. Both methanotrophy and methanogenesis are covered in detail. Topics include isolation and classification of microorganisms, metagenomics approaches, biochemistry of key metabolic enzymes, gene regulation and genetic systems, and field measurements. The state of the art techniques described here will both guide researchers in specific pursuits and educate the wider scientific community about this exciting and rapidly developing field. Topics include isolation and classification of microorganisms, metagenomics approaches, biochemistry of key metabolic enzymes, gene regulation and genetic systems, and field measurements. The state of the art techniques described here will both guide researchers in specific pursuits and educate the wider scientific community about this exciting and rapidly developing field.
Synthetic biology encompasses a variety of different approaches, methodologies and disciplines, and many different definitions exist. This Volume of Methods in Enzymology has been split into 2 Parts and covers topics such as Measuring and Engineering Central Dogma Processes, Mathematical and Computational Methods and Next-Generation DNA Assembly and Manipulation. - Encompasses a variety of different approaches, methodologies and disciplines - Split into 2 parts and covers topics such as measuring and engineering central dogma processes, mathematical and computational methods and next-generation DNA assembly and manipulation