Applications of electrophoresis in drug analysis MCQs With Answer

Applications of electrophoresis in drug analysis MCQs With Answer

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Introduction

Electrophoresis is a vital analytical tool in drug analysis, widely used in pharmaceutical quality control, impurity profiling, formulation studies and forensic investigations. B.Pharm students should master capillary electrophoresis (CE), gel techniques (SDS-PAGE, native PAGE, agarose), isoelectric focusing (IEF) and hyphenated methods like CE-MS for the separation and identification of small molecules, peptides and protein therapeutics. Key concepts include electroosmotic flow, charge-to-size separation, MEKC for neutral drugs, buffer selection, sample stacking, detection modes (UV, LIF, MS) and method validation (LOD/LOQ, specificity, precision). Practical interpretation of electropherograms and impurity/glycoform analysis is essential for regulatory submissions. Now let’s test your knowledge with 30 MCQs on this topic.

Q1. What is the fundamental principle of electrophoresis used in drug analysis?

  • The movement of neutral molecules by diffusion through a gel
  • The movement of charged particles under an applied electric field through a medium
  • The separation of compounds solely by molecular weight in solution
  • The chemical reaction between analyte and buffer components

Correct Answer: The movement of charged particles under an applied electric field through a medium

Q2. Electrophoretic mobility of an ion in capillary electrophoresis is primarily determined by which factor?

  • The absolute molecular weight only
  • The charge-to-size (charge/mass or charge/hydrodynamic radius) ratio
  • The buffer color and viscosity
  • The detector wavelength used

Correct Answer: The charge-to-size (charge/mass or charge/hydrodynamic radius) ratio

Q3. Which CE mode is most appropriate for separating molecules solely based on their isoelectric point?

  • Capillary zone electrophoresis (CZE)
  • Micellar electrokinetic chromatography (MEKC)
  • Isoelectric focusing (IEF)
  • SDS-capillary gel electrophoresis

Correct Answer: Isoelectric focusing (IEF)

Q4. What is the main purpose of SDS in SDS-PAGE when analyzing protein drugs?

  • To provide a pH gradient for isoelectric focusing
  • To denature proteins and impart uniform negative charge for separation by molecular weight
  • To act as a fluorescent label for detection
  • To stabilize tertiary protein structure during electrophoresis

Correct Answer: To denature proteins and impart uniform negative charge for separation by molecular weight

Q5. What does electroosmotic flow (EOF) in capillary electrophoresis refer to?

  • The chemical reaction between analyte and capillary wall
  • The bulk movement of the background electrolyte toward an electrode due to charged capillary walls
  • The diffusion-limited transport of neutral analytes only
  • The optical detection response of the buffer

Correct Answer: The bulk movement of the background electrolyte toward an electrode due to charged capillary walls

Q6. Which electrophoretic technique is especially useful for separating neutral drug molecules?

  • Isoelectric focusing (IEF)
  • SDS-PAGE
  • Micellar electrokinetic chromatography (MEKC)
  • Agarose gel electrophoresis for nucleic acids

Correct Answer: Micellar electrokinetic chromatography (MEKC)

Q7. What is the main advantage of coupling capillary electrophoresis with mass spectrometry (CE-MS) in drug analysis?

  • It eliminates the need for any buffer or separation
  • High-efficiency separation combined with molecular identification and structural information from MS
  • It increases sample volume requirements drastically
  • It prevents Joule heating completely

Correct Answer: High-efficiency separation combined with molecular identification and structural information from MS

Q8. What is the purpose of stacking techniques (sample stacking) in CE for pharmaceutical analysis?

  • To dilute the sample to avoid detector saturation
  • To concentrate analytes into narrow zones to improve sensitivity and LOD
  • To alter the pI of proteins prior to IEF
  • To chemically derivatize analytes inside the capillary

Correct Answer: To concentrate analytes into narrow zones to improve sensitivity and LOD

Q9. Which detection technique generally offers the highest sensitivity for trace fluorescently labeled drug analytes in CE?

