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Important practical implications are established by case reports and specific examples. The present book is the ideal complement to the practitioner’s manual Techniques in Molecular Systematics and Evolution, recently published by the same editors in the Birkhäuser MTBM book series. The first part of this book deals with important applications of evolutionary and systematic analysis at different taxonomic levels. The second part discusses DNA multiple sequence alignment, species designations using molecular data, evo-devo and other topics that are problematic or controversial. In the last part, novel topics in molecular evolution and systematics, like genomics, comparative methods in molecular evolution and the use of large data bases are described. The final chapter deals with problems in bacterial evolution, considering the increasing access to large numbers of complete genome sequences.
The amount of information that can be obtained by using molecular techniques in evolution, systematics and ecology has increased exponentially over the last ten years. The need for more rapid and efficient methods of data acquisition and analysis is growing accordingly. This manual presents some of the most important techniques for data acquisition developed over the last years. The choice and justification of data analysis techniques is also an important and critical aspect of modern phylogenetic and evolutionary analysis and so a considerable part of this volume addresses this important subject. The book is mainly written for students and researchers from evolutionary biology in search for methods to acquire data, but also from molecular biology who might be looking for information on how data are analyzed in an evolutionary context. To aid the user, information on web-located sites is included wherever possible. Approaches that will push the amount of information which systematics will gather in the
Molecular Systematics and Plant Evolution discusses the diversity and evolution of plants with a molecular approach. It looks at population genetics, phylogeny (history of evolution) and developmental genetics, to provide a framework from which to understand evolutionary patterns and relationships amongst plants. The international panel of contributors are all respected systematists and evolutionary biologists, who have brought together a wide range of topics from the forefront of research while keeping the text accessible to students. It has been written for senior undergraduates, postgraduates and researchers in the fields of botany, systematics, population / conservation genetics, phylogenetics and evolutionary biology.
In the five years since the publication of Molecular Systematics of Plants, the field of molecular systematics has advanced at an astonishing pace. This period has been marked by a volume of new empirical data and advances in theoretical and analytical issues related to DNA. Comparative DNA sequencing, facilitated by the amplification of DNA via the polymerase chain reaction (PCR), has become the tool of choice for molecular systematics. As a result, large portions of the Molecular Systematics of Plants have become outdated. Molecular Systematics of Plants II summarizes these recent achievements in plant molecular systematics. Like its predecessor, this completely revised work illustrates the potential of DNA markers for addressing a wide variety of phylogenetic and evolutionary questions. The volume provides guidance in choosing appropriate techniques, as well as appropriate genes for sequencing, for given levels of systematic inquiry. More than a review of techniques and previous work, Molecular Systematics of Plants II provides a stimulus for developing future research in this rapidly evolving field. Molecular Systematics of Plants II is not only written for systematists (faculty, graduate students, and researchers), but also for evolutionary biologists, botanists, and paleobotanists interested in reviewing current theory and practice in plant molecular systematics.
The application of molecular techniques is rapidly transforming the study of plant systematics. The precision they offer enables researchers to classify plants that have not been subject to rigorous classification before and thus allows them to obtain a clearer picture of evolutionary relationships. Plant Molecular Systematics is arranged both conceptually and phylogenetically to accommodate the interests not only of general systematists, but also those of people interested in a particular plant family. The first part discusses molecular sequencing; the second reviews restriction site analysis and the sequencing of mitochondrial DNA. A third section details the analysis of ribosomal DNA and chloroplast DNA. The following section introduces model studies involving well-studied families such as the Onagraceae, Compositae and Leguminosae. The book concludes with a section addressing theoretical topics such as data analysis and the question of morphological vs. molecular data.
Sequenced biological macromolecules have revitalized systematic studies of evolutionary history. Molecular Systematics of Fishes is the first authoritative overview of the theory and application of these sequencing data to fishes. This volume explores the phylogeny of fishes at multiple taxonomic levels, uses methods of analysis of molecular data that apply both within and between fish populations, and employs molecule-based phylogenies to address broader questions of evolution. Targeted readers include ichthyologists, marine scientists, and all students, faculty, and researchers interested in fish evolution and ecology and vertebrate systematics. Focuses on the phylogeny and evolutionary biology of fishes Contains phylogenies of fishes at multiple taxonomic levels Applies molecule-based phylogenies to broader questions of evolution Includes methods for critique of analysis of molecular data
Sampling. Project design. Collection and storage of tissues. Molecular techniques. Proteins: isozyme electrophoresis. Chromosomes: molecular cytogenetics. Nucleic acids I: DNA-DNA hybridization. Nucleic acids II: the polymerase chain reaction. Nucleic acids III: analysis of fragments and restriction sites. Nucleic acids IV: sequencing and cloning. Analysis. Intraspecific differentiation. Phylogenetic inference. Applications of molecular systematics: the state of the field and a look to the future.
This volume, A Mathematical Primer of Molecular Phylogenetics, offers a unique perspective on a number of phylogenetic issues that have not been covered in detail in previous publications. The volume provides sufficient mathematical background for young mathematicians and computational scientists, as well as mathematically inclined biology students, to make a smooth entry into the expanding field of molecular phylogenetics. The book will also provide sufficient details for researchers in phylogenetics to understand the workings of existing software packages used. The volume offers comprehensive but detailed numerical illustrations to render difficult mathematical and computational concepts in molecular phylogenetics accessible to a variety of readers with different academic background. The text includes examples of solved problems after each chapter, which will be particularly helpful for fourth-year undergraduates, postgraduates, and postdoctoral students in biology, mathematics and computer sciences. Researchers in molecular biology and evolution will find it very informative as well.
Leading scientists provide the most up-to-date information.This richly detailed book is the first complete review of molecular systematics and phylogeography of mollusks. Ten chapters cover a full range of issues such as research opportunities, molecules and evolution, bivalve evolution, gastropod evolution, and how mollusks have evolved into so many species. The concluding title in the Smithsonian Series of Comparative Evolutionary Biology, this book brings together experts from around the world. Each explores their topic in a way that reveals not only the evolutionary history of mollusks, but also how evolution operates. Anyone seriously interested in living mollusks, fossilized shells, or evolution will find this book to be an invaluable resource.
Molecular Systematics of Bryophytes: Progress, Problems and Perspectives, was an internationally attended symposium held at the Missouri Botanical Garden, September 6 and 7, 2003. Attendees from a dozen countries, representing a global bryological community, participated in the event. The symposium program featured twenty-nine speakers discussing various aspects of the molecular systematics of bryophytes (mosses, liverworts, and hornworts). The result of this gathering of imminent botanical researchers is the book now before you, twenty-one chapters divided into five areas of concentration: (1) Bryophytes and Evolution of Land Plants; (2) Hornwort Phylogeny; (3) Liverwort Phylogeny; (4) Moss Phylogeny; and (5) Phylogeography.