ACS BIOCHEMISTRY EXAM – OBU
Latest Graded A+
Separation of Organelles / Fractionation of Cells - ANSWER Differential Centrifugation
1. Tissue Homogenization
2. Low speed centrifugation (whole cells, nuclei, membrane)
3. Medium speed centrifugation (mitochondria, lysosomes, peroxisomes)
4. High speed centrifugation (microsomes -fragments of ER)
5. Very high-speed centrifugation (soluble proteins)
Isopycnic Centrifugation - ANSWER Sucrose-Density (components separated by
density)
Interactions occur... - ANSWER because of the electrostatic properties of molecules.
- these properties can involve full, partial or momentary charges
Examples of electrostatic interactions - ANSWER dipole-dipole interactions
hydrogen bonds
ionic interactions
van der Waals interactions
Hydrophobic Interactions... - ANSWER entropy, not an attraction between hydrophobic
molecules
The special properties of water... - ANSWER derived from its polarity and hydrogen
bonding
- overall polarity is due to polar bonds and shape
Entropy & 2 Critical Processes that involve Water - ANSWER 1. Dissolving of highly
ordered solids (salts)
- entropy of some of the water is decreased, but the entropy of the ions is greatly
increased
2. The hydrophobic effect
- there is no strong attraction between hydrophobic molecules (van der Waal's only)
- there is no repulsion between hydrophobic molecules and water
Aggregation of H-bonds in water is driven by - ANSWER entropy change of water
(decrease)
- it can also drive other reactions such as enzyme-substrate interaction
Ion Product Constant - ANSWER [H+][OH-] = Keq [HOH] = 1.0 x 10^-14
, Equilibrium Constant - ANSWER Keq = [H+][OH-]/[HOH]
2 Applications of pH - ANSWER 1. Controlling pH with buffers
2. How pH (protonation) affects weak interactions of molecules (charge and ability to
form H-bonds)
pKa = - ANSWER -log Ka
pKa definition - ANSWER pH at which half of the acid is ionized. titration curves reveal
the pKa of weak acids
- is a measure of affinity for protons
a high pKa constitutes... - ANSWER it takes a high pH (lots of OH-) to remove the H+
from the acid
- the acid has a high affinity for H+
- if the pKa is high, it has a HIGH affinity (want) to grab onto H+, because of the large
amount of OH-
Significance of Buffering - ANSWER 1. Homeostasis
2. This phenomenon is very important for biochemical activity - many reactions depend
on the state of protonation of particular functional groups
A buffer is made... - ANSWER from a weak acid and its conjugate base
Henderson-Hasselbalch Equation - ANSWER pH = pKa + log ([A-]/[HA])
(unprotonated over protonated)
Decent Buffering occurs... - ANSWER within around 1 pH unit of pKa (ration of A/HA is
between 1/10 or 10/1
Buffering of Blood - ANSWER blood is primarily buffered by the bicarbonate system
(CO2/HCO3-) but also by phosphoric acid system (H2PO4-/H3PO4)
The hydration of CO2 (middle equilibrium) is greatly enhanced by the enzyme... -
ANSWER carbonic anhydrase
Carbonic anhydrase - ANSWER raises H+ conc in RBC's, therefore affecting the
ionization of hemoglobin side chains which affects O2 binding and release
How will breathing rate affect the CO2/HCO3- equilibrium? - ANSWER excessive
breathing creates a low level of CO2 in the blood
- if CO2 levels increase, the brain tells the lungs to increase rate and depth of breathing
to bring the levels down
Latest Graded A+
Separation of Organelles / Fractionation of Cells - ANSWER Differential Centrifugation
1. Tissue Homogenization
2. Low speed centrifugation (whole cells, nuclei, membrane)
3. Medium speed centrifugation (mitochondria, lysosomes, peroxisomes)
4. High speed centrifugation (microsomes -fragments of ER)
5. Very high-speed centrifugation (soluble proteins)
Isopycnic Centrifugation - ANSWER Sucrose-Density (components separated by
density)
Interactions occur... - ANSWER because of the electrostatic properties of molecules.
- these properties can involve full, partial or momentary charges
Examples of electrostatic interactions - ANSWER dipole-dipole interactions
hydrogen bonds
ionic interactions
van der Waals interactions
Hydrophobic Interactions... - ANSWER entropy, not an attraction between hydrophobic
molecules
The special properties of water... - ANSWER derived from its polarity and hydrogen
bonding
- overall polarity is due to polar bonds and shape
Entropy & 2 Critical Processes that involve Water - ANSWER 1. Dissolving of highly
ordered solids (salts)
- entropy of some of the water is decreased, but the entropy of the ions is greatly
increased
2. The hydrophobic effect
- there is no strong attraction between hydrophobic molecules (van der Waal's only)
- there is no repulsion between hydrophobic molecules and water
Aggregation of H-bonds in water is driven by - ANSWER entropy change of water
(decrease)
- it can also drive other reactions such as enzyme-substrate interaction
Ion Product Constant - ANSWER [H+][OH-] = Keq [HOH] = 1.0 x 10^-14
, Equilibrium Constant - ANSWER Keq = [H+][OH-]/[HOH]
2 Applications of pH - ANSWER 1. Controlling pH with buffers
2. How pH (protonation) affects weak interactions of molecules (charge and ability to
form H-bonds)
pKa = - ANSWER -log Ka
pKa definition - ANSWER pH at which half of the acid is ionized. titration curves reveal
the pKa of weak acids
- is a measure of affinity for protons
a high pKa constitutes... - ANSWER it takes a high pH (lots of OH-) to remove the H+
from the acid
- the acid has a high affinity for H+
- if the pKa is high, it has a HIGH affinity (want) to grab onto H+, because of the large
amount of OH-
Significance of Buffering - ANSWER 1. Homeostasis
2. This phenomenon is very important for biochemical activity - many reactions depend
on the state of protonation of particular functional groups
A buffer is made... - ANSWER from a weak acid and its conjugate base
Henderson-Hasselbalch Equation - ANSWER pH = pKa + log ([A-]/[HA])
(unprotonated over protonated)
Decent Buffering occurs... - ANSWER within around 1 pH unit of pKa (ration of A/HA is
between 1/10 or 10/1
Buffering of Blood - ANSWER blood is primarily buffered by the bicarbonate system
(CO2/HCO3-) but also by phosphoric acid system (H2PO4-/H3PO4)
The hydration of CO2 (middle equilibrium) is greatly enhanced by the enzyme... -
ANSWER carbonic anhydrase
Carbonic anhydrase - ANSWER raises H+ conc in RBC's, therefore affecting the
ionization of hemoglobin side chains which affects O2 binding and release
How will breathing rate affect the CO2/HCO3- equilibrium? - ANSWER excessive
breathing creates a low level of CO2 in the blood
- if CO2 levels increase, the brain tells the lungs to increase rate and depth of breathing
to bring the levels down
