Spectroscopy - University of Lethbridge · Spectroscopy Theodor Förster 1910-1974 J. Robert...
Transcript of Spectroscopy - University of Lethbridge · Spectroscopy Theodor Förster 1910-1974 J. Robert...
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Spectroscopy
Anisotropy and Photoselection
Lakowicz, Principles Fluorescence Spectroscopy 3rd Ed., 2006
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Spectroscopy
Anisotropy and Photoselection
Lakowicz, Principles Fluorescence Spectroscopy 3rd Ed., 2006
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Spectroscopy
Anisotropy and Magic Angle
Badea and Brand, Meth Enzymol 61, 378 (1979)
Itotal = Ix + Iy + Iz = Ix + 2 Iy
Iviewed = Ix cos2 θ + Iy cos2 (90° - θ)
Iviewed will be proportional to Itotal if
[cos2 (90° - θ)]/(cos2 θ) = tan2 θ = 2
then θ = 54.7°
Magic Angle conditions
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Spectroscopy
Ftotal = FV + 2 FH
Ftotal = ∑fi = ∑ϕi ai = ∑ϕi ei ci l
FRtotal = ∑fi ri = ∑ϕi ai ri leads to the non-addition law:
Rtotal ≠ ∑ri (except under special circumstances)
Anisotropy and Fluorescence
Interactions (binding) and addition laws
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Spectroscopy
Molecular Processes & Dynamics
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Spectroscopy
BioSpectroscopy Lab UM
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Spectroscopy
PicoQuant, Inc.
What is Time-Correlated Single-Photon Counting?What is Time-Correlated Single-Photon Counting?
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Spectroscopy
Ras-like
helical
1GIA
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Spectroscopy
Celestine Thomas, Sandy Ross
GTPγs-BODIPY bound state: <τ> = 5.0 ns
GDP-BODIPY bound state: <τ> = 3.1 ns
GTPγs stateGDP state
Ras-like
helical
34.8 ps/channel
1GIA
I(t) = Σ αi exp(−t ∕ τi)
<τ> = Σ αi τi2 ∕ Σ αi τi
Probing Conformational StatesFluorescence Intensity Decay
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sTF:VIIasTF:VIIa
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Spectroscopy
r(t) = Σ bj exp(−t ∕ φj)
j = 1 to 5, Σ bj = r0
In proteins, with fluorescence probes attached,
for example to cys, analysis of the anisotropy
decay usually yields two φj terms. The long
correlation time reflects global motion. The short
correlation time reflects segmental motion(s).
in sTF alone, φlong ~ 19 ns and φshort ~ 1-2 ns.
The amount of segmental motion decreases on
formation of the complex with factor VIIa.
Probing Conformational StatesAnisotropy Decay
Minnazo, A, et al, (2009) Biophys J 96, 681Minnazo, A, et al, (2009) Biophys J 96, 681
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Spectroscopy
`
Fluorescence Correlation Spectroscopy (FCS)
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Spectroscopy
Optics to Observe Freely Diffusing Molecules
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Spectroscopy
`BCRL New Instrumentation
PicoQuant MicroTime 200
NIH S10 OD021806Award Amount: $ 555k
UM VPRCS: $127K
NSF MRI CHE- CHE-1531520Award Amount: $ 323k
Murdock Charitable TrustAward Amount: $191k
Zeiss 880 CLSM PicoQuant FLIM/FCS
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Spectroscopy
MicroTime 200
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Spectroscopy
MicroTime 200
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Spectroscopy
MicroTime 200
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Spectroscopy
MicroTime 200
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Spectroscopy
MicroTime 200
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Spectroscopy
MicroTime 200
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Spectroscopy
Celestine Thomas, Sandy Ross
GTPγs-BODIPY bound state: <τ> = 5.0 ns
GDP-BODIPY bound state: <τ> = 3.1 ns
GTPγs stateGDP state
Ras-like
helical
34.8 ps/channel
1GIA
I(t) = Σ αi exp(−t ∕ τi)
<τ> = Σ αi τi2 ∕ Σ αi τi
Probing Conformational StatesFluorescence Intensity Decay
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Spectroscopy
