© 1997 • 675 pp., illus., appendices, indexes
Cloth • ISBN  0-87969-495-5

Genome Analysis: A Laboratory Manual Series

A genome revolution is transforming biomedical research in theleading laboratories. Now, a series of manuals from Cold SpringHarbor puts the tools of the revolution in everyone's hands.

Assuming only a basic knowledge of molecular biology, these manualsexplain how to clone, manipulate, analyze, and sequence large segmentsof DNA, and relate expressed sequence to phenotypic variation.

The techniques are written for application to animal DNA as wellas human genomes. They deal plainly with sources of failure - andsolutions. Assembled by experienced CSH course instructors, theprotocols are written by experts, often the methods' creators, andhave been rigorously edited to Cold Spring Harbor standards ofaccuracy, consistency, and completeness.

A complement to the bible of recombinant DNA, Molecular Cloning,these manuals are essential for every laboratory in which genes arebeing studied.

Volume 1: Analyzing DNA
Volume 2: Detecting Genes
Volume 3: Cloning Systems
Volume 4: Mapping Genomes

Preface

Acknowledgments

Contributors

Abbreviations and Acronyms

1. Purifying and Analyzing Genomic DNA

OVERVIEW OF GENOMIC DNA ANALYSIS

Historical Perspective

Issues of Contamination and Safety

ISOLATION OF GENOMIC DNA

DNA FROM MAMMALIAN SOURCES

PROTOCOLS

DNA Isolation from Tissue-culture Cell Lines Growing in Suspension

Transforming Lymphoblasts with EBV

Maintaining B95-8 and IA-3 EBV-producing Cell Lines

DNA Isolation from Adherent Fibroblasts Using Trypsin

DNA Isolation from Adherent Fibroblasts ("Sliming")

DNA Isolation from Peripheral Blood

DNA Isolation from Fresh and Frozen Tissues

DNA Isolation from a Mammalian Model Organism: The Mouse

DNA FROM ANIMAL MODEL ORGANISMS

PROTOCOLS

DNA Isolation from D. melanogaster
DNA Isolation from C. elegans

DNA FROM PLANTS

PROTOCOL

DNA Isolation from Arabidopsis thaliana

DNA FROM YEAST

PROTOCOLS

DNA Isolation from S. cerevisiae
DNA Isolation from S. pombe

DNA FROM BACTERIA

PROTOCOL

DNA Isolation from E. coli

TROUBLESHOOTING FOR GENOMIC DNA ISOLATION

Degradation and Fragmentation of the DNA

Poor Recovery of DNA

Contamination of the DNA with Proteins

Contamination of the DNA with RNA

SOUTHERN BLOTTING

DIGESTION OF DNA WITH RESTRICTION ENZYMES

PROTOCOL

Digesting Genomic DNA with Restriction Enzymes

ELECTROPHORETIC SEPARATION OF DIGESTION PRODUCTS

PROTOCOL

Size Fractionating Digested DNA on Agarose Gels

TRANSFER OF DNA ONTO SOLID SUPPORTS

PROTOCOL

Transferring Size-fractionated DNA onto Solid Supports

HYBRIDIZATION OF PROBES TO IMMOBILIZED DNA

PROTOCOL

Gel Purification of DNA Fragments for Use as Probes

RADIOLABELING DNA PROBES

PROTOCOLS

Radiolabeling Probes by Random Priming with Hexameric Oligonucleotides
End-labeling Oligonucleotide Probes

BLOCKING REPETITIVE DNA SEQUENCES

PROTOCOLS

Preannealing Probes to Cot 1 Blocking DNA
Preannealing Probes to Genomic Blocking DNA

DETECTING UNIQUE SEQUENCES ON MEMBRANES BY USING RADIOLABELED PROBES

PROTOCOLS

Hybridization Using Probes Labeled by Random Priming
Hybridization Using End-labeled Oligonucleotide Probes

