IB Bio Cellular Respiration

humans can respire aerobically and anaerobically. which are products of both aerobic cell respiration and anaerobic cell respiration in humans

(a) pyruvate and atp

the diagram below shows a biochemical pathway in a yeast cell. which of the following correctly identifies a compound in the diagram

(b) II is pyruvate

which process produces the most ATP per molecule of glucose

(b) aerobic respiration in a bacterial cell

which of the following is true of the link reaction of aerobic respiration

(b) the decarboxylation of pyruvate occurs

definition of cell respiration

(c) a controlled release of energy, in the form of ATP, from organic compounds in cells

what is required for atp synthesis in mitochondria

(c) accumulation of protons in the intermembrane space

where is carbon dioxide produced in the mitochindrion

(d)

the electron micrograph below shows an organelle in a eukaryotic cell. what is the area labelled X and what is the type of reaction occurring there

(d) matrix and krebs cycle

how do cells capture the energy released by cell respiration

(d) they produce atp

atp invested in krebs cycle

0

atp invested in link reaction

0

atp invested in oxidative phosphorylation

0

gross yield of atp in link reaction

0

net yield of atp in link reaction

0

atp invested in glycolysis

2

gross yield of atp in krebs cycle

2

how many carbon atoms does acetyl co a have

2

net yield of atp in glycolysis

2

net yield of atp in krebs cycle

2

for the following molecules (CO2, ATP, NADH, and FADH2) how many are produced in the krebs cycle for every glucose molecule

2 CO2 2 ATP 6 NADH 2 FADH2

how many carbon atoms does pyruvate have

3

gross yield of atp in oxidative phosphorylation

32

net yield of atp in oxidative phosphorylation

32

gross yield of atp in glycolysis

4

how many carbon atoms does glucose have

6

FAD is reduced to

FADH2

NAD+ is reduced to

NADH + H+

the purpose of the krebs cycle is to form what high energy electron acceptors

NADH and FADH2

what is the name of the decarboxylated pyruvic acid

acetyl

phosphorylation

adding phosphate

total yield of atp in cr

around 38

name of the embedded protein that provides a channel for hydrogen ions to pass through the membrane

atp synthase

products of lactic acid fermentation

atp, NAD+, and lactic acid

products of alcoholic fermentation

atp, carbon dioxide, NAD+, and alcohol

during link reaction, pyruvate is decarboxylated. what molecule is removed

carbon dioxide

products of cell respiration

carbon dioxide, water, and atp

what is oxidative phosphorylation made up of

electron transport chain and chemiosmosis

reduction

electrons are gained, oxygen is removed, hydrogen is gained

oxidation

electrons are lost, oxygen is added, hydrogen is lost

products of anaerobic respiration by yeast

ethanol and carbon dioxide

what molecule from food is the primary reactant for glycolysis

glucose

reactants of cell respiration

glucose and oxygen

what is reduced and oxidized in glycolysis

glucose is oxidized and NAD+ is reduced

cr phase that occurs in the cytoplasm

glycolysis

cr phase that produces atp

glycolysis, krebs, and oxidative phosphorylation

what sequence describes cell respiration

glycolysis, link reaction, krebs cycle, and oxidative phosphorylation

in the final phase of cell respiration, where does the NADH and FADH2 come from to make atp

glycolysis, link, and krebs

when electrons are released from electron acceptor molecules, what is produced

hydrogen ions

what is an exergonic reaction

hydrolysis of atp

location of krebs cycle

inner matrix of mitochondria

location of link reaction

inner matrix of mitochondria

location of electron transport chain

inner mitochondrial matrix

direction of hydrogen ions through the membrane

innermembrane space through inner mitochondrial membrane to the matrix

cr phase that produces carbon dioxide

link and krebs

cr phase that occurs in the mitochondria

link, krebs, and oxidative phosphorylation

decarboxylation

losing a carbon

chain of enzyme controlled reaction

metabolic pathway

phases of cr that have water as a product

oxidative phosphorylation

phases of cr that have oxygen as a reactant

oxidative phosphorylation and link

what molecule is the final electron acceptor after the electrons have moved through the ETC

oxygen

3 components of an atp molecule

ribose, adenine, 3 phosphate

hydrolysis

use of water to split bonds in atp