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Surface Plasmon Resonance: antigen-antibody interactions Vamsi K. Mudhivarthi.
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Transcript of Surface Plasmon Resonance: antigen-antibody interactions Vamsi K. Mudhivarthi.
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Surface Plasmon Resonance: antigen-antibody interactions
Vamsi K. Mudhivarthi
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Analytical Techniques for Biomaterial Characterization
• Scanning Probe Microscopy (SPM):– image changes at surface
• Attenuated Total Reflectance Infrared Spectroscopy (ATR-IR):– study conformational changes at solid-aqueous interfaces,
although lacks sensitivity
• Spectral Ellipsometry:– determination of thickness and refractive index of adsorbed
layer
• Surface Plasmon Resonance (SPR):– rapidly monitor dynamic processes to a wide range of
biomedically relevant interfaces.
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What is SPR?
• Surface Plasmon: Longitudinal charge density wave along the interface of two media, where one is metal and other is dielectric
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SPR Principle
• Linear relationship is found between resonance energy and mass concentration of biochemically relevant molecules.
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Advantage of using gold film
• Gold: Non-magnetic, surface plasmon wave is p-polarized, and due to its electromagnetic and surface propagating nature, creates enhanced evanescent wave
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Gold-thiol Chemistry
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Typical SPR Signal
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SPR: Kinetics of Association phase
• C= Concentration of analyte
• Rmax = maximum analyte binding capacity of the surface in RU
• R = SPR signal at time t in RU
A surface + B ABKa
Kd
Km
A bulk
dR/dt = KaC (Rmax - R) - KdRor
dR/dt = KaC Rmax - (Kd+ KaC)R
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SPR: Kinetics of Association phase
• Kd is not very reliable as KaC >>Kd
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• Rt is response at time t in RU
• R0 is response at an arbitrary starting point
SPR: Kinetics of Dissociation phase
ln (R0/Rt) = Kd (t-t0)
dR/dt = - KdR
After integration and logarithm we have
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Applications of SPR
• Physical applications: measure dielectric properties, adsorption processes, surface degradation or hydration of
– Thin organic monolayers or bilayers– Polymer films
• Biological applications: as biosensors for specific biological interactions including adsorption and desorption kinetics, antigen-antibody binding and epitope mapping for determination of
– Biomolecular structure and interactions of proteins, DNA & Viruses
– Lipid Bilayers– Non-specific biomolecular interactions-bio-compatibility– Tissue engineering
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SPR: Physical applications
Thin organic monolayers or bilayers Polymer films
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SPR: Biological applications
Epitope mapping Tissue engineering
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Immune response to antigen
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Antibody structure
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Single step analysis: FMDV antigen-antibody interactions
Ka = 9.0 * 104 M-1 S-1
Kd = 1.2 * 10-3 S-1
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Analysis of the antigen of different strains binding to antibody: single step
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Analysis of the antigen of different strains binding to antibody: single step
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Advantage of SPR
• Ability to perform real-time measurement: – Insight to dynamic nature of binding system and layer
formation
• Use of selective slides to study binding events:– Eliminate the need for labeled reactants
• Exceptional sensitivity:– Small quantities of purified reagents are required
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Disadavantages
• Disadvantage of SPR:
– Lack of sensitivity when monitoring low molecular weight adsorbates
– Rate limiting factor of mass transport-affecting kinetic analysis
• Methods to improve sensitivity:
– Coupling to AFM– Coupling with Mass-spectrometry
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References
• Green R. J., Frazier R. A., et. al., Biomaterials 21 (2000) 1823-1835.• http://brahms.chem.uic.edu/~cgpage/research/sprintro.html• Biacore Manual• David Andreu et. al., Journal of immunological methods 235 (2000)
101-111.• A. McGill et. al., Journal of immunological methods 297 (2005) 143-
152.• Marc H. V. Van Regnmortel et. al., Journal of molecular recognition
11 (1998) 163-167. • Daniele Altschuh et. al., Biochemistry 31 (1992) 6298-6304.