Biochemistry Flashcards
What three atoms are biomolecules made up of?
Protons, neutrons and electrons
What is the nucleus composed of?
Protons and neutrons
What is the mass and charge of a proton?
Mass of 1
Positive charge
What is the mass and charge of a neutron?
Mass of 1
No charge
What is the mass and charge of an electron?
Mass is negligible
Charge is negative
Where are electrons found?
Orbiting the nucleus in an orbital shell
Each colum in the periodic table is known as a group. Provide 3 facts about groups
- Each group has shared chemical properties
- Increasing no. of electron orbitals from top to bottom
- Increasing no. of electrons that can be lost, gained or shared (Valence)
Each row in the periodic table is called a period. Give 2 facts about periods
- Each period has the same number of electron shells
- Total number of electron shells increases from period 1 to period 7.
What does the atomic number, denoted above an element, tell you?
How many protons are in the nucleus of that particular atom
Where can you find the mass of an atom on the periodic table?
Below an element. The atomic mass tells you the number of protons and neutrons and negligible mass of electrons.
What does the difference between the mass and the atomic number tell you?
The number of neutrons in the nucleus of an atom.
Define the ionization energy
The energy input needed to discharge an electron.
What is the electron affinity?
The energy released when electron is attached to a neutral atom.
Provide 3 metal characters
- malleable
- conduct heat and electricity
- mostly solid at room temp (except mercury)
The atomic radius __________ down a group.
Increases
The electronegativity ___________ down a group.
Decreases
The ionisation energy __________ down a group.
Decreases
Is ionisation low or high in very reactive elements?
Low, they also tend to have a low electronegativity,
Does ionisation energy increase or decrease across a period?
Increases
Does electron affinity increase or decrease across a period?
Increase
Where can elements with the strongest metal properties be found in the periodic table?
Bottom left
Where can elements with the most non-metal characteristics be found?
Top right of the periodic table
What determines the reactivity of an atom?
The number of electrons
How are electons orbitting the same orbital shown?
As pairs
How do we know if atoms are reactive or stable?
- Atoms whose outermost shells contain unfilled orbitals (unpaired electrons) are reactive.
- When all the orbitals in the outermost shell are filled, the atom is stable.
Why is the charge balance of helium neutral?
Helium has a pair of electrons and a pair of protons
What is the basis of a covalent bond?
Sharing of electron pairs
What is the basis of an ionic bond?
Attraction of opposite charges
What is the basis of a hydrogen bond?
Sharing of a H atom
What is the basis of a hydrophobic interaction?
Interaction of non-polar substances in the presence of polar substances (especially water).
What are van der Waals interactions?
Interaction of electrons of non-polar substances
Define bond energy
The amount of energy needed to separate two bonded or interacting atoms under physiological conditions.
This is how the strength of a bond is measured/described
What is the strongest type of bond?
Covalent, ionic bonds (the next strongest) are much weaker.
What is the usual number of covalent bonds a single atom can make the same as?
The number of reactive (unpaired or single pair in unfilled orbital) electrons in the outer shell.
Why is the number of covalent bonds an atom can make biochemically important?
Defines the role atoms can play in life.
How many covalent bonds can carbon make and what shape does this produce?
4, forms a tetrahedral shape/form
Carbon compounds can form complex structures. As well as covalent bonds with itself carbon can also form bonds with Hydrogen, Nitrogen and Oxygen atoms. What does this produce/allow?
Variability
Name 4 complex structures formed by carbon compounds
- Linear ampiphatic e.g. stearic acid
- Cyclic e.g. cholesterol
- Branched e.g. ß-Carotene
- Planar e.g. chlorophyll
Define electronegativity
The attractive force that an atomic nucleus exerts on electrons
The addition and removal of the following group is known as….
Phosphorylation and de-phosphorylation (a common way of changing a proteins function).
Acylation is the addition of which group?
Carboxylation is the addition of which group?
Carboxylation may alter the ability of a terminal part of a protein to interact with another structure.
What is the name of the following type of reaction?…
Esterification- esters are formed when an alcohol and an acid interact with eachother.