USE OF NONRADIOACTIVE PROBES FOR HYBRIDIZATION

Biotinylation of Probe DNA

Membrane Preparation

Hybridization and Washing

Detection of Chemiluminescence

TROUBLESHOOTING FOR SOUTHERN BLOTTING

Problems with the DNA Sample

Problems with the Gel

Problems with Transferring the DNA onto the Solid Support

Problems with Hybridizing Radioactive or Nonradioactive Probes to the DNA

PRINCIPLES OF PREPARING AND MANIPULATING HMW DNA

General Characteristics of HMW DNA

Principles in the Preparation of HMW DNA

Assessing the Quality of HMW DNA

Quantitating HMW DNA

PREPARATION OF HMW MAMMALIAN DNA

PROTOCOLS

Preparing Mononuclear Cells from Whole Blood by Centrifugation on Histopaque
Isolating White Blood Cells from Whole Blood by Sedimentation After Lysis of Red Blood Cells
Preparing HMW DNA in Agarose Starting from Frozen Whole Blood
Preparing Cells from Tissues
Preparing Cells from Tissue Culture
Preparing Cells from Frozen Semen
Using Proteinase K to Prepare HMW Mammalian DNA Embedded in Agarose Plugs
Using LIDS to Prepare HMW Mammalian DNA Embedded in Agarose Plugs
Preparing HMW Mammalian DNA in Agarose Beads
Purifying HMW Mammalian DNA in Liquid Form

PREPARATION OF HMW YEAST DNA

PROTOCOLS

Growing S. cerevisiae Cells
Using Proteinase K to Prepare HMW Yeast DNA Embedded in Agarose Plugs
Using LIDS to Prepare HMW Yeast DNA Embedded in Agarose Plugs
Preparing HMW Yeast DNA in Agarose Beads
Purifying HMW Yeast DNA in Liquid Form

PREPARATION of HMW DNA FROM BACTERIAL CLONES

PROTOCOLS

Preparing HMW Bacterial DNA Embedded in Agarose Plugs
Preparing HMW Bacterial DNA in Agarose Beads

DIGESTION OF HMW DNA WITH RESTRICTION ENZYMES

COMPLETE DIGESTION OF HMW DNA SAMPLES

PROTOCOLS

Complete Digestion of HMW DNA Embedded in Agarose Plugs
Complete Digestion of HMW DNA Embedded in Agarose Beads
Complete Digestion of HMW DNA in Liquid Form

PARTIAL DIGESTION OF HMW DNA SAMPLES

PROTOCOLS

Partial Digestion by Varying the Concentration of Restriction Enzyme
Partial Digestion by Varying the Length of the Incubation with the Restriction Enzyme
Partial Digestion by Varying the Mg⁺⁺ Concentration
Partial Digestion by Methylase Competition

ANALYSIS AND PREPARATIVE SIZE FRACTIONATION OF PARTIAL DIGESTION PRODUCTS

PROTOCOLS

Size Fractionation of Partial Digestion Fragments Using a Sucrose Density Gradient
Concentration of Liquid HMW DNA Fragments by Vacuum Dialysis

LONG-RANGE RESTRICTION MAPPING

General Principles for Long-range Restriction Mapping

Selection of Enzymes for Generating Large DNA Fragments

Mapping Reagents

Construction of a Long-range Restriction Map

Troubleshooting for Long-range Restriction Mapping

SITE-SPECIFIC CLEAVAGE OF DNA USING RARE CLEAVAGE

General Principles of RARE Cleavage

Applications of RARE Cleavage

PROTOCOLS FOR RARE CLEAVAGE

PROTOCOLS

RARE Cleavage with EcoRI or AluI in Low-percentage-agarose Plugs
RARE Cleavage with EcoRI in Diced Agarose Plugs
RARE Cleavage with EcoRI in Agarose Beads

