couple of questions about FRAP experiments
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Serra Akinturk |
couple of questions about FRAP experiments
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Hi all! Currently i try to establish FRAP with my ECFP tagged protein which is distributed in cytoplasm of neurons and i use LSM 510. However i have some problems and i would love to get your valuable opinions. Here are my questions: 1. How should i find the correct "laser iteration" to bleach the region that i want? Is there a calculation or a formula to find out the iteration of the laser when the laser is %100? 2. Even though my second question seems to be the same with the first one actually it is a bit different. I don't always get the same transfection efficiency in my cells. So how can i manage the iteration of my
laser? Should i have always the same iteration value? But then i dont have efficient bleaching in cells where ECFP is highly expressed. (For example,last week i remember that in one cell i was able to do bleaching with 10 iterations but in another cell i had to use 50 iteration). On the other hand the more i increase the iteration, bleaching time increases too. What is the standardization? 3. After the laser finishes the bleaching, cells always go out of focus and i lose the view. I checked many times that the cells had enough medium in the dish and they didn't get dry. But still i couldn't get rid of this problem. I think this happens because of the temperature change after bleaching. Any other suggestions?I need to overcome this... 4. I am also open to hear any "good FRAP paper" where i can learn more about the protocol. Thanks so much in advance and i hope
someone in this email group can help me. Warmest regards, Serra |
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Arne Seitz |
Re: couple of questions about FRAP experiments
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Dear Serra, concerning your questions: 1)
There is no formula available
to calculate the best laser intensity for bleaching. As the correct intensity
pretty much depends on the sample and the result you want obtain this is not
really surprising. In general: the more fluorophores you bleach the higher the
probability of inducing unwanted reactions like crosslinking or even
photodamage. If you are looking at fast diffusion you want to bleach as fast as
possible. Thus you want to keep the number of iterations as low as possible. 2)
Changing the number of
iterations will affect your results. If you want to compare your results you
will have to keep the number of iterations constant. 3)
Diffusion is temperature
dependant. Thus you want to do your experiments preferably at a constant temperature.
If bleaching is heating up your sample you have to decrease the number of
iterations or the laser power used for bleaching. Additionally you should make
sure that the temperature is kept constant (for mammalian cells usually 37deg). 4)
At the following link you can
find a nice tutorial for FRAP experiments. Best regards Arne Seitz --------------------------------------------------------------- Dr. Arne Seitz Head of Bioimaging and Optics Platform (BIOP) Swiss Institute of Technology (EPFL) http://biop.epfl.ch/ From: Confocal Microscopy List
[mailto:[hidden email]] On Behalf Of Serra Akinturk Hi all! Currently i try to establish FRAP
with my ECFP tagged protein which is distributed in cytoplasm of neurons
and i use LSM 510. However i have some problems and i
would love to get your valuable opinions. Here are my questions: 1. How should i find the correct
"laser iteration" to bleach the region that i want? Is there a
calculation or a formula to find out the iteration of the laser when the laser
is %100? 2. Even though my second question
seems to be the same with the first one actually it is a bit different. I
don't always get the same transfection efficiency in my cells.
So how can i manage the iteration of my laser? Should i have always the same
iteration value? But then i dont have efficient bleaching in cells where ECFP
is highly expressed. (For example,last week i remember that in one
cell i was able to do bleaching with 10 iterations but in another cell i
had to use 50 iteration). On the other hand the more i increase the iteration,
bleaching time increases too. What is the standardization? 3. After the laser finishes the
bleaching, cells always go out of focus and i lose the view. I checked many
times that the cells had enough medium in the dish and they didn't get dry. But
still i couldn't get rid of this problem. I think this happens because of the
temperature change after bleaching. Any other suggestions?I need to overcome
this... 4. I am also open to hear any
"good FRAP paper" where i can learn more about the protocol. Thanks so much in advance and i
hope someone in this email group can help me. Warmest regards, Serra |
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leoncio vergara |
Re: couple of questions about FRAP experiments
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In reply to this post by Serra Akinturk
...from the biological point of view, working with cells that have a wild variation in protein expression is not very recomendable. It is possible the higher expression once lack physiological relevance. You may want to select a moderate range of expression levels, this would avoid biological variability and at the same time help solving the issue of having to change the number of iterarions too much.
...you probbaly know this, but another factor that affects the time for photobleaching is the size and shape of the ROI, obviously the larger the number of pixels the more time will take, but more important is the number of lines (ROI dimension in the Y direction) you are bleaching as this is the slow movement axis. Use similar size regions, as small as possible, specially in the Y axis. Leoncio -----Original Message----- From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Serra Akinturk Sent: Sunday, November 08, 2009 4:47 PM To: [hidden email] Subject: couple of questions about FRAP experiments Hi all! Currently i try to establish FRAP with my ECFP tagged protein which is distributed in cytoplasm of neurons and i use LSM 510. However i have some problems and i would love to get your valuable opinions. Here are my questions: 1. How should i find the correct "laser iteration" to bleach the region that i want? Is there a calculation or a formula to find out the iteration of the laser when the laser is %100? 2. Even though my second question seems to be the same with the first one actually it is a bit different. I don't always get the same transfection efficiency in my cells. So how can i manage the iteration of my laser? Should i have always the same iteration value? But then i dont have efficient bleaching in cells where ECFP is highly expressed. (For example,last week i remember that in one cell i was able to do bleaching with 10 iterations but in another cell i had to use 50 iteration). On the other hand the more i increase the iteration, bleaching time increases too. What is the standardization? 3. After the laser finishes the bleaching, cells always go out of focus and i lose the view. I checked many times that the cells had enough medium in the dish and they didn't get dry. But still i couldn't get rid of this problem. I think this happens because of the temperature change after bleaching. Any other suggestions?I need to overcome this... 4. I am also open to hear any "good FRAP paper" where i can learn more about the protocol. Thanks so much in advance and i hope someone in this email group can help me. Warmest regards, Serra No virus found in this incoming message. Checked by AVG - www.avg.com Version: 8.5.425 / Virus Database: 270.14.55/2490 - Release Date: 11/09/09 12:11:00 |
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John Oreopoulos |
Demonstration of fluorescence for high school
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This is not really a microscopy related question, but I figure there should be people here who would be able to answer this query. I have a friend from another lab who came to me last Friday and asked me if there was a simple experiment/demonstration that could be set up to demonstrate the concept of fluorescence to high school students. I couldn't think of one off the top of my head. The only thing that came to mind was the bit about using Fluorescein dye to make the Chicago river look green on St. Patrick's day, but I don't know if there's a cheap source of Floourscein out there or if it's safe to use with younger students. The only other thing I could recall was some basic experiment that involved pulling dyes from a commercial highlighter pen and showing that they are fluorescent somehow, but I can't remember much more than that. Basically, he needs to show that with some substance you can put light of one color in and get a different color back out. Didn't George Stokes originally discover fluorescence that way somehow?