What happens during a condensation reaction?
Water is removed
anabolism is the assembly of monomers into a polymer, often involves the removal of water - condensation.
What happens during a hydrolysis reaction?
Water is added
Catabolism is when a biological polymer is broken down to produce water.
What happens during oxidation-reduction (Redox) reactions?
Electrons are transferred from one molecule to another
What is oxidation?
Oxidation is loss of electrons
What is reduction?
Reduction is gain of electrons
As one molecule is oxidised another is reduced, what is this known as?
A redox pair
AH + B ⇔A +BH
Which molecule is oxidised, electron donor, reducing agent?
A
AH + B ⇔ A + BH
Which one is reduced, electron acceptor, oxidising agent?
B
Why are redox reactions biologically important?
They are fundemental to almost all biochemical reactions.
What are the 5 oxidation states of carbon?
- Alkane (in fats)
- Alcohol (in carbohydrates)
- Aldehyde
- carboxylix acid
- carbon dioxide (final product of catabolism)
Name 6 common functional groups in biological molecules
- Methyl groups
- Methylene groups
- Amino groups and amides
- Carboxyl groups and esters
- Carbonyl groups and aldehydes
- Phophates
The ability of carbon to form ___________ shapes in combination with biologically important elements gives structural and reactive diversity to biochemical molecules.
Tetrahedral
Redox reactions define the movement of __________ between reactive groups on biomolecules.
electrons
Metabolism and, thus life, is a fundementally net ________ process in which carbon moves from a fully __________ (stable carbon structure) to fully _________ state (carbon dioxide)
Oxidative
Reduced
Oxidised
Name 5 functions of biomolecules
- Information storage- DNA
- Structural- teeth, bones, cartilage
- Energy generation- glycolysis, citric acid cycle, electron transport chain
- Enery currency/storage-ATP
- Recognition/communication/specificity- receptors, hormones, enzymes
Name the 4 major classes of biomolecules
- Peptides and proteins- consists of amino acids
- Lipids- triglycerides, phospholipids, steroids
- nucleic acids- DNA, RNA
- carbohydrates- mono-, di-, polysaccharides
Give one example of a monosaccharide, the building blocks of carbohydrates
Glucose
An O atom in glucose between carbon 1 and 5 circulises the molecule and creates a reducable target which releases energy. Glucose molecule is cleaved into two 3 carbon molecules in the first step of the glycolytic pathway.
What do carbohydrates do?
Store combustible or metabolic energy in the cell in the form of carbon chains which are linked to oxygen and hydrogen.
How are disaccharides formed?
By covalent bonds between carbon 1&4 or 1&2 positions.
What do disaccharides do?
Provide your body with a rapid source of energy as the O atom linking the moleucles is readily reduced by enzymes to generate readily metabolised monosaccharides.
Give 4 examples of disaccharides
- Latcose
- Maltose
- Sucrose
- Cellobiose
What do polysaccharides do in the body?
Provide large, onboard stores of stored metabolic energy in the form of polymeric glucose known as glycogen.
Give 2 examples of polysaccharides
- Cellulose
- Glycogen
In all chemical reactions, matter and energy are neither __________ or __________.
Created , destroyed
What is thermodynamics?
Biophysical discipline which deals with the question of whether a process is energetically favourable.
State the first law of thermodynamics
Energy is neither created nor destroyed-when energy is converted from one form to another, the total energy before and after the conversion is the same.
What is the second law of thermodynamics?
When energy is converted from one form to another, some of that energy becomes unavailable to do work- no energy transformation is 100% efficient.
What happens if there is no energy to apply order to a system?
Unless energy is applied to a system, it will be randomly arranged or disordered.
What is enthalpy and its symbol?
Heat content
H
What is entropy and its symbol?
Randomness, disorder
S
What is the most important change in a reaction? How do we calculate it?
The most important change is in free energy:
change in free energy = change in enthalpy - T x change in entropy
What is another way to calculate the free energy change?
Change in free energy = (energy of the products) - (energy of the reactants)
In exergonic reactions the total free energy of the product(s) is ______ than the total free energy of the reactant(s)
So the free energy change is ________.