Potential Problems and Troubleshooting for RARE Cleavage

PULSED-FIELD GEL ELECTROPHORESIS

Conventional Agarose Gel Electrophoresis and the Need for PFGE

Setting Up the Components of a PFGE System

Achieving Optimal Separation of DNAs

Selecting Appropriate Electrophoresis Conditions

Estimating DNA Fragment Sizes on a PFG

Potential Problems with PFGE and Troubleshooting

SETTING UP AND RUNNING A PFG

PROTOCOLS

Preparing the Gel and Loading DNA Samples in Agarose Beads or Plugs
Casting the Gel Around DNA Samples in Agarose Plugs
Preparing the Gel and Loading Liquid DNA Samples or Samples in Agarose Beads in a Submerged Gel
Running and Staining the Gel

PREPARATIVE PFGE FOR RECOVERY OF HMW DNA

RECOVERING HMW DNA FROM A PREPARATIVE PFG

PROTOCOLS

Recovery of DNA from PFGs for Applications That Do Not Require Intact HMW DNA
Recovery of Intact HMW DNA from PFGs

Troubleshooting for the Recovery of Intact HMW DNA

Handling and Treatment of Gel-purified HMW DNA for Transfer into Mammalian Cells

BASIC PRINCIPLES AND COMPONENTS OF PCR

A Simple PCR Protocol

Oligonucleotide Primers

Sample Preparation

Thermostable DNA Polymerases

Instrumentation

BASIC PROTOCOLS NEEDED FOR PREPARING KEY COMPONENTS OF THE PCR ASSAY

PROTOCOLS

Basic DNA Amplification

Desalting Oligonucleotides by Precipitation

Desalting Oligonucleotides on Nensorb Affinity Columns

Rapid Preparation of Template DNA from Mammalian Cells

OPTIMIZING PCR ASSAYS

Selecting New Primers

Modifying Thermal Cycling Conditions

Altering the Mg⁺⁺ Concentration

Altering the pH

Altering Other Reaction Components

Troubleshooting

METHODS FOR IMPROVING PCR

Hot Start PCR

Nested PCR

Touch-down PCR

Booster PCR

DETECTING AND CHARACTERIZING PCR PRODUCTS

Detection Schemes

Quantitative PCR

Cloning PCR Products

Amplification Using Mixed Oligonucleotides as Primers

In Vitro Gene Assembly by PCR

RT-PCR for Amplification from RNA

In Situ PCR

Amplification of Large DNA Segments (Long-range PCR)

PCR-based Fingerprinting

Multiplex PCR

PROTOCOLS FOR DETECTING AND CHARACTERIZING PCR PRODUCTS

PROTOCOLS

Long-range PCR Protocol

DD PCR Protocol

CONTAMINATION IN PCR ASSAYS

Sources of Contamination

Avoidance of Contamination

Elimination of Contamination

FURTHER READING

OVERVIEW OF DNA SEQUENCING METHODS

PREPARING SUBCLONED DNA TEMPLATES

PROTOCOLS

Preparing Single-stranded Bacteriophage M13 DNA Using PEG and Phenol

Preparing Single-stranded Bacteriophage M13 DNA Using Detergent

Preparing Single-stranded Phagemid DNA

Purifying Double-stranded Plasmid DNA by Alkaline Lysis

Purifying Double-stranded Plasmid DNA in a 96-well Format Using an Alkaline Lysis Kit

Denaturing Double-stranded DNA for Sequencing

Denaturing Double-stranded DNA and Annealing Primer to Template for Sequencing

PREPARING SEQUENCING TEMPLATES BY PCR

PROTOCOLS

Amplifying Subclone Inserts by PCR and Precipitating PCR Products with PEG to Purify Sequencing Template

Treating PCR Products with Exonuclease I plus Shrimp Alkaline Phosphatase to Purify Sequencing Template

Preparing Single-stranded Template DNA by Asymmetric PCR

Preparing Single-stranded Template DNA from PCR Products Using Bacteriophage T7 Gene 6 Exonuclease

Preparing Single-stranded Template DNA from PCR Products Using Bacteriophage lambda Exonuclease

Purifying Single-stranded Template DNA from PCR Products Using Streptavidin-linked Magnetic Beads

SEQUENCING PRIMERS

FLUORESCENCE-BASED DNA SEQUENCING REACTIONS

PROTOCOLS

Sequencing Reactions Using Fluorescent Dye-labeled Primers and Sequenase DNA Polymerase

