PreparED Study Materials
BIOL 3320: Genetics
School: University of Texas at El Paso
Number of Notes and Study Guides Available: 6
Notes
Transcription & translation (Biology)
BIOL 3320
University of Texas at El Paso
3 pages | Summer 2015
Study Guides
Videos
Unraveling the Shared Anatomical Secrets of Vertebrates and Tunicates
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Explore the fascinating world of vertebrates and tunicates in this video answer. Learn about their shared anatomical features including notochords and dorsal hollow nerve cords that reveal their closely linked evolutionary history
Decoding Enhancers: Pivotal Players in Transcriptional Control
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Explore the pivotal role of enhancers in gene expression as we dissect their function and interaction with transcription factors. Gain insights into how they crucially influence the transcriptional control of genes.
Chemical Bonds Explored: From Basics to Ammonia's Polar Covalent Bondi
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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.
Why Lower Trophic Levels Reduce Toxin Exposure: A Biological Insight
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Unpack the process of biological magnification in the food chain and learn why consuming foods from lower trophic levels minimizes toxin exposure. Grasp the implications of human-induced pollutants and the benefits of dietary diversity.
Action Potentials: Unveiling the Mystery of Unidirectional Transmissio
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Discover the intricacies of action potentials in the nervous system. Unpack five statements on why they move in one direction, spotlighting the role of the refractory period. Grasp the significance of voltage-gated channels and ion flow in neural communication.
Mitochondrial Magic: How Exergonic Redox Reactions Power ATP Synthesis
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Explore the intricate workings of exergonic redox reactions, their energy release dynamics, and their crucial role in the mitochondria. Understand the Electron Transport Chain's role and how these reactions drive ATP synthesis via chemiosmosis.