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Tutorials in Mathematical Biosciences IV : Evolution and Ecology

The book offers an easy introduction to fast growing research areas in evolution of species, population genetics, ecological models, and population dynamics. The first two chapters review the concept and methodologies of phylogenetic trees; computational schemes and illustrations are given, including applications such as tracing the origin of SARS and influenza. The third chapter introduces the reader to ecological models, including predator-prey models. This chapter includes and introduction to reaction-diffusion equations, which are used to analyze the ecological models. The next chapter reviews a broad range of ongoing research in population dynamics, including evolution of dispersal models; it also features interesting mathematical theorems and lists open problems.

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Self-Incompatibility in Flowering Plants : Evolution, Diversity, and Mechanisms

Great progress has been made in our understanding of pollen-pistil interactions and self-incompatibility (SI) in flowering plants in the last few decades. This book covers a broad spectrum of research into SI, with accounts by internationally renowned scientists. It comprises two sections: Evolution and Population Genetics of SI / Molecular and Cell Biology of SI Systems / The reader will gain an insight into the diversity and complexity of these polymorphic cell-cell recognition and rejection systems. Heteromorphic and homomorphic SI systems and our current understanding of the evolution and phylogeny of these systems, based on the most recent molecular sequence data, are covered. Further, the book presents major advances in our knowledge of the pistil and pollen S-determinants and other unlinked components involved in SI, as well as the apparently diverse cellular regulatory mechanisms utilised to ensure inhibition of "self" pollen.

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Probability Models for DNA Sequence Evolution

This is the second edition and is twice the size of the first one. The material on recombination and the stepping stone model have been greatly expanded, there are many results form the last five years, and two new chapters on diffusion processes develop that viewpoint. This book is written for mathematicians and for biologists alike. No previous knowledge of concepts from biology is assumed, and only a basic knowledge of probability, including some familiarity with Markov chains and Poisson processes. The book has been restructured into a large number of subsections and written in a theorem-proof style, to more clearly highlight the main results and allow readers to find the results they need and to skip the proofs if they desire.

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Probability and Real Trees : École d'Été de Probabilités de Saint-Flour XXXV - 2005

Random trees and tree-valued stochastic processes are of particular importance in combinatorics, computer science, phylogenetics, and mathematical population genetics. Using the framework of abstract "tree-like" metric spaces (so-called real trees) and ideas from metric geometry such as the Gromov-Hausdorff distance, Evans and his collaborators have recently pioneered an approach to studying the asymptotic behaviour of such objects when the number of vertices goes to infinity. These notes survey the relevant mathematical background and present some selected applications of the theory.

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Primate biogeography : Progress and prospects

Biogeography, the study of the distribution of organisms over the surface of the earth, plays a central role in our understanding of virtually all aspects of the biology of primates and other animals, including systematics, mechanisms of speciation, population genetics and demography. The distribution of primates relative to aspects of climate and habitat, including altitude, forest type, and food availability, forms the basis for our understanding of ecological and behavioral adaptations. The biogeography of primates in the past is a major component of our understanding of their evolutionary history and is an essential component of conservation biology. This volume, which brings together these papers on the biogeography of primates, past and present, provides an introduction to Primate Biogeography as a discipline, illustrates the many factors that may influence the distribution of primates, and demonstrates the wide range of methodological approaches that are available to understanding the distribution of this order.

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Plant Surface Microbiology

Interactions between plants and microorganisms are often located on plant surfaces, such as leaf cuticles, seeds and mainly on the roots. The communication between plants and microbes is the main topic treated in Plant Surface Microbiology. The text discusses the signaling within a symbiosis or the molecular differences between symbiotic and pathogenic microorganisms, the role of microorganisms in growth and development of plants or in plant protection against deleterious agents and the interactions of microbes with genetically modified plants. Further contributions are devoted to: the analysis of bacterial communities in the rhizosphere; microbial population genetics; various aspects of mycorrhizal symbiosis; functional genomic approaches and the use of microorganisms as bio-indicator of soil disturbance.

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Molecular genetics, structures, mechanisms, and functions : Principles of gene manipulation and genomics ; Vol.1

Provides an overview of the future of genetic engineering and delves into the role of biotechnology and its applications in genetic engineering. It discusses the tools of recombinant technology, which have brought about revolution in our understanding of various complex biological phenomena. Chapters cover mutagenesis, construction, and sequencing of DNA libraries along with applications of genetic engineering for improving health, preventing genetic diseases, enhancing food resources, managing environmental bioremediation, and more. Topics include genetic engineering tools for restriction enzymes and vectors, gene and cell division, mutation detection and screening in plants, population genetics, sexuality in bacteria, and more. Several chapters focus on the tools of recombinant technology, such as restriction enzymes, vectors, etc., that have paved the way for creating organisms of choice and opened new horizons in the field of medicine, agriculture, and industry for human welfare.

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Intraspecific Genetic Diversity : Monitoring, Conservation, and Management

Population and evolutionary genetics have been quickly developing ?elds of biological research over the past decades. This book compiles our current understanding of genetic processes in natural populations. In addition, the book provides the author’s original ideas and concepts based on the data obtained by himself and his close coworkers. The author introduces his pioneering concept of population genetic stability,and much of thebook is concerned with the factors and conditions of such stability. Why does genetic stability matter so much? Altukhov argues that the sustainable use of natural resources, including genetic resources of popu- tions, critically depends on the maintenance of their stability. The preser- tion of well-adapted genetic characteristics from one generation to the next is essential for this stability. Traditionally, population genetics has been - cusedonevolution andthe role of evolutionary factorsinshapinggenetic structures of populations. While the idea of a population as a dynamic unit of evolution has been widely accepted, the signi?cance of genetic stability and its implications for the long-term survival of populations and species have not been fully appreciated.

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Génetique statistique = Statistical genetics

Presents the main statistical tools useful in genetics: significance tests, analysis methods based on the likelihood function, EM algorithm, modeling, analysis of variance, hierarchical classifications, multiple comparisons, etc. All of them shed light on a number of biological phenomena such as carcinogenesis, population genetics, Hardy-Weinberg equilibrium, natural selection, mutations, heredity, coalescence processes, and even evolution. This book is intended for mathematicians and biologists alike. Written with a great concern for clarity, it is also accessible to non-specialists who will be able, thanks to it, to strengthen their theoretical base and above all to develop their know-how through very concrete applications.

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