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1 Genetic Mapping
2 Genotyping
3 Somatic Cell Hybrids
4 Cytogenetics
5 Large-Insert Cloning and Analysis
6 Identifying Candidate Genes in Genomic DNA
7 Searching Candidate Genes for Mutations
8 Clinical Cytogenetics
9 Clinical Molecular Genetics
10 Cancer Genetics
11 Bioinformatics/Transcriptional Profiling
12 Vectors for Gene Therapy
13 Delivery Systems for Gene Therapy
14 Forensic Genetics
15 Model Systems for the Analysis of Human Disease
Appendices
Indexes
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1 Genetic Mapping
1.0 Introduction to Genetic Mapping
1.1 Collection of Clinical and Epidemiological Information
1.2 Pedigree Selection and Information Content
1.3 Strategies for Genotype Generation
1.4 Analysis of Genetic Linkage Data for Mendelian Traits
1.5 Construction of Reference Genetic Maps
1.6 Single Sperm Typing
1.7 Use of LINKAGE Programs for Linkage Analysis
1.8 Model-Free Tests for Genetic Linkage
1.9 Overview of Linkage Analysis in Complex Traits
1.10 Genetic Mapping in the Mouse
1.11 Homozygosity Mappingn Using Pooled DNA
1.12 Disease Associations and TDT and S-TDT
1.13 Human Mapping Databases
2 Genotyping
2.1 Construction of Small-Insert
Libraries from Genomic DNA
2.2 Construction of Small-Insert Libraries Enriched for Short Tandem Repeat
Sequences by Marker Selection
2.3 Colony Hybridization to Screen for Microsatellites
2.4 Characterization of (CA)n Microsatellite Repeats from Large-Insert Clones
2.5 PCR Methods of Genotyping
2.6 Genotyping by Ligation Assays
2.7 Restriction Fragment Length Polymorphism Analysis
2.8 Automated Fluorescent Genotyping
2.9 Single-Nucleotide Polymorphism Genotyping Using Microarrays
2.10 High-Throughput Genotyping Using the TaqMan Assay
3 Somatic Cell Hybrids
3.1 Overview of Somatic Cell Hybrid
Mapping
3.2 Construction of Somatic Cell Hybrids
3.3 Construction and Assay of Radiation Hybrids
3.4 Statistical Analysis of Radiation Hybrid Data
3.5 Use of Commercially Available Radiation Hybrid Panels
4 Cytogenetics
4.1 Chromosome Preparation from Cultured
Peripheral Blood Cells
4.2 Chromosome Banding Techniques
4.3 In Situ Hybridization to Metaphase Chromosomes and Interphase Nuclei
4.4 Microscopy and Image Analysis
4.5 High-Resolution FISH Analysis
4.6 Comparative Genomic Hybridization
4.7 Morphology Antibody Chromosome Technique for Determining Phenotype and Genotype
of the Same Cell
4.8 Chromosome Microdissection
4.9 Multicolor FISH for Simultaneous Analysis of the Entire Human Genome
4.10 Mitotic Chromosome Preparations from Mouse Cells for Karyotyping
4.11 Single-Nucleotide Sequence Discrimination In Situ Using Padlock Probes
(New, July 2002)
4.12 Principles and Applications of PRINS in Cytogenetics (New, July 2002)
5 Large-Insert Cloning and Analysis
5.0 Strategies for Large-Insert Cloning
and Analysis
5.1 PFGE for Long-Range Restriction Mapping
5.2 Construction of YAC Libraries with Large Inserts
5.3 Construction of Bacteriophage P1 Libraries with Large Inserts
5.4 Construction of Chromosome Jumping and Linking Libraries in E. coli
5.5 Screening of Large-Insert Libraries by PCR
5.6 Screening Large-Insert Libraries by Hybridization
5.7 Purification and Characterization of Large Inserts
5.8 Rescuing YAC Insert Ends as E. coli Plasmids
5.9 Deriving Probes from Large-Insert Clones by PCR Methods
5.10 Constructing Contigs from Large-Insert Clones
5.11 Generating Subclones from Large-Insert Genomic Clones
5.12 Introduction of Large Insert DNA into Mammalian Cells and Embryos
5.13 Building Larger YACs by Recombination
5.14 Transfer of YAC Clones to New Hosts by Karyogamy-Deficient Mating
5.15 Construction of Bacterial Artificial Chromosome Libraries Using the Modified
P1 (PAC) System
5.16 Navigating Public Physical Mapping Databases
5.17 elective Isolation of Mammalian Genes by TAR Cloning
