Immuno-labelling leaf material. Please help!
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Shane van Breda |
Immuno-labelling leaf material. Please help!
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I am currently trying to determine the tissue and intracellular localisation of
caffeine in C.sinensis (tea) leaves. I have a polyclonal caffeine antibody Ig fraction that is directly labelled to FTC-ED. I am struggling to find literature of labelling leaves with flourescently labelled antibodies. Would it be possible to label fresh material without fixing or dehydration (I am worried these steps will dissolve or remove caffeine from the leaf). Alternatively I will be doing high pressure freezing and freeze substitution (in a solvent that caffeine does not dissovle in) or maybe freeze drying in 3 weeks to embedd my samples. But how would I ensure labelling with my antibody? and will I still need to premeablise my cells? Another idea I have is to determine if caffeine has any type of autoflourescence and then use this to aid in visualising it. Any ideas, references or protocols that could give me a starting point will be much appreciated! |
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I have immuno-labelled leaf epidermal peels. I found that mild
paraformaldehyde fixation and cellulase treatment were necessary to get penetration. I can't answer for what that will do for caffeine, since I don't know how easy it is to leach (though we do use boiling water to make coffee or tea) but short of microinjection I can't see what would do better. Anything that would allow the antibody to enter would surely allow caffeine to dissolve, it's just a question of how fast it dissolves at room temperature. Another point - leaf tissue after this sort of treatment is not robust, so I found it was essential to fix the epidermis to coverslips with poly-l-lysine. Otherwise, even if they looked OK, the intracellular structure was scrambled. 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) Australian Centre for Microscopy & Microanalysis, 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 Shane van Breda Sent: Monday, 31 May 2010 7:18 PM To: [hidden email] Subject: Immuno-labelling leaf material. Please help! I am currently trying to determine the tissue and intracellular localisation of caffeine in C.sinensis (tea) leaves. I have a polyclonal caffeine antibody Ig fraction that is directly labelled to FTC-ED. I am struggling to find literature of labelling leaves with flourescently labelled antibodies. Would it be possible to label fresh material without fixing or dehydration (I am worried these steps will dissolve or remove caffeine from the leaf). Alternatively I will be doing high pressure freezing and freeze substitution (in a solvent that caffeine does not dissovle in) or maybe freeze drying in 3 weeks to embedd my samples. But how would I ensure labelling with my antibody? and will I still need to premeablise my cells? Another idea I have is to determine if caffeine has any type of autoflourescence and then use this to aid in visualising it. Any ideas, references or protocols that could give me a starting point will be much appreciated! |
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Tobias Baskin |
Re: Immuno-labelling leaf material. Please help!
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In reply to this post by Shane van Breda
Shane,
Unless caffeine is stored in some kind of small vesicle, it is unlikely that any kind of aqueous procedure that gives access to your antibody will also allow all the caffeine to be lost. You mentioned cryofixation and freeze substitution. This has been used before to localize small soluble molecules. Of course, there is no guarantee it will work. After substitution, you infiltrate into the resin of your choice, embed, and section. Then stain the sections. Note that if you need to localize only at the level of light microscope, then you can embed in butylmethylmetacrylate. THis resin is not so great for TEM but is very nice for immuowork. It is easy to make and section, and it can be removed with a brief acetone exposure after sectioning, which gives great access of the structure to your antibody. E-mail me off line if you want to pursue this resin further. While I don't know that anyone has gone after caffeine, other small molecules have been chased around. If you get into the literature on freeze substitution you can find some papers on folks who have localized small molecules. The idea of detecting the caffeine spectrally is interesting and that might work well on sectioned material with some