Lastly, one beautiful demonstration that I can remember was given by Professor David Jameson a couple of years ago at the Biophysical Society meeting where in his talk that detailed the history of fluorescence he reproduced a phenomenon that was observed long ago in ancient Mexico where the wood ("kidney wood") of a specific Mexican tree when dissolved in water created an amazing blue glow under UV light. I don't think it would be easy to get this wood in Canada, however. If anyone knows of a simple (and cheap) way to demonstrate fluorescence, please do let me know. John Oreopoulos, BSc, PhD Candidate University of Toronto Institute For Biomaterials and Biomedical Engineering Centre For Studies in Molecular Imaging Tel: W:416-946-5022 |
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Adele Vincent |
Re: Demonstration of fluorescence for high school
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What about rocks instead of wood? Many minerals look very different under UV light and should be much easier to get your hands on. cheers Adele John Oreopoulos wrote: This is not really a microscopy related question, but I figure there should be people here who would be able to answer this query. I have a friend from another lab who came to me last Friday and asked me if there was a simple experiment/demonstration that could be set up to demonstrate the concept of fluorescence to high school students. I couldn't think of one off the top of my head. The only thing that came to mind was the bit about using Fluorescein dye to make the Chicago river look green on St. Patrick's day, but I don't know if there's a cheap source of Floourscein out there or if it's safe to use with younger students. The only other thing I could recall was some basic experiment that involved pulling dyes from a commercial highlighter pen and showing that they are fluorescent somehow, but I can't remember much more than that. Basically, he needs to show that with some substance you can put light of one color in and get a different color back out. Didn't George Stokes originally discover fluorescence that way somehow? --
Adele Vincent, PhD NHMRC Postdoctoral Research Fellow Laboratory of Molecular Neurobiology Menzies Research Institute Tasmania, Australia
ph: +61 3 6226 7195 fax: +61 3 6226 2679
Mailing address: Private Bag 24 University of Tasmania TAS 7001 Australia |
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Christian-103 |
Re: Demonstration of fluorescence for high school
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Lloyd Donaldson |
Re: Demonstration of fluorescence for high school
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In reply to this post by John Oreopoulos
Wood (lignin) will fluoresce with either UV or visible
excitation. So will paper. Most coloured inks will fluoresce. Green leaves are
also very fluorescent due to chlorophyll but I guess maybe green leaves are in
short supply at this time of year in Canada. Pine or Spruce needles would do
though. Dr Lloyd Donaldson Senior Scientist Scion - Next Generation Biomaterials 49 Sala St. Rotorua Private Bag 3020, Rotorua 3046 NEW ZEALAND Ph: 64 7 343 5581 Fx: 64 7 343 5507 www.scionresearch.com From: Confocal Microscopy List
[mailto:[hidden email]] On Behalf Of John Oreopoulos This is not really a microscopy related question, but I
figure there should be people here who would be able to answer this query. I
have a friend from another lab who came to me last Friday and asked me if there
was a simple experiment/demonstration that could be set up to demonstrate the
concept of fluorescence to high school students. I couldn't think of one off
the top of my head. The only thing that came to mind was the bit about using
Fluorescein dye to make the Chicago river look green on St. Patrick's day, but
I don't know if there's a cheap source of Floourscein out there or if it's safe
to use with younger students. The only other thing I could recall was some
basic experiment that involved pulling dyes from a commercial highlighter pen
and showing that they are fluorescent somehow, but I can't remember much more
than that. Basically, he needs to show that with some substance you can put
light of one color in and get a different color back out. Didn't George Stokes
originally discover fluorescence that way somehow? Lastly, one beautiful demonstration that I can remember was
given by Professor David Jameson a couple of years ago at the Biophysical
Society meeting where in his talk that detailed the history of fluorescence he
reproduced a phenomenon that was observed long ago in ancient Mexico where the
wood ("kidney wood") of a specific Mexican tree when dissolved in
water created an amazing blue glow under UV light. I don't think it would be
easy to get this wood in Canada, however. If anyone knows of a simple (and cheap) way to demonstrate
fluorescence, please do let me know. John Oreopoulos, BSc, PhD Candidate University of Toronto Institute For Biomaterials
and Biomedical Engineering Centre For Studies in
Molecular Imaging Tel: W:416-946-5022
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Craig Brideau |
Re: Demonstration of fluorescence for high school
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In reply to this post by Adele Vincent
I second Adele's comments on minerals; many will fluoresce quite
beautifully under UV. Also fluorescein will glow green under UV excitation. Basically get a low-powered UV wand light and some fluorescent minerals, maybe a little vial of fluorescein (it's quite safe, just don't drink it), and some white paper (the bleached paper fibers will glow brightly) and maybe scribble with highlighters on parts of the paper to show that glow as well. Craig On Tue, Nov 10, 2009 at 11:00 AM, Adele Vincent <[hidden email]> wrote: > hi John > > What about rocks instead of wood? Many minerals look very different under UV > light and should be much easier to get your hands on. > > cheers > Adele > > > John Oreopoulos wrote: > > This is not really a microscopy related question, but I figure there should > be people here who would be able to answer this query. I have a friend from > another lab who came to me last Friday and asked me if there was a simple > experiment/demonstration that could be set up to demonstrate the concept