Less
Negative
Can exergonic reactions occur spontaneously?
Yes
Give two examples of how the energy liberated in an exergonic reaction can be used to do work
- conversion of glycogen to glucose
- generation of body heat
Give 4 facts about endergonic reactions
- The total free energy of the product(s) is more than the total free energy of the reactant(s).
- Free energy change(delta G) is positive
- Cannot occur spontaneously
- need input of energy to proceed
What is delta Gº’ ?
The change in free energy under standard conditions.
What does R stand for?
The universal gas constant (8.3JK¯¹mol¯¹)
What does T stand for?
T is the absolute temperature (in degrees Kelvin)
What are standard conditions in the human body?
- T=298K
- 1 atmosphere pressure
- 1 M(1mol/l) concentration of reactants (except for H+)
- Delta Gº’
Why is it not 1M of Hydroegn ions used for standard conditions in the human body?
In the body 1M of hydrogen ions is difficult (pH=0, which is extremely acidic) pH=7 is preferred.
How is free energy related to equilibrium?
The further towards completion the point of equilibrium is, the more free energy is released.
What kind of free energy values are characteristic of readily reversible reactions?
Delta G values near 0.
Define the equilibrium of a reversible reaction
When the concentration of products is equal to the concentration of reactants, forwards and backwards reactions are balanced.
Are reactions with a negative delta Gº’ i.e. reactions going from high energy reactants to low energy products favourable?
Yes
What does increasing the concentration of reactants [A][B] relative to products [C][D] do to the change in free energy?
- [C][D]/[A][B] becomes smaller than 1
- The ln of a number smaller than 1 is negative
Which enzyme catalyses the reaction Glucose-6-phosphate ⇔ Glucose-1-phosphate?
Phosphoglucomutase
Glucose-6-phosphate ⇔ Glucose-1-Phosphate
What are the forward and backward reactions involved in?
- Forward reaction is involved in glycogen synthesis
- Back reaction is involved in glycogen breakdown
Give 3 reasons why many cellular processes are unfavourable
- Have to proceed in the direction of a positive delta G
- transport against a gradient
- synthesis of large molecules
How can cellular processes which are unfavourable be driven?
By coupling them to a highly favourable process.
Usually the generartion of pyruvate and inorganic phosphate which is exergonic
Is the reaction of ATP + water → ADP +Pi + H+ favourable?
Yes it has a very negative deltaGº’ (-30kJ/mol)
How do many reactions in the body occur?
By coupling an unfavourable reaction (positive deltG) with a very favourable reaction like the breakdown of ATP.
What is ATP used for?
It is used as a universal energy currency for driving many different cellular processes.
What are anhydride bonds?
High energy bonds
What do the negative charges close together in ATP do to make it less stable than ADP?
Put a strain (electrostatic repulsion) on the molecule.
How is the strain created by negative charges close together on ATP partially relieved?
By removing one or more phosphate groups
Do cells store much ATP?
No, cells do not store large amounts of ATP- concentrations < 10mM
Give 2 reasons why ATP is constantly regenerated
- Cells do not store large amounts of ATP
- Active muscle cells (for example) use it at a high rate
Provide 2 examples of ways we can regenerate ATP
- using creatine phosphate
* standard free energy of hydrolysis = -43kJ/mol - using 2 ADP ⇔ATP + AMP
What does metabolism encompass?
All of the reactions taking place in the body, divided into Catabolism + Anabolism
(all exergonic and endergonic reactions although it is important not to assume all catabolic reactions are exergonic and anabolic endergonic)
What is catabolism?
Breaking down complex moleucles into smaller ones and releasing energy
THERE ARE ENERGY CONSUMING STEPS IN SOME CATABOLIC PATHWAYS
What is anabolism?
Synthesizing complex molecules out of smaller ones in energy consuming reactions.
Describe glycolysis as an example for a catabolic pathway in four points.
