מיקרוסקופיה פלואורסנטית. contrasting techniques - a reminder… brightfield -...
TRANSCRIPT
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מיקרוסקופיה פלואורסנטית
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Contrasting techniques - a reminder…
• Brightfield - absorption
• Darkfield - scattering
• Phase Contrast - phase interference
• Polarization Contrast - polarization
• Differential Interference Contrast (DIC) - polarization + phase interference
• Fluorescence Contrast - fluorescence
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חוב מהשיעור הקודם
Bright-field DIC
Phase-contrast Dark-field
שיטות להגברת ניגודיות
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Fluorescence techniques
• Standard techniques: wide-fieldconfocal2-photon
• Special applications: FRETFLIMFRAPPhotoactivationTIRF
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Fluorescence
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Fluorescence
Excited state
Ground state
excitation
shorter wavelength, higher energy
emission
longer wavelength, less energy
Stoke’s shift
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Fluorophores (Fluorochromes, chromophores)
• Special molecular structure
• Aromatic systems (Pi-systems) and metal complexes (with transition metals)
• characteristic excitation and emission spectra
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Fluorophores
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FiltersHow can we separate light with specific wavelength from the rest of the light?
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Filters
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Filter nomenclature• Excitation filters: x• Emission filters: m• Beamsplitter (dichroic mirror): bs, dc, FT
• 480/30 = the center wavelength is at 480nm; full bandwidth is 30 [ = +/- 15]
• BP = bandpass, light within the given range of wavelengths passes through (BP 450-490)
• LP = indicates a longpass filter which transmits wavelengths longer than the shown number and blocks shorter wavelengths (LP 500)
• SP = indicates a shortpass filter which transmits wavelengths shorter than the shown number,
and blocks longer wavelengths
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Filter nomenclature
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Filters
Multiple Band-Pass Filters
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Basic idea
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Basic design of epi fluorescence
Objective acts as condenser; excitation light reflected away from eyes
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The cube
Excitation/emission spectra always a bit overlapping
filterblock has to separate them
a) Exitation filterb) Dichroic mirror (beamsplitter)a) Emission filter
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The cube
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Excitation / emissionexcitation and emission spectra of EGFP (green) and Cy5 (blue)
excitation and emission spectra of EGFP (green) and Cy2 (blue)
No filter can separate these wavelengths!
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Where to check spectra?You can plot and compare spectra and check spectra compatibility for many fluorophores using the following Spectra Viewers.
Invitrogen Data Base BD Fluorescence Spectrum Viewer University of Arizona Data Base Fluorescent Probe Excitation Efficiency (Olympus jave tutorial)
Choosing Fluorophore Combinations for Confocal Microscopy (Olympus java tutorial)
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Photobleaching• Photobleaching - When a fluorophore permanently loses the ability
to fluoresce due to photon-induced chemical damage and covalent modification.
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Photobleaching• At low excitation intensities, pb occurs but at lower rate.
• Bleaching is often photodynamic - involves light and oxygen.• Singlet oxygen has a lifetime of ~1 µs and a diffusion coefficient
~10-5 cm2/s. Therefore, potential photodamage radius is ~50 nm.
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Standard techniques
• wide-field• Confocal• Spinning disk confocal• 2-photon
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Wide-field fluorescence
• reflected light method
• Multiple wavelength source (polychromatic, i.e. mercury lamp)
• Illumination of whole sample
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Wide-field vs confocal
Wide-field image confocal image
Molecular probes test slide Nr 4, mouse intestine
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Widefield Illumination Point Illumination
Point illumination
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Light sources for point illumination
Sample
Objective lens
Excitation light
Excitation light must be focused to adiffraction limited spot
Could be done with an arc lampand pinhole – but very inefficient
Enter the laser: Perfectly collimated and high power
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Fluorescence Illumination of a single point
Sample
Objective lens
Excitation lightTube lens
Emission light
Problem – fluorescence is emitted along entire illuminated cone, not just at focus
Camera
Point illumination
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The confocal microscope
Sample
Objective lens
Excitation lightTube lens
Emission light
Pinhole
Detector
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• method to get rid of the out of focus light less blur
• whole sample illuminated (by scanning single wavelength laser)
• only light from the focal plane is passing through the pinhole to the detector
The confocal microscope
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Scanning
Sample
Objective lens
Changing entrance angle of illumination moves illumination spot on sample
The emission spot moves, so we have to make sure pinhole is coincident with it
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Improved PSF and pinhole size
PSF for the focal plane and planes parallel to it: (a) conventional diffraction pattern (b) Confocal case.
Why can’t it be as small as possible?