of > fluorescence to high school students. I couldn't think of one off the top of > my head. The only thing that came to mind was the bit about using > Fluorescein dye to make the Chicago river look green on St. Patrick's day, > but I don't know if there's a cheap source of Floourscein out there or if > it's safe to use with younger students. The only other thing I could recall > was some basic experiment that involved pulling dyes from a commercial > highlighter pen and showing that they are fluorescent somehow, but I can't > remember much more than that. Basically, he needs to show that with some > substance you can put light of one color in and get a different color back > out. Didn't George Stokes originally discover fluorescence that way > somehow? > Lastly, one beautiful demonstration that I can remember was given by > Professor David Jameson a couple of years ago at the Biophysical Society > meeting where in his talk that detailed the history of fluorescence he > reproduced a phenomenon that was observed long ago in ancient Mexico where > the wood ("kidney wood") of a specific Mexican tree when dissolved in water > created an amazing blue glow under UV light. I don't think it would be easy > to get this wood in Canada, however. > If anyone knows of a simple (and cheap) way to demonstrate fluorescence, > please do let me know. > > John Oreopoulos, BSc, > > PhD Candidate > > University of Toronto > > Institute For Biomaterials and Biomedical Engineering > > Centre For Studies in Molecular Imaging > > Tel: W:416-946-5022 > > > -- > > Adele Vincent, PhD > > NHMRC Postdoctoral Research Fellow > > Laboratory of Molecular Neurobiology > > Menzies Research Institute > > Tasmania, Australia > > ph: +61 3 6226 7195 > > fax: +61 3 6226 2679 > > Mailing address: > > Private Bag 24 > > University of Tasmania > > TAS 7001 > > Australia |
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Dave Tieman |
Re: Demonstration of fluorescence for high school
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In reply to this post by John Oreopoulos
Assuming that you want to demo fluorescence, and not necessarily how we
use it: Get a green laser pointer for excitation and a red transparency filter that does a reasonable job of blocking the excitation frequency. Point the laser at objects such as hot pink warning signs and yellow tennis balls that often have a very broad emission peak. On non-fluorescing objects, you can show that the filter blocks the reflected light, but does not block the light from fluorescing objects. It can be fun to try a variety of objects around the room. dave > This is not really a microscopy related question, but I figure there > should be people here who would be able to answer this query. I have > a friend from another lab who came to me last Friday and asked me if > there was a simple experiment/demonstration that could be set up to > demonstrate the concept of fluorescence to high school students. I > couldn't think of one off the top of my head. The only thing that > came to mind was the bit about using Fluorescein dye to make the > Chicago river look green on St. Patrick's day, but I don't know if > there's a cheap source of Floourscein out there or if it's safe to > use with younger students. The only other thing I could recall was > some basic experiment that involved pulling dyes from a commercial > highlighter pen and showing that they are fluorescent somehow, but I > can't remember much more than that. Basically, he needs to show that > with some substance you can put light of one color in and get a > different color back out. Didn't George Stokes originally discover > fluorescence that way somehow? > Lastly, one beautiful demonstration that I can remember was given by > Professor David Jameson a couple of years ago at the Biophysical > Society meeting where in his talk that detailed the history of > fluorescence he reproduced a phenomenon that was observed long ago in > ancient Mexico where the wood ("kidney wood") of a specific Mexican > tree when dissolved in water created an amazing blue glow under UV > light. I don't think it would be easy to get this wood in Canada, > however. > If anyone knows of a simple (and cheap) way to demonstrate > fluorescence, please do let me know. > > > John Oreopoulos, BSc, > PhD Candidate > University of Toronto > Institute For Biomaterials and Biomedical Engineering > Centre For Studies in Molecular Imaging > > Tel: W:416-946-5022 > > > |
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Johnson, Iain-2 |
Re: Demonstration of fluorescence for high school
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In reply to this post by John Oreopoulos
My favorite is to use a solution of (very cheap) rhodamine
6G in water in a 500 ml (or bigger) cube media bottle. Excite the
fluorescence using a green (532 nm) laser pointer. Dilute the dye down
till there is at least some transmission of the excitation light out of the back
of the bottle that can be projected on a card. So now you have green light
going in and less coming out the back with yellow fluorescence across the
excitation path. The square media bottle is to avoid getting weird
reflections from the laser pointer off a cylindrical surface. Probably
best to write "do not drink" on the bottle (high school students can get quite
creative when you're not looking).
Some more "advanced" demos you can do with this include
switching to a red laser pointer to demonstrate the wavelength specificity (no
fluorescence with 635 nm excitation) and dropping coffee creamer into the
solution to demonstrate attenuation due to scattering.
Iain From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of John Oreopoulos Sent: Monday, November 09, 2009 5:56 PM To: [hidden email] Subject: Demonstration of fluorescence for high school Lastly, one beautiful demonstration that I can remember was given by
Professor David Jameson a couple of years ago at the Biophysical Society meeting
where in his talk that detailed the history of fluorescence he reproduced a
phenomenon that was observed long ago in ancient Mexico where the wood ("kidney
wood") of a specific Mexican tree when dissolved in water created an amazing
blue glow under UV light. I don't think it would be easy to get this wood in
Canada, however.
