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Concepts of Genetics, 12th edition

Published by Pearson (May 9, 2019) © 2019

  • William S Klug The College of New Jersey
  • Michael Cummings
  • Charlotte A. Spencer University of Alberta
  • Michael A Palladino Monmouth University
  • Darrell Killian Colorado College

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For all introductory genetics courses.

Equip students with core genetics concepts and applications

Concepts of Genetics emphasizes the fundamental ideas of genetics while exploring modern techniques and applications of genetic analysis. This text offers understandable explanations of complex, analytical topics and recognizes the importance of equipping students to become effective problem solvers.

The 12th Edition provides comprehensive coverage of emerging topics, including CRISPR-Cas and the study of posttranscriptional gene regulation in eukaryotes. Genetics, Ethics, and Society and Case Study is a new feature that emphasizes ethical considerations that genetics brings into everyday life.

Hallmark features of this title

  • A Concept Question in the Problems and Discussion Questions asks the student to review and comment on common aspects of the Key Concepts listed at the beginning of each chapter.
  • How Do We Know? questions ask students to identify the experimental basis underlying important concepts and conclusions, that is, how we know what we know.
  • Evolving Concept of the Gene is a short feature in appropriate chapters that highlights how scientists' understanding of what a gene is has changed over time.
  • Exploring Genomics boxes help students apply genetics to modern techniques such as genomics, bioinformatics and proteomics.
  • Now Solve This Problems throughout each chapter test student knowledge and include a hint and a brief answer is provided in the appendix.

New and updated features of this title

  • Genetics, Ethics, and Society essays provide a synopsis of an ethical issue related to a current finding in genetics that impacts directly on society today. The Your Turn section directs students to resources to support deeper investigation and discussion of the essay's topic.
  • Special Topics in Modern Genetics present 2 new mini-chapters that explore cutting-edge topics, including CRISPR-Cas and Genomic Editing and Advances in Neurogenetics: The Study of Huntington Disease. Questions help students review key ideas and facilitate group discussions.
  • Reorganized and expanded coverage of gene regulation in eukaryotes reflects recent discoveries that reveal RNA in many forms play critical roles in the regulation of eukaryotic gene activity.
    • 1 chapter on gene regulation in eukaryotes has been expanded to 3: Transcriptional Regulation in Eukaryotes (Ch 17), Posttranscriptional Regulation in Eukaryotes (Ch 18), and Epigenetics (Ch 19).
  • Case studies at the end of each chapter have been updated with new topics that link the coverage of formal genetic knowledge to everyday societal issues and include ethical considerations.

Highlights of the DIGITAL UPDATE for Mastering Genetics (available for Fall 2021 classes)

Instructors, contact your sales rep to ensure you have the most recent version of the course.

  • NEW: Practice Problems are now part of the shared library of genetics Practice Problems in Mastering Genetics, providing tutorials that build in complexity and cover gaps in content.
  • NEW: Hundreds of new enhanced end-of-chapter problems with hints and feedback help students improve their problem-solving skills

Features of Mastering Genetics for the 12th Edition; published 2018

  • Assessment questions for Special Topics in Modern Genetics Chapters are assignable in the Mastering Genetics item library,
  • 140 Practice Problems can be assigned for homework or practice. Targeted, wrong-answer feedback helps students learn from their mistakes.
  • Over 120 activities and tutorials focus on key genetics concepts, reinforcing problem-solving skills with hints and feedback specific to misconceptions and errors.
  • Approximately 90% of the end-of-chapter problems can be assigned as auto-graded homework and prepare students for challenging problems they are likely to see on exams.
  • Publisher Pre-built Assignments, curated by experienced Mastering Genetics users, consist of content focused on the key ideas of each chapter.

Features of Pearson eText for the 12 Edition; published 2021

  • NEW: Figure Walkthroughs embedded in the Pearson eText guide students through key figures with narrated explanations and figure mark-ups that reinforce important points.

I: GENES, CHROMOSOMES, AND HEREDITY

  1. Introduction to Genetics
  2. Mitosis and Meiosis
  3. Mendelian Genetics
  4. Extensions of Mendelian Genetics
  5. Chromosome Mapping in Eukaryotes
  6. Genetic Analysis and Mapping in Bacteria and Bacteriophages
  7. Sex Determination and Sex Chromosomes
  8. Chromosome Mutations: Variation in Number and Arrangemen
  9. Extranuclear Inheritance

II: DNA: STRUCTURE, REPLICATION, AND ORGANIZATION

  1. DNA Structure and Analysis
  2. DNA Replication and Recombination
  3. DNA Organization in Chromosomes

III: GENE EXPRESSION AND ITS REGULATION

  1. The Genetic Code and Transcription
  2. Translation and Proteins
  3. Gene Mutation, DNA Repair, and Transposition
  4. Regulation of Gene Expression in Bacteria
  5. Transcriptional Regulation in Eukaryotes
  6. Post-transcriptional Regulation in Eukaryotes
  7. Epigenetics

IV: GENETIC TECHNOLOGY AND GENOMICS

  1. Recombinant DNA Technology
  2. Genomic Analysis
  3. Applications of Genetic Engineering and Biotechnology

V: GENETIC ANALYSIS OF ORGANISMS AND POPULATIONS

  1. Developmental Genetics
  2. Cancer Genetics
  3. Quantitative Genetics and Multifactorial Traits
  4. Population and Evolutionary Genetics

