Structure–activity relationships (SAR) MCQs With Answer

Structure–activity relationships (SAR) MCQs With Answer

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Structure–activity relationship (SAR) MCQs With Answer effectively give B. Pharm students focused practice on how chemical structure controls pharmacological activity. These multiple-choice questions explore SAR concepts such as pharmacophore mapping, electronic and steric influences, lipophilicity (logP), pKa, hydrogen bonding, bioisosteres and stereochemistry. They also cover quantitative tools such as QSAR, 3D QSAR, CoMFA, Hansch and Free-Wilson approaches, plus ADME, metabolic liability, lead optimization, scaffold modification and descriptor interpretation. The set emphasizes application: reading SAR tables, predicting potency changes after substitutions and proposing modifications to improve selectivity and drug-like properties. Now let’s test your knowledge with 30 MCQs on this topic.

Q1. Which molecular property is most directly quantified by logP in SAR analysis?

  • Ionization constant
  • Hydrophobicity (lipophilicity)
  • Hydrogen bond donor count
  • Steric bulk

Correct Answer: Hydrophobicity (lipophilicity)

Q2. The Hammett sigma constant describes which effect of a substituent on activity?

  • Steric hindrance
  • Electronic (inductive/resonance) effect
  • Lipophilicity
  • Conformational flexibility

Correct Answer: Electronic (inductive/resonance) effect

Q3. In Free‑Wilson analysis, what is required to quantify substituent contributions?

  • 3D structure of the target protein
  • Series of analogues with systematic substitution
  • Single high affinity ligand
  • Microsomal stability data

Correct Answer: Series of analogues with systematic substitution

Q4. Which descriptor is most important when predicting passive membrane permeability?

  • Topological polar surface area (TPSA)
  • Number of rotatable bonds only
  • Optical rotation
  • UV absorption maxima

Correct Answer: Topological polar surface area (TPSA)

Q5. What is a primary advantage of using bioisosteres in SAR-driven lead optimization?

  • Increase molecular weight only
  • Replace a group to retain activity while modifying ADME or toxicity
  • Make molecules more flexible
  • Ensure compounds are achiral

Correct Answer: Replace a group to retain activity while modifying ADME or toxicity

Q6. Activity cliffs in SAR describe which phenomenon?

  • Gradual linear increase in potency with molecular size
  • Small structural change causing large potency change
  • Loss of solubility with increasing lipophilicity
  • Convergence of multiple analogues to same potency

Correct Answer: Small structural change causing large potency change

Q7. Which 3D‑QSAR method visualizes steric and electrostatic contour maps?

  • Hansch analysis
  • CoMFA (Comparative Molecular Field Analysis)
  • Free‑Wilson analysis
  • Matched molecular pair analysis

Correct Answer: CoMFA (Comparative Molecular Field Analysis)

Q8. In Hansch QSAR, what types of terms are typically included in the regression equation?

  • Only topological indices
  • Lipophilicity (pi), electronic constants, and steric parameters
  • Only experimental ADME values
  • Only protein crystal contact energies

Correct Answer: Lipophilicity (pi), electronic constants, and steric parameters

Q9. Which change is most likely to increase basic drug absorption in the stomach?

  • Decrease pKa to below 2
  • Increase pKa so more of the drug is protonated at low pH
  • Convert to a permanently neutral compound
  • Increase molecular polarity dramatically

Correct Answer: Increase pKa so more of the drug is protonated at low pH

Q10. Matched molecular pair analysis is primarily used to:

  • Compare two unrelated scaffolds for patentability
  • Assess the effect of a single structural change on properties
  • Calculate absolute binding free energy
  • Determine crystal packing interactions

Correct Answer: Assess the effect of a single structural change on properties

Q11. Which stereochemical factor commonly influences receptor selectivity in SAR?

  • Presence of aromatic rings only
  • Absolute configuration (R/S) of chiral centers
  • Molecular weight regardless of shape
  • Number of tertiary amines only

Correct Answer: Absolute configuration (R/S) of chiral centers

Q12. Which modification is a typical strategy to reduce metabolic clearance in lead optimization?

  • Add multiple primary alcohols
  • Introduce metabolically stable bioisosteres or steric shielding near metabolic hotspots
  • Increase polar surface area to >200 Ų
  • Replace aromatic rings with unsubstituted cyclohexane always

Correct Answer: Introduce metabolically stable bioisosteres or steric shielding near metabolic hotspots

Q13. What does the term ‘pharmacophore’ refer to in SAR?

  • The full 3D structure of the protein target
  • Minimal spatial arrangement of features necessary for activity
  • Only the most lipophilic part of a molecule
  • Crystal packing contacts in a ligand complex

Correct Answer: Minimal spatial arrangement of features necessary for activity

Q14. Which descriptor captures electronic withdrawing or donating tendency of substituents?

