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1. Medical genetics [2016]

Book
x, 356 pages : illustrations (chiefly color) ; 28 cm
  • 1 Background and History 2 Basic Cell Biology: Structure and Function of Genes and Chromosomes 3 Genetic Variation: Its Origin and Detection 4 Autosomal Dominant and Recessive Inheritance 5 Sex-Linked and Nontraditional Modes of Inheritance 6 Clinical Cytogenetics: The Chromosomal Basis of Human Disease 7 Biochemical Genetics: Disorders of Metabolism 8 Disease-Gene Identification 9 Immunogenetics 10 Genetic Basis of Development 11 Cancer Genetics 12 Multifactorial Inheritance and Common Diseases 13 Genetic Testing and Gene Therapy 14 Genetics and Precision Medicine 15 Clinical Genetics and Genetic Counseling Glossary Answers to Study Questions.
  • (source: Nielsen Book Data)9780323188357 20161031
Popular for its highly visual, clinical approach, Medical Genetics delivers an accessible yet thorough understanding of this active and fast-changing field. Key updates in this new edition cover the latest developments which are integrated with clinical practice to emphasize the central principles and how they apply to practice. Photographs, illustrations, and tables, along with boxes containing patient/family vignettes demonstrate clinical relevance and enhance visual impact of the material for easier and more effective learning and retention.
(source: Nielsen Book Data)9780323188357 20161031
Science Library (Li and Ma)
BIO-82-01
Book
1 volume (various pagings) : illustrations (some color) ; 28 cm
  • Genetics: The Study of Biological Information
  • Mendel's Principles of Heredity
  • Extensions to Mendel's Laws
  • The Chromosome Theory of Inheritance
  • Linkage, Recombination, and the Mapping of Genes on Chromosomes
  • DNA Structure, Replication, and Recombination
  • Anatomy and Function of a Gene: Dissection Through Mutation
  • Gene Expression: The Flow of Information from DNA to RNA to Protein
  • Digital Analysis of DNA
  • Genomes and Proteomes
  • Genome-Wide Variation and Trait Analysis
  • The Eukaryotic Chromosome
  • Chromosomal Rearrangements and Changes in Chromosome Number
  • Prokaryotic and Organelle Genetics
  • Gene Regulation in Prokaryotes
  • Gene Regulation in Eukaryotes
  • Somatic Mutation and the Genetics of Cancer
  • Using Genetics to Study Development
  • Variation and Selection in Populations
  • Evolution at the Molecular Level
  • Systems Biology and the Future of Medicine
Science Library (Li and Ma)
BIO-82-01
Book
1 v. (various pagings) : 28 cm.
  • Chapter: 1 Genetics: The Study of Biological Information PART I Basic Principles: How Traits Are Transmitted Chapter: 2 Mendel s Breakthrough: Patterns, Particles, and Principles of Heredity Chapter: 3 Extensions to Mendel: Complexities in Relating Genotype to Phenotype Chapter: 4 The Chromosome Theory of Inheritance Chapter: 5 Linkage, Recombination, and the Mapping of Genes on Chromosomes PART II What Genes Are and What They Do Chapter: 6 DNA: Structure, Replication, and Recombination Chapter: 7 Anatomy and Function of a Gene: Dissection Through Mutation Chapter: 8 Gene Expression: The Flow of Information from DNA to RNA to Proteinv PART III Analysis of Genetic Information Chapter: 9 Digital Analysis of DNA Chapter: 10 Genomes and Proteomes Chapter: 11 Genome-Wide Variation and Trait Analysis PART IV How Genes Travel on Chromosomes Chapter: 12 The Eukaryotic Chromosome Chapter: 13 Chromosomal Rearrangements and Changes in Chromosome Number Reshape Eukaryotic Genomes Chapter: 14 The Prokaryotic Chromosome: Genetic Analysis in Bacteria PART V How Genes Are Regulated Chapter: 15 Gene Regulation in Prokaryotes Chapter: 16 Gene Regulation in Eukaryotes Chapter: 17 Somatic Mutation and the Genetics of Cancer Chapter: 18 Using Genetics to Study Development PART VI Genetics Beyond the Individual Chapter: 19 Variation and Selection in Populations Chapter: 20 Evolution at the Molecular Level PART VIII Systems Biology Chapter: 21 Systems Biology and the Future of Medicine.
  • (source: Nielsen Book Data)9780073525266 20160604
  • Genetics: The Study of Biological Information PART I Basic Principles: How Traits Are Transmitted 2 Mendel's Breakthrough: Patterns, Particles, and Principles of Heredity 3 Extensions to Mendel: Complexities in Relating Genotype to Phenotype 4 The Chromosome Theory of Inheritance 5 Linkage, Recombination, and the Mapping of Genes on Chromosomes PART II What Genes Are and What They Do 6 DNA: Structure, Replication, and Recombination 7 Anatomy and Function of a Gene: Dissection Through Mutation 8 Gene Expression: The Flow of Information from DNA to RNA to Proteinv PART III Analysis of Genetic Information 9 Digital Analysis of DNA 10 Genomes and Proteomes 11 Genome-Wide Variation and Trait Analysis PART IV How Genes Travel on Chromosomes 12 The Eukaryotic Chromosome 13 Chromosomal Rearrangements and Changes in Chromosome Number Reshape Eukaryotic Genomes 14 The Prokaryotic Chromosome: Genetic Analysis in Bacteria PART V How Genes Are Regulated 15 Gene Regulation in Prokaryotes 16 Gene Regulation in Eukaryotes 17 Somatic Mutation and the Genetics of Cancer 18 Using Genetics to Study Development PART VI Genetics Beyond the Individual 19 Variation and Selection in Populations 20 Evolution at the Molecular Level PART VIII Systems Biology 21 Systems Biology and the Future of Medicine.