  • UV-Visible absorbance detection
  • Laser-induced fluorescence (LIF)
  • Refractive index detection
  • Conductivity detection without labeling

Correct Answer: Laser-induced fluorescence (LIF)

Q10. In an uncoated fused silica capillary at typical pharmaceutical pH (around neutral), what is the usual direction of electroosmotic flow?

  • Toward the cathode (negative electrode)
  • Toward the anode (positive electrode)
  • There is no electroosmotic flow
  • It alternates direction periodically during run

Correct Answer: Toward the cathode (negative electrode)

Q11. For impurity profiling of protein therapeutics, electrophoresis can effectively separate which of the following variants?

  • Chromatographic retention time only
  • Charge variants and glycoforms (isoforms) of the protein
  • Only DNA contaminants
  • Volatile organic impurities

Correct Answer: Charge variants and glycoforms (isoforms) of the protein

Q12. Which electrophoretic technique is most commonly used for sizing and visualizing DNA fragments in drug formulation or forensic samples?

  • SDS-PAGE for proteins
  • Agarose gel electrophoresis
  • CE with only conductivity detection
  • Isoelectric focusing (IEF)

Correct Answer: Agarose gel electrophoresis

Q13. Which additive is commonly used in CE as a chiral selector to achieve enantiomeric separation of chiral drugs?

  • Sodium dodecyl sulfate (SDS) with no chiral properties
  • Cyclodextrins (e.g., methyl-β-cyclodextrin)
  • Acetic acid only
  • Silver nitrate

Correct Answer: Cyclodextrins (e.g., methyl-β-cyclodextrin)

Q14. Which solvent system or CE variant is most suitable for analyzing poorly water-soluble small-molecule drugs?

  • Standard aqueous CE only
  • Nonaqueous capillary electrophoresis (NACE)
  • Agarose gel electrophoresis
  • IEF using ampholytes in water

Correct Answer: Nonaqueous capillary electrophoresis (NACE)

Q15. Which set of validation parameters is essential when establishing an electrophoretic method for quantitative drug impurity analysis?

  • Color, smell and taste
  • Specificity, precision, accuracy, linearity, LOD/LOQ
  • Only migration time reproducibility
  • Only buffer pH and ionic strength

Correct Answer: Specificity, precision, accuracy, linearity, LOD/LOQ

Q16. Two-dimensional electrophoresis commonly used in proteomics combines which two separation principles?

  • Agarose electrophoresis followed by MEKC
  • Isoelectric focusing (IEF) in first dimension and SDS-PAGE in second dimension
  • SDS-PAGE twice with different voltages
  • Capillary zone electrophoresis followed by agarose gel

Correct Answer: Isoelectric focusing (IEF) in first dimension and SDS-PAGE in second dimension

Q17. Which modification to capillary inner surface is typically used to reduce protein adsorption and control EOF?

  • Leaving the capillary bare and unconditioned
  • Dynamic or permanent coating with neutral or charged polymers
  • Increasing applied voltage only
  • Adding salts to increase ionic strength beyond normal limits

Correct Answer: Dynamic or permanent coating with neutral or charged polymers

Q18. What are the common sample injection methods in capillary electrophoresis?

  • Only manual pipetting into the detector
  • Hydrodynamic (pressure or vacuum) and electrokinetic injection
  • Direct syringe infusion into MS without separation
  • Immersion of capillary in sample for 24 hours

Correct Answer: Hydrodynamic (pressure or vacuum) and electrokinetic injection

Q19. Which statement best describes capillary zone electrophoresis (CZE)?

  • A separation mode that uses micelles as pseudostationary phase
  • A free-solution separation based on differences in charge-to-size ratio without micelles
  • Equivalent to SDS-PAGE for proteins
  • An electrophoretic method that requires a gel matrix inside the capillary

Correct Answer: A free-solution separation based on differences in charge-to-size ratio without micelles

Q20. In micellar electrokinetic chromatography (MEKC), how are neutral analytes separated?

