Twenty-four true, wide-ranging tales of crime, history, human behavior,
illness, and ethics, told from the personal perspective of the author, an eminent physician-lawyer who uses the stories to illustrate the principles of human genetics and to discuss the broader issues.

Twenty-four true, wide-ranging tales of crime, history, human behavior,
illness, and ethics, told from the personal perspective of the author, an eminent physician-lawyer who uses the stories to illustrate the principles of human genetics and to discuss the broader issues.

The author is the Novartis Professor of Biology at the Massachusetts Institute of Technology.

Aging has always been regarded as a highly complex process with many degenerative changes leading to the cessation of life. But recent research has identified a relatively simple mechanism that governs the pace of aging.

Lenny Guarente's Ageless Quest is a scientific detective story for the baby boom generation. It offers an insider's view of an area of potentially astonishing high reward—and equally high risk.

To read Lenny Guarente’s and Robert Butler’s interview with Sara Davidson (The NY Times) about how the body ages and the research on trying to extend our healthy life span, click here. (You must register for free access to NYTimes.com)

Every human being is unique. You are made up of 23 chromosomes from
your mother and 23 chromosomes from your father, and those 46
chromosomes contain a unique mixture of genes. That same mixture is
in the millions of cells that make up your body. But although about
99.5% of your genes are the same as everybody else's, some parts vary:
hair color, shape of ears, color of skin. And some people inherit
genetic diseases like cystic fibrosis. How does that happen? Read
this book to discover some amazing facts about your genes. (Ages 9-15)

This volume, which presents the results of a Cold Spring Harbor
Banbury Center meeting, summarizes aspects of the molecular and
cell biology, pathophysiology, and therapeutic use of angiogenic
factors and inhibitors. Researchers, clinicians, and students will
find this concise survey exceptionally helpful in integrating the
current knowledge available from the wide spectrum of areas concerned
with angiogenesis and in understanding future progress toward
elucidating this experimentally and clinically interesting system.

Recent progress in cell and molecular biology has profound
implications for understanding the developmental biology of
mammalian embryos. The unifying theme of this volume is a cellular
and molecular approach to gametogenesis, embryogenesis, and
maternal-fetal interactions in the developmental biology of
agriculturally significant mammals. Great progress has been
achieved in our understanding of preimplantation mammalian
embryogenesis in laboratory species, particularly the mouse,
through application of cell and embryo culture methods, cell
biological techniques, and, more recently, recombinant DNA
technology. A major remaining opportunity is the application of
these techniques to problems in domestic species, such as improved
methods for in vitro growth and maturation of oocytes, egg and
embryo cryopreservation, and genetic manipulation to enhance
productivity and herd quality. The authors review current knowledge
in key areas, emphasizing new approaches to unsolved problems in
the developmental biology of domestic species.

Cell death in vivo, like cell replication, is a normal
and continuous process with complex physiological controls.
The form of programmed cell death known as apoptosis has
become an intense focus of investigation in cancer biology,
virology, immunology, neuroscience, and aging research.
Understanding the events involved at a molecular level may
permit their manipulation for therapeutic purposes. In this
sequel to their pioneering 1991 book Apoptosis: The
Molecular Basis of Cell Death, Tomei and Cope have
assembled an entirely new collection of articles which
describe the genetic control of apoptosis, and its regulation
in normal and neoplastic cells of many types. This is an
essential compilation of up-to-date research on an emerging
topic of central concern in many fields.

The cruciferous weed Arabidopsis thialiana has become a
model system for the study of an unusually wide variety of
aspects of plant biology. As a result, nearly all aspects of
Arabidopsis biology are now under investigation, more
scientists are involved, and plant science as a whole has
been invigorated.

This book is the first comprehensive account of what is
known about the organism. The information is presented in the
context of plant biology in general, with the properties of
Arabidopsis mutants and the insights derived from their
analysis as a unifying theme. The book's scope includes
genetics, growth and development, biochemistry, physiology,
and responses to pathogens and environmental stress.

This unique volume, in the classic tradition of the Cold
Spring Harbor Monograph Series, is a landmark in plant
science, essential reading for investigators at graduate
student level and beyond, and a work of reference that will
serve the field for years to come.

The thale cress Arabidopsis thaliana is increasingly popular
among plant scientists: it is small, easy to grow, and makes flowers,
and the sequence of its small and simple genome was recently
completed. This is the most complete and authoritative laboratory
manual to be published on this model organism and the first to deal
with genomic and proteomic approaches to its biology.

The thale cress Arabidopsis thaliana is increasingly popular
among plant scientists: it is small, easy to grow, and makes flowers,
and the sequence of its small and simple genome was recently
completed. This is the most complete and authoritative laboratory
manual to be published on this model organism and the first to deal
with genomic and proteomic approaches to its biology.