  • (source: Nielsen Book Data)9780071221924 20160604
Genetics: From Genes to Genomes is a cutting-edge, introductory genetics text authored by an unparalleled author team, including Nobel Prize winner, Leland Hartwell. The 4th edition continues to build upon the integration of Mendelian and molecular principles, providing students with the links between the early understanding of genetics and the new molecular discoveries that have changed the way the field of genetics is viewed.
(source: Nielsen Book Data)9780073525266 20160604
Science Library (Li and Ma)
BIO-82-01
Book
xxii, 730, [62] p. : ill. (chiefly col.), col. maps ; 29 cm.
  • Chapter: 1 Genetics: The Study of Biological Information PART I Basic Principles: How Traits Are Transmitted Chapter: 2 Mendel s Breakthrough: Patterns, Particles, and Principles of Heredity Chapter: 3 Extensions to Mendel: Complexities in Relating Genotype to Phenotype Chapter: 4 The Chromosome Theory of Inheritance Chapter: 5 Linkage, Recombination, and the Mapping of Genes on Chromosomes PART II What Genes Are and What They Do Chapter: 6 DNA: Structure, Replication, and Recombination Chapter: 7 Anatomy and Function of a Gene: Dissection Through Mutation Chapter: 8 Gene Expression: The Flow of Information from DNA to RNA to Proteinv PART III Analysis of Genetic Information Chapter: 9 Digital Analysis of DNA Chapter: 10 Genomes and Proteomes Chapter: 11 Genome-Wide Variation and Trait Analysis PART IV How Genes Travel on Chromosomes Chapter: 12 The Eukaryotic Chromosome Chapter: 13 Chromosomal Rearrangements and Changes in Chromosome Number Reshape Eukaryotic Genomes Chapter: 14 The Prokaryotic Chromosome: Genetic Analysis in Bacteria PART V How Genes Are Regulated Chapter: 15 Gene Regulation in Prokaryotes Chapter: 16 Gene Regulation in Eukaryotes Chapter: 17 Somatic Mutation and the Genetics of Cancer Chapter: 18 Using Genetics to Study Development PART VI Genetics Beyond the Individual Chapter: 19 Variation and Selection in Populations Chapter: 20 Evolution at the Molecular Level PART VIII Systems Biology Chapter: 21 Systems Biology and the Future of Medicine.
  • (source: Nielsen Book Data)9780073525266 20160604
  • Genetics: The Study of Biological Information PART I Basic Principles: How Traits Are Transmitted 2 Mendel's Breakthrough: Patterns, Particles, and Principles of Heredity 3 Extensions to Mendel: Complexities in Relating Genotype to Phenotype 4 The Chromosome Theory of Inheritance 5 Linkage, Recombination, and the Mapping of Genes on Chromosomes PART II What Genes Are and What They Do 6 DNA: Structure, Replication, and Recombination 7 Anatomy and Function of a Gene: Dissection Through Mutation 8 Gene Expression: The Flow of Information from DNA to RNA to Proteinv PART III Analysis of Genetic Information 9 Digital Analysis of DNA 10 Genomes and Proteomes 11 Genome-Wide Variation and Trait Analysis PART IV How Genes Travel on Chromosomes 12 The Eukaryotic Chromosome 13 Chromosomal Rearrangements and Changes in Chromosome Number Reshape Eukaryotic Genomes 14 The Prokaryotic Chromosome: Genetic Analysis in Bacteria PART V How Genes Are Regulated 15 Gene Regulation in Prokaryotes 16 Gene Regulation in Eukaryotes 17 Somatic Mutation and the Genetics of Cancer 18 Using Genetics to Study Development PART VI Genetics Beyond the Individual 19 Variation and Selection in Populations 20 Evolution at the Molecular Level PART VIII Systems Biology 21 Systems Biology and the Future of Medicine.
  • (source: Nielsen Book Data)9780071221924 20160604
Genetics: From Genes to Genomes is a cutting-edge, introductory genetics text authored by an unparalleled author team, including Nobel Prize winner, Leland Hartwell. The 4th edition continues to build upon the integration of Mendelian and molecular principles, providing students with the links between the early understanding of genetics and the new molecular discoveries that have changed the way the field of genetics is viewed.
(source: Nielsen Book Data)9780073525266 20160604
Science Library (Li and Ma)
BIO-82-01
Book
xxv, 781 p. : ill. (some col.) ; 28 cm.
  • Nucleic acid structure and gene expression
  • Chromosome structure and function
  • Genes in pedigrees and populations
  • Cells and cell-cell communication
  • Principles of development
  • Amplifying DNA : cell-based DNA cloning and PCR
  • Nucleic acid hybridization : principles and applications
  • Analyzing the structure and expression of genes and genomes
  • Organization of the human genome
  • Model organisms, comparative genomics, and evolution
  • Human gene expression
  • Studying gene function in the post-genome era
  • Human genetic variability and its consequences
  • Genetic mapping of mendelian characters
  • Mapping genes conferring susceptibility to complex diseases
  • Identifying human disease genes and susceptibility factors
  • Cancer genetics
  • Genetic testing of individuals
  • Pharmacogenetics, personalized medicine and population screening
  • New approaches to therapy
  • Genetic manipulation of animals for modeling disease and investigating gene function
  • Genetic approaches to treating disease.
This work provides guidance on the principles underlying modern human molecular genetics. This new edition has been updated to take account of the changes in our understanding of this field since the late 1990s.
Science Library (Li and Ma)
BIO-82-01