  • By formation of covalent bonds with the capillary wall
  • By differential partitioning between micellar pseudostationary phase and aqueous phase
  • By differences in isoelectric point only
  • By enzymatic cleavage inside the capillary

Correct Answer: By differential partitioning between micellar pseudostationary phase and aqueous phase

Q21. Why is temperature control important in capillary electrophoresis runs for pharmaceutical samples?

  • Temperature has no effect on electrophoretic separations
  • Because Joule heating influences viscosity, diffusion and separation efficiency
  • Only to prevent evaporation of large sample volumes
  • Only to protect the detector from overheating

Correct Answer: Because Joule heating influences viscosity, diffusion and separation efficiency

Q22. Which strategy reduces Joule heating and improves separation performance in CE?

  • Increasing buffer ionic strength indefinitely
  • Using lower ionic strength buffers, reduced applied current, and efficient capillary cooling
  • Using wider bore capillaries at very high voltages without cooling
  • Adding salts that increase conductivity dramatically

Correct Answer: Using lower ionic strength buffers, reduced applied current, and efficient capillary cooling

Q23. How does capillary inner diameter affect separation and detection in CE?

  • Larger diameter always gives better efficiency and sensitivity
  • Smaller diameter increases separation efficiency and reduces Joule heating but can lower detection sensitivity
  • Diameter has no measurable effect
  • Smaller diameter eliminates need for detectors

Correct Answer: Smaller diameter increases separation efficiency and reduces Joule heating but can lower detection sensitivity

Q24. Which staining method provides the highest sensitivity for visualizing low-abundance proteins on gels?

  • Coomassie Brilliant Blue staining
  • Silver staining
  • Simple water rinse
  • UV absorbance without stain

Correct Answer: Silver staining

Q25. For quantitative electrophoretic analysis of small molecules in formulations, which approach is commonly used for accurate quantitation?

  • Qualitative visual band assessment only
  • CE with UV detection and external calibration curve or internal standard
  • Running gels without standards
  • Measuring migration time only without peak area

Correct Answer: CE with UV detection and external calibration curve or internal standard

Q26. Electrophoretic methods are particularly useful in biosimilar characterization because they can detect which critical quality attributes?

  • Only potency by bioassay
  • Charge heterogeneity, aggregation, and glycosylation variants
  • Only excipient composition
  • Only ionic contaminants unrelated to the protein

Correct Answer: Charge heterogeneity, aggregation, and glycosylation variants

Q27. In forensic drug analysis, capillary electrophoresis is advantageous for amphetamine enantiomer separation primarily because:

  • It requires large sample volumes and long run times
  • CE can employ chiral selectors to separate enantiomers rapidly with small sample volumes
  • Enantiomers cannot be separated by CE
  • It destroys the sample, preventing further testing

Correct Answer: CE can employ chiral selectors to separate enantiomers rapidly with small sample volumes

Q28. How does buffer pH influence electrophoretic separation of ionizable drug molecules?

  • pH does not affect ionization or migration
  • It alters the ionization state of analytes, changing charge and electrophoretic mobility
  • Only temperature matters, not pH
  • It only affects the color of the buffer

Correct Answer: It alters the ionization state of analytes, changing charge and electrophoretic mobility

Q29. For detailed peptide mapping and identification of post-translational modifications in monoclonal antibodies, which electrophoretic-hyphenated approach is most informative?

  • SDS-PAGE alone with Coomassie staining
  • Capillary electrophoresis coupled to mass spectrometry (CE-MS)
  • Simple agarose gel electrophoresis
  • Paper chromatography only

Correct Answer: Capillary electrophoresis coupled to mass spectrometry (CE-MS)

Q30. Why are electrophoretic techniques considered suitable for stability-indicating methods in regulatory submissions?

  • They cannot separate degradation products
  • They can resolve parent drug from degradation products, charge variants and impurities, supporting specificity and stability assessment
  • They are only qualitative and not accepted by regulators
  • They always require radioactive labeling to work

Correct Answer: They can resolve parent drug from degradation products, charge variants and impurities, supporting specificity and stability assessment

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