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The human genome : a user's guide (2011)

Richards, Julia E. ; Hawley, R. Scott. ; Hawley, R. Scott.

Amsterdam ; : Elsevier Academic Press,

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UID:

almafu_9960073657702883

Umfang: 1 online resource (600 p.)

Ausgabe: 3rd ed.

ISBN: 9786612953927 , 9781784020323 , 178402032X , 9781282953925 , 1282953923 , 9780080918655 , 0080918654

Inhalt: Significant advances in our knowledge of genetics were made during the twentieth century but in the most recent decades, genetic research has dramatically increased its impact throughout society. Genetic issues are now playing a large role in health and public policy, and new knowledge in this field will continue to have significant implications for individuals and society. Written for the non-majors human genetics course, Human Genetics, 3E will increase the genetics knowledge of students who are learning about human genetics for the first time. This thorough revision of the best-selling Hum

Anmerkung: First ed. by R. Scott Hawley and Catherine A. Mori. , Front Cover; The Human Genome; Copyright Page; Contents; Acknowledgments; Prologue: The Answer in a Nutshell; SECTION I: HOW GENES SPECIFY A TRAIT; Chapter 1 The Basics of Heredity: How Traits Are Passed Along in Families; 1.1 Mendel's Laws; 1.2 Selection: Artificial, Natural, and Sexual; 1.3 Human Genetic Diversity; 1.4 Human Dominant Inheritance; 1.5 Human Recessive Inheritance; 1.6 Complementation; 1.7 Epistasis and Pleiotropy; 1.8 Complex Syndromes; 1.9 One Man's Disease Is Another Man's Trait; Chapter 2 The Double Helix: How Cells Preserve Genetic Information; 2.1 Inside the Cell , 2.2 DNA: The Repository of Genetic Information2.3 DNA and the Double Helix; 2.4 DNA Replication; 2.5 Chromatin; 2.6 What Are Chromosomes?; 2.7 Euchromatin and Heterochromatin; 2.8 The Mitochondrial Chromosome: The ""Other Genome"" in the Human Genome; 2.9 DNA in vitro; SECTION II: HOW GENES FUNCTION; Chapter 3 The Central Dogma of Molecular Biology: How Cells Orchestrate the Use of Genetic Information; 3.1 What Is RNA?; 3.2 What Is RNA For?; 3.3 Transcription of RNA; 3.4 Orchestrating Expression; 3.5 Monitoring Gene Expression; 3.6 Interaction of Transcription Factors; 3.7 Inducible Genes , 3.8 Epigenetic Control of Gene Expression3.9 What Constitutes Normal?; Chapter 4 The Genetic Code: How the Cell Makes Proteins from Genetic Information Encoded in mRNA Molecules; 4.1 The Genetic Code; 4.2 Moving Things In and Out of the Nucleus; 4.3 The Central Dogma of Molecular Biology; 4.4 Translation; 4.5 Messenger RNA Structure; 4.6 Splicing; 4.7 Modular Genes; 4.8 What Are Proteins?; 4.9 Gene Products and Development; Chapter 5 We Are All Mutants: How Mutation Alters Function; 5.1 What Is a Mutation?; 5.2 The Process of Mutation; 5.3 How We Detect Mutations; 5.4 Basic Mutations , 5.5 Mutations in DNA Sequences that Regulate Gene Expression5.6 Copy Number Variation: Too Much or Too Little of a Good Thing; 5.7 Expanded Repeat Traits; 5.8 The Male Biological Clock; 5.9 Mutation Target Size; 5.10 Absent Essentials and Monkey Wrenches; SECTION III: HOW CHROMOSOMES MOVE; Chapter 6 Mitosis and Meiosis: How Cells Move Your Genes Around; 6.1 The Cell Cycle; 6.2 Mitosis; 6.3 Gametogenesis: What Is Meiosis Trying to Accomplish?; 6.4 Meiosis in Detail; 6.5 Mechanisms of Chromosome Pairing in Meiosis; 6.6 The Chromosomal Basis of Heredity , 6.7 Aneuploidy: When Too Much or Too Little Counts6.8 Uniparental Disomy; 6.9 Partial Aneuploidies; 6.10 The Female Biological Clock; Appendix 6.1 Failed Meiotic Segregation (Nondisjunction) as Proof of the Chromosome Theory of Heredity; Chapter 7 The Odd Couple: How the X and Y Chromosomes Break the Rules; 7.1 Passing the X and Y Chromosomes between Generations; 7.2 How Humans Cope with the Difference in Number of Sex Chromosomes between Males and Females; 7.3 How X Inactivation Works; 7.4 Skewed X Inactivation - When Most Cells Inactivate the Same X; 7.5 Genes that Escape X-Inactivation , 7.6 Reactivation of the Inactive X Chromosome in the Female Germline , English