• how research groups work at a human level—and how to fit in


• what equipment is essential, and how to use it properly


• how to get started and get organized


• how to set up an experiment


• how to handle and use data and reference sources


• how to present yourself and your results—in print and in person

Wise, light-hearted, but thoroughly practical, Dr. Barker offers advice, moral support, social etiquette, and professional reassurance along with assume-nothing, step-by-step instructions for those basic but vital laboratory procedures that experienced investigators know—but may not realize novices don’t.

If you are a graduate student, a physician with research intentions, or a laboratory technician, this book is indispensable. If you have to manage or mentor such people, giving a copy to each of them will greatly improve your life, and theirs.

At the Bench is the unique and hugely successful handbook for living and working in the laboratory, an essential aid to understanding basic lab techniques and how research groups work at a human level. In this newly revised edition, chapters have been rewritten to accommodate the impact of computer technology and the Internet, not only on the acquisition and analysis of data, but also on its organization and presentation. Alternatives to the use of radiation have been expanded, and figures and illustrations have been redrawn to reflect changes in laboratory equipment and procedures.

Newly appointed principal research investigators have to recruit, motivate, and lead a research team, manage personnel and institutional responsibilities, and compete for funding, while maintaining the outstanding scientific record that got them their position in the first place. Small wonder, then, that many principal investigators feel ill-prepared. In this book, a successor to her best-selling manual for new recruits to experimental science, At The Bench, Kathy Barker provides a guide for newly appointed leaders of research teams, and those who aspire to that role. With extensive use of interviews and a text enlivened with quotes and real-life examples, Dr. Barker discusses a wide range of management challenges and the skills that promote success. Her book is a unique and much-needed contribution to the literature of science.

This full-color atlas graphically documents the main events of
embryonic and post-embryonic development in Drosophila.
Schematic surface views and transverse sections from several
developmental stages are shown for the individual organs such as gut,
nervous system, epidermis and musculature. By combining camera lucida
tracing with digital technology, Volker Hartenstein has created a
unique, beautiful and convenient reference book that will interest all
developmental biologists and is a must for the personal library of
anyone working on fly biology.

Basic Methods in Microscopy provides an essential guide to light microscopy, fluorescence microscopy, confocal microscopy, multiphoton microscopy and electron microscopy, preparation of tissues and cells, labeling of specimens and analysis of cellular events.

This manual is an important tool for any biology researcher employing imaging as a research method.

View sample pages from the book here.

Basic Methods in Microscopy provides an essential guide to light microscopy, fluorescence microscopy, confocal microscopy, multiphoton microscopy and electron microscopy, preparation of tissues and cells, labeling of specimens and analysis of cellular events.

This manual is an important tool for any biology researcher employing imaging as a research method.

On Becoming a Scientist is a fast-paced "MTV-style" video
showing a "day in the life" of three graduate students and a
laboratory manager. These young scientists are followed as
they work in their laboratories, take part in UCSF programs
for public school children and the homeless, and socialize.
Through interviews with scientists and students, viewers
learn what attracts scientists to science, what it takes to
become a scientist and what impact their work has on our
world. The goal is to dispel stereotypes — to show
scientists as people who lead interesting lives and are
approachable and accessible, and to provide role models for
women and minorities notably underrepresented in science.
This video can be used in biology classes, in school career
centers, or to prepare for visiting a local laboratory.
Scientists also can use it when meeting with students and
members of the public.

On Becoming a Scientist is a fast-paced "MTV-style" video
showing a "day in the life" of three graduate students and a
laboratory manager. These young scientists are followed as
they work in their laboratories, take part in UCSF programs
for public school children and the homeless, and socialize.
Through interviews with scientists and students, viewers
learn what attracts scientists to science, what it takes to
become a scientist and what impact their work has on our
world. The goal is to dispel stereotypes — to show
scientists as people who lead interesting lives and are
approachable and accessible, and to provide role models for
women and minorities notably underrepresented in science.
This video can be used in biology classes, in school career
centers, or to prepare for visiting a local laboratory.
Scientists also can use it when meeting with students and
members of the public.

The application of computational methods to DNA and protein science is
a new and exciting development in biology. Bioinformatics: Sequence
and Genome Analysis is a comprehensive introduction to this emerging
field of study. The book has many unique and valuable features:

• It is written for any biologist who wants to understand methods
  of sequence and structure analysis and how the necessary computer
  programs work


• Sequence alignment, structure prediction, phylogenetic and gene
  prediction, database searching, and genome analysis are clearly
  explained and amply illustrated


• Underlying algorithms and assumptions are clearly explained for
  the non-specialist


• Examples are presented in simple numerical terms rather than
  complex formulas and notation


• Theoretical underpinnings are linked to biological problems and
  their solutions


• Extensive tables provide descriptions and Web sources for a broad
  range of publicly available software


• An associated Website
  (www.BioinformaticsOnline.org),
  accessible free of charge by book purchasers, provides links to
  Internet sources referred to in the text, as well as problem sets for
  classroom use, and other useful material not included in the text.

