biology 350: animal physiology spring 2021
TRANSCRIPT
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Biology 350: Animal PhysiologySpring 2021
https://www.youtube.com/watch?v=zb1YFpmuIXA
https://www.youtube.com/watch?v=rkqKoyGhZL4
https://www.youtube.com/watch?v=N0h7ycVCMqI
This one is short and opens the mind to
animal behaviors – what is the physiology
behind on of these ?
Instinct behaviors – kind of neat- not too long-
we can talk about some content
On your own if you are bored and like watching
animals in the wild
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OK so now how are you going to study
for your classes ?
Do you really want to learn content ?
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http://www.ukclimbi
ng.com/news/item.
php?id=49981
If you get a chance, watch this youtube movie.
Think about the physiology going on.
Psychological factors…. Controlled by physiology.
Muscle, sensory, thought, experience, fatigue,
what else …. Breathing ?
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Physiology
▪ Define: The study of how living organisms
function
▪ Structure & function are important to understand
function
▪ Why study: Curiosity. Better understand how
humans function under normal conditions. Thus,
modifications of pathological states back to a
‘normal’ state might be possible.
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▪ Many of the physiological process are
described by chemical and physical properties
▪ It is important to integrate these concepts with
biology.
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▪ The physiology of an animal is well suited to
the environment in which it has evolved.
This is explained by the process of
ADAPTATION- gradual change over many
generations. Evolutionary process.
▪ Acclimatization is a change of an individual
over its lifetime of biochemical or anatomical
alterations.
▪ Acclimation is like acclimatization but induced
by experimentation.
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▪ Homeostasis - The tendency of an organism
to regulate and maintain relative internal
stability.
▪ Cannon coined this term 1929
▪ See history section:
https://en.wikipedia.org/wiki/Homeostasis
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This mostly works by a feed back control.
Such as by a negative feedback.
Examples - Temp, pH, salinity within the body
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▪ Know August Krogh principle.
- that there is an animal optimally suited to yield
an answer of a physiological problem to be
addressed.
- Can you think of some examples ?
(Put in your ppt notes)
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Question: Does a chicken egg lose weight in
development to a chick about to hatch ?
a. It gains weight
b. It loses weight
c. It stays the same weight
Write out your logic …..
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Cell level – it all starts here
▪ Categories of organic molecules
• Carbohydrates• Monosaccharides (e.g. glucose)• Polysaccharides (e.g. glycogen, cellulose,
chitin)
• Lipids• Fatty acids• Triglycerides• Phospholipids• Cholesterol
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▪ Categories of organic molecules
• Proteins• Composed of amino acids• Highly complex three-dimensional structures• Peptides are smaller chains of amino acids
• Nucleic acids• Composed of nucleotides• Deoxyribonucleic acid (DNA)• Ribonucleic acid (RNA)
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2.1 Introduction
▪ Major subdivisions of eukaryotic cells
• Plasma membrane (cell membrane)• Separates the cell’s contents from the
surrounding environment• Selectively controls movement of molecules
between intracellular fluid (ICF) and extracellular fluid (ECF)
• Nucleus• Contains DNA
• Cytoplasm• Contains organelles and cytoskeleton dispersed
within the cytosol
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2.1 Introduction
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2.2 Nucleus, Chromosomes, and Genes
▪ Nucleus
• Contains materials for genetic instructions and inheritance
• DNA is packaged with histones to form chromosomes
• Functions of DNA• Provides a code of information for RNA and protein
synthesis• Serves as a genetic blueprint during cell replication
• Nucleus is the control center of the cell
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2.2 Nucleus, Chromosomes, and Genes
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Mitochondrion
Intermembrane
spaceCristae
Proteins ofelectron transportsystem
Innermitochondrialmembrane
Matrix Outermitochondrialmembrane
Cristae
Figure 2-16 p47
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2.8 Mitochondria and Energy Metabolism
▪ Aerobic metabolism in mitochondria relies on O2 to convert energy in food into ATP.