Sequencing Reactions Using Fluorescent Dye-labeled Primers and ThermoSequenase DNA Polymerase

Sequencing Reactions Using Fluorescent Dye-labeled Primers and SequiTherm DNA Polymerase

Sequencing Reactions Using Fluorescent Dye-labeled Terminators and ThermoSequenase DNA Polymerase

Sequencing Reactions Using Fluorescent Dye-labeled Terminators and AmpliTaq DNA Polymerase FS

Removing Unincorporated Dye-labeled Terminators after Cycle Sequencing by Using Sephadex in Filter Plates

Removing Unincorporated Dye-labeled Terminators after Cycle Sequencing by Using Centri-Sep Columns

PREPARING, LOADING, AND RUNNING GELS ON FLUORESCENCE-BASED SEQUENCING INSTRUMENTS

PROTOCOLS

Washing and Assembling Gel Plates

Pouring the Gel

Loading and Running the Gel

TROUBLESHOOTING FOR FLUORESCENCE-BASED DNA SEQUENCING

Problems Caused by Software

Problems Caused by Templates or by Pipetting Errors

Problems Caused by DNA Structure

STRATEGIES FOR DETERMINING CONTIGUOUS SEGMENTS OF DNA SEQUENCE

Types of Strategies

Choosing a Strategy

PRIMER-DIRECTED SEQUENCING

DELETIONAL SEQUENCING

PROTOCOLS

Digestion of Template DNA with Restriction Enzymes

Digestion of Template DNA with Exonuclease III and Mung-bean Nuclease

Religation of Subclones That Have Deletions and Transformation of E. coli

SEQUENCING cDNA CLONES

OVERVIEW OF SHOTGUN SEQUENCING

LIBRARY CONSTRUCTION

PREPARATION OF TARGET DNA

PROTOCOLS

Purification of Bacterial Clone DNA on CsCl Gradients

Preparation of Bacterial Clone DNA by Gentle Alkaline Lysis

Purification of Agarose-embedded HMW Yeast DNA for Isolation of YAC DNA by Preparative PFGE

FRAGMENTATION OF TARGET DNA

PROTOCOLS

Random Fragmentation by Low-pressure Shearing in a French Pressure Cell

Random Fragmentation by Sonication

Random Fragmentation by Nebulization

Random Fragmentation with DNase I

Random Fragmentation by Partial Digestion with Sau3AI

END REPAIR AND SIZE FRACTIONATION OF FRAGMENTED DNA

PROTOCOLS

Using DNA Polymerases and Polynucleotide Kinase to Repair Fragment Ends

Using Mung-bean Nuclease to Repair Fragment Ends

Size Fractionation of Repaired DNA Fragments

CLONING FRAGMENTED DNA

PROTOCOLS

Vector Preparation

Ligation of Vector DNA and Insert DNA

Transforming Bacteria with Ligated DNA by Using Electroporation

Preparation of Cells Competent for Electroporation

Electroporation

Transforming Bacteria with Ligated DNA by Using CaCl₂ and Heat Shock

Preparation of Competent Cells

Transformation

INITIAL SEQUENCE ACQUISITION, DATA PROCESSING, AND SEQUENCE ASSEMBLY

SEQUENCE FINISHING

Subclone-directed Closure

Primer-directed Closure

Resolving Ambiguities

Resolving Repeats

COMPARISON OF SHOTGUN SEQUENCING AND TRANSPOSON-MEDIATED SEQUENCING

TRANSPOSONS USED FOR DNA SEQUENCING

gamma delta TRANSPOSON-MEDIATED DNA SEQUENCING

PREPARING LIBRARIES OF SUBCLONES WITH 3 - 4-KB INSERTS FROM LARGE GENOMIC CLONES

PROTOCOLS

Sonication, End Repair, and Size Selection of 3 - 4-kb Subclone Inserts

Preparation of BstXI-digested pOT2A Vector DNA

Addition of BstXI Adapters to Size-selected Insert DNA and Ligation to BstXI-digested Vector DNA

