Glucose C 6 H 12 O 6 Step 1: Glycolysis Where? In cytoplasm What happens? A) Glucose (from our food) is broken down into 2 pyruvate (2 - 3 carbon molecules)

Slides:

Advertisements

Similar presentations

Advertisements

Cellular Respiration Respiration is the process of breaking down food molecules to release energy. Respiration is the process of breaking down food molecules.

Glucose C6H12O6 Step 1: Glycolysis Where? In cytoplasm What happens? A) Glucose (from our food) is broken down B) 2 ATP molecules released for use by.

Fermentation Glycolysis Review Glycolysis and Respiration Glycolysis –Creates: ATP, Pyruvate, NADH –Leads to either: 1)Aerobic Respiration  With oxygen.

Fermentation allows glycolysis to continue.

Cellular Respiration pp. 77 to 82. What is it? A process to convert glucose to ATP in order to obtain energy Occurs in all organisms (plants and animals)

Please follow along and fill in your notes page as you move through the powerpoint! Press F5 to begin!

Cellular Respiration.

Cellular Respiration & Fermentation

Cellular Respiration Unit Review Guide CA Standard 1g

Cellular Respiration Breaking down food to get energy.

Glycolysis and Fermentation Unit 4: Energize Your Life Ch 9-1.

CELLULAR RESPIRATION. WHO DOES CELLULAR RESPIRATION? Animals Humans Plants/Algae Basically any organism with nuclei & mitochondria So what other organisms.

Fermentation Anaerobic: Creates ATP without oxygen Two Types 1) Lactic Acid fermentation –Performed by animals 2) Alcoholic fermentation –Performed.

Cell Respiration.

Cellular Respiration Chapter 9.

Chemical Pathways. Cellular Respiration Cellular respiration is the process that releases ___________ by breaking down glucose and other food molecules.

KEY CONCEPT The overall process of cellular respiration converts sugar into ATP using oxygen.

Chapter 9. Cellular Respiration  The process that releases energy (ATP) by breaking down food molecules in the presence of oxygen.

What is the name of the molecule that living things use for energy?

If you did a 10 minute wall sit, what would your muscles start to feel like? Why do they begin to feel like that?

Glycolysis and Fermentation

ENERGY AND CELLULAR RESPIRATION. Energy n Chemical energy – found in the bonds of food n Activation energy – energy needed to get a reaction started n.

RESPIRATION. ENERGY- ABILITY TO DO WORK 1. What types of activities require energy? 2. How do humans obtain most of their energy? 3. How do plants obtain.

Fermentation Fermentation is a reaction that eukaryotic and prokaryotic cells use to obtain energy from food when oxygen levels are low. Fermentation.

Cellular Respiration How organisms make ATP. Cellular Respiration The process that produces energy (ATP) by breaking down food molecules 6O 2 + C 6 H.

Biology I August  the process in which glucose is broken down to produce ATP (energy)  Performed by ALL cells (plant, animal, bacteria)  Two.

+ Cellular Respiration & Fermentation 4.4, & 4.6.

CELLULAR RESPIRATION. Glycolysis CELLULAR RESPIRATION Process in which 1 molecule of glucose is broken in half, producing 2 molecules of pyruvic acid.

RESPIRATION breakingfood release energy 1. The process of breaking down food molecules to release energy. 2. Convertsglucose ATP 2. Converts the energy.

Cellular respiration makes ATP by breaking down sugars.

Cellular Respiration. Word Wall: Cellular Respiration 1)Anaerobic 2)Aerobic 3)Cellular respiration 4)Glycolysis 5)Krebs Cycle 6)Electron Transport Chain.

CELLULAR ENERGY. WHY DO CELLS NEED ENERGY? Move Muscle contraction Reproduction Transport molecules Remove wastes Chemical reactions Energy = the ability.

Fermentation Glycolysis Review Respiration & Glycolysis Aerobic Respiration –Glycolysis creates Pyruvate, NADH –Kreb’s (Citric Acid) Cycle continues.

ATP = Adenosine Triphosphate What is it? Energy molecule How? –E–Energy stored in chemical bonds –W–When ATP is broken apart, energy is released Why?

Aim: How can we compare aerobic and anaerobic cellular respiration?

Fermentation. Please follow along and fill in your notes page as you move through the powerpoint! 

- All organisms need energy from food.

III. Cell Respiration.

Cellular Energy.

Let’s recall Photosynthesis!