  • Hammett sigma constant
  • Octanol–water partition coefficient (logP)
  • Rotatable bond count
  • Topological polar surface area (TPSA)

Correct Answer: Hammett sigma constant

Q15. Overfitting in QSAR modeling occurs when:

  • The model is too simple to explain training data
  • The model fits noise in the training set and performs poorly on external data
  • The model uses validated external test sets
  • Descriptors are biologically interpretable

Correct Answer: The model fits noise in the training set and performs poorly on external data

Q16. A prototypical bioisostere replacement to reduce basicity of an aniline is:

  • Replace aniline with nitro group
  • Replace NH2 with a heterocycle like pyridine
  • Replace benzene with aliphatic chain
  • Remove aromaticity entirely

Correct Answer: Replace NH2 with a heterocycle like pyridine

Q17. Which SAR observation suggests a hydrogen bond donor is critical for binding?

  • Replacing OH with OMe abolishes activity
  • Increasing lipophilicity increases activity linearly
  • Alkyl chain length has no effect
  • Changing stereochemistry has no effect

Correct Answer: Replacing OH with OMe abolishes activity

Q18. In QSAR, multicollinearity among descriptors leads to:

  • More robust, interpretable models
  • Unstable regression coefficients and poor interpretability
  • Decreased risk of overfitting always
  • Higher predictive power on external sets

Correct Answer: Unstable regression coefficients and poor interpretability

Q19. Which technique helps identify 3D arrangement of pharmacophoric features from a set of active ligands?

  • Pharmacophore modeling
  • Microsomal stability assay
  • HPLC purity analysis
  • pKa titration

Correct Answer: Pharmacophore modeling

Q20. Which change would most likely reduce blood–brain barrier penetration?

  • Decrease TPSA and increase lipophilicity
  • Increase polar surface area and add an ionizable group
  • Reduce molecular weight below 200 Da
  • Convert to a neutral nonpolar scaffold

Correct Answer: Increase polar surface area and add an ionizable group

Q21. What is the main purpose of an applicability domain in QSAR?

  • Define chemical space where model predictions are reliable
  • Ensure models cover all known drugs
  • Maximize the number of descriptors used
  • Guarantee 100% prediction accuracy

Correct Answer: Define chemical space where model predictions are reliable

Q22. Which experimental change indicates a metabolic soft spot near a substituent?

  • Unchanged metabolite profile across analogues
  • Formation of a common oxidative metabolite at that position
  • Decreased potency only in vitro binding assays
  • Improved solubility with no metabolic change

Correct Answer: Formation of a common oxidative metabolite at that position

Q23. Which descriptor combination often improves QSAR for potency prediction?

  • Only molecular weight and melting point
  • Combined electronic, steric and lipophilicity descriptors
  • Only the number of hydrogen bond donors
  • Only the number of aromatic rings

Correct Answer: Combined electronic, steric and lipophilicity descriptors

Q24. Scaffold hopping in SAR aims to:

  • Increase the number of rotatable bonds
  • Change core scaffold to retain activity while altering properties or IP
  • Make molecules more metabolically vulnerable
  • Keep the scaffold identical while modifying peripheral groups only

Correct Answer: Change core scaffold to retain activity while altering properties or IP

Q25. Which SAR strategy helps improve selectivity over an off‑target enzyme?

  • Increase general lipophilicity without considering binding site differences
  • Exploit structural differences in active sites to add selective interactions
  • Remove polar interactions universally
  • Reduce molecular rigidity to increase conformational sampling

Correct Answer: Exploit structural differences in active sites to add selective interactions

Q26. Which validation metric assesses internal predictive ability during QSAR model building?

  • External test set R²
  • Leave‑one‑out cross‑validated Q²
  • Number of descriptors used
  • Melting point correlation

Correct Answer: Leave‑one‑out cross‑validated Q²

Q27. Changing a tertiary amine to a tertiary amide usually affects SAR by:

  • Increasing basicity and membrane permeability
  • Reducing basicity and often decreasing permeability
  • Removing all polar surface area
  • Always increasing potency

Correct Answer: Reducing basicity and often decreasing permeability

Q28. Which observation suggests that steric bulk near a binding region is tolerated?

  • Large substituents at that position retain or improve potency
  • Small substituents cause complete loss of activity
  • Changing substituents never affects potency
  • Only polar changes alter activity

Correct Answer: Large substituents at that position retain or improve potency

Q29. Why is descriptor selection important before QSAR model fitting?

  • To include as many correlated descriptors as possible
  • To reduce noise, avoid multicollinearity and improve interpretability
  • Because descriptors do not affect model quality
  • To ensure all descriptors are categorical

Correct Answer: To reduce noise, avoid multicollinearity and improve interpretability

Q30. Which approach helps prioritize analogues with better oral bioavailability during SAR?

  • Maximize lipophilicity without limit
  • Balance potency with physicochemical properties (logP, TPSA, MW) and metabolic stability
  • Only focus on increasing molecular weight
  • Design solely for maximum receptor affinity regardless of ADME

Correct Answer: Balance potency with physicochemical properties (logP, TPSA, MW) and metabolic stability

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