If anyone knows of a simple (and cheap) way to demonstrate fluorescence,
please do let me know. John Oreopoulos, BSc, PhD Candidate University of Toronto Institute For Biomaterials and Biomedical Engineering Centre For Studies in Molecular Imaging Tel: W:416-946-5022 |
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Vladimir Ghukasyan-2 |
Re: Demonstration of fluorescence for high school
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In reply to this post by Craig Brideau
In case of UV-light availability, the fluorescence could be
demonstrated on simple tonic. That was the very first demonstration of fluorescence historically. On Tue, Nov 10, 2009 at 10:21 AM, Craig Brideau <[hidden email]> wrote: > I second Adele's comments on minerals; many will fluoresce quite > beautifully under UV. Also fluorescein will glow green under UV > excitation. Basically get a low-powered UV wand light and some > fluorescent minerals, maybe a little vial of fluorescein (it's quite > safe, just don't drink it), and some white paper (the bleached paper > fibers will glow brightly) and maybe scribble with highlighters on > parts of the paper to show that glow as well. > > Craig > > On Tue, Nov 10, 2009 at 11:00 AM, Adele Vincent > <[hidden email]> wrote: >> hi John >> >> What about rocks instead of wood? Many minerals look very different under UV >> light and should be much easier to get your hands on. >> >> cheers >> Adele >> >> >> John Oreopoulos wrote: >> >> This is not really a microscopy related question, but I figure there should >> be people here who would be able to answer this query. I have a friend from >> another lab who came to me last Friday and asked me if there was a simple >> experiment/demonstration that could be set up to demonstrate the concept of >> fluorescence to high school students. I couldn't think of one off the top of >> my head. The only thing that came to mind was the bit about using >> Fluorescein dye to make the Chicago river look green on St. Patrick's day, >> but I don't know if there's a cheap source of Floourscein out there or if >> it's safe to use with younger students. The only other thing I could recall >> was some basic experiment that involved pulling dyes from a commercial >> highlighter pen and showing that they are fluorescent somehow, but I can't >> remember much more than that. Basically, he needs to show that with some >> substance you can put light of one color in and get a different color back >> out. Didn't George Stokes originally discover fluorescence that way >> somehow? >> Lastly, one beautiful demonstration that I can remember was given by >> Professor David Jameson a couple of years ago at the Biophysical Society >> meeting where in his talk that detailed the history of fluorescence he >> reproduced a phenomenon that was observed long ago in ancient Mexico where >> the wood ("kidney wood") of a specific Mexican tree when dissolved in water >> created an amazing blue glow under UV light. I don't think it would be easy >> to get this wood in Canada, however. >> If anyone knows of a simple (and cheap) way to demonstrate fluorescence, >> please do let me know. >> >> John Oreopoulos, BSc, >> >> PhD Candidate >> >> University of Toronto >> >> Institute For Biomaterials and Biomedical Engineering >> >> Centre For Studies in Molecular Imaging >> >> Tel: W:416-946-5022 >> >> >> -- >> >> Adele Vincent, PhD >> >> NHMRC Postdoctoral Research Fellow >> >> Laboratory of Molecular Neurobiology >> >> Menzies Research Institute >> >> Tasmania, Australia >> >> ph: +61 3 6226 7195 >> >> fax: +61 3 6226 2679 >> >> Mailing address: >> >> Private Bag 24 >> >> University of Tasmania >> >> TAS 7001 >> >> Australia > |
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John Oreopoulos |
Re: Demonstration of fluorescence for high school
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Thank you all for the excellent suggestions so far.
John On 9-Nov-09, at 10:00 PM, Vladimir Gukassyan wrote: > In case of UV-light availability, the fluorescence could be > demonstrated on simple tonic. That was the very first demonstration of > fluorescence historically. > > > On Tue, Nov 10, 2009 at 10:21 AM, Craig Brideau > <[hidden email]> wrote: >> I second Adele's comments on minerals; many will fluoresce quite >> beautifully under UV. Also fluorescein will glow green under UV >> excitation. Basically get a low-powered UV wand light and some >> fluorescent minerals, maybe a little vial of fluorescein (it's quite >> safe, just don't drink it), and some white paper (the bleached paper >> fibers will glow brightly) and maybe scribble with highlighters on >> parts of the paper to show that glow as well. >> >> Craig >> >> On Tue, Nov 10, 2009 at 11:00 AM, Adele Vincent >> <[hidden email]> wrote: >>> hi John >>> >>> What about rocks instead of wood? Many minerals look very >>> different under UV >>> light and should be much easier to get your hands on. >>> >>> cheers >>> Adele >>> >>> >>> John Oreopoulos wrote: >>> >>> This is not really a microscopy related question, but I figure >>> there should >>> be people here who would be able to answer this query. I have a >>> friend from >>> another lab who came to me last Friday and asked me if there was >>> a simple >>> experiment/demonstration that could be set up to demonstrate the >>> concept of >>> fluorescence to high school students. I couldn't think of one off >>> the top of >>> my head. The only thing that came to mind was the bit about using >>> Fluorescein dye to make the Chicago river look green on St. >>> Patrick's day, >>> but I don't know if there's a cheap source of Floourscein out >>> there or if >>> it's safe to use with younger students. The only other thing I >>> could recall >>> was some basic experiment that involved pulling dyes from a >>> commercial >>> highlighter pen and showing that they are fluorescent somehow, >>> but I can't >>> remember much more than that. Basically, he needs to show that >>> with some >>> substance you can put light of one color in and get a different >>> color back >>> out. Didn't George Stokes originally discover fluorescence that way >>> somehow? >>> Lastly, one beautiful demonstration that I can remember was given by >>> Professor David Jameson a couple of years ago at the Biophysical >>> Society >>> meeting where in his talk that detailed the history of >>> fluorescence he >>> reproduced a phenomenon that was observed long ago in ancient >>> Mexico where >>> the wood ("kidney wood") of a specific Mexican tree when >>> dissolved in water >>> created an amazing blue glow under UV light. I don't think it >>> would be easy >>> to get this wood in Canada, however. >>> If anyone knows of a simple (and cheap) way to demonstrate >>> fluorescence, >>> please do let me know. >>> >>> John Oreopoulos, BSc, >>> >>> PhD Candidate >>> >>> University of Toronto >>> >>> Institute For Biomaterials and Biomedical Engineering >>> >>> Centre For Studies in Molecular Imaging >>> >>> Tel: W:416-946-5022 >>> >>> >>> -- >>> >>> Adele Vincent, PhD >>> >>> NHMRC Postdoctoral Research Fellow >>> >>> Laboratory of Molecular Neurobiology >>> >>> Menzies Research Institute >>> >>> Tasmania, Australia >>> >>> ph: +61 3 6226 7195 >>> >>> fax: +61 3 6226 2679 >>> >>> Mailing address: >>> >>> Private Bag 24 >>> >>> University of Tasmania >>> >>> TAS 7001 >>> >>> Australia >> |
