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Cellular Energy
Biology

Standard 2, Objective 2
◦ Describe the flow of energy and matter in
cellular function
Cellular Energy

Energy: How do I recharge my batteries?
◦ Energy = the ability to do work
◦ Energy cannot be created or destroyed (law of
conservation of energy)
◦ Energy always changes from one form to
another
◦ Chemical energy is stored in chemical bonds
◦ Energy is released as bonds are broken
 About 90% is converted to heat energy that is
given off by the organism
Cellular Energy

ATP – adenosine
triphosphate
◦ Energy source for
cells
◦ Produced by
photosynthesis and
cellular respiration
◦ Used in many cellular
processes
◦ One molecule
contains three
phosphate groups
Cellular Energy

ATP and energy
◦ When bond between
phosphates is broken,
energy is released
◦ Phosphate is added
back on during cellular
respiration and the
molecule can be reused
◦ ADP can be converted
to AMP by removing
another phosphate, but
it yields less energy
Cellular Energy

How do organisms
obtain energy?
◦ Autotrophs –
 produce their own
energy from sunlight
(photosynthesis)
 Store energy as
carbohydrates
 Plants, algae, some
bacteria
Cellular Energy

Heterotrophs
◦ Cannot make their
own food
◦ Consumers
◦ All animals and fungi
and many protists
and bacteria
Cellular Energy

Objectives:
◦ I can illustrate the cycling of matter and the
flow of energy through photosynthesis and
respiration
◦ I can measure the production of one or more
products of either photosynthesis or
respiration
◦ Text reference: p. 130-133
Cellular Energy

Photosynthesis
◦ Plants use water,
carbon dioxide, and
light to produce food
(usually sugar) and
oxygen
◦ Chlorophyll in leaves
helps capture solar
energy
◦ Carbon dioxide enters
through pores called
stomata
◦ Water comes through
leaf’s veins
Cellular Energy

Chloroplast
◦ Organelle in plant
cells responsible for
photosynthesis
Cellular Energy

Light reactions
◦ Happen in the
thylakoid membranes
◦ Water and light used
◦ Several steps
◦ Products are NADPH
and ATP, which are
used later.
◦ Oxygen is a waste
product that exits the
chloroplast
Cellular Energy

The Calvin Cycle
◦ “Dark reactions”
◦ Carbon dioxide used
along with the ATP
and NADPH from the
light reactions
◦ Glucose usually
produced
 Glucose = energy
source
 Cellulose or starch
can also be products
Cellular Chemistry

Assignments
◦ P. 134-135 #1-14
◦ Waterweed Simulation
 On CANVAS
 Submit the form when you are finished
Cellular Energy

Objectives:
◦ I can illustrate the cycling of matter and the
flow of energy through photosynthesis and
respiration
◦ I can measure the production of one or more
products of either photosynthesis or
respiration
◦ Text reference: p. 138-144
Cellular Energy

Cellular Respiration
◦ Energy in food converted into energy that can
be used by the body
◦ Glucose and oxygen converted to ATP (and
carbon dioxide and water)
Cellular Energy

Equation for cellular respiration
◦ Opposite of photosynthesis
Cellular Energy

Overview of Cellular Respiration
Cellular Energy

Glycolysis
◦ Occurs in all cells
◦ Glucose broken down to pyruvate
◦ 2 ATP produced from each glucose
Cellular Energy

Krebs (citric acid)
Cycle
◦ Occurs in
mitochondria
◦ Several reactions
◦ Pyruvic acid from
glycolysis broken
down to ATP and high
energy electrons
◦ CO2 is a waste
product
◦ 2 ATP molecules
produced
Cellular Energy

Electron Transport Chain
◦ Occurs in mitochondria
◦ Oxygen used to make ATP
◦ Oxygen combines with hydrogens to become
water
◦ 32-34 ATP produced
Cellular Energy

Fermentation
◦ Occurs when oxygen is not available
 Anaerobic conditions
◦ Pyruvic acid from glycolysis converted to a
small amount of ATP
◦ Lactic acid fermentation
 Animals and some bacteria and fungi
 Buildup of lactic acid makes muscles sore
◦ Alcoholic fermentation
 Yeasts, some plants
 Carbon dioxide builds up
Cellular Energy
Cellular Energy

Assignments
◦ Page 145 # 1-11
◦ Lab: Cellular Respiration

Reminder: Test over biochemistry and
cellular energy will be December 7/8
(Monday and Tuesday)
Cellular Energy