Weitere Ausg.: ISBN 9780123334459

Weitere Ausg.: ISBN 0123334454

Sprache: Englisch

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Online-Ressource

The human genome : a user's guide (2011)

Richards, Julia E. ; Hawley, R. Scott

London [u.a.] : Elsevier

zur Merkliste hinzufügen auf der Merkliste

Details

UID:

gbv_662494539

Umfang: Online-Ressource (585 S.) , Ill. , 24 cm

Ausgabe: Online-Ausg. Amsterdam Elsevier Science & Technology 2011 Electronic reproduction; Mode of access: World Wide Web

ISBN: 0123334454 , 9780123334459 , 0080918654 , 9780080918655

Serie: Elsevier science in society series

Inhalt: As genetic issues play a growing role in health practice and public policy, new knowledge in this field will continue to have significant implications for individuals and society. Written to communicate sound and modern science in an accessible way for professionals and students with various levels of scientific background, this thoroughly revised edition of The Human Genome contributes to creating a genetically literate research and clinical population. With case studies and introductory vignettes which illustrate a wide range of perspectives on complex topics in genetics and updated material on the latest research on disease-specific topics, this book serves as a valuable resource for students and working professionals alike. * Full-color illustrations enhance and reinforce key concepts and themes * Chapters include interest boxes that focus on human health and disease, chapter-opening case studies, and concept statements to engage non-specialist readers * Companion website includes self tests, electronic artwork, and a guide to additional web resources to meet the developing needs of health care professionals and researchers

