Midterm Week 3 - Cellular Respiration PDF

Summary

This document is a midterm study guide for a Pharmaceutical Botany course, focusing on cellular respiration. It covers topics such as energy metabolism, chemical reactions, types of respiration, and redox reactions. The University of Saint Louis is responsible for this material.

Full Transcript

CELLULAR RESPIRATION
--------------------------------
PHAR 1042
Course Instructor
Vic Valiant O. Laureta, RPh, ClinPharm, Pharmaceutical Botany
MSPharm(candidate) with Taxonomy
MIDTERM
Lecaros Extension, Ugac Sur, Tuguegarao City, Cagayan, Philippines 3500
www.usl.edu.ph
Objectives:
At the end of the session, you should be
able to:
Discuss energy metabolism in plants
Cellular Respiration
 Process that releases energy from organic compounds (food), gradually
converting it into energy that is stored in ATP molecules.
 Catabolic reaction/process (energy released from glucose will
ultimately be used to support anabolic pathways)
 Adenosine triphosphate (ATP)

 Usable energy for cells/cellular energy currency.
part to fruction.
 The energy currency of the cell. used organelle/cell
in

 Catabolic car abolism
Metabolism
 Large molecules are broken into smaller units.
The sum total of all
 Anabolic Anabolism
chemical exist
 Build-up of larger molecules.
 Proteins
2
 DNA
2
Cellular Respiration vs. Photosynthesis

 Process that releases energy from organic compounds
(food), gradually converting it into energy that is
stored in ATP molecules. CoHizOy -ATD

 Catabolic reaction/process (energy released from glucose will ultimately be used to support
anabolic pathways)
 Adenosine triphosphate (ATP)
 Usable energy for cells/cellular energy currency.
 The energy currency of the cell.
 Catabolic
 Large molecules are broken into smaller units.
 Anabolic
 Build-up of larger molecules.
 Proteins
 DNA
Cellular Respiration vs. Photosynthesis
Chemical Reaction

 A process in which one or more substances, the
reactants, are converted to one or more
different substances, the products.
 Reactants
 Substances that start a chemical reaction
(ingredients).
 Products
 Substances that are produced in the reaction
(finished results).
2 Types of Cellular Respiration

 A process in which one or more substances, the
reactants, are converted to one or more different
substances, the products. Ezymesare
catalyst
 Reactants
 Substances that start a chemical reaction
(ingredients).
 Products
 Substances that are produced in the reaction (finished
results).
Fermentation
Reductions
-

-
Abc A CB
 In the generalized reaction, substance Xe-, the
electron donor, is called the reducing agent; it
reduces Y, which accepts the donated electron.
 Substance Y, the electron acceptor, is the
oxidizing agent; it oxidizes Xe- by removing its
electron.
 Because an electron transfer requires both an
electron donor and an acceptor, oxidation and
reduction always go hand in hand.
 NAD+ (Nicotinamide adenine dinucleotide)
 Coenzyme for redox txn
 NADH (Nicotinamide adenine dinucleotide +
Hydrogen(H))
 Used during oxidation
 FADH2 (Flavin adenine dinucleotide)
 Redox cofactor
 Created during krebs
 Utilized during ETC
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

1. Glycolysis
 1665
 Gr. Glykos, sweet +lysis, splitting
 English Scientist Robert Hooke discovered cells while looking at a thin slice of a cork.
 Described the cells as tiny boxes or honeycombs.
 He thought that cells only existed in plants and fungi.
Can occur aerobically or anaerobically
 1673
 Anton Van Leeuwenhoek used a handmade microscope to observe pond scum and discovered single

celled organisms.
Converts glucose to two 3-carbon
 He called them “animalcules.”
 He also observed blood cells from fish, birds, frogs, dogs, and humans.