• Reduced number of photons that arrive at the detector from the specimen may lead to a reduced signal-to-noise ratio.
• Raising the intensity of the excitation light can damage the specimen.
• Optical sectioning does not improve considerably with the pinhole size below a limit that approximates the radius of the first zero of the Airy disk.
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How big should your pinhole be?• Width of point spread function at pinhole =
Airy disk diameter × magnification of lens = 1 Airy unit= resolution of lens × magnification of lens × 2
– 100x / 1.4 NA: resolution = 220nm, so 1 Airy unit = 44 m
– 40x / 1.3 NA: resolution = 235nm, so 1 Airy unit = 19 m
– 20x / 0.75 NA: resolution = 407nm, so 1 Airy unit = 16 m
– 10x / 0.45 NA: resolution = 678nm, so 1 Airy unit = 14 m
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How big should your pinhole be?• A pinhole of 1 airy unit (AU) gives the best signal/noise.• A pinhole of 0.5 airy units (AU) will often improve resolution
IF THE SIGNAL IS STRONG.
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ConfocalUse:• to reduce blur in the picture high contrast
fluorescence pictures (low background)• optical sectioning (without cutting);
3D reassembly possible
Careful: increasing image size (more pixels) does not mean that the objective can resolve the same!!! (resolution determined by NA, a property of the objective)
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Spinning Disk Confocal
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Spinning Disk
• Fast – multiple points are illuminated at once • Photon efficient – high QE of CCD• Gentler on live samples – usually lower laser
power
• Fixed pinhole• Small field of view (usually)• Crosstalk through adjacent pinholes limits
sample thickness
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Relative Sensitivity
• Widefield 100• Spinning-Disk Confocal 25• Laser-scanning Confocal 1
• See Murray JM et al, J. Microscopy 2007 vol. 228 p390-405
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Excited state
Ground state
2-photon microscopy
Excitation: long wavelength (low energy)
Each photon gives ½ the required energy
Emission: shorter wavelength (higher energy) than excitation
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2-photon microscopy
Advantages: IR light penetrates deeper into the tissue than shorter wavelength
2-photon excitation only occurs at the focal plane less bleaching above and below the section
Use for deep tissue imaging
Use of lower energy light to excite the sample (higher wavelength)
1-photon: 488nm
2-photon: 843nm
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Special applications:
• FRET and FLIM
• FRAP/FLIP and photoactivation
• TIRF
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FRET (Fluorescence Resonance Energy Transfer)
• method to investigate molecular interactions• Principle: a close acceptor molecule can take the excitation energy
from the donor (distance 1-10 nm)
Donor (GFP)
FRET situation: Excitation of the donor (GFP) but emission comes from the acceptor (RFP)
Exited state
Ground state
Acceptor (RFP)
Exited state
Ground state
Energy transfer, no emission!
Exited state
Ground state
No FRET
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• Both Acceptor and Donor are fluorescent• The Donor is excited and its emission excites the Acceptor
Ex(D)
Ex(A)Em(D)
Em(A)
FRET
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• FRET is a competing process for the disposition of the energy of a photo excited electron.
• Donor emission decreases
• Donor lifetime decreases
• Acceptor emission increases
FRET
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Energy transfer efficiency
• Depends on: Donor emission and acceptor absorption spectra, relative orientation of D and A
FRET
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FRET
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FRETways to measure:
• Acceptor emissionDetect the emission of the acceptor after excitation of the donor, e.g. excite GFP with 488 but detect RFP at 610 (GFP emission at 520)
• Donor emission after acceptor bleaching take image of donor, then bleach acceptor (with acceptor excitation wavelength - RFP:580nm), take another image of donor should be brighter!
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Advantages Disadvantages
Cheap implementation Free fluorophors can mask energy transfer
high resolution (1-10nm) pH sensitive
Living cells Weak effect
Real time Location of fluorophors is critical
FRET
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FLIM (Fluorescence Lifetime Imaging Microscopy)
• measures the lifetime of the excited state (delay between excitation and emission)
• every fluorophore has a unique natural lifetime
• lifetime can be changed by the environment, such as: Ion concentrationOxygen concentrationpHProtein-protein interactions
∆t=lifetime
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FLIM - advantagesIn this method we measure the lifetime of the excited
state and not the fluorescence intensity, therefore: • We can separate fluorophores with similar spectra.• We minimize the effect of photon scattering in thick
layers of sample.
1 2
1/e
lifetime = ½ of all electrons are fallen back
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FLIM - Measurement approaches
•Frequency domain• Modulated excitation• Lock-in detect emission phase
•Time domain (pulsed exc.)