Anmerkung: Previous ed.: 2004 , Includes bibliographical references and index , PART I: HOW GENES SPECIFY A TRAITChapter 1: The Basics of Heredity: How Traits Are Passed Along in Families -- Chapter 2: The Double Helix: How Cells Preserve Genetic Information -- PART II: HOW GENES FUNCTION -- Chapter 3: The Central Dogma of Molecular Biology: How Cells Orchestrate the Use of Genetic Information -- Chapter 4: The Genetic Code: How the Cell Makes Proteins from Genetic Information Encoded in mRNA Molecules -- Chapter 5: We Are All Mutants: How Mutation Alters Function -- PART III: HOW CHROMOSOMES MOVE -- Chapter 6: Mitosis and Meiosis: How Cells Move Your Genes Around -- Chapter 7: The Odd Couple: How the X and Y Chromosomes Break the Rules -- PART IV: HOW GENES CONTRIBUTE TO COMPLEX TRAITS -- Chapter 8: Sex Determination: How Genes Determine a Developmental Choice -- Chapter 9: Complexity: How Traits Can Result from Combinations of Factors -- Chapter 10: The Multiple-Hit Hypothesis: How Genes Play a Role in Cancer -- PART V: HOW GENES ARE FOUND -- Chapter 11: The Gene Hunt: How Genetic Maps Are Built and Used -- Chapter 12: The Human Genome: How the Sequence Enables Genome-wide Studies -- PART VI: HOW GENES PLAY A ROLE IN TESTING AND TREATMENT -- Chapter 13: Genetic Testing and Screening: How Genotyping Can Offer Important Insights -- Chapter 14: Magic Bullets: How Gene-based Therapies Personalize Medicine -- Chapter 15: Fears, Faith, and Fantasies: How the Past and Present Shape the Future of Genomic Medicine. , PART I: HOW GENES SPECIFY A TRAIT -- Chapter 1: The Basics of Heredity: How Traits Are Passed Along in Families -- Chapter 2: The Double Helix: How Cells Preserve Genetic Information -- PART II: HOW GENES FUNCTION -- Chapter 3: The Central Dogma of Molecular Biology: How Cells Orchestrate the Use of Genetic Information -- Chapter 4: The Genetic Code: How the Cell Makes Proteins from Genetic Information Encoded in mRNA Molecules -- Chapter 5: We Are All Mutants: How Mutation Alters Function -- PART III: HOW CHROMOSOMES MOVE -- Chapter 6: Mitosis and Meiosis: How Cells Move Your Genes Around -- Chapter 7: The Odd Couple: How the X and Y Chromosomes Break the Rules -- PART IV: HOW GENES CONTRIBUTE TO COMPLEX TRAITS -- Chapter 8: Sex Determination: How Genes Determine a Developmental Choice -- Chapter 9: Complexity: How Traits Can Result from Combinations of Factors -- Chapter 10: The Multiple-Hit Hypothesis: How Genes Play a Role in Cancer -- PART V: HOW GENES ARE FOUND -- Chapter 11: The Gene Hunt: How Genetic Maps Are Built and Used -- Chapter 12: The Human Genome: How the Sequence Enables Genome-wide Studies -- PART VI: HOW GENES PLAY A ROLE IN TESTING AND TREATMENT -- Chapter 13: Genetic Testing and Screening: How Genotyping Can Offer Important Insights -- Chapter 14: Magic Bullets: How Gene-based Therapies Personalize Medicine -- Chapter 15: Fears, Faith, and Fantasies: How the Past and Present Shape the Future of Genomic Medicine. , PART I: HOW GENES SPECIFY A TRAITChapter 1: The Basics of Heredity: How Traits Are Passed Along in Families -- Chapter 2: The Double Helix: How Cells Preserve Genetic Information -- PART II: HOW GENES FUNCTION -- Chapter 3: The Central Dogma of Molecular Biology: How Cells Orchestrate the Use of Genetic Information -- Chapter 4: The Genetic Code: How the Cell Makes Proteins from Genetic Information Encoded in mRNA Molecules -- Chapter 5: We Are All Mutants: How Mutation Alters Function -- PART III: HOW CHROMOSOMES MOVE -- Chapter 6: Mitosis and Meiosis: How Cells Move Your Genes Around -- Chapter 7: The Odd Couple: How the X and Y Chromosomes Break the Rules -- PART IV: HOW GENES CONTRIBUTE TO COMPLEX TRAITS -- Chapter 8: Sex Determination: How Genes Determine a Developmental Choice -- Chapter 9: Complexity: How Traits Can Result from Combinations of Factors -- Chapter 10: The Multiple-Hit Hypothesis: How Genes Play a Role in Cancer -- PART V: HOW GENES ARE FOUND -- Chapter 11: The Gene Hunt: How Genetic Maps Are Built and Used -- Chapter 12: The Human Genome: How the Sequence Enables Genome-wide Studies -- PART VI: HOW GENES PLAY A ROLE IN TESTING AND TREATMENT -- Chapter 13: Genetic Testing and Screening: How Genotyping Can Offer Important Insights -- Chapter 14: Magic Bullets: How Gene-based Therapies Personalize Medicine -- Chapter 15: Fears, Faith, and Fantasies: How the Past and Present Shape the Future of Genomic Medicine. , Electronic reproduction; Mode of access: World Wide Web

Weitere Ausg.: ISBN 9780123334459

Weitere Ausg.: Erscheint auch als Druck-Ausgabe Human genome

Sprache: Englisch

Fachgebiete: Biologie

RVK:

WG 7000

Schlagwort(e): Mensch ; Genom ; Electronic books

URL: Volltext

URL: lizenzpflichtig

URL: Volltext (An electronic book accessible through the World Wide Web; click for information)

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