6 Identifying Candidate Genes in Genomic DNA
6.1 Isolation of Exons from Cloned
DNA by Exon Trapping
6.2 Identification of Transcribed Sequences in Arrayed Bacteriophage or Cosmid
Libraries
6.3 Direct selection of cDNAs Using Genomic Contigs
6.4 Identification of Intron/Exon Boundaries in Genomic DNA by Inverse PCR
6.5 Gene Discovery and Sequence Annotation in the GRAIL-genQuest Environment
6.6 Gene Identification: Methods and Considerations
6.7 Sequence Databases: Integrated Information Retrieval and Data Submission
6.8 Sequence Similarity Searching Using the BLAST Family of Programs
6.9 Accessing the Human Genome (New, July 2002)
7 Searching Candidate Genes for Mutations
7.1 Amplification of Sequences from
Affected Individuals
7.2 Detection of Mutations by RNase Cleavage
7.3 Mismatch Detection Using Heteroduplex Analysis
7.4 Detection of Mutations by SSCP Analysis and SSCP-Hybrid Methods
7.5 Detection of Mutations by Denaturing Gradient Gel Electrophoresis
7.6 Chemical Cleavage of Heteroduplex DNA to Identify Mutations
7.7 Mutation Detection by Cycle Sequencing
7.8 Detection of Mutations by Fluorescence-Assisted Mismatch Analysis (FAMA)
7.9 Heterozygote Detection Using Automated Fluorescence-Based Sequencing
7.10 DNA Mutation Detection Using DHPLC
7.11 Human Mutation Databases
7.12 Single-Strand Conformation Polymorphism Analysis Using Capillary Electrophoresis
8 Clinical Cytogenetics
8.1 Overview of Clinical Cytogenetics
8.2 Quality Assurance and Quality Control in Clinical Cytogenetics
8.3 Preparation of Metaphase Spreads from Chorionic Villus Samples
8.4 Preparation, Culture, and Analysis of Amniotic Fluid Samples
8.5 Preparation and Culture of Products of Conception and Other Solid Tissues
for Chromosome Analysis
8.6 Analysis of Sister-Chromatid Exhchanges
8.7 Diagnosis of Fanconi Anemia by Diepoxybutane Analysis
8.8 Determination of Chromosomal Aneuploidy Using Paraffin-Embedded Tissue
8.9 Preparation of Amniocytes for Interphase Fluorescence In Situ Hybridization
(FISH)
8.10 Diagnosis of Microdeletion Syndromes by FISH
8.11 Molecular Cytogenetic Analysis of Telomere Rearrangements
9 Clinical Molecular Genetics
9.1 Overview of Molecular Genetic
Diagnosis
9.2 Quality Assurance and Quality Control in Diagnostic Molecular Biology (Revised,
July 2002)
9.3 Multiplex PCR for Identification of Dystrophin Gene Deletions
9.4 Simultaneous Detection of Multiple Point Mutations Using Allele-Specific
Oligonucleotides
9.5 Molecular Analysis of Fragile X Syndrome
9.6 Analysis of Trinucleotide Repeats in Myotonic Dystrophy
9.7 Molecular Analysis of Genetic Identity has been revised and renumbered as
Unit 14.4 in Feb. 98
9.8 Amplification-Refractory Mutation System (ARMS) Analysis of Point Mutations
9.9 Detection of Mitochondrial DNA Mutations
9.10 Single-Cell DNA and FISH Analysis for Application to Preimplantation Genetic
Diagnosis
9.11 Protein Truncation Test
9.12 Internet Resources in Medical Genetics
10 Cancer Genetics
10.1 Overview of Genetic Diagnosis
in Cancer
10.2 Metaphase Harvest and Cytogenetic Analysis of Malignant Hematological Specimens
10.3 Metaphase Harvesting and Cytogenetic Analysis of Solid Tumor Cultures
10.4 Molecular Analysis of DNA Rearrangements in Leukemias and Non-Hodgkin's
Lymphomas
10.5 Molecular Analysis of Gene Amplification in Tumors
10.6 Methylation-Specific PCR
11 Bioinformatics/Transcriptional Profiling
NOTE: Chapter 11 is under construction. The role played by bioinformatics in every area of genetics research cannot be overstated. It has become increasingly difficult to separate bioinformatics methods from their applications. Hence, we are moving these key bioinformatics units into the appropriate chapters elsewhere in the manual in order to provide readers with a more integrated treatment of the subject. Our coverage of bioinformatics methods will continue to grow.