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Barbara Foster |
Re: Demonstration of fluorescence for high school
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In reply to this post by John Oreopoulos
Hi, John
There is one really neat and absolutely graphic demo that is safe for any lab. And you can really set the kids up in advance by asking them, "On the way to class today, did anyone see the grass fluorescing red?" The kids will just giggle because everyone KNOWS that grass is green. The experiment is simple: just look at any leaf (grass, plant, tree) in regular light, then look at it under the fluorescent microscope with any green excitation/red emission filter set. The ones used for Rhodamine are great. The chloroplasts in the grass will fluoresce bright red. This is a great time to bring up the subject with the kids about the spectrum, the spectrum of sunlight, and reflected color versus fluorescently excited emissions. There is LOTS of science in this one simple experiment and the kids will never forget it. By the way, the normal H&E stained preps (ex: Kidney), also work really well, too. And it's neat to look at them with different filter sets to see the difference in fluorescence. If you want a slightly more challenging experiment, you colleague can see if he can get an old CRT type color TV tube. It's been more than 25 years since I've gone through this exercise, so let me if I can remember all the steps: a. You need to have someone crack the tube to release the vacuum under controlled conditions, otherwise it could be very dangerous. b. Then, you need to carefully chip around the edge of the front panel to remove the actual screen. c. It seems to me that there might be a black coating that can be peeled off, exposing the phosphors. d. Cut a piece of Scotch tape about 1.5" long. Place about 1" of the tape, sticky side down, over the phosphors. Use the other 1/2" as a "handle". e. Using a tongue depressor, carefully stroke the tape to transfer the phosphors from the inside of the screen to the tape. f. Carefully peel back the tape and lay it, still sticky side down, on a microscope slide g. Observe under a fluorescent microscope with a variety of filter cubes. (UV excitation, Blue, Green). The different phosphors will fluoresce differently with each filter cube. h. When completed, dispose of the rest of the TV screen according to local regulations. I think I've got all the steps right. We did this as part of a New York Microscopical/Royal Microscopical Course at U Mass/Amherst years ago and I STILL have my taped slide. One thing more: many minerals fluoresce, often revealing components that are "invisible" under normal white light. A simple UV light which can be obtained at some science and/or party stores is sufficient. But that's a WHOLE nother story! I hope this helps your friend. Best regards, Barbara Foster, President and Sr. Consultant Microscopy/Microscopy Education 7101 Royal Glen Trail, Suite A McKinney TX 75070 P: (972)924-5310 Skype: fostermme W: www.MicroscopyEducation.com NEWS! Visit the NEW and IMPROVED www.MicroscopyEducation.com! And don't forget: MME is now scheduling customized, on-site courses for 2010. Call me for a free assessment and quote. At 07:04 PM 11/9/2009, John Oreopoulos wrote: This is not really a microscopy related question, but I figure there should be people here who would be able to answer this query. I have a friend from another lab who came to me last Friday and asked me if there was a simple experiment/demonstration that could be set up to demonstrate the concept of fluorescence to high school students. I couldn't think of one off the top of my head. The only thing that came to mind was the bit about using Fluorescein dye to make the Chicago river look green on St. Patrick's day, but I don't know if there's a cheap source of Floourscein out there or if it's safe to use with younger students. The only other thing I could recall was some basic experiment that involved pulling dyes from a commercial highlighter pen and showing that they are fluorescent somehow, but I can't remember much more than that. Basically, he needs to show that with some substance you can put light of one color in and get a different color back out. Didn't George Stokes originally discover fluorescence that way somehow? |
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Dale Callaham |
Re: Demonstration of fluorescence for high school
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In reply to this post by John Oreopoulos
John,
This has nothing to do with microscopy but it doesn't involve "chemicals" either so it may be easier to deal with in a HS. Get a bottle of Lysol - I'm looking at my bottle of "Lemon Breeze All-Purpose 3-in-1 Dilutable". Either the concentrate or a modest dilution, if held close to a standard "white" fluorescent tube (tube or compact style) will show nice "fluorescein" green at the top where the light is absorbed, and the green fades a bit below the surface of the solution as the blue-UV has been absorbed. I'm sure the UV flashlights or a blacklight poster (BLB (blacklight-blue) bulb will be more dramatic. A beam of sunlight works too - oh, I forgot - it's Canada! Cheers! Dale John Oreopoulos wrote: > This is not really a microscopy related question, but I figure there > should be people here who would be able to answer this query. I have a > friend from another lab who came to me last Friday and asked me if there > was a simple experiment/demonstration that could be set up to > demonstrate the concept of fluorescence to high school students. I > couldn't think of one off the top of my head. The only thing that came > to mind was the bit about using Fluorescein dye to make the Chicago > river look green on St. Patrick's day, but I don't know if there's a > cheap source of Floourscein out there or if it's safe to use with > younger students. The only other thing I could recall was some basic > experiment that involved pulling dyes from a commercial highlighter pen > and showing that they are fluorescent somehow, but I can't remember much > more than that. Basically, he needs to show that with some substance you > can put light of one color in and get a different color back out. Didn't > George Stokes originally discover fluorescence that way somehow? > Lastly, one beautiful demonstration that I can remember was given by > Professor David Jameson a couple of years ago at the Biophysical Society > meeting where in his talk that detailed the history of fluorescence he > reproduced a phenomenon that was observed long ago in ancient Mexico > where the wood ("kidney wood") of a specific Mexican tree when dissolved > in water created an amazing blue glow under UV light. I don't think it > would be easy to get this wood in Canada, however. > If anyone knows of a simple (and cheap) way to demonstrate fluorescence, > please do let me know. > > > John Oreopoulos, BSc, > > PhD Candidate > > University of Toronto > > Institute For Biomaterials and Biomedical Engineering > > Centre For Studies in Molecular Imaging > > > Tel: W:416-946-5022 > > > |
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John Oreopoulos |
Re: Demonstration of fluorescence for high school
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Another great idea!
