Drug-target bonds Flashcards
Give features of proteins?
- Proteins are made of strings of amino acids joined together by peptide bonds
- Most proteins are folded (tertiary structure)
- Proteins can move (channels can open and close, receptors can activate, G-protein subunits can separate)
- Proteins are dynamic structure
- Proteins exist in solvents
What do drugs do with the binding domain?
- Drugs make specific connections (bonds) with binding domain
- Binding energy of drug -> conformational effect
What are the dynamics of Nramp?
- Natural resistance associated macrophage protein
- Involved in defence against intracellular pathogens
- Ion transporter
- Secondary structure moves around quite a lot due to thermal agitation of the protein
Myoglobin is a water soluble protein - what does this mean?
- Water molecules form a hydration shell around
- Interact positively with (Mb)
What happens with Glutamine binding to GBP?
- Starts in open state with cleft in middle
- When glutamine interacts pulls two amino acids together and closes the cleft
- Makes a much more compact shape
Give features of binding domain topology
- Often folding brings amino acids that are far away in the linear structure close together
= binding domain can involve linearly distant amino acids - This can help form a binding domain
- The peptide backbone is a very important component of the binding domain – they help shape it and provide the chemical environment
Full of nitrogen and oxygen which are very important in some bond types
Helps form structure
What are some polar amino acids?
Serine Cyesteine Threonine Glutamine Asparagine
What are some acidic amino acids?
Glutamate
Aspartae
What are some Aromatic amino acids?
Phenylalanine
Tyrosine
Tryptophan
What are the nonpolar amino acids?
Alanine Glycine Leucine Isoleucine Valine Proline Methionine
What are the basic amino acids?
Lysine
Arginine
Histidine
What are ion-dipole bonds?
Between an ion and a dipole
What are dipole-dipole bonds?
Between two dipoles
What are ionic bonds?
Strongest type of bond > 100 KJ/mol Holds together salt Not very common Between oppositely charged ions
What is a dipole?
A partially charged atom
What do you need for a hydrogen bonds and give examples of these and how they work?
- You need a hydrogen bond acceptor and a hydrogen bond donor
- A hydrogen bond acceptor is usually an oxygen or nitrogen bonded to a carbon
- Key features of nitrogen and oxygen that make them H bond acceptors is that they are electronegative and have a lone pair of electrons
- In hydrogen bond donors you have an Oxygen, Nitrogen or Sulphur bonded to a hydrogen
- Here the electronegative atom tries to steal the electron it shares with the hydrogen – this leaves the hydrogen with a slight positive charge (it becomes a dipole)
- The partially positive hydrogen will interact with the nitrogen or oxygen’s (the acceptor’s) lone pair of electrons. This is a dipole-dipole interaction. This can be fairly strong
Give features of hydrogen bonds
- Directional
- (linear>angled)
- 4-20 KJ/mol
- Maximum bond strength of hydrogen: 20-30 KJ/mol
- key to secondary structure of the protein (alpha helices and beta pleated sheets)
What are hydrophobic bonds?
- they are formed by entropy gain when two hydrophobic regions come together to hide from water
- it increases the disorder of the system
What is the simulation of a solvated protein?
- Protein will have arranged itself so that hydrophilic bits face out and interact with water
- Hydrophobic bonds buried in the middle – hold protein together
What are Van der Waal bonds?
- General attraction between two molecules
- Local dipoles – electrons randomly arrange themselves (not because the molecules are polar)
- Very weak <2 KJ/mol
- In the dipole they will have a partially positive and partially negative charge
What are covalent bonds?
- Very strong (>100 KJ/mol)
- Full electron sharing
- Quite rare
What drugs use covalent bonds?
Irreversible enzyme inhibitors (organophosphates, aspirin)
