Transcript ATP

Sports Fitness
ATP
Session 7 Objectives
SOLs: 11/12.1, 11/12.2, 11/12.3, 11/12.4, 11/12.5
Objectives
 The will understand the importance of good nutrition.
 The student will understand the correlation between eating and exercise
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performance.
The student will define and understand the sources of ATP.
The student will learn how ATP acts as a source of energy during sports
performance.
The student will learn how both carbohydrates and fats are utilized to form
ATP.
The students will learn why and how lactic acid is formed during strenuous
activity.
Adenosine Triphosphate
 Daily, you acquire energy from foods in the form of
carbohydrates, protein, and fat.You cannot use the energy
from these molecules directly; they must first engage in
chemical reaction pathways that break them down to capture
some energy in so-called “high-energy molecules.”
 By far, the most important high-energy molecule is
adenosine triphosphate or, more commonly, ATP
Adenosine Triphosphate
 When energy is needed to power an event in our body it is
ATP that is used directly.
 So, the energy in carbohydrate is used to generate ATP, which
in turn can directly power an energy requiring event or
operation in our body.
Adenosine Triphosphate
 Not all of the energy released in the breakdown of carbohydrates,
protein and fat is incorporated in ATP.
 Body captures only about 40 to 45 percent of the energy available in
those molecules in the formation of ATP.
 The remaining 55 to 60 percent of the energy is converted to heat,
which helps us maintain our body temperature The final product of
the breakdown of carbohydrates, proteins and fat is primarily
carbon dioxide, which we then must exhale,
Sports Fitness
Latic Acid
Latic Acid
 As you perform strenuous exercise, we begin to breathe faster as
we attempt to shuttle more oxygen to our working muscles.
 When this happens, the working muscles generate energy
anaerobically. (w/o oxygen)
 This energy comes from glucose through a process called
glycolysis, in which glucose is broken down into a substance
called pyruvate.
 When the body has plenty of oxygen, pyruvate is further broken
down for more energy. But when oxygen is limited, the body
temporarily converts pyruvate into a substance called lactate,
which allows glucose breakdown and thus energy production to
continue.
Latic Acid
 The working muscle cells can continue this type of anaerobic
energy production at high rates for one to three minutes,
during which lactate can accumulate to high levels.
 A side effect of high lactate levels is an increase in the
acidity which disrupts metabolic pathways .
 The metabolic pathways that permits the breakdown of glucose to
energy perform poorly in this acidic environment.
Latic Acid
 On the surface, it seems counterproductive that a working
muscle would produce something that would slow its capacity
for more work.
 In reality, this is a natural defense mechanism for the body; it
prevents permanent damage during extreme exertion by slowing
the key systems needed to maintain muscle contraction.
 Once the body slows down, oxygen becomes available and lactate
reverts back to pyruvate, allowing continued aerobic metabolism
and energy for the body’s recovery from the strenuous event.