Celestine Thomas, Sandy Ross
τD = ro2/4D
D = kT/6phRh
G(0) = 1/<N>
Petra Schwille
G(τ)
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Spectroscopy
Harmen’s MicroTime project
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Spectroscopy
Harmen’s MicroTime project
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Spectroscopy
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Spectroscopy
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Spectroscopy
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Spectroscopy
Theodor Förster1910-1974
J. Robert Oppenheimer1904-19671870-1942
Francis Perrin1901-1992
Jean B. Perrin
Held, BioTek.com, 2005Lakowicz, Principles Fluorescence Spectroscopy 3rd Ed., 2006
D A
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Spectroscopy
Resonance Energy Transfer
Lakowicz, Principles Fluorescence Spectroscopy 3rd Ed., 2006
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Spectroscopy
The orientation factor, k2 can be calculated from the projections of the
9 combinations of donor and acceptor axes (draw projection of donor
axes on acceptor axes):
1 orientation where k2 = 4
2 orientations where k2 = 1
6 orientations where k2 = 0
3 of the 9 combinations contribute to FRET: ∑k2 = (1 x 4) + (2 x 1) = 6
6 of 9 total combinations do not contribute to FRET: ∑k2 = 0
So the average k2 for all combinations is 6/9 = 2/3
Resonance Energy TransferThe orientation factor, k2
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Spectroscopy
FRET in freely-diffusing single moleculesFRET in freely-diffusing single molecules
Roy, Hohng & Ha, A practical guide to single-molecule FRET Nature Methods (2008)
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Spectroscopy
106
90 305
330
238
106
0.0 0.2 0.4 0.6 0.8 1.0
Efficiency
90-106
0.0 0.2 0.4 0.6 0.8 1.0
Efficiency
305-330
0.0 0.2 0.4 0.6 0.8 1.0
Efficiency
106-238
GD
PG
TP
γSR
ic-8
A1 ms binning and 25 (minimum) photons per event1 ms binning and 25 (minimum) photons per event
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Spectroscopy
0.0 0.5 1.0
Efficiency
0 2 4 6 8 10
Time (ms)
0 2 4 6 8 10
Time (ms)
0 2 4 6 8 10
Time (ms)
3 msn = 3
1.5 msn = 7
0.4 msn = 29
Gopich, Szabo J. Phys. Chem. B 111:12925 (2007)
3-Gaussian Model for Two-State Conformational Equilibria3-Gaussian Model for Two-State Conformational Equilibria
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Spectroscopy
● 90-106 ● GDP ● Ric-8A ● GTP
● k12 (ms-1) ● 1.1 ± 0.8 ● 1.1 ± 0.7 ● 1.0 ± 0.6
● k21(ms-1) ● 0.5 ± 0.2 ● 0.4 ± 0.1 ● 0.3 ± 0.2
● TT (ms) ● 0.6 ± 0.4 ● 0.7 ± 0.4 ● 0.8 ± 0.5
● 305-330 ● GDP ● Ric-8A ● GTP
● k12 (ms-1) ● 1.3 ± 0.8 ● 3.4 ± 2.5 ● 1.0 ± 0.5
● k21(ms-1) ● 0.4 ± 0.1 ● 0.8 ± 0.1 ● 0.3 ± 0.1
● TT (ms) ● 0.6 ± 0.3 ● 0.2 ± 0.1 ● 0.8 ± 0.5
● 106-238 ● GDP ● Ric-8A ● GTP
● k12 (ms-1) ● 0.05 ± 0.04 ● 0.01 ± 0.01 ● 0.02 ± 0.01
● k21(ms-1) ● 0.01 ± 0.01 ● 0.05 ± 0.03 ● 0.01 ± 0.01
● TT (ms) ● 17 ± 14 ● 17 ± 11 ● 30 ± 20
106
90
305
330
238
106
Labe Black, Celestine Thomas
Helical-Helical
Helical-Ras
Ras-Ras
Global fitting of bin-time-dependent FRET: 0.5 – 5 msGlobal fitting of bin-time-dependent FRET: 0.5 – 5 ms
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Spectroscopy
Linda’s 880 project – FLIM/FRET
CFP YFP
3.5 ns
time (ns)
Nor
mal
ized
pho
ton
fre
qu
en
cy (
log 1
0)
2 4 6 8 10 12 14 16 18 20 22 24
0.01
0.1
1
CFP YFP
- CFP-NR1/NR3 tau =3.76 ns
- CFP-NR1/YFP-NR3 tau = 3.20 ns
FLIM-FRET between CFP/YFP-tagged NMDA receptor subunits
FLIM FLIM
Tau
(n
s)
2.5
3.0
3.5
4.0
YFPYFP CFP
CFP
OUT
IN
CFP YFPCFP
CFP
CFP
OUT
INCFP-NR1
YFP-NR3
CFP-NR1/YFP-NR3
CFP-NR1
NR3 CFP-NR1/NR3
Lifetime decay curves
Confocal images
CFP-NR1/YFP-NR3
CFP-NR1/NR3
n = 12
n = 12
FRET efficiency~13%
CFP YFP
3.5 ns
CFP YFP
- CFP-NR1/NR3 tau =3.76 ns
- CFP-NR1/YFP-NR3 tau = 3.20 ns
FLIM FLIM
YFPYFP CFP
CFP
OUT
IN
CFP YFPCFP
CFP
CFP
OUT
INCFP-NR1
YFP-NR3
CFP-NR1/YFP-NR3
CFP-NR1
NR3 CFP-NR1/NR3
Lifetime decay curves
CFP-NR1/YFP-NR3
CFP-NR1/NR3
n = 12
n = 12
FRET efficiency~13%