Okay now, we do get lots of light up here in Canada contrary to what most people think. In fact, it was a balmy 18 degrees C in Toronto today and yesterday. Not bad for November. Now back to ice fishing in my igloo. John On 9-Nov-09, at 11:21 PM, Dale Callaham wrote: > John, > > This has nothing to do with microscopy but it doesn't involve > "chemicals" either so it may be easier to deal with in a HS. Get a > bottle of Lysol - I'm looking at my bottle of "Lemon Breeze All- > Purpose 3-in-1 Dilutable". Either the concentrate or a modest > dilution, if held close to a standard "white" fluorescent tube > (tube or compact style) will show nice "fluorescein" green at the > top where the light is absorbed, and the green fades a bit below > the surface of the solution as the blue-UV has been absorbed. I'm > sure the UV flashlights or a blacklight poster (BLB (blacklight- > blue) bulb will be more dramatic. A beam of sunlight works too - > oh, I forgot - it's Canada! > > Cheers! > > Dale > > John Oreopoulos wrote: >> This is not really a microscopy related question, but I figure >> there should be people here who would be able to answer this >> query. I have a friend from another lab who came to me last Friday >> and asked me if there was a simple experiment/demonstration that >> could be set up to demonstrate the concept of fluorescence to high >> school students. I couldn't think of one off the top of my head. >> The only thing that came to mind was the bit about using >> Fluorescein dye to make the Chicago river look green on St. >> Patrick's day, but I don't know if there's a cheap source of >> Floourscein out there or if it's safe to use with younger >> students. The only other thing I could recall was some basic >> experiment that involved pulling dyes from a commercial >> highlighter pen and showing that they are fluorescent somehow, but >> I can't remember much more than that. Basically, he needs to show >> that with some substance you can put light of one color in and get >> a different color back out. Didn't George Stokes originally >> discover fluorescence that way somehow? Lastly, one beautiful >> demonstration that I can remember was given by Professor David >> Jameson a couple of years ago at the Biophysical Society meeting >> where in his talk that detailed the history of fluorescence he >> reproduced a phenomenon that was observed long ago in ancient >> Mexico where the wood ("kidney wood") of a specific Mexican tree >> when dissolved in water created an amazing blue glow under UV >> light. I don't think it would be easy to get this wood in Canada, >> however. If anyone knows of a simple (and cheap) way to >> demonstrate fluorescence, please do let me know. >> John Oreopoulos, BSc, >> PhD Candidate >> University of Toronto >> Institute For Biomaterials and Biomedical Engineering >> Centre For Studies in Molecular Imaging >> Tel: W:416-946-5022 |
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In reply to this post by Vladimir Ghukasyan-2
My favourite demo is with tonic water. I have a little UV LED key-chain torch which I can palm, and I turn the room lights off and pour myself a drink. It really looks quite startling, and I've heard gasps as I drink the glowing blue liquid! Then I say, "Very nice, but it needs a pinch of salt" and shake a salt-cellar into the glass - the fluorescence goes out like a light. This make the point that fluorescence depends on the chemical environment. I don't usually drink it after adding the salt, though.
Fluorescein works well - a solution that is so week as to be nearly colourless fluoesces very brightly with a blue keychain LED (it's always worth souveniering those conference give-aways!). Fluorescein is quite cheap (eg from Sigma), and totally non-toxic. Even safe to drink. Rhodamine, on the other hand, isn't regarded as quite so safe. I also have a if piece of titanium sapphire (a melt that was rejected for laser user because of bubbles). That works well with a green laser pointer. The advantage of having 3 different samples is that you can demonstrate Stokes Shift - blue will not excite the tonic, green will not excite the fluorescein, etc. Guy Optical Imaging Techniques in Cell Biology by Guy Cox CRC Press / Taylor & Francis http://www.guycox.com/optical.htm ______________________________________________ Associate Professor Guy Cox, MA, DPhil(Oxon) Electron Microscope Unit, Madsen Building F09, University of Sydney, NSW 2006 ______________________________________________ Phone +61 2 9351 3176 Fax +61 2 9351 7682 Mobile 0413 281 861 ______________________________________________ http://www.guycox.net -----Original Message----- From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Vladimir Gukassyan Sent: Tuesday, 10 November 2009 2:00 PM To: [hidden email] Subject: Re: Demonstration of fluorescence for high school In case of UV-light availability, the fluorescence could be demonstrated on simple tonic. That was the very first demonstration of fluorescence historically. On Tue, Nov 10, 2009 at 10:21 AM, Craig Brideau <[hidden email]> wrote: > I second Adele's comments on minerals; many will fluoresce quite > beautifully under UV. Also fluorescein will glow green under UV > excitation. Basically get a low-powered UV wand light and some > fluorescent minerals, maybe a little vial of fluorescein (it's quite > safe, just don't drink it), and some white paper (the bleached paper > fibers will glow brightly) and maybe scribble with highlighters on > parts of the paper to show that glow as well. > > Craig > > On Tue, Nov 10, 2009 at 11:00 AM, Adele Vincent > <[hidden email]> wrote: >> hi John >> >> What about rocks instead of wood? Many minerals look very different >> under UV light and should be much easier to get your hands on. >> >> cheers >> Adele >> >> >> John Oreopoulos wrote: >> >> This is not really a microscopy related question, but I figure there >> should be people here who would be able to answer this query. I have >> a friend from another lab who came to me last Friday and asked me if >> there was a simple experiment/demonstration that could be set up to >> demonstrate the concept of fluorescence to high school students. I >> couldn't think of one off the top of my head. The only thing that >> came to mind was the bit about using Fluorescein dye to make the >> Chicago river look green on St. Patrick's day, but I don't know if >> there's a cheap source of Floourscein out there or if it's safe to >> use with younger students. The only other thing I could recall was >> some basic experiment that involved pulling dyes from a commercial >> highlighter pen and showing that they are fluorescent somehow, but I >> can't remember much more than that. Basically, he needs to show that >> with some substance you can put light of one color in and get a >> different color back out. Didn't George Stokes originally discover fluorescence that way somehow? >> Lastly, one beautiful demonstration that I