PreparED Study Materials
BIOL 3303: Evolution
School: Southern Methodist University
Number of Notes and Study Guides Available: 2
Notes
Videos
Facultatively Anaerobic Cells: Mastering Growth in Any Oxygen Environm
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Learn about the unique adaptability of facultatively anaerobic cells in different oxygen conditions. Discover the outcome of an experiment comparing their growth in aerobic and anaerobic environments. Grasp the resilience of these cells and their growth mechanisms.
Decoding Cholesterol's Influence on Cell Membrane Function & Fluidity
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Discover how cholesterol, a substance found in our body and certain foods, significantly impacts cell membrane fluidity. Learn its varying effects under different temperatures and in diverse cellular lipid compositions. Uncover its indispensable role in nerve signal transmission and cellular health.
Identify the False Statement about Mucous and Serous Membranes
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This video provides a comprehensive explanation of mucous and serous membranes, defining their characteristics and addressing statements about their epithelial types, functions, and exceptions.
Eukaryotic Cell Anatomy: From Membrane to Cytoskeleton
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Explore the intricate eukaryotic cell structure, from the protective plasma membrane to the vital organelles. Learn how DNA, ribosomes, and the cytoskeleton play pivotal roles in cellular function. Dive deep into the world of mitochondria, ER, and the Golgi apparatus.
Unlocking Muscle Contraction: The Pivotal Role of Calcium & Other Elem
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Explore the intricacies of muscle contraction and the pivotal role played by elements like Calcium, Sodium, Potassium, and Chloride. Learn how Calcium directly triggers contraction by interacting with troponin and actin filaments. A thorough breakdown of each element's unique contribution to our body's movement.
Adapting to Extreme Cold: The Science of Shivering & Homeostasis
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Discover the body's innate ability to adapt to extreme cold conditions. Learn how the brain orchestrates warming responses like shivering. Grasp the concept of homeostasis in maintaining internal stability.