• Aerobic pathways require consumption of O2
• Anaerobic pathways can proceed in the absence of O2
• Energy is released when electrons are transferred from high-energy bonds to electron acceptors in oxidation-reductionreactions
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2.8 Mitochondria and Energy Metabolism
▪ Universal energy carriers
• Adenosine triphosphate (ATP) carries a high-energy bond in the terminal phosphate• When the terminal phosphate bond is split, energy
is released
ATP ADP + Pi + energy
• Nicotinamide adenine dinucleotide (NADH)carries energy-rich electrons that can be used to reduce other organic molecule• Each NADH is worth almost 3 ATPs• Electrons of NADH are transferred to O2, the
final electron acceptor
splitting
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Glucose1
Cyto
so
lM
itoch
on
dria
l matrix
Mito
ch
on
dria
l
inn
er m
em
bra
ne
25
Total 32
6
10
2
2
2
2
2 3
NADH
NADH
NADH
NADH
FADH2
FADH2
2Glycolysis
Pyruvate
Pyruvate
to acetate
Acetyl-CoA
2 turnsof citric
acid cycle
Electron
transfer
Electron
transfer
10 x 2.5 ATP/NADH
Oxidative
phosphorylation
2 x 1.5 ATP/FADH2
ATP
ATP
2
2
Figure 2-17 p49
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2.8 Mitochondria and Energy Metabolism
▪ Glycolysis
• Chemical process that breaks down glucoseinto two pyruvate molecules
• Involves 10 sequential reactions, each catalyzed by a separate enzyme
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2.8 Mitochondria and Energy Metabolism
▪ Glycolysis
• All glycolytic enzymes are found in the
cytoplasm
• Glycolysis can proceed in the absence of
oxygen (anaerobic conditions)
• Releases two electrons that are transferred
to NAD+ to form NADH
• Not very efficient -- one molecule of glucose
yields only two molecules of ATP
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2.8 Mitochondria and Energy Metabolism
▪ Citric acid cycle
• Cyclical series of 8 reactions catalyzed by enzymes in the mitochondrial matrix
• Pyruvate produced by glycolysis enters the mitochondrial matrix
• Pyruvate is converted to acetyl CoA by removal of a carbon and formation of CO2
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2.8 Mitochondria and Energy Metabolism
▪ Citric acid cycle
• Acetyl CoA enters the citric acid cycle by combining with oxaloacetic acid to form citricacid
• Two carbons are released as CO2
• One ATP is produced for each turn of the cycle
• The key purpose of the cycle is to produce hydrogens for entry into the electron transport chain
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2.8 Mitochondria and Energy Metabolism
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2.8 Mitochondria and Energy Metabolism
▪ Electron transport chain
• Electron carrier molecules are located in the inner mitochondrial membrane
• Electrons are transferred through a chain ofreactions with the electrons falling to lower energy levels at each step
• O2 is the final electron acceptor of the electron transport chain (also called respiratory chain)• O2 combines with electrons and hydrogen to
form H2O
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Cytosol
Outer mitochondrial
membrane
Intermembrane
space
Inner
mito-
chondrial
membrane
Low H+
Electron transport systemElectrons flow through a series of electron carriers from high-energy to low-energy levels; the energy released builds an H+ gradient across the inner mitochondrial membrane.
ChemiosmosisATP synthase catalyzes ATP synthesis using energy from the H+ gradient across the membrane.
Head-
piece
ATPsynthase
High H+
Complex
II
Complex
III
Complex
IV
Mitochondrial
matrix
Oxidative phosphorylation
Complex
I
1
2
3
45
2
6
5
9
3 3
6
1
Figure 2-20 p52
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2.8 Mitochondria and Energy Metabolism
▪ Electron transport chain
• Some of energy released during transfer of electrons is used to synthesize ATP(oxidative phosphorylation)
• Total ATP yield is 30 ATPs per molecule of glucose
Food + O2 CO2 + H2O + ATP
(necessary for (produced (producedoxidative primarily by the primarily by
phosphorylation) citric acid cycle) the electrontransport chain)
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2.8 Mitochondria and Energy Metabolism
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2.8 Mitochondria and Energy Metabolism
▪ Metabolism under anaerobic conditions
• O2 deficiency forces cells to rely on glycolysis
• Pyruvate is converted to lactate
• Lactate accumulates in the tissues and reduces pH
• Lactate can be converted back to pyruvate
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Anaerobic conditions
Glucose
GlycolysisPyruvate
No O2
availableLactate
2
Aerobic conditions
Glucose Pyruvate
Glycolysis
2
Cytosol Mitochondrion
Citric acid cycle/Oxidative phosphorylation
O2 available
Mitochondrial
membranes
+ CO2+H2O30 ATP
Figure 2-23 p56
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2 ATP
36 ATP (?)
Total 38 ATP (?)
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Endosymbiotic theory - Lynn Margulis.
Why is it important to know this?
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Among the many lines of evidence supporting symbiogenesis
are that new mitochondria and plastids are formed only
through binary fission, and that cells cannot create new ones
otherwise; that the transport proteins called porins are found
in the outer membranes of mitochondria, chloroplasts and
bacterial cell membranes; that cardiolipin is found only in the
inner mitochondrial membrane and bacterial cell membranes;
and that some mitochondria and plastids contain single
circular DNA molecules similar to the chromosomes of
bacteria.
Endosymbiotic theory Lynn Margulis
Look it up:
https://en.wikipedia.org/wiki/Symbiogenesis
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Why is it important ?
Any medical / health application
hint
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Glycogen-storage of glucose
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2.8 Mitochondria and Energy Metabolism
▪ Tolerance of O2 deficiency varies widely among organisms
• Obligate aerobes -- require O2 continuously for survival (e.g. mammals)
• Facultative anaerobes -- can adapt to anaerobic conditions for days or months (e.g. brine shrimp embryos)
• Obligate anaerobes -- thrive in anaerobic environments• Inhibited or killed in the presence of O2
• Archaea, bacteria (e.g. Clostridium), and protozoa (e.g. Entamoeba)
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Anaerobic- Bacteria, some yeasts, some invertebrates
can live in low O2.
Ex. Clostridium botulinum can not grow in O2.
Aerobic- require a supply of O2. Some tissues like
muscle can function anaerobically and build up an “O2
debt” but pay back occurs.
With O2 the cells are 20 times more efficient to
produce ATP.
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Proteins
▪ A lot in cells. ½ of the dry mass.
▪ Various structures.
-Primary, secondary, tertiary, and quaternary
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Secondary
Alpha helix
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Secondary
Beta- sheet
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Secondary types
- alpha helix: alpha-Keratins for hair and wool
- Beta sheets: (Harder) beta- Keratins for reptile
scales and turtle shells
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Tertiary
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Quaternary- a couple of subunits coming
together like Heme units.
ie., Hemoglobin