Based on the author's extensive experience as a molecular geneticist
and bioinformaticist at the University of Arizona, this is a uniquely
educational book, ideal as a laboratory reference for investigators
and also as teaching reference for graduate and undergraduate
students studying this fast-changing discipline.

The application of computational methods to DNA and protein science is
a new and exciting development in biology. Bioinformatics: Sequence
and Genome Analysis is a comprehensive introduction to this emerging
field of study. The book has many unique and valuable features:

• It is written for any biologist who wants to understand methods
  of sequence and structure analysis and how the necessary computer
  programs work


• Sequence alignment, structure prediction, phylogenetic and gene
  prediction, database searching, and genome analysis are clearly
  explained and amply illustrated


• Underlying algorithms and assumptions are clearly explained for
  the non-specialist


• Examples are presented in simple numerical terms rather than
  complex formulas and notation


• Theoretical underpinnings are linked to biological problems and
  their solutions


• Extensive tables provide descriptions and Web sources for a broad
  range of publicly available software


• An associated Website
  (www.BioinformaticsOnline.org),
  accessible free of charge by book purchasers, provides links to
  Internet sources referred to in the text, as well as problem sets for
  classroom use, and other useful material not included in the text.

Based on the author's extensive experience as a molecular geneticist
and bioinformaticist at the University of Arizona, this is a uniquely
educational book, ideal as a laboratory reference for investigators
and also as teaching reference for graduate and undergraduate
students studying this fast-changing discipline.

As more species’ genomes are sequenced, computational analysis of these data has become increasingly important. The second, entirely updated edition of this widely praised textbook provides a comprehensive and critical examination of the computational methods needed for analyzing DNA, RNA, and protein data, as well as genomes. The book has been rewritten to make it more accessible to a wider audience, including advanced undergraduate and graduate students. New features include chapter guides and explanatory information panels and glossary terms. New chapters in this second edition cover statistical analysis of sequence alignments, computer programming for bioinformatics, and data management and mining. Practically oriented problems at the ends of chapters enhance the value of the book as a teaching resource. The book also serves as an essential reference for professionals in molecular biology, pharmaceutical, and genome laboratories.

View sample pages from the book here.

As more species’ genomes are sequenced, computational analysis of these data has become increasingly important. The second, entirely updated edition of this widely praised textbook provides a comprehensive and critical examination of the computational methods needed for analyzing DNA, RNA, and protein data, as well as genomes. The book has been rewritten to make it more accessible to a wider audience, including advanced undergraduate and graduate students. New features include chapter guides and explanatory information panels and glossary terms. New chapters in this second edition cover statistical analysis of sequence alignments, computer programming for bioinformatics, and data management and mining. Practically oriented problems at the ends of chapters enhance the value of the book as a teaching resource. The book also serves as an essential reference for professionals in molecular biology, pharmaceutical, and genome laboratories.

Dioxin and its congeners have aroused considerable environmental
concern in recent years. Their concentration levels and exposures
are usually very small but generally persistent and there is still
great debate about the effects of these compounds on humans and in
ecosystems. New research and extensive discussion in the scientific
community in the late 1980's shed new light on the chemistry,
toxicology, and biology of dioxin. It seemed appropriate, therefore,
for scientists engaged in dioxin research and officials from
regulatory agencies in the US and Europe to gather at the Banbury
Center of Cold Spring Harbor Laboratory to re-examine the assessment
of dioxin's medical and environmental effects in the light of these
new data.

They met with three aims in mind:

• to review current knowledge of the low-dose chronic effects and
  mechanisms of action of dioxin;
  
• to determine whether or not this knowledge provided a credible
  basis for assessing human risk from exposure to low dose levels;
  
• to establish what problems would need resolution before an accord
  could be reached on the human risk of dioxin and related substances.
  

This important volume should be read by scientists in all disciplines
who are interested in dioxin research, environmental and public
health officials, and representatives of industries in which dioxin
release is of concern.