Concurrently, we will be developing
a new Chapter 11, Transcriptional Profiling, with particular emphasis on microarrays.
These new units will be phased in as the bioinformatics units are moved.
11.1 Genetic Analyses on DNA Microarrays
Internet Basics for Biologists has been revised and renumbered as APPENDIX 3J
in Feb. 2000
11.2 Oligonucleotide Arrays for Expression Monitoring
11.3 Profiling Human Gene Expression with cDNA Microarrays
11.4 Analysis of Transcriptional Profiling Data
Human Mapping Databases has been revised and renumbered as Unit 1.13 in Aug.
99
11.5 Differential Display of mRNA by PCR
11.6 One-Step Enzymatic Purification of PCR Products for Direct Sequencing
11.7 Serial Analysis of Gene Expression (SAGE)
12 Vectors for Gene Therapy
12.1 Biosafety in Handling Gene Therapy
Vectors
12.2 Semliki Forest Virus and Sindbis Virus Vectors (New, April 2002)
12.3 Preparation of Adenovirus-Polylysine-DNA Complexes
12.4 Adenoviral Vectors
12.5 Production of Retroviral Vectors
12.6 Particle-Mediated Gene Delivery In Vivo and In Vitro
12.7 Production of Pseudotype-Retroviral Vectors
12.8 Liposome Vectors for In Vivo Gene
12.9 Production of Recombinant Adeno-Associated Viral Vectors
12.10 Production of High-Titer Lentiviral Vectors
12.11 Construction of Replication-Defective Herpes Simplex Virus Vectors (Revised,
April 2002)
12.12 Gene Delivery Using Helper Virus-Free HSV-1 Amplicon Vectors (New, April
2002)
13 Delivery Systems for Gene Therapy
13.1 Gene Transfer to Arteries
13.2 DNA Vaccination
13.3 Ex Vivo and In Vivo Gene Delivery to the Brain
13.4 Gene Delivery to Muscle
13.5 Methods for Cancer Gene Therapy
13.6 Development of Molecular Genetic Interventions for HIV Infection
13.7 Human Hematopoietic Cell Culture, Transduction, and Analysis
13.8 Cancer Vaccines
13.9 Gene Delivery to the Airway
13.10 Gene Delivery to the Liver
14 Forensic Genetics
14.1 Overview of Human Identity Testing
and Forensic Genetics
14.2 Collecting and Handling Samples for Parentage and Forensics DNA-Based Genetic
Testing
14.3 Isolation of DNA from Forensic Evidence
14.4 Moecular Analysis of Paternity
14.5 RFLP Analysis of Forensic DNA Samples with Single-Locus VNTR Genetic Markers
14.6 Manual Methods for PCR-Based Forensic DNA Analysis
14.7 Molecular Analysis of the Human Mitochondrial DNA Control Region for Forensic
Identity Testing
15 Model Systems for the Analysis of Human Disease
15.1 COMING SOON!
15.2 Use of Mouse Models for the Analysis of Human Disease
15.3 Use of Zebrafish Models for the Analysis of Human Disease (New, July 2002)
Appendices
A.1 Abbreviations and Useful Data
Abbreviations
Overview of Human Repetitive DNA Sequences
A.2 Laboratory Guidelines, Equipment, and Stock Solutions
Laboratory Safety Guidelines
Centrifuges and Rotors
Standard Laboratory Equipment
Common Buffers, Stock Solutions, and Media
Automation and Robotics for Genetic Analysis
A.3 Commonly Used Techniques
References to Molecular Biology Techniques
Isolation of Genomic DNA from Mammalian Cells
Extraction and Precipitation of DNA
Quantitation of DNA and RNA with Absorption and Fluorescence Spectroscopy
Enzymatic Labeling DNA
Denaturing Polyacrylamide Gel Electrophoresis
Techniques for Mammalian Cell Tissue Culture
Establishment of Permanent Cell Lines by Epstein-Barr Virus Transformation
Preparation of DNA from Fixed, Paraffin-Embedded Tissue
Internet Basics for Biologists
Analysis of RNA by Northern Blot Hybridization
A.4 Chromosome Karyotyping and Idiograms
Karyotyping
ISCN Standard Idiograms
ISCN Rules for Listing Chromosomal Rearrangements
A.5 Chromosome Reference Maps
A.6 Human-Mouse Comparative Maps
Suppliers Appendix
Indexes
© 1999 John Wiley & Sons, Inc. All rights reserved.