can remember was given by >> Professor David Jameson a couple of years ago at the Biophysical >> Society meeting where in his talk that detailed the history of >> fluorescence he reproduced a phenomenon that was observed long ago in >> ancient Mexico where the wood ("kidney wood") of a specific Mexican >> tree when dissolved in water created an amazing blue glow under UV >> light. I don't think it would be easy to get this wood in Canada, however. >> If anyone knows of a simple (and cheap) way to demonstrate >> fluorescence, please do let me know. >> >> John Oreopoulos, BSc, >> >> PhD Candidate >> >> University of Toronto >> >> Institute For Biomaterials and Biomedical Engineering >> >> Centre For Studies in Molecular Imaging >> >> Tel: W:416-946-5022 >> >> >> -- >> >> Adele Vincent, PhD >> >> NHMRC Postdoctoral Research Fellow >> >> Laboratory of Molecular Neurobiology >> >> Menzies Research Institute >> >> Tasmania, Australia >> >> ph: +61 3 6226 7195 >> >> fax: +61 3 6226 2679 >> >> Mailing address: >> >> Private Bag 24 >> >> University of Tasmania >> >> TAS 7001 >> >> Australia > No virus found in this incoming message. Checked by AVG - www.avg.com Version: 9.0.702 / Virus Database: 270.14.50/2481 - Release Date: 11/10/09 06:40:00 |
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Patrick Van Oostveldt |
Re: Demonstration of fluorescence for high school
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In reply to this post by Adele Vincent
Dear,
Uranyl minerals are also fluorescent by UV excitation. In older times these glasses were used as UV-filters type GG. These glasses are also very good in showing the effect of numerical aperture and illumination paths. However the they emit some radiation but at very low dose. The are very fluorescent and show no bleaching. The fluorescence intensity is dependent on temperature (1% decrease per degree C). These glasses were used in fluoro-spectrophotometers to adjust set-up. Patrick Van Oostveldt Quoting Adele Vincent <[hidden email]>: > hi John > > What about rocks instead of wood? Many minerals look very different > under UV light and should be much easier to get your hands on. > > cheers > Adele > > > John Oreopoulos wrote: >> This is not really a microscopy related question, but I figure >> there should be people here who would be able to answer this query. >> I have a friend from another lab who came to me last Friday and >> asked me if there was a simple experiment/demonstration that could >> be set up to demonstrate the concept of fluorescence to high school >> students. I couldn't think of one off the top of my head. The only >> thing that came to mind was the bit about using Fluorescein dye to >> make the Chicago river look green on St. Patrick's day, but I >> don't know if there's a cheap source of Floourscein out there or >> if it's safe to use with younger students. The only other thing I >> could recall was some basic experiment that involved pulling dyes >> from a commercial highlighter pen and showing that they are >> fluorescent somehow, but I can't remember much more than that. >> Basically, he needs to show that with some substance you can put >> light of one color in and get a different color back out. Didn't >> George Stokes originally discover fluorescence that way somehow? >> Lastly, one beautiful demonstration that I can remember was given >> by Professor David Jameson a couple of years ago at the >> Biophysical Society meeting where in his talk that detailed the >> history of fluorescence he reproduced a phenomenon that was >> observed long ago in ancient Mexico where the wood ("kidney wood") >> of a specific Mexican tree when dissolved in water created an >> amazing blue glow under UV light. I don't think it would be easy >> to get this wood in Canada, however. If anyone knows of a simple >> (and cheap) way to demonstrate fluorescence, please do let me know. >> >> >> John Oreopoulos, BSc, >> >> PhD Candidate >> >> University of Toronto >> >> Institute For Biomaterials and Biomedical Engineering >> >> Centre For Studies in Molecular Imaging >> >> >> Tel: W:416-946-5022 >> >> >> > > -- > > > Adele Vincent, PhD > > NHMRC Postdoctoral Research Fellow > > Laboratory of Molecular Neurobiology > > Menzies Research Institute > > Tasmania, Australia > > > ph: +61 3 6226 7195 > > fax: +61 3 6226 2679 > > > Mailing address: > > Private Bag 24 > > University of Tasmania > > TAS 7001 > > Australia -- Dep. Moleculaire Biotechnologie Coupure links 653 B 9000 GENT tel 09 264 5969 fax 09 264 6219 |
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Ricardo Figueroa |
Re: Demonstration of fluorescence for high school
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In reply to this post by John Oreopoulos
How about using tonic water, quinine will fluoresce when exited with UV. A standard UV diode will work fine, however I must admit that a scorpion would be much more impressive. /Ricardo |
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Patrick Van Oostveldt |
Re: Demonstration of fluorescence for high school
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In reply to this post by John Oreopoulos
Hi,
Please note that a lot of stamps and paper money show fluorescence in a very specific way. You can use it also in a microscope at low magnification. After demonstration of the fluorescence you money or stamp still has its original value an can be used for further investments in your microscope set-up. Bye Patrick Van Oostveldt Quoting John Oreopoulos <[hidden email]>: > Another great idea! > Okay now, we do get lots of light up here in Canada contrary to what > most people think. In fact, it was a balmy 18 degrees C in Toronto > today and yesterday. Not bad for November. Now back to ice fishing in > my igloo. > > John > > On 9-Nov-09, at 11:21 PM, Dale Callaham wrote: > >> John, >> >> This has nothing to do with microscopy but it doesn't involve >> "chemicals" either so it may be easier to deal with in a HS. Get a >> bottle of Lysol - I'm looking at my bottle of "Lemon Breeze >> All-Purpose 3-in-1 Dilutable". Either the concentrate or a modest >> dilution, if held close to a standard "white" fluorescent tube >> (tube or compact style) will show nice "fluorescein" green at the >> top where the light is absorbed, and the green fades a bit below >> the surface of the solution as the blue-UV has been absorbed. I'm >> sure the UV flashlights or a blacklight poster (BLB >> (blacklight-blue) bulb will be more dramatic. A beam of sunlight >> works too - oh, I forgot - it's Canada! >> >> Cheers! >> >> Dale >> >> John Oreopoulos wrote: >>> This is not really a microscopy related question, but I figure >>> there should be people here who would be able to answer this >>> query. I have a friend from another lab who came to me last Friday >>> and asked me if there was a simple experiment/demonstration that >>> could be set up to demonstrate the concept of fluorescence to high >>> school