- Initial breakdown of glucose for the generation of ATP
- Early steps use two ATP molecules
- Later steps generate four ATP molecules
- Net gain of two ATP molecules per glucose molecule
Describe glucogenesis as an example for an anabolic pathway in 3 points
- Making new glucose from non-carbohydrate precursors, e.g. pyruvate
- costs energy- which could for example come from fat metabolism
- this pathway is NOT simply the reverse of glycolysis
Which reactions are not used as control points?
Reactions close to equilibrium (delta G close to 0)
Which reactions are useful control points?
Reactions with large negative delta G values are useful control points.
Define flux
The rate of turnover of molecules through a metabolic pathway.
How is flux through control points in metabolic pathways controlled?
By altering the activity of the enzyme involved
What are carbohydrates composed of?
Carbon chains that are primarily linked to hydrogen and oxygen atoms.
Why is the oxidation of carbohydrates important in metabolic pathways?
Provides an important source of energy release.
Why are carbohydrates as polymers (disaccharides/polysaccharides) useful?
They provide an important form of stored energy which can be held within cells or moved between organs.
What do the laws of thermodynamics do?
Place limits on biochemical processes. The tendency of sequential reactions to convert energy to unusable forms ultimately sets a limit to life.
Describe water molecules
- Water is polar
- electrons are shared unequally
- depends on electronegativity of atoms
- oxygen has a high positive electronegativity at 3.5, hydrogen has a lower positive one of 2.2. Charge difference caused by an unequal share of covalently bonded electrons. This is called a dipole moment, negative charge is nearer the oxygen.
- Water molecule is bent
- forms a dipole
- tetrahedral shape
Which type of substances dissolve in water?
- Ionic and polar substances dissolve in water
- hydrophilic, greek for ‘water loving’
- Based on electrostatic interactions
- ion-dipole interactions
- dipole-dipole interactions
Describe how a hydrogen bond forms
- A covalent bond between hydrogen and a more electronegative atom (e.g. oxygen) creates a polarized bond- hydrogen has a partial positive charge.
- This hydrogen can interact with unsharred electrons from another electronegative atom.
- This interaction is called a hydrogen bond.
Are hydrogen bonds stronger than covalent bonds?
Individually much weaker than covalent bonds but can be stronger collectively
Where are hydrogen bonds important?
In water and biological structures
Describe hydrogen bonds in biomolecules
Hydrogen atoms are shared between two electronegative atoms. Bonds tend to be linear.
Are non-polar substances soluble in water?
No they are insoluble in water- hydrophobic
Why are non-polar substances insoluble in water?
- Powerful attraction between water molecules- they prefer to interact with themselves instead of non-polar molecules.
Are hydrocarbons polar molecules?
No, they are very non-polar and hydrophobic- compounds consisting only of carbon and hydrogen.
Water tends to exclude hydrocarbons- non-polar solid does not dissolve, non-polar liquids form a two-layer system with water.
Oil and water _______ mix.
Often called the _______ effect.
- do not
- hydrophobic
What are amphipathic molecules?
Ones which are both hydrophilic and hydrophobic, also called amphiphilic
Describe the two elements of amphipathic molecules
- Polar (hydrophilic) ‘head’ group (at one end)- different types e.g. the choline group, carboxylic acid group; interact well with water
- Non-polar (hydrophobic) ‘tail’ (at other end)- hydrocarbon, do not interact well with water
How do amphipathic molecules behave in water?
Form miscelles in water
- ‘head’ groups in contact with water
- ‘tail’ groups sequestered from the water
What do cell membranes do?
Selective and controllable barrier to the outside world which aid compartmentalixation by isolating organelles.
What are cell membranes composed of?
Lipids of various types
- structural (lipid bilayer)
- precursors of signalling molecules (DAG, IP3)
Proteins of various types
- confer selectivity
- involved in recognition
- and more
Proteins and polypeptides are made up of how many L-amino acids?
20
What does D and L refer to in relation to amino acids?
Their stereochemistry
All amino acids contain an alpha carbon bonded to which 4 components?
- An amino group (NH2)
- A carboxyl group (-COOH)
- A hydrogen (-H)
- A side chain (-R)
D- and L- forms of amino acids are known as what?