 150-200 Year Gap
pyruvate molecules
 Between Hooke/Leeuwenhoek and the mid-19th century, very little cell advancements were made.
 Due to the widely accepted traditional belief in Spontaneous Generation.
 Example:
Occurs in the cytosol
 Mice from dirty clothes/ cornhusks.
·
inside the cells

There are 10 steps
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

 PREPARATORY STAGE
 STAGE 1: Phosphorylation
 1665
 Glucose,
 English a Hooke
Scientist Robert 6-carbon
discoveredmolecule, is atfirst
cells while looking phosphorylated
a thin slice of a cork. to
 Described
 He thought that cells only existed in plants and fungi.ADP and glucose-6-phosphate
produce glucose-6-phosphate.
the cells as tiny boxes or honeycombs.
 1673
areVan
 Anton produced
Leeuwenhoekwhen used a the enzyme
handmade HEXOKINASE
microscope to observe pond scum removes a high
and discovered single
 He energy
celled organisms.phosphate group from an ATP and attaches it to a
called them “animalcules.”
glucose
 He also observedmolecule.
blood cells from fish, birds, frogs, dogs, and humans.
 150-200 Year Gap
 STAGE 2: Isomerase
Between Hooke/Leeuwenhoek and the mid-19th century, very little cell advancements were made.
 toThe
 Due
 Example: molecule
the widely acceptedis made belief
traditional intoinan isomerGeneration.
Spontaneous by PHOSPHOGLUCOSE
ISOMERASE,
 Mice from dirty clothes/turning
cornhusks. G6P

into fructose-6-phosphate.
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

STAGE 3: 2nd Phosphorylation
 F6P is phosphorylated. The enzyme
 1665
PHOSPHOGLUCOSE
 English Scientist Robert Hooke discovered ISOMERASE removes
cells while looking a of a cork.
at a thin slice
 Described
 He thought that cells only existed inATP
phosphorus from an andfungi.
places it on F6P, which results in
the cells as tiny boxes or honeycombs.
plants and
 1673
an Van
 Anton ADP and fructose-1,6-
Leeuwenhoek used a handmade biphosphate.
microscope to observe pond scum and discovered single
 STAGE
celled organisms.4: Cleavage
He called them “animalcules.”
also
 He F6P is converted
observed blood cells frombyfish,the enzyme
birds, frogs, dogs,ALDOLASE
and humans. to G3P and DHAP
 150-200 Year Gap
(dihydroxyacetone
 Between Hooke/Leeuwenhoek and phosphate).
the mid-19th century, very little cell advancements were made.
DueSTAGE
to the widely5: Conversion
accepted ofinDHAP
traditional belief Spontaneous Generation.
 Example:
 DHAP
Mice is clothes/
from dirty converted into G3P by triose phosphate isomerase.
cornhusks.
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

 PAYOFF STAGE
 STAGE 6: Oxidation
 1665
 The
 English enzyme
Scientist Robert Hooke G3P-DEHYDROGENASE
discovered cells while looking at a thin removes
slice of a cork. hydrogens
 Described
from each
the cells asG3P
tiny boxesand phosphorylates
or honeycombs. the molecules. In doing
 He thought that cells only existed in plants and fungi.
 1673
this,
 Anton Vanit convertsused
Leeuwenhoek two NAD+ microscope
a handmade into twoto molecules
observe pond scum of NADH. This
and discovered single
 He step creates two molecules of 1,3-biphosphoglycerate.
celled organisms.
called them “animalcules.”
 STAGE
He also observed 7: Dephosphorylation
blood cells from fish, birds, frogs, dogs, and humans.
 150-200 Year Gap
 The enzyme
 Between Hooke/Leeuwenhoek and PHOSPHOGLYCERATE KINASE were made.
the mid-19th century, very little cell advancements
 Dueremoves
to the widelyaaccepted
phosphorus fromin Spontaneous
traditional belief the 1,3- biphosphoglycerates.
Generation. This
 Example:
converts
 Mice from dirtytwo ADP
clothes/ into two molecules of ATP. This step creates
cornhusks.

two molecules of phosphoglycerate.
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