students. I couldn't think of one off the top of my head. >>> The only thing that came to mind was the bit about using >>> Fluorescein dye to make the Chicago river look green on St. >>> Patrick's day, but I don't know if there's a cheap source of >>> Floourscein out there or if it's safe to use with younger >>> students. The only other thing I could recall was some basic >>> experiment that involved pulling dyes from a commercial >>> highlighter pen and showing that they are fluorescent somehow, but >>> I can't remember much more than that. Basically, he needs to show >>> that with some substance you can put light of one color in and >>> get a different color back out. Didn't George Stokes originally >>> discover fluorescence that way somehow? Lastly, one beautiful >>> demonstration that I can remember was given by Professor David >>> Jameson a couple of years ago at the Biophysical Society meeting >>> where in his talk that detailed the history of fluorescence he >>> reproduced a phenomenon that was observed long ago in ancient >>> Mexico where the wood ("kidney wood") of a specific Mexican tree >>> when dissolved in water created an amazing blue glow under UV >>> light. I don't think it would be easy to get this wood in Canada, >>> however. If anyone knows of a simple (and cheap) way to >>> demonstrate fluorescence, please do let me know. >>> John Oreopoulos, BSc, >>> PhD Candidate >>> University of Toronto >>> Institute For Biomaterials and Biomedical Engineering >>> Centre For Studies in Molecular Imaging >>> Tel: W:416-946-5022 -- Dep. Moleculaire Biotechnologie Coupure links 653 B 9000 GENT tel 09 264 5969 fax 09 264 6219 |
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Keith Morris |
Re: Demonstration of fluorescence for high school
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As well as the other excellent suggestions, check out suppliers for
teachers, e.g. sun-light detecting fluorescent beads [kid's bracelet kind] - who are geared up for this sort of thing [i.e. cheap, works and relatively safe]. http://www.teachersource.com/Ultraviolet/Ultraviolet/PortableUVLight.aspx http://65.19.85.158/Ultraviolet/Ultraviolet.aspx or in the UK [and ireland] e.g. http://www.selectadna.co.uk/uv-lights.html?gclid=CKDU47HFgJ4CFVeY2AodcheQpA http://www.purpleturtle.co.uk/acatalog/Safe_Sun_Protection__Monitoring_the_U V_Level.html http://www.teachersource.com/Images/UserDir/UV-AST.html http://www.fashionblogsite.com/blogs/permalinks/5-2007/the-perfect-companion -for-your-sunblock.php http://www.labsupplies.ie/pp/Chemistry/Earth_Sciences/Ultraviolet_Detecting_ Beads_%28pack_of_500%29.html http://www.starlab-astronomy.co.nz/uvbead.htm The uV light source works well with my large rock slices that I got from eBay [supplied ground thin on a glass slide, and as the lump of rock]. Regards Keith --------------------------------------------------------------------------- Dr Keith J. Morris, Molecular Cytogenetics and Microscopy Core, Laboratory 00/069 and 00/070, The Wellcome Trust Centre for Human Genetics, Roosevelt Drive, Oxford OX3 7BN, United Kingdom. Telephone: +44 (0)1865 287568 Email: [hidden email] Web-pages: http://www.well.ox.ac.uk/molecular-cytogenetics-and-microscopy -----Original Message----- From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Patrick Van Oostveldt Sent: 10 November 2009 09:56 To: [hidden email] Subject: Re: Demonstration of fluorescence for high school Hi, Please note that a lot of stamps and paper money show fluorescence in a very specific way. You can use it also in a microscope at low magnification. After demonstration of the fluorescence you money or stamp still has its original value an can be used for further investments in your microscope set-up. Bye Patrick Van Oostveldt Quoting John Oreopoulos <[hidden email]>: > Another great idea! > Okay now, we do get lots of light up here in Canada contrary to what > most people think. In fact, it was a balmy 18 degrees C in Toronto > today and yesterday. Not bad for November. Now back to ice fishing in > my igloo. > > John > > On 9-Nov-09, at 11:21 PM, Dale Callaham wrote: > >> John, >> >> This has nothing to do with microscopy but it doesn't involve >> "chemicals" either so it may be easier to deal with in a HS. Get a >> bottle of Lysol - I'm looking at my bottle of "Lemon Breeze >> All-Purpose 3-in-1 Dilutable". Either the concentrate or a modest >> dilution, if held close to a standard "white" fluorescent tube >> (tube or compact style) will show nice "fluorescein" green at the >> top where the light is absorbed, and the green fades a bit below >> the surface of the solution as the blue-UV has been absorbed. I'm >> sure the UV flashlights or a blacklight poster (BLB >> (blacklight-blue) bulb will be more dramatic. A beam of sunlight >> works too - oh, I forgot - it's Canada! >> >> Cheers! >> >> Dale >> >> John Oreopoulos wrote: >>> This is not really a microscopy related question, but I figure >>> there should be people here who would be able to answer this >>> query. I have a friend from another lab who came to me last Friday >>> and asked me if there was a simple experiment/demonstration that >>> could be set up to demonstrate the concept of fluorescence to high >>> school students. I couldn't think of one off the top of my head. >>> The only thing that came to mind was the bit about using >>> Fluorescein dye to make the Chicago river look green on St. >>> Patrick's day, but I don't know if there's a cheap source of >>> Floourscein out there or if it's safe to use with younger >>> students. The only other thing I could recall was some basic >>> experiment that involved pulling dyes from a commercial >>> highlighter pen and showing that they are fluorescent somehow, but >>> I can't remember much more than that. Basically, he needs to show >>> that with some substance you can put light of one color in and >>> get a different color back out. Didn't George Stokes originally >>> discover fluorescence that way somehow? Lastly, one beautiful >>> demonstration that I can remember was given by Professor David >>> Jameson a couple of years ago at the Biophysical Society meeting >>> where in his talk that detailed the history of fluorescence he >>> reproduced a phenomenon that was observed long ago in ancient >>> Mexico where the wood ("kidney wood") of a specific Mexican tree >>> when dissolved in water created an amazing blue glow under UV >>> light. I don't think it would be easy to get this wood in Canada, >>> however. If anyone knows of a simple (and cheap) way to >>> demonstrate fluorescence, please do let me know. >>> John Oreopoulos, BSc, >>> PhD Candidate >>> University of Toronto >>> Institute For Biomaterials and Biomedical Engineering >>> Centre For Studies in Molecular Imaging >>> Tel: W:416-946-5022 -- Dep. Moleculaire Biotechnologie Coupure links 653 B 9000 GENT tel 09 264 5969 fax 09 264 6219 |
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