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Delve into the intricate world of cell energy processes through the utilization of chemical energy and ATP, the key molecules driving cellular activities and metabolism.
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Unit 2: Cells Chapter 4: Cells and Energy
UNIT 2: Cells Chapter 4: Cells and Energy I. Chemical Energy and ATP (4.1) A. The ________________used for most cell processes is carried by _______ 1. All ________-based molecules in _____ store chemical energy in their ________
a. _________________ and _________ most important energy sources. b. Energy comes from food indirectly
2. All cells use energy carried by _________ a. ATP (adenosine triphosphate) is molecule that transfers energy from breakdown of food b. ATP carries energy cells can use c. Used for ________________,__________ ____________ by ___________ transport, etc.
3. Energy of ATPreleased when ___________ __________ is removed a. Bond holding third phosphate group is unstable and very easily broken
b. When loses 3rd phosphate group, ATP become _______ (adenosine diphosphate) 1). ADP is a lower energy molecule than ATP 2). Can be converted back into ATP with addition of ________ (adding phosphate group)
3). The breakdown of ATP to ADP and production of ATP from ADP can be represented by ________. 4). This requires complex group of proteins to help.
Energy A P P P ADP +P The most important energy storing compound is ______ A P P P ATP
B. Organisms break down_________-based molecules to produce ________ 1. ________ you eat does not contain _____ a. Food must first be __________ (break down into smaller molecules) b. Foods provide different amounts of energy (__________)
2. Number of ATP molecules depends on type of molecule broken down (___________, _________, __________) a. __________________ most commonly broken down to make ATP b. Break down of ____________ yields _______ molecules of ATP
3. Fats store about 80% of energy in your body a. When broken down, yield the most ATP b. A typical triglyceride yields about ________ molecules of ATP
4. ____________ have about as much ATP as carbohydrates a. Less likely to be broken down b. ______________ needed to build new proteins
5. _________ also need ATP a. Plants do not eat to obtain energy b. Use energy produced by _______________ (make sugars from sunlight)
C. A few types of organisms do not need sunlight and photosynthesis as a source of energy 1. Some organisms use _________________ to produce energy (sugars) 2. Used by organisms in hydrothermal vents (deep ocean)
II. Overview of Photosynthesis (4.2) A. Photosynthetic organisms are _________ 1. Producers make their own source of ___________________
2. Plants use _______________ and are producers a. ______________ is process that captures _________ from sunlight to make _________ that store chemical energy
b. Uses __________ light made up of several colors (wavelengths) of light.
1). Plants use molecule in _____________ called __________________ 2). Two main types of chlorophyll
a. Chlorophyll a and chlorophyll b b. Absorb mostly ______ and ______ wavelengths. c. Plants appear __________ because reflect green light (not absorbed)
B. Photosynthesis in plants occurs in ____________ 1. Most of chloroplast are in leaf cells
2. Two main parts of _______________ needed for photosynthesis a. _______- stacks of coin-shaped, membrane- enclosed compartments called ____________. b. Membrane in thylakoids contain _________________ c. _________ is the fluid that surrounds grana
C. Photosynthesis occurs in two main stages 1. _____________________ (capture energy from sunlight) a. Occurs within and across membrane of _____________ b. ______ and _____________ are needed.
c. Light dependent reactions 1). _________________ absorbs energy from sunlight. (photosystem)
2). ___________ transferred along thylakoid membrane. 3). ________ molecules broken down. 4).___________molecules produced
3). H2O molecules ______________. 4). Oxygen molecules ____________
2. _____________________(uses energy produced from light-dependent reactions) a. Occur in the ___________ of chloroplasts
b. ___________ needed 1). ________ added to cycle to build larger molecules (____________cycle) 2). _________ from light dependent reactions is used 3). Molecule of simple sugar is produced (usually __________C6H12O6)
3. Equation for whole photosynthetic process 6___ + 6___ → →→→→_______ + 6___ ____, _______
ADP NADP ATP NADPH CO2 ________________Reactions ______ cycle O2 Glucose
D. Functions of Photosynthesis 1. Plant produce ________ for themselves and other organisms 2. Animals use ________ produced by photosynthesis in __________________(released stored energy)
3. It provides materials for plant growth and development (simple sugars bonded together to form carbohydrates like ________ and ____________)
4. Regulates Earth’s environment (removes__________________from Earth’s atmosphere)
Which of the graphs represents the effect of light intensity on the rate of photosynthesis?
Which of the graphs represents the effect of temperature on the rate of photosynthesis?
III. Overview of Cellular Respiration (4.4) A. Cellular respiration makes_______ by breaking down_________ and other carbon- based molecules to make ATP 1. Cellular respiration is ________ (requires__________) 2. Takes place in _________________ (cell“powerhouse”)
B. Process starts with _____________ (means “glucose breaking”) 1. 6-carbon glucose broken into two 3- carbon molecules of pyruvic acid 2. Produces 2 molecules of _______ (makes 4, but uses 2 ATP = net of 2 ATP)
3. anaerobic process (does not require _________) 4. Takes place in _______________ 5. Products of glycolysis used in respiration process.
C. Cellular respiration is like mirror image of _____________________ 1. Chemical equation for cellular respiration is basically the ___________- of that for photosynthesis 2. Structures in __________________ and ________________ are similar 6CO2 + 6H2O → →→→→____________ + 6_______ ____________ + ________ → →→→6CO2 + 6H2O
D. Cellular Respiration takes place in two main stages 1. Krebs cycle- takes place in interior space of ______________.
a. 3-carbon molecules produced in glycolysis are broken down in a cycle of chemical reactions b. _____________is given off (CO2) c. _______ produced is transferred to 2nd stage (energy in the form of ATP and other “charged” molecules- NADH and FADH2)
2. Electron Transport Chain- a. Takes place in inner membrane b. Energy transferred to electron transport chain
c. _________ enters process and picks up electrons and hydrogen to makeH2O (water) d. ________ produced (34 to 36 molecules) for a total of 36 to 38 including glycolysis e. Many ___________ required for process 2 2 32
E. Overall equation of cellular respiration _______ + 6_____ → →→→6____ + 6____
F. Comparing Photosynthesis and Cellular Respiration (reactants of photosynthesis are same as products of cellular respiration)
IV. Fermentation (4.6) A. Fermentation allows _________ to continue 1. Fermentation allows glycolysis to continue making _____ when _________ is unavailable
2. Fermentation is an ___________ process a. Occurs when oxygen not available for cellular respiration b. Does not produceATP 3. NAD+ is recycled to glycolysis
B. ________________fermentation- occurs in muscle cells 1. Glycolysis splits __________ into two pyruvate molecules 2. Pyruvate and NADH enter fermentation
3. Energy fromNADH convertspyruvate into lactic acid 4. NADH is changed back intoNAD+
C. ___________ fermentation- similar to lactic acid fermentation 1. Products of alcoholic fermentation include ______, ______, ______ 2. Glycolysis splitsglucose and products enter fermentation
3. Energy from NADH is used to spitpyruvate into an alcohol and carbon dioxide 4. NADH is changed back into NAD+ 5. NAD+ is recycled to glycolysis