BUILDING INITIAL SUBCLONE TILING PATHS

PROTOCOL

Building Initial Subclone Tiling Paths from End Sequences

SEQUENCING SUBCLONES BY USING THE gamma delta TRANSPOSON

PROTOCOLS

Mobilizing Transposons into Subclones

Mapping gamma delta Transposon-insertion Sites by Using PCR

Sequencing the Minimal Set of Transposon-bearing Templates

Assembling Subclone Sequences

EXTENDING SUBCLONE TILING PATHS AND ASSEMBLING SUBCLONE SEQUENCES INTO LARGER CONTIGS

PROTOCOL

Extending Stalled Contigs in the Tiling Path and Assembling the Finished Genomic Clone Sequence

IN VITRO TY1 TRANSPOSON-MEDIATED DNA SEQUENCING

INTEGRATION OF ARTIFICIAL TRANSPOSONS INTO TARGET DNA IN VITRO

PROTOCOLS

Preparation of AT-2 for In Vitro Integration

Purification of VLPs for In Vitro Integration

Growing Gal-Ty1 Yeast Strains and Inducing the GAL1 Promoter

Recovering and Lysing Cells

Centrifuging the Lysate on a Sucrose Gradient and Identifying Fractions with Integrase Activity

In Vitro Integration of AT-2 into Target DNA

Recovery of Recombinant Plasmids by Electroporation and Selection with Antibiotics

SEQUENCING FROM MAPPED OR RANDOMLY CHOSEN TRANSPOSON-INSERTION SITES

PROTOCOLS

Mapping Ty1 Transposon-insertion Sites by Using PCR

Restriction Mapping of Ty1 Transposon-insertion Sites

Sequencing DNA from Sites of AT-2 Insertion

TROUBLESHOOTING FOR IN VITRO TY1 TRANSPOSON-MEDIATED SEQUENCING

Evaluation of Integration Efficiency

Optimization of Molar Ratios of Transposon DNA to Target DNA

Cotransformation with Parental Target Plasmids and Recombinants

Contamination by Recombinants from Previous Experiments

7. Computational Analysis of DNA and Protein Sequences
[Selected Chapter online]

INTERNET BASICS

Electronic Mail

File Transfer Protocol

Gopher

The World Wide Web

Electronic Publishing

Specialized Client-Server Applications

SEQUENCE ANALYSIS

Searching Databases for Similarities

Sequence Databases

The BLAST Family of Programs: Uses and Examples

DNA Query Sequences

Protein Query Sequences

Confounding Subsequences and Query Masking

Additional BLAST Options

INTEGRATED INFORMATION RETRIEVAL

The Entrez System

Specialized Data Sets

C. elegans

D. melanogaster

MULTIPLE ALIGNMENT, SEQUENCE MOTIFS, AND STRUCTURE INFERENCE

Multiple Alignment

Sequence Motifs

Structure Prediction and Protein Modeling

SUBMITTING DATA TO PUBLIC DATABASES

Preparing a New Submission

Updates and Corrections

Special Arrangements for Large Projects

Standard Stock Solutions

Molarities of Concentrated Acids and Bases

Common Laboratory Solutions

Electrophoresis Buffers, Dyes, and Gel-loading Solutions

Media

Antimicrobial Agents

Quantitation of Cell Concentration

Standard Methods Used for Isolating DNA

Extraction of DNA Samples with Organic Chemicals

Concentration of DNA Samples by Precipitation with Alcohols

Quantitation of DNA

Dialysis of DNA

Assessing the Extent of Radiolabeling in DNA Probes by Precipitation with TCA

Dilution and Storage of Oligonucleotides

Storage and Shipment of Biological Samples

Conversion Factors

Genome Comparisons

Average Sizes of DNA Fragments Generated by Cleavage with Restriction Enzymes

Single-letter Abbreviations for Amino Acids

Genetic Code

Codon Facts

Isotope Information

Visit the website for our journal Genome Research at www.genome.org