STAGE 8: Phosphate dehydration
 The phosphorus is moved into the middle of the molecule by the enzyme
 1665PHOSPHOGLYCERATE MUTASE.
 English Scientist Robert Hooke discovered cells while looking at a thin slice of a cork.
 STAGE 9: Dehydration
 Described the cells as tiny boxes or honeycombs.
 thought
 He
1673 The enzyme ENOLASE
that cells only changes
existed in plants the orientation of the molecule. This
and fungi.
stepVancreates
 Anton molecule
Leeuwenhoek used a of phosphoenolpyruvate.
handmade microscope to observe The pond enzyme removessingle
scum and discovered a
celled organisms.
 He water group/dehydration.
called them “animalcules.”
He STAGE
also observed 10: Pyruvate
blood kinase
cells from fish, birds, frogs, dogs, and humans.
 150-200
 The Year
lastGap
phosphorus molecules are eliminated by PYRUVATE KINASE,
 Between Hooke/Leeuwenhoek and the mid-19th century, very little cell advancements were made.
 Duecreating ATP
to the widely molecules.
accepted traditional belief in Spontaneous Generation.
 Example:
Twofrom
 Mice molecules ofcornhusks.
dirty clothes/ pyruvate are produced during this process, and these
molecules can be utilized in subsequent processes like the Krebs cycle.
Note: Glycolysis will yield a byproduct of 2 ATP, 2 NADH, and 2 Pyruvate
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

 1665
 English Scientist Robert Hooke discovered cells while looking at a thin slice of a cork.
 Described the cells as tiny boxes or honeycombs.
 He thought that cells only existed in plants and fungi.
 1673
 Anton Van Leeuwenhoek used a handmade microscope to observe pond scum and discovered single
celled organisms.
 He called them “animalcules.”
 He also observed blood cells from fish, birds, frogs, dogs, and humans.
 150-200 Year Gap
 Between Hooke/Leeuwenhoek and the mid-19th century, very little cell advancements were made.
 Due to the widely accepted traditional belief in Spontaneous Generation.
 Example:
 Mice from dirty clothes/ cornhusks.
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

1.1. Pyruvate (after glycolysis)
 1665
 If O2Robertis not
 English Scientist Hooke available
discovered cells towhilethe
lookingcell,
at a thinfermentation,
slice of a cork. an
 Describedanaerobic
the cells as tinyprocess (see fermentation), occurs in the
boxes or honeycombs.
 He thought that cells only existed in plants and fungi.
 1673
cytoplasm.
 Anton Van Leeuwenhoek used a handmade microscope to observe pond scum and discovered single
 If O2 is available to the cell, pyruvate enters
celled organisms.
 He called them “animalcules.”
mitochondria
 He also observed blood cells from by aerobic
fish, birds, frogs, dogs,process
and humans. (In eukaryotes,
 150-200 Year Gap
 Betweenpyruvate
Hooke/Leeuwenhoekentersandthe the mitochondrion
mid-19th century, veryand is advancements
little cell oxidized were
to made.
a
compound
 Due to the
 Example:
widely accepted called acetyl
traditional CoA,
belief in which
Spontaneous enters the citric acid
Generation.

cycle.).
 Mice from dirty clothes/ cornhusks.
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

1.2 Oxidation of Pyruvate to Acetyl CoA
 1665  If O2 is not available to the cell, fermentation, an
 English Scientist Robert Hooke discovered cells while looking at a thin slice of a cork.
anaerobic process (see fermentation), occurs in the
 Described the cells as tiny boxes or honeycombs.
 1673 cytoplasm.
 He thought that cells only existed in plants and fungi.
 Anton Van Leeuwenhoek used a handmade microscope to observe pond scum and discovered single
celled organisms.
 He called them “animalcules.”
 He also observed blood cells from fish, birds, frogs, dogs, and humans.
 150-200 Year Gap
 Between Hooke/Leeuwenhoek and the mid-19th century, very little cell advancements were made.
 Due to the widely accepted traditional belief in Spontaneous Generation.
 Example:
 Mice from dirty clothes/ cornhusks.
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

