BSC 2010c Chapter 8 Notes

Concept 8.1: An organism’s metabolism transforms matter and
energy

 Metabolism is the totality of an organism's chemical reactions,
providing insights into energy utilization, growth, and homeostasis.
 It is an emergent property of life, highlighting the complexity and
organization required for orderly molecular interactions.
 Metabolism arises from specific interactions between molecules,
regulated by enzymes, substrates, and products.
Metabolic Pathways

 Metabolism is a network of intersecting pathways where molecules are
altered in defined steps to produce specific products.
 Enzymes catalyze these metabolic pathways and are regulated to
balance supply and demand, similar to traffic lights controlling traffic
flow.
 Metabolism manages the material and energy resources of the cell.
 Catabolic pathways break down complex molecules, releasing energy.
 Anabolic pathways build complex molecules from simpler ones,
consuming energy.
 Cellular respiration is a major catabolic pathway that breaks down
glucose and other fuels to produce energy.
 Anabolic pathways involve the synthesis of complicated molecules
from simpler ones, such as amino acids and proteins.
 Catabolic and anabolic pathways are interconnected, allowing for the
flow of energy.
Forms of Energy

 Energy is the capacity to cause change and is important for doing work
and rearranging matter.
 Energy exists in various forms, including kinetic energy, thermal
energy, and light energy.

,  Potential energy is energy that matter possesses due to its location or
structure.
 Chemical energy refers to the potential energy available for release in
a chemical reaction.
 Catabolic pathways release energy by breaking down complex
molecules.
 Energy can be converted from one form to another, such as from
chemical energy to kinetic energy.
 Organisms are energy transformers, deriving chemical energy from
light energy absorbed during photosynthesis.
The Laws of Energy Transformation

 Thermodynamics is the study of energy transformations in matter.
 A system refers to the matter under study, while the surroundings refer
to everything outside the system.
 An isolated system cannot exchange energy or matter with its
surroundings, while an open system can.
 Organisms are open systems that absorb energy (e.g., light or
chemical energy) and release heat and waste products.
 The First Law of Thermodynamics states that energy can be transferred
and transformed, but not created or destroyed (principle of
conservation of energy).
 The Second Law of Thermodynamics states that during energy
transformations, some energy is converted to thermal energy and
released as heat, becoming unavailable to do work.
 Thermal energy can only be put to work when there is a temperature
difference.
 In a living cell, heat generated during a chemical reaction simply
warms the organism.
 The second law of thermodynamics: Every energy transfer or
transformation increases the entropy of the universe. Entropy is a
measure of molecular disorder or randomness. The more randomly
arranged a collection of matter is, the greater its entropy.