Скачать или смотреть Introduction to Cell & Molecular Biology | Chapter 1 – Cell and Molecular Biology (9th)

This foundational chapter introduces the discipline of cell and molecular biology by first recounting the historical discoveries that led to the understanding of cellular structure, notably Robert Hooke’s naming of “cells” based on cork and Antonie van Leeuwenhoek’s pioneering observations of moving animalcules and bacteria using simple microscopes. This historical context culminates in the formulation of the Cell Theory, which posits that all organisms are composed of cells, the cell is the basic functional unit of life, cells arise only through the division of pre-existing cells, and all cells contain DNA for genetic information transmission. The fundamental properties of living cells are explored, stressing their highly complex organization and robustness, where internal activity maintains order through regulated, biased random motion, a solution to constraints like Levinthal’s paradox concerning rapid protein folding. All cells are characterized by their possession of a genetic program, capability for reproduction, utilization of energy captured through processes like photosynthesis and stored as ATP, involvement in myriad enzyme-catalyzed chemical reactions (metabolism), engagement in mechanical activities often mediated by motor proteins, and capacity for sophisticated self-regulation and responsiveness to environmental stimuli via receptors. The text establishes the primary distinction in life forms—the prokaryotic cells (Domains Bacteria and Archaea, including ancient extremophiles and complex cyanobacteria capable of nitrogen fixation) and the much larger, structurally complex eukaryotic cells (protists, plants, fungi, and animals). Eukaryotes are defined by having a membrane-bound nucleus separating genetic material (chromosomes associated with protein forming chromatin) from the cytoplasm, in contrast to the prokaryotic nucleoid, and by housing specialized membrane-bound organelles such as mitochondria and chloroplasts. The evolution of eukaryotes is explained through the Endosymbiont Theory, suggesting key organelles arose from symbiotic incorporation of bacteria, leading to the universally accepted three domains of life (Bacteria, Archaea, Eucarya), whose evolutionary relationships are complicated by frequent horizontal gene transfer. Further complexity is revealed in non-cellular infectious agents, specifically viruses, which are obligatory intracellular parasites existing as protein-encased virions, and viroids, which are simply naked circular RNA molecules. Multicellularity, an innovation that arose independently multiple times in evolution, is illustrated by the green alga Volvox, showcasing cell differentiation (like reproductive gonidia). Finally, the chapter connects core concepts to biotechnology and medicine through the study of six model organisms and the emerging field of Synthetic Biology, as well as the immediate practical applications in Cell Replacement Therapy utilizing adult stem cells, pluripotent embryonic stem cells, induced pluripotent stem (iPS) cells, and direct cell reprogramming, alongside Tissue Engineering methods that use porous, biodegradable scaffolds to construct functional organs.


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