Beam splitter: UV/488/543/630
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http://listserv.acsu.buffalo.edu/cgi-bin/wa?S1=confocal Dear all, * What is the difference of the detector of CLSM (Zeiss LSM 510 META) and fluorescence spectrometer (microplate reader, Molecular Devices spectraMax)? Or excitation source? For the microplate reader, I used the excitation wavelength at 350 nm and collected fluorescence intensity between 360 - 720 nm. The emission wavelength interval was 2 nm. For the META detector, UV laser at 364 nm was used for excitation and used all 32 channels for collection of emission. The emission wavelength interval was given as 10.7 nm. I have scanned some wood cell wall utilizing both instrument. I expected very similar spectra from both. The microplate reader seems to generate similar spectra to those in literatures, but the spectra from the META detector were very different from those of the microplate reader. The spectrum from the META detector consists of four major peaks with successively decreased intensity. If I connect only the peaks, it would be similar to the spectrum from the microplate reader. I have been trying to figure out what causes the difference. I want to make sure whether the characteristics of the instrument or something I have done incorrectly cause the differences in the spectra from both instrument. Here are a few possible reasons I could draw. 1. differences in light source and optical setup in each instrument 2. beam splitter (UV/488/543/630; the number may not be exact, but close) in Zeiss LSM 510 META 3. reflection between cover glass and sample surface Thanks. -- Ohkyung Kwon, Ph D http://www.meso.or.kr/portfolio http://www.wpskorea.org |
 
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Miller, Jason |
Re: Beam splitter: UV/488/543/630
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http://listserv.acsu.buffalo.edu/cgi-bin/wa?S1=confocal Hi Ohkyung- It seems like this could be one of two things- either the first dichroic that is available on the Zeiss META channel ((UV/488/543/633) or the pins that are put in place for the Zeiss scope to prevent reflected light from hitting the META PMT array. The initial dichroic for the META channel will reflect the indicated wavelengths of light onto the sample and block those wavelengths from reflecting back off the sample and transmitting through the detection beampath. So in the setup you are using, they are set up to block light at whatever the indicated UV wavelength is, the 488 wavelength, the 543 wavelength, etc. That can create the partial "dips" in your spectra. Are the dips at these approximate wavelengths? If you are exciting with 350 nm light, you certaintly don't need a dichroic that includes the wavelengths of 488, 543, and 633- do you have another dichroic available in the turret? The other possibility involves the pins that are put in place for the META detector when multiple laser lines are on at the same time. I believe (and I know this list has discussed this before) that when any given laser line (e.g. 514 nm) is turned on, a blocking pin is put in place after the prism dispersion element of the META channel that diminishes the amount of 514 light that reaches the detector. This is generally a quite helpful feature since reflected light from the laser will overwhelm your PMT, even with appropriate other filters in place (the META detector is the one instance where one may be using an excitation wavelength that is NOT below the wavelengths are you detecting in emission, so reflected laser light is a big concern). But it also causes these dips in spectra that make them not line up with published spectra. This isn't a problem if your "control" spectra for spectral unmixing was also taken with the same "track" and settings. -Jason ------------------- Medical Scientist Training Program (MD/PhD) University of California- San Francisco Home Address: 1434 Lakeshore Ave., Apt #8 Oakland, CA 94606 Home: (510) 625-1334 Cell: (415) 225-2134 E-mail: [hidden email] Quote for the month: Brain: an apparatus with which we think we think. - Ambrose Bierce (1842-1914) -----Original Message----- From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Oky Sent: Thursday, November 08, 2007 7:41 PM To: [hidden email] Subject: Beam splitter: UV/488/543/630 Search the CONFOCAL archive at http://listserv.acsu.buffalo.edu/cgi-bin/wa?S1=confocal Dear all, * What is the difference of the detector of CLSM (Zeiss LSM 510 META) and fluorescence spectrometer (microplate reader, Molecular Devices spectraMax)? Or excitation source? For the microplate reader, I used the excitation wavelength at 350 nm and collected fluorescence intensity between 360 - 720 nm. The emission wavelength interval was 2 nm. For the META detector, UV laser at 364 nm was used for excitation and used all 32 channels for collection of emission. The emission wavelength interval was given as 10.7 nm. I have scanned some wood cell wall utilizing both instrument. I expected very similar spectra from both. The microplate reader seems to generate similar spectra to those in literatures, but the spectra from the META detector were very different from those of the microplate reader. The spectrum from the META detector consists of four major peaks with successively decreased intensity. If I connect only the peaks, it would be similar to the spectrum from the microplate reader. I have been trying to figure out what causes the difference. I want to make sure whether the characteristics of the instrument or something I have done incorrectly cause the differences in the spectra from both instrument. Here are a few possible reasons I could draw. 1. differences in light source and optical setup in each instrument 2. beam splitter (UV/488/543/630; the number may not be exact, but close) in Zeiss LSM 510 META 3. reflection between cover glass and sample surface Thanks. -- Ohkyung Kwon, Ph D http://www.meso.or.kr/portfolio http://www.wpskorea.org |