 1665
STAGE 1


 English Scientist Robert Hooke discovered cells while looking at a thin slice of a cork.
 Pyruvate dehydrogenase pulls CO
 Described the cells as tiny boxes or honeycombs.
 He thought that cells only existed in plants and fungi. 2
 1673
molecule off the pyruvate.
 Anton Van Leeuwenhoek used a handmade microscope to observe pond scum and discovered single
STAGE 2
celled organisms.
 He called them
 “animalcules.”
 He also observed blood cells from fish, birds, frogs, dogs, and humans.
 NAD is reduced to NADH
 150-200 Year Gap +
 Between Hooke/Leeuwenhoek and the mid-19th century, very little cell advancements were made.
STAGE 3
 Due to the widely accepted traditional belief in Spontaneous Generation.
 Example:
 Acetyl group is transferred to Coenzyme
 Mice from dirty clothes/ cornhusks.

A producing Acetyl Coenzyme A
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

2. Citric Acid Cycle/Krebs Cycle (Hans Adolf Krebs)/Tricarboxylic Acid
(TCA) Cycle
 1665
 Citric Acid/Citrate
 English Scientist Robert Hooke discovered cells while looking at a thin slice of a cork.
 First product of the cycle
 Described the cells as tiny boxes or honeycombs.
 HeTricarboxylic
thought that cellsAcid
only existed in plants and fungi. Functional Group
 1673
 Cycle
 Anton begins withused
Van Leeuwenhoek theaformation of citric to
handmade microscope acid which
observe pondcontains
scum and3discovered
(COOH)single
celled organisms. groups
carboxylic
 He called them “animalcules.”
HeOxidation
also observed of the
blood 2-carbon
cells acetyl
from fish, birds, group
frogs, of humans.
dogs, and acetyl-CoA occurs within the
 150-200 Year Gap matrix in a cyclic sequence.
mitochondrial
 Between Hooke/Leeuwenhoek and the mid-19th century, very little cell advancements were made.
DueThrough a cyclic
to the widely series
accepted of reactions
traditional in the Krebs
belief in Spontaneous cycle, the two carbons
Generation.
 Example:
from acetyl-CoA are released as carbon dioxide, and oxaloacetic acid is
 Mice from dirty clothes/ cornhusks.
regenerated.
 The overall products of the Krebs cycle are CO2, ATP, NADH, and
FADH2:
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION
Acetyl CoA + 3 NAD+ + FAD + ADP + PI →
2 CO2 + 3 ADH + FADH2 + ATP (per pyruvate)

 1665
 English Scientist Robert Hooke discovered cells canwhile
prov looking at a thin slice of a cork.
 Described the cells as tiny boxes or honeycombs.
 He thought that cells only existed in plants and fungi.
 1673
officers
 Anton Van Leeuwenhoek used a handmade microscope to Iobserve pond scum and discovered single
celled organisms.
 He called them “animalcules.”
 He also observed blood cells from fish, birds, frogs, dogs, and humans.
Money
 150-200 Year Gap
 Between Hooke/Leeuwenhoek and the mid-19th century, very little cell advancements were made.
 Due to the widely accepted traditional belief in Spontaneous Generation.keep
 Example: For
 Mice from dirty clothes/ cornhusks.
Selling

Shoes
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

 STAGE 1
 Pyruvate derived from glycolysis, is firstly converted into acetyl-CoA which is
subsequently condensed with oxaloacetate to form the compound citrate.
 1665
 STAGE 2
 English Scientist Robert Hooke discovered cells while looking at a thin slice of a cork.
 Citratetheiscells
 Described converted to its
as tiny boxes isomer, isocitrate. The enzyme aconitase catalyzes this
or honeycombs.
 He thought that cells only existed in plants and fungi.
 1673reaction.
STAGE
 Anton Van 3
Leeuwenhoek used a handmade microscope to observe pond scum and discovered single
 organisms.
celled Isocitrate undergoes dehydrogenation and decarboxylation to form 𝝰-
 He called them “animalcules.”
ketoglutarate. A molecular form of CO2 is released. Isocitrate dehydrogenase
 He also observed blood cells from fish, birds, frogs, dogs, and humans.
catalyses
 150-200 the reaction. It is an NAD+ dependent enzyme. NAD+ is converted to
Year Gap
NADH.
 Between Hooke/Leeuwenhoek and the mid-19th century, very little cell advancements were made.
 Due
STAGE 4
to the widely accepted traditional belief in Spontaneous Generation.
 Example:
Mice
𝝰-ketoglutarate undergoes
from dirty clothes/ oxidative decarboxylation to form succinyl CoA. The
cornhusks.
reaction is catalyzed by the 𝝰-ketoglutarate dehydrogenase enzyme complex.
One molecule of CO2 is released and NAD+ is converted to NADH.
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

