CHAPTER 7 THE WORKING CELL: ENERGY FROM FOOD - PowerPoint PPT Presentation
1 / 31
Title:
CHAPTER 7 THE WORKING CELL: ENERGY FROM FOOD
Description:
CHAPTER 7 THE WORKING CELL: ENERGY FROM FOOD Concept 7.1 Sunlight Powers Life Obtaining Food Autotrophs- organisms that make their own food (self-feeder ... – PowerPoint PPT presentation
Number of Views:74
Avg rating:3.0/5.0
Title: CHAPTER 7 THE WORKING CELL: ENERGY FROM FOOD
1
CHAPTER 7THE WORKING CELLENERGY FROM FOOD
2
Concept 7.1 Sunlight Powers Life
3
(No Transcript)
4
Obtaining Food
- Autotrophs- organisms that make their own food
(self-feeder) - Photosynthesis- (from the Greek photo-meaning
light and synthesis meaning to make something). - Producers- produce organic molecules that serve
as food for an ecosystem.
5
- Heterotrophs- organisms that cannot make their
own food depend on the energy from producers - (also called consumers)
6
Cellular Respiration
- Cellular respiration is a chemical process that
utilizes oxygen to convert chemical energy stored
in organic molecules into another form called ATP
(adenosine triphosphate)
7
7.2 Food stores chemical energy
- Kinetic Energy- the energy of motion
- Potential Energy- energy that is stored due to an
object's position or arrangement. - Thermal Energy- total amount of energy associated
with the random movement of atoms and molecules
in a sample of matter
8
Chemical Energy
- Chemical energy- potential to perform work due to
the arrangement of atoms within molecules
9
Within your cells, organic molecules such as
glucose also react with oxygen in the process of
cellular respiration. And similar to an
automobile engine, working cells produce carbon
dioxide and water as their "exhaust."
10
Calories
- the amount of energy required to raise the
temperature of 1 gram (g) of water by 1 degree
Celsius (C).
11
Concept 7.3 ATP provides energy for cellular work
- Adenosine-contains adenine and a five carbon
sugar called ribose. - Triphosphate- three phosphate groups that are the
source of energy used for most cellular work
12
ATP and Cellular Work
13
The ATP Cycle
- ATP is recyclable
- Work consumes ATP and it is turned into ADP and
then a phosphate group is added to regenerate the
ATP
14
Concept 7.4 Electrons fall from food to oxygen
during cellular respiration
- Cellular respiration is an aerobic process, it
requires oxygen - Gas exchange occurs (oxygen in, and carbon
dioxide out)
15
Overall Equation
- Glucose is a common fuel for cellular
respiration, the double arrow represents many
steps required not just one.
16
Falling Electrons
- During cellular respiration, the carbon and
hydrogen atoms change partners and bond with
oxygen atoms instead. - The carbon-hydrogen bonds are replaced by
carbon-oxygen and hydrogen-oxygen bonds. - As the electrons of these bonds "fall" toward
oxygen, energy is released.
17
Electron Transport Chains
- Sequence of electron carrier molecules that
transfer electrons and release energy during
cellular respiration - Like a staircase, as electrons fall down a small
amount of energy is released.
18
7.5 Cellular respiration converts energy in food
to energy in ATP
- Mitochondria- powerhouse of cell
- Structure of folded membranes inside are the key
to cellular respiration.
19
Metabolic pathway
- metabolism all of a cell's chemical processes.
20
The three stages of cellular respiration
- Stage 1- Glycolysis splitting of sugar
21
Stage 1 Glycolysis
- Occurs in cytoplasm
- Glucose is converted into pyruvic acid
- (2-3 carbon molecules)
- (NAD) accepts 2 electrons and one hydrogen ion
it is converted into (NADH) - 2 ATP invested, 4 ATP are produced
- Net gain of 2 ATP
22
Stage 2 The Krebs Cycle
23
Stage 2 The Krebs Cycle
- Occurs in the fluid matrix of the mitochondria
- Pyruvic acid is broken down into Acetyl Co-A,
releasing carbon dioxide and more energy. - Each of the two Acetyl Co-A (2 carbon molecules)
goes through the Krebs cycle, generating 2 CO2 ,
1 ATP, and 1 FADH2 , and 3 NADH - Total after 2 cycles 4 CO2 , 2 ATP,
- 2 FADH2 , and 6 NADH
24
Stage 3 Electron Transport Chain and ATP
Synthase Action
25
Stage 3 The E.T.C.
- Occurs in the inner membranes of the mitochondria
- There are two parts
- a) an e.t.c, b) ATP synthase which generates ATP
- NADH transfers electrons, water is split, and
hydrogen ions are transferred across the membrane
to create a - H ion concentration gradient
26
Adding up the ATP
- One Glucose molecule yields.
- Stage 1 Glycolysis 2 ATP
- Stage 2 Krebs Cycle 2 ATP
- Stage 3 E.T.C. 34 ATP
- MAXIMUM OF ABOUT 38 ATP PRODUCED
27
Concept 7.6 Some cells can harvest energy without
oxygen
- Fermentation in human muscle cells occurs when
oxygen is not readily available.
28
Lactic Acid Fermentation
- Makes ATP entirely from glycolysis
- 2 ATP are generated
- Even though there are only two ATP, by burning
enough glucose, fermentation can regenerate
enough ATP molecules for short bursts of activity
such as a short sprint. - Lactic acid is a waste product causing fatigue
and soreness in muscles
29
- Your body consumes oxygen as it converts the
lactic acid back to pyruvic acid. - You restore your oxygen supply by breathing
heavily for several minutes after you stop
exercising.
30
Fermentation in Microorganisms
- Anaerobic- no oxygen environment
- These organisms ferment sugar and other foods
creating alcohol as a waste product instead of
lactic acid - This process also releases CO2.
31
Examples of fermentation
- Yeast makes bread rise
- Fungi and bacteria produce lactic acid and humans
use these to transform milk into cheese and
yogurt (sharpness and sour flavor), soy beans
make soy sauce, cabbage into sauerkraut, potatoes
into vodka