•Gated intensifierPhoton inefficient
•Time-correlatedsingle photon counting
Very efficient one photon per pulse slow Time gates
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FLIM
Excitation of many electrons at the same time count the different times when they are falling back down (i.e. photons are emitted)
lifetime = ½ of all electrons are fallen backdecay curve
Lifetime histogram
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Example of FLIM-FRET measurement
GFP expressed in COS 1 cell: average lifetime of 2523 ps
fused GFP-RFP expressed in COS 1 cell: average lifetime of 2108 ps
Joan Grindlay, R7
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FLIM
Hepatocyte membrane-stainedwith NBD, which has a
hydrophobicity-dependent lifetime(TCSPC, 3 minutes for 300x300 pixels )
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For FLIM-FRET you still need: a suitable FRET-pair with the right orientation of the π-orbitals
Interaction of proteins is not enough, because fluorophores have to be close enough and in the right orientation!
Use of FLIM: measurements of concentration changes (Ca+2), pH change etc, Protein interactions
FLIM
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Special applications:
• FRET and FLIM
• FRAP/FLIP and photoactivation• TIRF
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Need: to probe transportIdea: bleach in one area,watch recovery by transport from other areas
FRAP (Fluorescence Recovery After Photobleaching)
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Measuring Cdc42 diffusion constant in yeast
Result: df = (0.036 ± 0.017) μm2/s Marco et al. 2007 Cell 129:411-422
FRAP
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FRAP
• Intense illumination with 405 laser bleaches the sample within the selected region observation of the recovery
before 0.65 s 0.78 s
Use: to measure the mobility/dynamics of proteins under different conditions
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FLIP(Fluorescence Loss in Photo-bleaching)
Need: probe connectivityIdea: bleach in one compartment,watch loss in connected compartments by exchange
Bleach one area repeatedly. Entire ER dims. ER is contiguous
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Photoactivation(Better?) FRAP/FLIP alternative
Some fluorophores can be activated by light
• Photo-uncagable dyes• GFP-family proteins
Activate a small areaWatch fluorescence spread
Look for weak lightagainst dark backgroundInstead of slight dimmingof bright background
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photoactivation• Fluorophore only becomes active (= fluorescent) if
excited (e.g. with 405 laser) due to structural change
Pictures taken from a activation movie: activation of a line trough the lamellipodia of the cell, activated GFP_F diffuses quickly
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Photoactivation - Proteins
Off-On•PA-GFP, PS-CFP
Color change•Kaede, KikGR, Eos,•Dendra (activatable by blue)
Reversibly Switchable•asCP, KFP (tetrameric)•Dronpa
Activate
green red
before
after
Dendra2 demo
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Dronpa – photoswitchable on and off
Ando et al. 2004, Science 306: 1370-1373
photoactivation
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Tracking actin flow with Dronpa
Kiuchi, T. et al. J. Cell Biol. 2007;177:465-476
photoactivation
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Special applications:
• FRET and FLIM• FRAP/FLIP and photoactivation
• TIRF
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TIRF (Total Internal Reflection Fluorescence)
You need:
• TIRF objectives with high NA
• TIRF condensor, where you are able to change the angle of illumination
• Glass coverslips
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TIRF
micro.magnet.fsu.edu
Result: very thin section at the bottom of the sample 150-200nm
Use: to study membrane dynamics (endocytosis, focal adhesions, receptor binding)
Nikon TE 2000
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TIRF vs epi
FAK-lasp in epi mode (wide field)
FAK-lasp in tirf mode (wide field)Heather Spence, R10
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TIRF vs epi
Lasp in TIRF mode
Lasp in confocal sectioning
Heather Spence, R10
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Summary/comparisonmethod excitation detection sectioning use
Wide field Whole sample Whole sample No sectioningSimple fluorescence samples
confocal Whole sample One z-plane 350-500nmHigh contrast images, optical sectioning
2-Photon One z-plane One z-plane 500-700nmDeep tissue imaging, optical sectioning
FRETProtein interactions, small distances
FLIMEnvironmental changes, protein interactions
FRAP/FLIP + photoactivation
dynamics/mobility
TIRFOnly bottom plane
Only bottom plane
150-200nm Membrane dynamics
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Light source for fluorescence microscopyArc lamps
XenonMercury
UV IR
Laser types
Argon 351 364 457 477 488 514
Blue diode 405 440
Helium-Cadmium 354 442
Krypton-Argon 488 569 647
Green Helium-Neon 543
Yellow Helium-Neon 594
Orange Helium-Neon 612
Red Helium-Neon 633
Red diode 635 650
Ti:Sapphire 720-980