Stereoisomers
What are stereoisomers?
Non-superimposable mirror images
Name 8 non-polar, hydrophobic amino acids
- Leucine
- Proline
- Alanine
- Valine
- Methionine
- Trytophan
- Phenylalanine
- Isoleucine
Name 7 polar, uncharged amino acids
- glycine
- serine
- asparagine
- glutamine
- threonine
- cysteine
- Tyrosine
What are acidic amino acids? Name 2
Acidic amino acids have side chains with a hydrogen ion that can dissociate in solution,they ionise to create acidic regions in a protein.
e.g. aspartic acid, Glutamic acid
What are basic amino acids? Name 3
Basic amino acids have side chains with ammonia like side groups that tend to bind hydrogen ion and gain a positive charge in solution. They can create basic regions in a protein.
Three examples
- Lysine
- Arginine
- Histidine
How is a peptide bond formed?
Two amino acids are combined in a condensation reaction where water is removed. A peptide bond is formed CO-NH
Peptides have a direction, what is the direction of the peptide chain?
They run from the N-terminal residue to the C-terminal residue.
State three facts about Peptide bonds
- Peptide bonds partial double bond character
- Peptide bonds are planar
- Peptide bonds are strong and rigid-important for folding
What are acids?
Molecules which can donate a proton (hydrogen ion, H+)
What are bases?
Bases are proton acceptors
What does the strength of an acid depend on?
How readily it loses a proton
How is the strength of an acid measured?
By the acid dissociation constant, Ka
HA ⇔ H+ + A-
Ka= [H+][A-] / [HA] or pKa= -log10[Ka]
HA = acid A-= conjugate base
What is pH? How do we calculate it?
A measurement of the amount of protons in a solution.
pH= -log10[H+]
logarithm to the base 10 of the proton concentration.
What would you term a solution with pH=7?
Neutral
What would you term a solution with pH<7?
Acidic
What would you term a solution with pH >7?
Basic (alkali)
What is the Henderson-Hasselbalch equation and what does it do?
pH = pKa + log [A-]/[HA]
- Connects the Ka of a weak acid with the pH of a solution containing this acid.
- Lets us calculate the properties of buffer solutions- depending on the concentrations of acid and conjugate base.
What is a buffer?
- A solution to control the pH of a reaction mixture.
- At their pKa value buffers tend to resist a change of pH on addition of moderate amounts of acid or base.
What do we plot for a titration curve?
Plots pH as a function of base added to an acid.
Close to pKa what happens to pH if base is added?
It remains relatively unchanged
Describe zwitterions
- Amino acids without charged side groups exist as zwitterions in neutral solution- no net charge.
- Contain two titratable groups
- Isoelectric
- If acid is added- cationic form
- If base is added-amionic form
What is the isoelectric pH?
The pH at which a molecule has no net charge is called the isoelectric pH, pI
What is the significance of uncharged amino acids having two titratable groups?
They have two pKa values
Explain why proteins can act as buffers
- The ends of proteins can be ionised
- Several of the amino acid side chains can be ionised
A change in ____ can change ionisation of a protein. This can lead to changes in ________ and thereby function.
- pH
- structure
Differences in the ____________ properties of atoms in water molecules create dipoles which promote _________ bond interactions between biomolecules.
- electronegative
- hydrogen
Why do hydrogen bonds have an important role in biochemical reactions and transitional stabilisation of molecular interactions?
They are weak but readily reversible
How is it possible for amphipathic molecules which contain hydrophilic and hydrophobic domains to span polar and non polar environments.
As non-polar molecules cannot form hydrogen bonds.
Amino acids have unique properties which can confer hydrophobic, __________, acid or ______ properties to peptide chains and proteins.
- hydrophilic
- basic
The ___________ properties of the amino acid backbone can confer unique buffering properties to proteins which influence their function.
zwitterionic
Name 3 important consequences on protein function from protein buffering characteristics
- impact their ability to interact with other binding partners
- protein structure
- protein distribution within the cell
Name the four levels of protein structure
- primary structure
- secondary structure
- tertiary structure
- quaternary structure