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Search the CONFOCAL archive at
http://listserv.acsu.buffalo.edu/cgi-bin/wa?S1=confocal Thank you for your prompt reply. But I am still wondering the effect of light source in both instrument. In the case of CLSM is clear. It uses laser. Then how about the microplate reader? When I specify an excitation wavelength, does the microplate reader generate laser or use a filter? If it uses a filter for certain excitation wavelength, how do I know the performance or the spectral characteristics of the filter? Again thanks for the answers in advance. -- Ohkyung Kwon, Ph D http://www.meso.or.kr/portfolio http://www.wpskorea.org |
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Julio Vazquez |
Re: Beam splitter: UV/488/543/630
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Search the CONFOCAL archive at
http://listserv.acsu.buffalo.edu/cgi-bin/wa?S1=confocal
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Oky, the spectramax uses a monochromator, while the LSM uses a set of fixed laser lines for excitation. When you do a spectral scan on the LSM, the detection bands that match the excitation have to be removed to prevent ugly reflection artifacts. If you have a four-band beam splitter, these four bands will be suppressed from your final image. You can circumvent this by using a single band beamsplitter (primary dichroic). For instance, if you excite with a 488 laser line and a 488 dichroic, your emission spectrum above 500 nm should show no gaps... As for the spectramax, I am not sure how they separate excitation from emission, but they show polarizers in their illustrations. I can imagine that if you use polarized light for the excitation, and then use a polarizer to filter the emission, you could remove the excitation light at any given wavelength, without need for any fixed-band dichroics or other blocking optics. This allows you to measure the spectrum over the entire range, without any gaps... just a guess... Such a system would eat out a lot of the emission light, but for a plate reader, this is probably not as big an issue as for a confocal, where light is more limited. I am just speculating here... I don't really know the details of their optical path. Also, another difference might be that the emission may depend to some extent on the excitation. On the LSM, you use one (or a few) fixed excitation lines, while with the spectramax and its monochromator, you have more flexibility on the excitation side... In this situation, the emission at let's say 600 nm may be different depending on whether you are exciting at 488nm or at 560 nm, for example. you can find technical info on the spectramax at this site: -- Julio Vazquez Fred Hutchinson Cancer Research Center Seattle, WA 98109-1024 == On Nov 8, 2007, at 10:07 PM, Oky wrote:
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Grant MacGregor |
Re: Beam splitter: UV/488/543/630
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In reply to this post by Oky
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http://listserv.acsu.buffalo.edu/cgi-bin/wa?S1=confocal Has your META been calibrated ? On Nov 8, 2007, at 7:40 PM, Oky wrote: > Search the CONFOCAL archive at > http://listserv.acsu.buffalo.edu/cgi-bin/wa?S1=confocal > > Dear all, > > * What is the difference of the detector of CLSM (Zeiss LSM 510 META) > and fluorescence spectrometer (microplate reader, Molecular Devices > spectraMax)? Or excitation source? > For the microplate reader, I used the excitation wavelength at 350 nm > and collected fluorescence intensity between 360 - 720 nm. The > emission wavelength interval was 2 nm. > For the META detector, UV laser at 364 nm was used for excitation and > used all 32 channels for collection of emission. The emission > wavelength interval was given as 10.7 nm. > > I have scanned some wood cell wall utilizing both instrument. I > expected very similar spectra from both. The microplate reader seems > to generate similar spectra to those in literatures, but the spectra > from the META detector were very different from those of the > microplate reader. The spectrum from the META detector consists of > four major peaks with successively decreased intensity. If I connect > only the peaks, it would be similar to the spectrum from the > microplate reader. > > I have been trying to figure out what causes the difference. I want to > make sure whether the characteristics of the instrument or something I > have done incorrectly cause the differences in the spectra from both > instrument. Here are a few possible reasons I could draw. > 1. differences in light source and optical setup in each instrument > 2. beam splitter (UV/488/543/630; the number may not be exact, but > close) in Zeiss LSM 510 META > 3. reflection between cover glass and sample surface > > Thanks. > > -- > Ohkyung Kwon, Ph D > > http://www.meso.or.kr/portfolio > http://www.wpskorea.org |
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