Chemistry and General Pathology; Receptor Binding; Enzyme Induction;Biochemical Changes in Liver; Lipid Metabolism and Wasting Disease;Skin and In Vitro Responses; Immunological Mechanisms; Epidemiology

Living cells have evolved many ways of coping with metabolic events
and environmental influences that damage DNA. These mechanisms, and
the frequent progression to cancer that results when they go awry, are
reviewed in this volume by authors from over sixty of the world’s
leading laboratories. The topics discussed include DNA repair,
mutagenesis and other damage-tolerance functions, checkpoint control,
apoptosis, and adaptation. They draw from studies on human and yeast
cells. Current, but with a valuable historical perspective, this
volume has the depth and lasting value typical of this most
prestigious series and is essential reading for investigators of DNA
replication, cell cycle control, and tumorigenesis.

Living cells have evolved many ways of coping with metabolic events
and environmental influences that damage DNA. These mechanisms, and
the frequent progression to cancer that results when they go awry, are
reviewed in this volume by authors from over sixty of the world’s
leading laboratories. The topics discussed include DNA repair,
mutagenesis and other damage-tolerance functions, checkpoint control,
apoptosis, and adaptation. They draw from studies on human and yeast
cells. Current, but with a valuable historical perspective, this
volume has the depth and lasting value typical of this most
prestigious series and is essential reading for investigators of DNA
replication, cell cycle control, and tumorigenesis.

The Biological Revolution: 100 Years of Science at Cold Spring Harbor,
a 30-minute video documentary providing the nonscientist with a
cogent explanation of the origins of the DNA revolution that is now
sweeping the country, is invaluable teaching material for junior and
senior high school classes.

Using Cold Spring Harbor Laboratory as a case study, the video
shows the parallel development of American science and society, while
providing a first-hand account of the development of modern genetics.
Through events that have occurred at Cold Spring Harbor, the video
documents the quest to understand the nature of the genetic code,
beginning with Darwin's theory of evolution and culminating with
powerful techniques to precisely manipulate the DNA molecule.

Laboratory Director James Watson, who shared the Nobel Prize for
elucidating the double-helix structure of DNA, serves as on-site host.
He and four other Nobel laureates-Alfred Hershey, Salvador Luria,
Barbara McClintock, and Walter Gilbert-lend their own insights on
the genetic revolution they helped launch.

Viewers are brought up-to-the-minute on how recombinant DNA techniques
are being employed in the wars against cancer and world hunger.
Included is stunning footage which shows cancer-causing proteins
being injected directly into living cells using a needle with a tip
1/100th the diameter of a human hair.

The Biological Revolution: 100 Years of Science at Cold Spring Harbor,
a 30-minute video documentary providing the nonscientist with a
cogent explanation of the origins of the DNA revolution that is now
sweeping the country, is invaluable teaching material for junior and
senior high school classes.

Using Cold Spring Harbor Laboratory as a case study, the video
shows the parallel development of American science and society, while
providing a first-hand account of the development of modern genetics.
Through events that have occurred at Cold Spring Harbor, the video
documents the quest to understand the nature of the genetic code,
beginning with Darwin's theory of evolution and culminating with
powerful techniques to precisely manipulate the DNA molecule.

Laboratory Director James Watson, who shared the Nobel Prize for
elucidating the double-helix structure of DNA, serves as on-site host.
He and four other Nobel laureates-Alfred Hershey, Salvador Luria,
Barbara McClintock, and Walter Gilbert-lend their own insights on
the genetic revolution they helped launch.

Viewers are brought up-to-the-minute on how recombinant DNA techniques
are being employed in the wars against cancer and world hunger.
Included is stunning footage which shows cancer-causing proteins
being injected directly into living cells using a needle with a tip
1/100th the diameter of a human hair.

Biology of Drosophila was first published by John Wiley and Sons in
1950. Until its appearance, no central, synthesized source of
biological data on Drosophila melanogaster was available, despite
the fly's importance to science for three decades. Ten years in the
making, it was an immediate success and remained in print for two
decades. However, original copies are now very hard to find. This
facsimile edition makes available to the fly community once again
its most enduring work of reference.

The heat shock proteins and molecular chaperones form large gene
families and are active in every cellular compartment, regulating
protein folding, translocation and complex assembly. A sequel to
the 1990 volume, Stress Proteins in Biology and Medicine,
this monograph updates progress and introduces new fields of
investigation. Particular emphasis is given to the biochemical
properties of hs proteins and chaperones in protein biogenesis,
the role of hs proteins in thermotolerance and cytoprotection,
transcriptional regulation of hs genes, and the function of the
hs response in immunology and disease.

This is a thoughtful and comprehensive account of a field of
investigation that has been developing at a breathtaking pace.
The book is a vital resource for investigators in cell biology,
protein biochemistry and molecular genetics, and those with
interests in immunity, ischemic disease and aging.

