ISBN-13: 9781493958610 / Angielski / Miękka / 2016 / 503 str.
ISBN-13: 9781493958610 / Angielski / Miękka / 2016 / 503 str.
The rapid technological progress transforming the investigation of genetic variation within and between species makes this volume especially relevant. Its six sections cover advanced molecular biology protocols as well as providing an overview of the field.
Part I. Characterizing the Genome
1. Genome Size Determination using Flow Cytometry of Propidium Iodide-stained Nuclei
Emily E. Hare and J. Spencer Johnston
2. Chromosome Analysis in Invertebrates and Vertebrates
David M. Rowell, Shu Ly Lim and Frank Grutzner
3. Genomic Libraries. I. Construction and Screening of Fosmid Genomic Libraries
Mike A. Quail, Lucy Matthews, Sarah Sims, Christine Lloyd, Helen Beasley, and Simon W. Baxter
4. Genomic Libraries. II. Subcloning, Sequencing, and Assembling Large-insert Genomic DNA Clones
Mike A. Quail, Lucy Matthews, Sarah Sims, Christine Lloyd, Helen Beasley, and Simon W. Baxter
Part II. Targeting Regions of the Genome
5. Reduced Representation Methods for Sub-genomic Enrichment and Next-generation Sequencing
Jeffrey M. Good
6. Accessing the Transcriptome: How to Normalize mRNA Pools
Heiko Vogel and Christopher W. Wheat
7. Transcriptome Sequencing Goals, Assembly, and Assessment
Christopher W. Wheat and Heiko Vogel
8. Rapid Retrieval of DNA Target Sequences by Primer Extension Capture
Adrian W. Briggs
Part III. Measuring Genetic Diversity
9. SNP Discovery and Genotyping for Evolutionary Genetics using RAD Sequencing
Paul D. Etter, Susan Bassham, Paul A. Hohenlohe, Eric Johnson, and William A. Cresko
10. DNA Microarray-based Mutation Discovery and Genotyping
David Gresham
11. Genotyping with Sequenom
Martina Bradić, João Costa, and Ivo M. Chelo
12. Isolating Microsatellite Loci: Looking Back, Looking Ahead
José A. Andrés and Steven M. Bogdanowicz
13. Design of Custom Oligonucleotide Microarrays for Single Species or Interspecies Hybrids using Array Oligo Selector
Amy A. Caudy
Part IV. Obtaining Candidate Gene Sequences
14. Identification of Homologous Gene Sequences by PCR with Degenerate Primers
Michael Lang and Virginie Orgogozo
15. Characterizing cDNA Ends by Circular RACE
Patrick T. McGrath
16. Identification of DNA Sequences that Flank a Known Region by Inverse PCR
Anastasios Pavlopoulos
Part V. Analyzing Candidate Gene Transcripts
17. Quantification of Transcript Levels with Quantitative RT-PCR
Karen L. Carleton
18. Using Pyrosequencing to Measure Allele-specific mRNA Abundance and Infer the Effects of Cis- and Trans-regulatory Differences
Patricia J. Wittkopp
19. Whole Mount In situ Hybridization of Sectioned Tissues of Species Hybrids to Detect Cis-Regulatory Changes in Gene Expression Pattern
Ryo Futahashi
20. Identifying Fluorescently Labeled Single Molecules in Image Stacks using Machine Learning
Scott Rifkin
Part VI. Testing Candidate Genes and Candidate Mutations
21. Experimental Approaches to Evaluate the Contributions of Candidate Cis-regulatory Mutations to Phenotypic Evolution
Mark Rebeiz and Thomas M. Williams
22. Experimental Approaches to Evaluate the Contributions of Candidate Protein-coding Mutations to Phenotypic Evolution
Jay F. Storz and Anthony J. Zera
23. Making Reporter Gene Constructs to Analyze Cis-regulatory Elements
José Bessa and José Luis Gómez-Skarmeta
24. PCR-directed In vivo Plasmid Construction using Homologous Recombination in Baker’s Yeast
Erik C. Andersen
25. Production of Fosmid Genomic Libraries Optimized for Liquid Culture Recombineering and Cross-species Transgensis
Radoslaw Kamil Ejsmont, Maria Bogdanzaliewa, Kamil Andrzej Lipinski, and Pavel Tomancak
26. Recombination-mediated Genetic Engineering of Large Genomic DNA Transgenes
Radoslaw Kamil Ejsmont, Peter Ahlfeld, Andrei Pozniakovsky, A. Francis Steward, Pavel Tomancak, and Mihail Sarov
27. Overlap Extension PCR: An Efficient Method for Transgene Construction
Matthew D. Nelson and David H. A. Fitch
28. Gene Knockdown Analysis by Double-stranded RNA Injection
Benjamin N. Philip and Yoshinori Tomoyasu
We are entering a particularly fruitful period in evolutionary genetics, as rapid technological progress transforms the investigation of genetic variation within and between species. Molecular Methods for Evolutionary Genetics is a collection of advanced molecular biology protocols and general overviews intended to represent the essential methods currently bringing evolutionary genetics to fruition. Divided into six thematic sections, this volume covers methods for characterizing genomes, diverse approaches to enrich DNA for subsets of the genome prior to sequencing, and state-of-the-art protocols for sampling genetic variation for genetic mapping studies and population genetic studies (RAD sequencing, Sequenom, microarrays, etc.). The volume concludes by focusing on methods to study candidate genes, from obtaining their sequences and analyzing their transcripts to experimentally manipulating their activities in vivo. Written in the highly successful Methods in Molecular Biology™ series format, chapters contain introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and notes on troubleshooting and avoiding known pitfalls.
Authoritative and accessible, Molecular Methods for Evolutionary Genetics serves as a rich resource to biologists interested in evolution, whether they be specialists or beginners in molecular biology.
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