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Selected Colleen Hoover Books at €9.99c | In-store & Online
Selected Colleen Hoover Books at €9.99c | In-store & Online
A01=Graham Johnson
A01=Jennifer Lippincott-Schwartz
A01=Thomas D. Pollard
A01=William C. Earnshaw
Age Group_Uncategorized
Age Group_Uncategorized
Author_Graham Johnson
Author_Jennifer Lippincott-Schwartz
Author_Thomas D. Pollard
Author_William C. Earnshaw
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Category1=Non-Fiction
Category=MFCC
COP=United States
Delivery_Delivery within 10-20 working days
Language_English
PA=In stock
Price_€100 and above
PS=Active
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Cell Biology

Reader-friendly Cell Biology, 4th Edition, provides a concise but comprehensive foundation for students entering research or health care career paths. Award winning illustrations help readers quickly grasp general principles. The authors have thoroughly updated this popular text to provide readers with the current understanding of the principles of normal cellular function along with examples of how molecular defects predispose to human disease. Major new themes in the 4th edition include the roles of intrinsically disordered polypeptides and phase separation in cellular functions, the influence of new molecular structures on understanding mechanisms, and the impact of exciting new methods-from single cell RNA sequencing to second generation super resolution fluorescence microscopy-on advancing our understanding.  Clear, readable explanations provide a concise story about how cells function at the molecular level.     An intuitive chapter flow starts with genome organization, gene expression, and RNA processing as a foundation for understanding every aspect of cellular function and physiology.  Brings cellular biology to life for students interested in medical science by explaining how mutations in genes can compromise virtually every cellular system and predispose to human disease. Knowledge of cell biology has led to new treatments for cancer, heart failure, cystic fibrosis, and many other diseases.  Unique illustrations with realistic proportions and relationships explain every cellular process including the assembly of SARS CoV-2, the structures attaching mitotic chromosomes to microtubules, the mechanism of DNA replication and how pumps, carriers and channels orchestrate physiological processes from synaptic transmission to cellular volume regulation.  Covers exciting breakthroughs such as SMC motor proteins actively organizing chromosomal DNA, TOR kinases regulating metabolism, new types of immunotherapy for cancer treatment, mechanisms regulating fast axonal transport and their relation to neurodegenerative diseases, how completion of DNA replication sets the time for cells to enter mitosis, how a cascade of signals specifies the site of cell division, and newly understood pathways of normal and pathological cell death.  Enhanced eBook version included with purchase. Your enhanced eBook allows you to access all of the text, figures, and references from the book on a variety of devices.  See more
Current price €109.43
Original price €113.99
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A01=Graham JohnsonA01=Jennifer Lippincott-SchwartzA01=Thomas D. PollardA01=William C. EarnshawAge Group_UncategorizedAuthor_Graham JohnsonAuthor_Jennifer Lippincott-SchwartzAuthor_Thomas D. PollardAuthor_William C. Earnshawautomatic-updateCategory1=Non-FictionCategory=MFCCCOP=United StatesDelivery_Delivery within 10-20 working daysLanguage_EnglishPA=In stockPrice_€100 and abovePS=Activesoftlaunch
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Product Details
  • Weight: 2110g
  • Dimensions: 216 x 276mm
  • Publication Date: 28 Feb 2023
  • Publisher: Elsevier - Health Sciences Division
  • Publication City/Country: United States
  • Language: English
  • ISBN13: 9780323758000

About Graham JohnsonJennifer Lippincott-SchwartzThomas D. PollardWilliam C. Earnshaw

Thomas Dean Pollard is a prominent educator cell biologist and biophysicist whose research focuses on understanding cell motility through the study of actin filaments and myosin motors. He is Sterling Professor of Molecular Cellular & Developmental Biology and a Professor of Cell Biology and Molecular Biophysics & Biochemistry at Yale University. He was Dean of Yale's Graduate School of Arts and Sciences from 2010 to 2014 and President of the Salk Institute for Biological Studies from 1996 to 2001. Pollard is very active in promoting scientific education and research primarily through two major societies both of which he is a past President: the American Society for Cell Biology and the Biophysical Society William Charles Earnshaw is Professor of Chromosome Dynamics at the University of Edinburgh where he has been a Wellcome Trust Principal Research Fellow since 1996. Earnshaw is an elected Fellow of the Royal Society since 2013 for his studies of mitotic chromosome structure and segregation. Before Edinburgh he was Professor of Cell Biology and Anatomy at Johns Hopkins School of Medicine. Jennifer Lippincott-Swartz is Group Leader at the Howard Hughes Medical Institute Janelia Research Campus. Her lab uses live cell imaging approaches to analyze the spatio-temporal behaviour and dynamic interactions of molecules in cells with a special focus on neurobiology. Before Janelia Lippincott-Swartz was a primary investigator and chief of the Section on Organelle Biology in the Cell Biology and Metabolism Branch. Her work there included a collaboration with physicists Eric Betzig and Harald Hess (now group leaders at Janelia) who proposed a new function for the photoactivatable protein. The scientists used the protein to generate photoactivatable fluorophores or dyes which enabled them to illuminate different sets of molecules sequentially creating a microscope image far more detailed than previously possible. The method called super-resolution microscopy garnered Betzig the 2014 Nobel Prize in Chemistry. Graham Johnson is a computational biologist and Certified Medical Illustrator (CMI) with approx. 20 years of professional experience. He is Director of the Animated Cell at the Allen Institute. Before the Allen Institute Johnson's lab in the California Institute for Quantitative Biosciences at the University of California San Francisco worked to generate simulate and visualize molecular models of cells. His lab's Mesoscope project and his team at Allen Institute continue this mission by uniting biologists programmers and artists to interoperate the computational tools of science and art.

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