Mammalian germ-cell mutation research is advancing rapidly. Views of
barriers and targets mediating the induction of mutations in the germ
line are changing, and new molecular and cytological methods are
converging with traditional experimentation in the field to detect
mutations and assess their nature, expression, and transmission.

This book ties together research findings in reproductive biology,
molecular and cellular mechanisms of mutagenesis, mutation expression,
and risk assessment. It provides an unusually broad perspective of the
unique biological aspects of germ-cell mutations, with emphasis on
male systems. Germ-line properties affecting the induction and
recovery of such mutations, and variables affecting their rate and
nature, are stressed. Related topics include aberrant chromosome
structure and behavior, nonmutational genetic effects on early
development, and the utilization of DNA techniques to detect germ-line
mutations. Discussions in these areas lead up to the final chapter on
genetic risk estimation which focuses on the central problems and
issues facing those responsible for assessing risks associated with
germ-cell mutations.

The central question in neurobiology is: How does the brain work?
At the beginning of the 1980s, armed with the new techniques of
recombinant DNA and monoclonal antibodies, molecular biologists
began to approach some aspects of this question without being
intimidated by the formidable facts of electrophysiology or
neuroanatomy. In the past decade these first steps toward the last
frontier of biology have quickened and lengthened. Talented
investigators have brought to the field expertise and imagination
derived from other branches of biology and computer science. These
have been applied to the study of nerve cell growth and
differentiation, signal reception and transduction, and networked
cellular interactions in such fundamental processes as vision,
olfaction, learning, memory, and motor control. Over 100
outstanding scientists were invited to Cold Spring Harbor's 55th
annual Symposium to present their latest ideas and data.

In May 1991, their papers were published in this volume of the most
prestigious book series in biology. Symposium LV presents current
neurobiology in all its dramatic diversity and is an unrivaled
resource for workers in this field.


• Molecular Mechanisms for Signaling

• Neural Development

• Sensory and Motor Systems

• Cognitive Neuro-science

• Summary


The central question in neurobiology is: How does the brain work?
At the beginning of the 1980s, armed with the new techniques of
recombinant DNA and monoclonal antibodies, molecular biologists
began to approach some aspects of this question without being
intimidated by the formidable facts of electrophysiology or
neuroanatomy. In the past decade these first steps toward the last
frontier of biology have quickened and lengthened. Talented
investigators have brought to the field expertise and imagination
derived from other branches of biology and computer science. These
have been applied to the study of nerve cell growth and
differentiation, signal reception and transduction, and networked
cellular interactions in such fundamental processes as vision,
olfaction, learning, memory, and motor control. Over 100
outstanding scientists were invited to Cold Spring Harbor's 55th
annual Symposium to present their latest ideas and data.

In May 1991, their papers were published in this volume of the most
prestigious book series in biology. Symposium LV presents current
neurobiology in all its dramatic diversity and is an unrivaled
resource for workers in this field.


• Molecular Mechanisms for Signaling

• Neural Development

• Sensory and Motor Systems

• Cognitive Neuro-science

• Summary


What happens when you read? Your eyes see, your mind thinks, your
fingers turn the pages. This is all organized by your brain. What
does your brain look like? What is it made of? Your brain sends and
receives messages, makes and stores memories, controls feelings and
behavior and much more. Learn how to keep your brain fit and busy
and join in the Mega Memory Experiment.

Brainbox Memory Game

Steven Rose would like to find out how well people remember things
as they get older. If you want to join in his experiment you can
try the memory game from the book by clicking here:

   

http://www.portlandpress.co.uk/books/online/brainbox/default.htm

Steven Rose directs the Brain and Behavior Research Group at the Open
University, where he is Professor of Biology. He researches the
biological mechanisms of learning and memory. His most recent books
for adults include The Making of Memory (winner of the 1993
Rhone-Poulenc Science Book prize); Molecules and Minds, and
Not in Our Genes. Brainbox is co-written with Alexander
Lichtenfels who goes to school in Leeds. Alexander founded, edited
and wrote for a magazine, Red Alert, sold in aid of Greenpeace.

As the world of biotechnology has grown in leaps and bounds, so too have the career opportunities. But the choices can be daunting. What types of jobs are available? How do you get your foot in the door? What will your job entail if you become a “Preclinical Project Manager” or a “Process Scientist”? What’s the difference between biotech and pharma?

Career Opportunities in Biotechnology and Drug Development provides a comprehensive and systematic overview of careers in the life science industry, with all their ups and downs. The author, Toby Freedman, Ph.D., has conducted interviews with hundreds of key players in the industry, who provide first–hand explanations of their day–to–day roles and responsibilities, and offer key insights into how they landed those jobs in the first place. Careers in everything from discovery research to venture capital are covered in detail.