 STAGE 5
 Succinyl CoA forms succinate. The enzyme succinyl CoA synthetase catalyses the
 1665
reaction. This is coupled with substrate-level phosphorylation of GDP to get GTP. GTP
transfers
 English its Robert
Scientist phosphate to discovered
Hooke ADP forming cellsATP.
while looking at a thin slice of a cork.
STAGEthe
 Described 6 cells as tiny boxes or honeycombs.
 He thought that cells only existed in plants and fungi.
 1673 Succinate is oxidized by the enzyme succinic dehydrogenase to fumarate. In the
 Antonprocess, FAD is converted
Van Leeuwenhoek used atohandmade
FADH2. microscope to observe pond scum and discovered single
STAGE
celled
 7
organisms.
 He called them “animalcules.”
 Fumarate gets converted to malate by the addition of one H2O (water). The enzyme
 He also observed blood cells from fish, birds, frogs, dogs, and humans.
catalyzing this reaction is fumarase.
 150-200 Year Gap
STAGE
 Between 8
Hooke/Leeuwenhoek and the mid-19th century, very little cell advancements were made.
 Due toMalate is dehydrogenated
the widely to belief
accepted traditional forminoxaloacetate, which combines with another
Spontaneous Generation.
 Example:
molecule of acetyl CoA and starts the new cycle. Hydrogens removed, get transferred
 Mice from dirty clothes/ cornhusks.
to NAD+ forming NADH. Malate dehydrogenase catalyses the reaction.
Note: Krebs Cycle will yield a byproduct of 2 ATP, 4 CO2, 6 NADH, 2 FADH2
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

3. Oxidative Phosphorylation (Electron Transport Chain and
Chemiosmosis)
 Transfer of hydrogen ions and electrons from NADH and FADH2 to the final electron
 1665
acceptor,
 English molecular
Scientist oxygen,
Robert Hooke is accomplished
discovered in an atelaborate
cells while looking a thin sliceelectron
of a cork. transport chain
embedded
 Described theincells
the as
inner
tinymembrane of mitochondria.
boxes or honeycombs.
 He thought
Oxygen is that cells only
the final existed
electron in plantscombining
acceptor, and fungi. with them and protons to produce water.
 1673
Electron
Anton Van Leeuwenhoek
Transport Chain used a handmade microscope to observe pond scum and discovered single
 celled organisms.
Series
 He calledof four
them protein complexes that couple redox reactions, creating an electrochemical
“animalcules.”
 Hegradient that blood
also observed leadscells
tofrom
thefish,
creation of ATP
birds, frogs, in ahumans.
dogs, and complete system named oxidative
phosphorylation.
 150-200 Year Gap
 Occurs Hooke/Leeuwenhoek
 Between in mitochondria in both and cellular respiration
the mid-19th andvery
century, photosynthesis.
little cell advancements were made.
 Collection
 Due of proteins
to the widely accepted bound to thebelief
traditional innerin mitochondrial membrane and organic molecules,
Spontaneous Generation.
 Example:
 which electrons
Mice from pass through
dirty clothes/ in a series of redox reactions, and release energy. The energy
cornhusks.
released forms a proton gradient, which is used in chemiosmosis to make a large amount of
ATP by the protein ATP-synthase.
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

