PreparED Study Materials
BIO 2600: Cell Biology
School: Appalachian State University
Number of Notes and Study Guides Available: 1
Notes
Videos
Meal to Digestion: Grasping Distension & Body's Control Center
Want To Learn More? To watch the entire video and ALL of the videos in the series:
Discover what happens in your body after a hearty meal! Learn about the concept of 'distension' and how nerve cells act as messengers to your control center, orchestrating the digestive process.
Unraveling Respiration: Aerobic vs. Anaerobic Energy Production Paths
Want To Learn More? To watch the entire video and ALL of the videos in the series:
Explore the foundational processes of aerobic and anaerobic respiration. Uncover the key roles of glycolysis, the citric acid cycle, and oxidative phosphorylation. Differentiate between the efficiencies and electron acceptors of both respiration types.
Chemical Bonds Explored: From Basics to Ammonia's Polar Covalent Bondi
Want To Learn More? To watch the entire video and ALL of the videos in the series:
Discover the captivating world of chemical bonds, from the basic definition to types and specific examples like ammonia. Delve into ionic, covalent, and hydrogen bonds and their distinct characteristics. Understand the unequal electron sharing in ammonia leading to polar covalent bonds.
Anticodon of tRNA: Complementary to Which RNA Sequence?
Want To Learn More? To watch the entire video and ALL of the videos in the series:
Explore the intricate process of protein synthesis understanding how tRNA anticodons correspond with mRNA codons. Discover the role of ribosomes in reading mRNA sequences and how tRNA ensures the accurate translation of amino acids. Breakdown of mRNA-tRNA binding for efficient protein formation.
Glycolysis Demystified: Glucose Metabolism and Its Products Explained
Want To Learn More? To watch the entire video and ALL of the videos in the series:
Deepen your understanding of glycolysis, a foundational cellular metabolism process. Grasp how glucose transforms into pyruvate or lactate, based on the presence of oxygen. A clear insight into this process aids in exercise science and disease research.