Each chapter includes valuable sections on preparing yourself for a prospective career: educational requirements and personality characteristics needed; recommendations of books, magazines, and Web site resources; and issues to consider regarding salary and compensation. The book also includes interviewing and job searching tips, as well as suggestions on writing a resume specifically for industry.

All cells make orderly transitions between states of division and
rest. The events of this cycle are extraordinary to look at.
Chromosomes condense, the nucleus breaks down, a complex spindle is
built, and daughter cells are born -- all with a precision and
control that beg for explanation and understanding.

In the past three years, some of the complex biochemistry underlying
these events has become known. Experiments in yeast, frog, and human
cells have suggested that the enzyme pathway involved may be much
the same in all eukaryotes. With a generally accepted model in
place, several master protein components and their genes are
identifiable. The details of their functions and interactions are
now a major preoccupation in cell biology.

The 56th annual Cold Spring Harbor Symposium was acclaimed as a key
event for progress in this field. Over 90 leading investigators
presented data on DNA replication, mitosis, cell cycle controls,
checkpoints affecting cycling, and transcriptional control. Included
in the Symposium was the first evidence that oncogene and tumor
suppressor gene products and protein components of signal
transduction pathways directly interact with enzymes that control
the cell division cycle.

This volume of collected papers from the Symposium is an unrivaled
resource for students and researchers studying cell and molecular
biology.


• Start
• Transcription and Mitogenesis
• DNA Replication
• Checkpoints
• Mitotic Control
• Mitosis
• Summary

The biochemical events underlying cell growth and passage through the
division cycle are closely related, yet tend to be studied in
different ways: growth control and oncogenesis in cultures of
mammalian cells in vitro and passage through the cell cycle by
studies in yeast, sea urchins, and frogs. As a result of rapid
advances in the molecular characterization of oncogenes, growth
factors, and cell cycle genes, a coherent understanding of how the
events of the cell cycle are controlled is emerging. This survey of
this evolving topic will benefit all who are interested in the cell
and molecular biology of the cell cycle and cell growth.

So much has been learned about the surface of cells that it can almost
be counted as an organelle. The surface has been revealed as a complex
assembly of proteins, highly mobile in time and space, with overlapping
activities and shared structural motifs. The locations of their genes
and the untangling of their functions are major challenges being
tackled by laboratories worldwide.

The 57th annual Cold Spring Harbor Symposium brought together over 80
leading investigators to discuss data and ideas on receptor-ligand
interactions, membrane organization, signal transduction, peptide
transport, cell adhesion, and the regulation of developmental processes.
Studies in molecular and cell biology, embryology, neurobiology, and
immunology were presented.

This volume of collected papers from the Symposium, like its
predecessors in this most prestigious series, provides a wide-ranging,
eclectic review of a topic central to the understanding of cell
structure and function.

So much has been learned about the surface of cells that it can almost
be counted as an organelle. The surface has been revealed as a complex
assembly of proteins, highly mobile in time and space, with overlapping
activities and shared structural motifs. The locations of their genes
and the untangling of their functions are major challenges being
tackled by laboratories worldwide.

The 57th annual Cold Spring Harbor Symposium brought together over 80
leading investigators to discuss data and ideas on receptor-ligand
interactions, membrane organization, signal transduction, peptide
transport, cell adhesion, and the regulation of developmental processes.
Studies in molecular and cell biology, embryology, neurobiology, and
immunology were presented.

This volume of collected papers from the Symposium, like its
predecessors in this most prestigious series, provides a wide-ranging,
eclectic review of a topic central to the understanding of cell
structure and function.

After reading this fully illustrated account of immune responses and
other anti-microbial reactions, a child will view illness quite
differently. He/she will have a better understanding about what
actually happens up one's nose, down one's throat, and anywhere else
that has been invaded by germs. (Ages 7-13)

This is a book about the various types of cells that make up the
human body. By using lively and expressive language, and by
portraying the different cells with colorful and imaginative
drawings, the author and artist teach the reader how an individual
person is created from just one cell. (Ages 5-8)

Having identified a gene product, how do you determine what it does?
The answer lies in Cells, a new manual designed to do for
studies of cell biology what Cold Spring Harbor's Molecular Cloning
has done for molecular biology.

• Sets the standard for techniques of proven bench reliability
  needed by all biomedical scientists studying cellular structure and
  function.


• Delivers consistent, precisely crafted step-by-step protocols in
  an accessible format, with essential background details and in-depth
  advice on pitfalls and problem solving.


• Created by three distinguished cell biologist/educators, from the
  contributions of over 180 leading cell biologists.


• Complete with more than 300 expertly selected and superbly
  reproduced illustrations, over 70 in color.

