Exam II Review - Spring 2026

Exam II Review Notes

Instructor: Sam Nutile, Ph.D.
Course: Penn State Behrend
Term: Spring 2026

Life Requires Energy

• Second Law of Thermodynamics

  • States that entropy in a system will increase until thermodynamic equilibrium is reached.

• Entropy

  • Definition: A measure of disorder in a system.

  • Notion: The universe is tending towards disorder.

• Order and Life

  • Life requires order, which raises the question:

  • How does life create order from disorder?

  • Answer: Life creates order by using energy.

Coupling Reactions

• Spontaneous Reactions

  • Definition: Reactions that proceed with a negative change in Gibbs free energy (–ΔG).

• Types of Reactions

  • Reduction-Oxidation Reactions: Involving the transfer of electrons.

  • Reactions involving Light: Energy harnessed from sunlight.

  • Bond Breaking: Critical in energy transformations.

Nitrogen

• Element Symbol: N

• Atomic Number: 7

• Atomic Mass: 14.007 amu

ATP (Adenosine Triphosphate)

• Structure:

  • Consists of adenine, ribose, and three phosphate groups linked by phosphoanhydride bonds.

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• Energy Sources:

  • ATP can derive energy from sunlight or from food consumption.

• Energy Available:

• The Gibbs free energy change (–ΔG°) indicates energy available for cellular work and chemical synthesis.

Respiration

• General Equation:

  • [CH₂O]n + O₂ → CO₂ + H₂O

  • This process involves:

  • Losing electrons (Oxidation) and gaining electrons (Reduction).

  • Energy is released during the transfer of electrons from carbon to oxygen.

Cellular Respiration

• Definition: The metabolic pathway in which glucose is fully oxidized to carbon dioxide.

• Stages of Cellular Respiration:

  • Glycolysis

  • Pyruvate Oxidation

  • Citric Acid Cycle

  • Oxidative Phosphorylation

Glycolysis

• Phases:

  • Energy Investment Phase:

  • ATP is used to phosphorylate glucose derivatives.

  • Energy Payoff Phase:

  • ATP is produced via substrate-level phosphorylation.

Citric Acid Cycle

• Location: Mitochondrial Matrix.

• Function:

  • Fully oxidizes Acetyl CoA to CO₂.

• Yields per Acetyl CoA:

  • 1 ATP, 3 NADH, 1 FADH₂

• Yields per Glucose:

  • 2 ATP, 6 NADH, 2 FADH₂

Oxidative Phosphorylation

• Involves the electron transport chain and chemiosmosis to synthesize ATP.

• Proton-Motive Force:

  • Established by the differential gradient of protons across the inner mitochondrial membrane.

  • Critical in ATP synthesis.

Photosynthesis

• General Equation:

  • CO₂ + H₂O + Energy → [CH₂O]n + O₂

  • Fundamental processes: Oxidation (losing electrons) and Reduction (gaining electrons).

• Energy storage occurs in the C-H bonds of carbohydrates.

Photosystem I & II

• Photosystem II (PS II):

  • Involved in the initial stages of the light-dependent reactions, utilizing P680 as a primary acceptor.

• Photosystem I (PS I):

  • Utilizes P700 and participates in photostasis activities to reduce NADP+.

• Light Reaction Outputs:

  • NADPH, ATP, and molecular oxygen.

Global Biodiversity Timeline

• Timeline illustrates major events in the evolution of life including mass extinctions and the emergence of major groups of organisms.

• Shows the shifting diversity of life through speciation and extinction events across millions of years.

Protists: Overview

• Division of the Protista kingdom into various subgroups based on evolutionary traits (e.g., Diplomonads, Euglenozoa, Alveolata).

Diplomonads & Parabasalids

• Diplomonads:

  • Have modified mitochondria known as mitosomes.

• Parabasalids:

  • Lacking functional mitochondria, but possess hydrogenosomes used for energy production under anaerobic conditions.

Giardia sp.

• Description:

  • A parasite known to cause giardiasis.

• Transmission:

  • Through drinking contaminated water; minimal number of organisms can cause illness.

• Symptoms:

  • Severe diarrhea and intestinal cramps.

• Treatment:

  • Pharmaceuticals available.

Euglenozoa

• Characteristics:

• Distinct presence of a flagellum made of tubulin.

• Subdivided into:

  • Euglenids: Primarily photosynthetic; have characteristics like eyespots, chloroplasts, and contractile vacuoles.

  • Kinetoplastids: Defined by large mitochondria and kinetoplast; include species that are human pathogens like those causing African sleeping sickness.

Alveolata

• Characteristics:

  • Identified by presence of alveoli.

  • Three main groups:

  • Dinoflagellates: Photosynthetic flagellates known for red tides and bioluminescence.

  • Apicomplexans: All are parasites requiring multiple hosts; example includes Plasmodium which causes malaria.

  • Ciliates: utilize cilia for movement and feeding.

Fungi

Basic Biology and Morphology:

• Over 100,000 described species with an estimated 1.5 million existing.

• Function as major decomposers, breaking down organic matter, with a unique method of absorptive nutrition involving hyphae.

Phylum Ascomycota & Basidiomycota

• Ascomycota:

  • Distinguished by ascus as their spore-producing structure; includes various forms from yeasts to multicellular fungi.

• Basidiomycota:

  • Known for mushroom-forming species that have basidia as spore-bearing structures, playing significant roles in ecosystem functioning as decomposers and mutualists with plants.

Conclusion

• Understanding life processes such as cellular respiration and photosynthesis aids in grasping broader biological concepts and their implications in the ecosystem.

• Understanding organisms such as protists and fungi allows for greater awareness of biodiversity and the ecological roles these organisms play.