The Cell: A Molecular Approach, Volume 1
The Cell: A Molecular Approach is an easily understood and concise introduction to the molecular biology of cells, ideally suited in length and complexity for undergraduate-level courses. This unique book has been crafted to meet the need of today's students and their teachers by combining the readability and cohesiveness of a single-authored text with comprehensive and up-to-date science.Unlike other larger books where only a small fraction of the content can be sampled or understood, The Cell's language and writing are so efficient and manageable that all the information in the book can be covered in a single semester, providing a good foundation in this subject.The Cell presents a good balance of topics in a clean and concise manner and combines a lucid sketch of the history of molecular genetics with a thorough description of the techniques of modern molecular biology. This new text provides both the necessary fundamentals of this subject as well as the more advanced concepts but without getting lost in too many details. A text extensively reviewed by more than 70 scientific experts, The Cell is ideally suited in length and complexity for sophomore- and junior-level courses. The book focuses on the molecular biology of cells as a unifying theme, with topics such as developmental biology, the nervous system, the immune system, and plant biology being discussed as examples of more general principles. Reviews of selected Key Experiments and topics in Molecular Medicine highlight the experimental nature of modern cell biology and convey the excitement of research in this area.
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An Overview of Cells and Cell Research
CELLS AS EXPERIMENTAL MODELS
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actin activity addition amino acids animal cells antibodies bacteria base pairs bilayer binding Biochem bonds brane cancer catalyze Cell Biol cell cycle cellular Chapter chloroplasts chromatin chromosomes cloned coli complex contain cytoplasm cytosolic DNA molecules DNA polymerase DNA replication DNA sequences domains Drosophila electron encoded energy enzyme eukaryotic eukaryotic cells example extracellular fatty acid Figure filaments fragments function gene expression genetic genome glucose Golgi hormone human hybridization hydrolysis initiation interactions introns lipid lysosomes mechanisms membrane proteins metabolic microscopy microtubules mitochondria mitosis molecular biology mRNA mutations myosin nuclear nucleic acids nucleotides nucleus organelles organisms oxidative pathway peptide phospholipids phosphorylation plant cells plasma membrane plasmid polypeptide polypeptide chain prokaryotic protein kinase reactions receptor recombination regions regulation residues result ribosomes role rRNA signal speciﬁc splicing strand structure studies substrate subunits synthesis target teins template tion tissues trans transcription factors transport tRNA types vesicles virus viruses yeast