Transcript
Page 1: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

Respiration

Page 2: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

I. Cellular Respiration

A. Biochemical process cells use to release energy from glucose

B. Energy is stored in the bonds of adenosine triphosphate (ATP).

Page 3: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

I. Cellular Respiration (cont)

A. When a phosphate is removed it is changed to ADP + Phosphate and energy is released

B. Water + ATP → ADP + P + Energy

C. Two Types of cell respirationA. Aerobic – uses oxygen

B. Anaerobic – without oxygen

Page 4: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

I. Cellular Respiration (cont)

A. Anaerobic RespirationA. Carried on by cells in absence of oxygen

B. Performed in cytoplasm of cell

C. Main source of energy for bacteria and fungi (yeast)

D. Used to make foods such as cheese, yogurt, bread and wine

Page 5: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

I. Cellular Respiration (cont)

A. Two typesA. Alcoholic Fermentation

A. Glucose → 2 alcohol + 2 CO2 + 2 ATP

B. Lactic Acid FermentationA. Glucose → 2 Lactic Acid + 2 ATP

B. Both are inefficient since alcohol and lactic acid have large amounts of unused energy (many bonds leftover)

Page 6: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

I. Cellular Respiration (cont)

A. Aerobic RespirationA. Carried on by cells in presence of oxygen

B. Performed in mitochondria of the cell

C. Glucose + O2 → H2O + CO2 + 36 ATP

D. More efficient than anaerobic respiration

Page 7: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

II. Gas Exchange

A. Respiratory System moves gases between external and internal surfaces for gas exchange

B. Structures of Respiratory SystemA. Nasal Cavity – air goes through nostrils

and enters cavity. Cavity is lined with mucous membranes that clean, warm and moisten air (uvula separates from throat)

Page 8: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

II. Gas Exchange (cont)A. Pharynx – area where oral and nasal

cavities meet

B. Trachea – (windpipe) tube where air passes from pharynx to lungs

A. Contains rings of cartilage that keeps trachea open

B. Lined with cilia that trap particles in air and sweep it up to the pharynx to get coughed or sneezed out

C. Contains epiglottis and larynxA. Epiglottis – covers opening of trachea during

swallowing and opens during breathing

B. Larynx – (voice box) produces speech

Page 9: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

II. Gas Exchange (cont)A. Bronchi and Bronchioles – lower end of

trachea splits forming 2 bronchi which are lined with mucous and ringed with cartilage. Bronchi separate into MANY bronchioles

B. Alveoli A. Millions of alveoli are in the lungs

B. Walls are thin and moist and surrounded by capillaries

C. O2 diffuses from lungs to blood and CO2 + H2O diffuse from blood to lungs

Page 10: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

II. Gas Exchange (cont)

Page 11: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

II. Gas Exchange (cont)

Page 12: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

III. Breathing

A. Air moving in and out of the lungs

B. LungsA. No muscle but HIGHLY elastic. Expand

and contract b/c of pressure changes in chest cavity (caused by actions of rib cage and diaphragm)

Page 13: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

III. Breathing (cont)

A. Inhalation A. Ribs up and out, diaphragm moves down.

B. Enlarges chest cavity, makes LOW pressure, air goes in

B. ExhalationA. Ribs down and in, diaphragm moves up.

B. Decreases cavity, HIGH pressure, air out

Page 14: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

III. Breathing (cont)

High

High

Low

Low

Page 15: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

IV. Breathing Rate

A. Controlled by breathing center in medulla of brain

B. Senses amount of CO2 in blood.

A. When amount is high, nerve signals (impulses) are sent to lungs and diaphragm to increase breathing rate

B. When amount lowers, impulses are slowed, dec breathing rate

C. This is a feedback mechanism

Page 16: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

IV. Breathing Rate (cont)

Page 17: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

V. Disorders

A. Bronchitis – inflammation of bronchial tubes. Air passages become narrowed and filled with mucous, causing difficulty breathing and coughing

Page 18: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

V. Disorders (cont)A. Asthma – an

allergic reaction causing narrowing of bronchial tubes, difficulty in breathing

Page 19: Respiration. I. Cellular Respiration A.Biochemical process cells use to release energy from glucose B.Energy is stored in the bonds of adenosine triphosphate

V. Disorders (cont)A. Emphysema – walls of alveoli break

down, dec surface area for gas exchange, causing difficulty breathing and dec lung capacity (smoking can cause)


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