Volume 1: Culture and Biochemical Analysis of Cells

Volume 2: Light Microscopy and Cell Structure

Volume 3: Subcellular Localization of Genes and Their Products

141 striking, specially created color illustrations from
Cells: A Laboratory Manual are now available as a set
of slides, with a 26-page booklet of explanations.

An expertly crafted series of 35-mm slides complete with diagrams
to show the basic principles and color examples of microscopic
applications.

Perfect for developing course lectures on:

• Principles of Microscopy


• Imaging Alternatives using the Light Microscope


• Basic Approaches using the Electron Microscope

Airborne fibers have long been recognized as a major health hazard in
certain industries and exposure to fibers in the general environment
may also cause adverse effects such as cancer, in particular,
mesothelioma. Asbestos is the best-known fiber carcinogen and, in
the construction industry, is being widely replaced by substitute
materials. Yet to perform properly, these materials must physically
resemble asbestos. Does this mean that they too are hazardous?

In this volume, invited experts in cell and tumor biology review the
processes of cell division and the influence of fibers upon them. The
biology of tumors and other diseases of the lung is discussed in some
detail and in several papers the molecular basis of malignant
transformation in mesothelioma cells is considered. These
contributions combine to give the book a unique, scientific slant
on an important environmental issue. It will interest research
scientists investigating carcinogenesis and the biology of cell
division, thoracic physicians, public health specialists, and those
concerned with environmental control policy.

Accurate transmission of genetic information in cells is ensured
by DNA repair, delays in replication until repairs are complete, and
by cell death. Work in yeast and subsequently in mammalian cells has
shown that monitoring the cell cycle generates signals which halt it
at specific "checkpoints". Failures in these processes can release
uncontrolled cell division. This volume examines the mechanisms of
checkpoint control, the cellular activities they influence, and their
importance in understanding the fundamentals of the neoplastic
process. An illuminating book for both researchers and clinicians
in oncology.

A concise, readable account of the principles underlying embryonic
and appendage development in animals and plants, illustrated with
colorful artwork and interviews with prominent investigators.
Highly recommended for use in undergraduate and graduate courses.

A concise, readable account of the principles underlying embryonic
and appendage development in animals and plants, illustrated with
colorful artwork and interviews with prominent investigators.
Highly recommended for use in undergraduate and graduate courses.

A robust, convenient notebook specially designed for the research
laboratory that features:

• 50 numbered, duplicate sets of carbonless quadrille paper


• permanent side binding


• water-resistant cover


• three-hole-punched pages


• useful charts of values and constants

This book, which includes the first fourteen chapters of the acclaimed monograph DNA Replication in Eukaryotic Cells, is a broad account of the basic principles of DNA replication and related functions such as DNA repair and protein phosphorylation. It also includes a newly commissioned chapter in which the editor, Mel DePamphilis, provides a review of the most recent advances in understanding the complex gene and protein interactions that underpin this essential cellular function.

DNA Replication in Eukaryotic Cells has been acclaimed as “...an absolute must for anyone working in the DNA replication field” (Trends in Cell Biology), “...highly significant addition to the replication literature” (Trends in Biochemical Sciences) and “...an invaluable addition for libraries...the first place to stop for anyone wishing to enter the eukaryotic replication field” (The Quarterly Review of Biology). This abridged edition is ideal for graduate students or established investigators who need a complete and timely introduction to this rapidly advancing field of research.

An English translation of Boveri’s famous monograph which was first
published in Germany in 1914.

Written almost a hundred years ago,
Theodor Boveri’s Zur Frage der Entstehung maligner Tumoren has had a
momentous impact on cancer research. In it he argues that malignancy
arises as a consequence of chromosomal abnormalities and that
multiplication is an inherent property of cells. With astonishing
prescience, Boveri predicts in this monograph the existence of tumor
suppressor mechanisms and is perhaps the first to suggest that
hereditary factors (genes) are linearly arranged along chromosomes. This
new translation by Sir Henry Harris, Regius Professor of Medicine
Emeritus at Oxford University and former Editor-in-Chief of Journal of
Cell Science, includes extensive annotations in which he discusses the
relevance of Boveri’s views today. It is essential reading for all
cancer researchers, as well as those interested in the history of
cytogenetics and cell biology.

Each volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Each volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Each volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each Volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Each Volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each Volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each Volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each Volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

Each Volume of Conversations is comprised of five DVDs. They can be purchased individually or as a set of five.

Click links below to see a sample video interview from this DVD.