 1665
 English Scientist Robert Hooke discovered cells while looking at a thin slice of a cork.
 Described the cells as tiny boxes or honeycombs.
 He thought that cells only existed in plants and fungi.
 1673
 Anton Van Leeuwenhoek used a handmade microscope to observe pond scum and discovered single
celled organisms.
 He called them “animalcules.”
 He also observed blood cells from fish, birds, frogs, dogs, and humans.
 150-200 Year Gap
 Between Hooke/Leeuwenhoek and the mid-19th century, very little cell advancements were made.
 Due to the widely accepted traditional belief in Spontaneous Generation.
 Example:
 Mice from dirty clothes/ cornhusks.
/ATP CYNTATE
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

 Complex 1 - NADH-Q Oxidoreductase:
 1665 Enzymes contain iron-sulfur and FMN.
 Receives
 English two electrons
Scientist Robert from cells
Hooke discovered NADH.while looking at a thin slice of a cork.
 Described the cells as tiny boxes or honeycombs.
 Hethought
FMNthat is derived from in
cells only existed vitamin
plants and B2.
fungi.
 1673
 Complex 2 - Succinate-Q Reductase
 Anton Van Leeuwenhoek used a handmade microscope to observe pond scum and discovered single
 organisms.
celled Receives FADH2 not passed through complex 1.
 He called them “animalcules.”
 He Connects
also complex
observed blood 1 and
cells from 2 to the
fish, birds, frogs,third complex
dogs, and humans.via ubiquinone (Q).
  Q Year
150-200 molecule
Gap is water-soluble and moves in the membrane's
 Between Hooke/Leeuwenhoek
hydrophobic core. and the mid-19th century, very little cell advancements were made.
 Due to the widely accepted traditional belief in Spontaneous Generation.
 Electron is delivered directly to the electron transport chain.
 Example:
 Mice
 ATP fromyield
dirty clothes/ cornhusks. to pumped protons across the
is proportional
mitochondrial inner membrane.
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

 Complex 3 - Cytochrome C Reductase
 1665 Comprised of Fe-S protein, Cytochrome b, and Cytochrome c.
 Cytochrome
 English Scientist Robert proteins containcells
Hooke discovered thewhile
heme group.
looking at a thin slice of a cork.
 Described
 the cells as tiny boxes
Responsible for or honeycombs.
proton pumping across the membrane.
 He thought that cells only existed in plants and fungi.
 1673
 Passes electrons to cytochrome c, which is transported to
 Anton Van Leeuwenhoek used a handmade microscope to observe pond scum and discovered single
celledthe 4th complex.
organisms.
 He called them “animalcules.”
 Complex 4 - Cytochrome C Oxidase
 He also observed blood cells from fish, birds, frogs, dogs, and humans.
  Comprised
150-200 Year Gap of cytochrome c, a, and a3.
 Contains
 Between two hemeand
Hooke/Leeuwenhoek groupstheinmid-19th
cytochromes c and
century, very little a3.
cell advancements were made.
 Due to the widely accepted traditional belief in Spontaneous Generation.
 Holds oxygen between copper and iron until fully reduced.
 Example:
 Reduced
 Mice from dirtyoxygen
clothes/ cornhusks.
combines with hydrogen ions to form water.
Note: Electron transport chain will yield a byproduct of about 32 ATPs
 3 MAJOR PHASES OF AEROBIC CELLULAR RESPIRATION

 1665
 English Scientist Robert Hooke discovered cells while looking at a thin slice of a cork.
 Described the cells as tiny boxes or honeycombs.
 He thought that cells only existed in plants and fungi.
 1673
 Anton Van Leeuwenhoek used a handmade microscope to observe pond scum and discovered single
celled organisms.
 He called them “animalcules.”
 He also observed blood cells from fish, birds, frogs, dogs, and humans.
 150-200 Year Gap
 Between Hooke/Leeuwenhoek and the mid-19th century, very little cell advancements were made.
 Due to the widely accepted traditional belief in Spontaneous Generation.
 Example:
 Mice from dirty clothes/ cornhusks.