SPECIAL TOPICS IN MODERN GENETICS

  • ST1 CRISPR and Genomic Editing
  • ST2 DNA Forensics
  • ST3 Genomics and Precision Medicine
  • ST4 Genetically Modified Foods
  • ST5 Gene Therapy
  • ST6 Advances in Neurogenetics: The Study of Huntington Disease

APPENDICES

  1. Selected Readings
  2. Answers to Selected Problems

About our authors

William S. Klug is an Emeritus Professor of Biology at The College of New Jersey (formerly Trenton State College) in Ewing, New Jersey, where he served as Chair of the Biology Department for 17 years. He received his B.A. degree in Biology from Wabash College in Crawfordsville, Indiana, and his Ph.D. from Northwestern University in Evanston, Illinois. Prior to coming to The College of New Jersey, he was on the faculty of Wabash College as an Assistant Professor, where he first taught genetics, as well as general biology and electron microscopy. His research interests have involved ultrastructural and molecular genetic studies of development, utilizing oogenesis in Drosophila as a model system. He has taught the genetics course as well as the senior capstone seminar course in Human and Molecular Genetics to undergraduate biology majors for over four decades. He was the recipient in 2001 of the first annual teaching award given at The College of New Jersey, granted to the faculty member who most challenges students to achieve high standards. He also received the 2004 Outstanding Professor Award from Sigma Pi International, and in the same year, he was nominated as the Educator of the Year, an award given by the Research and Development Council of New Jersey. When he is away from revision files and reading the genetic literature, he can often be found paddling in the Gulf of Mexico or in Maine's Pebobscot Bay.

Michael R. Cummings is Research Professor in the Department of Biological, Chemical, and Physical Sciences at Illinois Institute of Technology, Chicago, Illinois. For more than 25 years, he was a faculty member in the Department of Biological Sciences and in the Department of Molecular Genetics at the University of Illinois at Chicago. He has also served on the faculties of Northwestern University and Florida State University. He received his B.A. from St. Marys College in Winona, Minnesota, and his M.S. and Ph.D. from Northwestern University in Evanston, Illinois. In addition to this text and its companion volumes, he has also written textbooks in human genetics and general biology for nonmajors. His research interests center on the molecular organization and physical mapping of the heterochromatic regions of human acrocentric chromosomes. At the undergraduate level, he teaches courses in Mendelian and molecular genetics, human genetics, and general biology, and has received numerous awards for teaching excellence given by university faculty, student organizations, and graduating seniors.

Charlotte A. Spencer is a retired Associate Professor from the Department of Oncology at the University of Alberta in Edmonton, Alberta, Canada. She has also served as a faculty member in the Department of Biochemistry at the University of Alberta. She received her B.Sc. in Microbiology from the University of British Columbia and her Ph.D. in Genetics from the University of Alberta, followed by postdoctoral training at the Fred Hutchinson Cancer Research Center in Seattle, Washington. Her research interests involve the regulation of RNA polymerase II transcription in cancer cells, cells infected with DNA viruses, and cells traversing the mitotic phase of the cell cycle. She has taught courses in biochemistry, genetics, molecular biology, and oncology, at both undergraduate and graduate levels. In addition, she has written booklets in the Prentice Hall Exploring Biology series, which are aimed at the undergraduate nonmajor level.

Michael A. Palladino is Dean of the School of Science and Professor of Biology at Monmouth University in West Long Branch, New Jersey. He received his B.S. degree in Biology from Trenton State College (now known as The College of New Jersey) and his Ph.D. in Anatomy and Cell Biology from the University of Virginia. He directs an active laboratory of undergraduate student researchers studying molecular mechanisms involved in innate immunity of mammalian male reproductive organs and genes involved in oxygen homeostasis and ischemic injury of the testis. He has taught a wide range of courses for both majors and nonmajors and currently teaches genetics, biotechnology, endocrinology, and laboratory in cell and molecular biology. He has received several awards for research and teaching, including the 2009 Young Investigator Award of the American Society of Andrology, the 2005 Distinguished Teacher Award from Monmouth University, and the 2005 Caring Heart Award from the New Jersey Association for Biomedical Research. He is co-author of the undergraduate textbook Introduction to Biotechnology, Series Editor for the Benjamin Cummings Special Topics in Biology booklet series, and author of the first booklet in the series, Understanding the Human Genome Project.

Darrell J. Killian is an Associate Professor and current Chair of the Department of Molecular Biology at Colorado College in Colorado Springs, Colorado. He received his B.A. degree in Molecular Biology and Biochemistry from Wesleyan University in Middletown, Connecticut prior to working as a Research Technician In Molecular Genetics at Rockefeller University in New York, New York. He earned his Ph.D. in Developmental Genetics from New York University in New York, New York and received his postdoctoral training at the University of Colorado Boulder in the Department of Molecular, Cellular, and Developmental Biology. Prior to joining Colorado College, he was an Assistant Professor of Biology at the College of New Jersey in Ewing, New Jersey. His research focuses on the genetic regulation of animal development and he has received funding from the National Institutes of Health and the National Science Foundation. Currently, he and his undergraduate research assistants are investigating the molecular genetic regulation of nervous system development using C. elegans and Drosophila as model systems. He teaches undergraduate courses in genetics, molecular and cellular biology, stem cell biology, and developmental neurobiology. When away from the classroom and lab, he can often be found on two wheels exploring trails in the Pike and San Isabel National Forests.

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