Section 3 Getting Energy to Make ATP

Nutrients + oxygen  water + ATP + CO2

Aerobic and Anaerobic Respiration

Chapter 9 CELLULAR RESPIRATION.

Breaking down food to get energy

Cell Respiration.

Cellular Respiration.

Releasing Chemical Energy

Biology I Cellular Respiration.

CELLULAR RESPIRATION Occurs in the MITOCHONDRIA of the cell

Cellular Respiration.

Getting ATP from a Molecule of Glucose

Cellular Respiration and Fermentation video

Chapter 9: CELLULAR RESPIRATION.

Bell Ringer Why do we need to breathe?

The process of producing the energy needed for metabolic reactions

ATP is adenosine triphosphate and is like a charged battery ADP is called adenosine diphosphate and is like an uncharged battery.

Photosynthesis and Cellular Respiration

Cellular Respiration.

Cellular Respiration.

Cellular Respiration Definitions

CELLULAR RESPIRATION = process that breaks down glucose to make ATP

9-1 Making ATP Without Oxygen

Cell Energy & Reproduction

Presentation transcript:

Glucose C 6 H 12 O 6 Step 1: Glycolysis Where? In cytoplasm What happens? A) Glucose (from our food) is broken down into 2 pyruvate (2 - 3 carbon molecules) B) 2 ATP molecules released for cellular processes C C C ATP Mitochondrion En- zyme C C C

What’s after Glycolysis? Glycolysis –Creates: 2 ATP & 2 Pyruvate (2 - 3 carbon molecules) –Leads to either: 1)Aerobic Respiration With oxygen present Kreb’s Cycle Electron transport chain 2)Anaerobic Respiration Without oxygen Fermentation Allows glycolysis to restart O2 No O 2 glycolysis fermentation ATP

Step 2: Fermentation Two Types of Fermentation (both anaerobic): A) Lactic Acid fermentation –Performed by animals when muscle cells are not receiving O 2 –Lactic acid waste created B) Alcoholic fermentation –Performed by yeast, some plants, bacteria –Alcohol and CO 2 waste created During prolonged exercise, the oxygen you inhale mainly goes to your brain. Your muscles are now lacking oxygen. Muscle cells perform fermentation to keep you going! How to relieve sore muscles: 1)Massage 2)Bananas 3)Stretch after 4)Hydrate Yeast perform alcoholic fermentation to make bread. Why isn’t bread alcoholic? Alcohol evaporates in the baking process

Lactic Acid vs. Alcoholic Fermentation Lactic Acid Location: Cytoplasm Amount of ATP created: Zero The Point? Make molecules to restart glycolysis Waste: Lactic acid Alcoholic Location: Cytoplasm Amount of ATP created: Zero The Point? Make molecules to restart glycolysis Waste: Alcohol and CO 2 glycolysis Lactic acid fermentation Alcoholic fermentation Lactic acid Alcohol + CO 2

Glycolysis Where? In the cytoplasm What happens? Glucose is split into 2 Pyruvate (2 - 3 carbon molecules) 2 ATP created Fermentation Where? In the cytoplasm What happens? Pyruvate (2 - 3 carbon molecules) are broken into either lactic acid or alcohol Molecules to restart glycolysis created (No ATP) Aerobic Respiration Where? In the mitochondria Steps? Kreb’s cycle and electron transport chain What happens? 2 Pyruvate (2 - 3 carbon molecules) create up to 36 ATPs With oxygen present If oxygen is lacking Glycolysis restarts

Public Service Announcement: Proper Use of Alcohol

The Maple Center Counseling Safe Rides are available on Friday and Saturday nights from 10:00 pm to 2:00 am for teens living in Beverly Hills. High school students can call for a free ride home when they are under the influence of drugs and/or alcohol. When the teenager calls the Safe Ride number, the TMCC counselor assigned to the 24-hour HELP-LINE arranges for that teen to be picked up by the Beverly Hills Cab Company and taken home. Services are confidential. Call (888) for a free ride home.

Review 1)Name the two types of fermentation. 2)How much ATP does glycolysis create? 3)How much ATP does fermentation create? 4)Which molecule is broken down during glycolysis? 5)A buildup of which molecule causes sore muscles? 6)Which waste molecules are created by alcoholic fermentation? 7)Which waste molecules are created by lactic acid fermentation? 8)Is fermentation aerobic or anaerobic? What does this mean? 9)Why is aerobic respiration preferred vs. fermentation?