• Sample 1


• Sample 2

In this brief, readable, and revealing book, one of the pioneers
of the now rapidly evolving field of DNA repair traces the history of
the discovery of the more important mechanisms by which cells respond
to DNA damage. Errol Friedberg has written an enjoyable and informative
introduction to the study of DNA mutagenesis and re-pair that will
interest students at an advanced undergraduate or graduate student
level as well as investigators in fields as diverse as oncogenesis,
cell cycle regulation, transcription and DNA replication.

Crystals of macromolecules have become keystones of molecular
biology, bridging recombinant DNA and X-ray diffraction analysis.
Protein, nucleic acid, and virus crystal growth are now possible,
raising hopes that virtually all macromolecules might be studied
in this way. This extensively illustrated book, by a master
practitioner, provides a biochemical context in which crystal
growth can be pursued and instructs readers in practical aspects
of the technology, laying out effective strategies for success.
The underlying physical and chemical principles are presented in
approachable form and the most recent advances are described, those
that have succeeded in transforming the growth of macromolecular
crystals from a "black art" to a firmly founded science.

This readable volume is highly recommended for every investigator in
biomedicine whose studies may require a shift in focus from gene to
protein product, as well as chemists and physicists interested in the
function of biologically active macromolecules.

Features include:

• Pages: 100 sequentially numbered pages printed front and back


• Page format: ¼ inch grid with signature block at the bottom


• Table of contents for listing experiments by title, date and page number


• Printed fields for title, project, purpose, date, and signature data on each page


• Detailed instructions on keeping a laboratory notebook


• Seven pages of tables and charts (genetic code, amino acids, solutions, buffers, periodic chart, conversion factors, etc.)


• Permanently bound

Features include:

• Pages: 50 consecutively numbered carbonless, duplicate pages
• Page format: ¼ inch grid with signature block at the bottom
• Table of contents for listing experiments by title, date and page number
• Detailed instructions on keeping a laboratory notebook
• Seven pages of tables and charts (genetic code, amino acids, solutions, buffers, periodic chart, conversion factors, etc.)
• Laminated, water resistant soft cover, sidebound, with fold–out flap

The main purpose of this Banbury Conference was to document the state
of the art of cyto-skeletal proteins as markers of differentiation
and cell type. Proteins discussed included intermediate filaments,
keratins, actins, MAPs, Tau proteins, tropomyosins, myosins,
spectrins, villin, synaptophysin, desmosomal proteins, and cell
adhesion molecules. Emphasis was placed not only on the cell and
molecular biology of these molecules, but also on how far antibodies
could be used to distinguish different isoforms present in different
cell types in normal and fetal tissues. The meeting resulted in a
particularly lively discussion, reflected in the papers, of the
advantages and inherent limitations of using such molecules as aids
in determining tumor types.

This volume summarizes research on the use of molecular markers for
gene mapping in plants. It is the first synthesis of progress in an
area that has important consequences for both basic and applied
research. The rapid development in this field has produced complete
molecular maps in at least eight species and partial maps in a number
of others. The density of these maps permits the genetic analysis of
quantitative traits with an accuracy not previously possible. The
ability to map quantitative trait loci accurately is likely to have
profound effects on the nature of quantitative genetics.

Topics addressed include practical considerations in the constructionof molecular and physical maps, the use of cytogenetic tools torelate physical and genetic maps, the molecular nature of geneticpolymorphism and its relationship to speciation, statistical methodsfor mapping quantitative trait loci, the nature of quantitative traitloci and prospects for cloning these factors, the efficacy ofmolecular markers in marker-based selection and backcrossintrogression, and the development of new technologies for measuringpolymorphism.

The idea of human gene therapy was accepted by the medical community
and society at large long before believable clinical benefits began
to emerge. In this book, some of the field’s most distinguished
contributors chronicle the evolution of this momentous direction for
medicine, illustrating how imaginative concepts shaped the development
of technologies and brought the daring new idea to its current position
of imminent practical success. This is a book designed to endure as
clinical advances accumulate, a clear-eyed work of reference that will
anchor the further development of this revolution in therapy. It is an
essential addition to libraries of clinical medicine, biotechnology,
and public policy, and a resource that no laboratory investigator with
an interest in the biology of gene transfer should be without.

With Discovering Genomics, Proteomics, & Bioinformatics you will:

Gain real–life context for genomics concepts through case study chapters appearing throughout the text

Visualize 3–D DNA structures on the interactive companion website (www.GeneticsPlace.com), now with Jmol

Research and analyze real genomics data as you work your way through each chapter of the companion website (www.GeneticsPlace.com)

Discover genomics through updated and expanded Discovery Questions appearing throughout each chapter

Learn genomics through hands–on practice, including using databases to extract pertinent information

Get help when you need it through updated and expanded Math Minutes—brief tutorials that reveal the math behind the biology and illustrate how investigators apply math in solving specific biology problems