kind of microspectoscropic approach, particularly if the caffeine is in the vacoule. Yours is no easy problem! Good luck! Tobias At 4:18 AM -0500 5/31/10, Shane van Breda wrote: >I am currently trying to determine the tissue and intracellular >localisation of >caffeine in C.sinensis (tea) leaves. I have a polyclonal caffeine antibody Ig >fraction that is directly labelled to FTC-ED. > >I am struggling to find literature of labelling leaves with >flourescently labelled >antibodies. Would it be possible to label fresh material without fixing or >dehydration (I am worried these steps will dissolve or remove caffeine from >the leaf). > >Alternatively I will be doing high pressure freezing and freeze >substitution (in a >solvent that caffeine does not dissovle in) or maybe freeze drying in 3 weeks >to embedd my samples. But how would I ensure labelling with my antibody? >and will I still need to premeablise my cells? > >Another idea I have is to determine if caffeine has any type of >autoflourescence and then use this to aid in visualising it. > >Any ideas, references or protocols that could give me a starting point will be >much appreciated! -- _ ____ __ ____ / \ / / \ / \ \ Tobias I. Baskin / / / / \ \ \ Biology Department /_ / __ /__ \ \ \__ 611 N. Pleasant St. / / / \ \ \ University of Massachusetts / / / \ \ \ Amherst, MA, 01003 / / ___ / \ \__/ \ ____ www.bio.umass.edu/biology/baskin Voice: 413 - 545 - 1533 Fax: 413 - 545 - 3243 |
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Martin Wessendorf-2 |
Re: Immuno-labelling leaf material. Please help!
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In reply to this post by Guy Cox-2
Dear Guy et al--
Never having done a bit of work in plants, I have no idea of the considerations involved here. However, based on the chemistry of caffeine--i.e., it's soluble in polar solvents and has no free primary amines or carboxyl groups--it seems as if it'd be unlikely to stay in place without fixation but hard to fix covalently. The only way I know that might fix the stuff would be with McLean-Nakane fixation, where the ketones would get oxidized to aldehydes, but that would probably render it unrecognizable by the antibody. Is there any way that polarized microscopy could be used, since caffeine is birefringent? I realize that starch is also birefringent, but is there likely to be much starch in tea leaves? Martin Guy Cox wrote: > I have immuno-labelled leaf epidermal peels. I found that mild > paraformaldehyde fixation and cellulase treatment were necessary to get > penetration. I can't answer for what that will do for caffeine, since I > don't know how easy it is to leach (though we do use boiling water to > make coffee or tea) but short of microinjection I can't see what would > do better. Anything that would allow the antibody to enter would surely > allow caffeine to dissolve, it's just a question of how fast it > dissolves at room temperature. Another point - leaf tissue after this > sort of treatment is not robust, so I found it was essential to fix the > epidermis to coverslips with poly-l-lysine. Otherwise, even if they > looked OK, the intracellular structure was scrambled. > > 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) > Australian Centre for Microscopy & Microanalysis, > 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 Shane van Breda > Sent: Monday, 31 May 2010 7:18 PM > To: [hidden email] > Subject: Immuno-labelling leaf material. Please help! > > I am currently trying to determine the tissue and intracellular > localisation of > caffeine in C.sinensis (tea) leaves. I have a polyclonal caffeine > antibody Ig > fraction that is directly labelled to FTC-ED. > > I am struggling to find literature of labelling leaves with > flourescently labelled > antibodies. Would it be possible to label fresh material without fixing > or > dehydration (I am worried these steps will dissolve or remove caffeine > from > the leaf). > > Alternatively I will be doing high pressure freezing and freeze > substitution (in a > solvent that caffeine does not dissovle in) or maybe freeze drying in 3 > weeks > to embedd my samples. But how would I ensure labelling with my antibody? > > and will I still need to premeablise my cells? > > Another idea I have is to determine if caffeine has any type of > autoflourescence and then use this to aid in visualising it. > > Any ideas, references or protocols that could give me a starting point > will be > much appreciated! -- Martin Wessendorf, Ph.D. office: (612) 626-0145 Assoc Prof, Dept Neuroscience lab: (612) 624-2991 University of Minnesota Preferred FAX: (612) 624-8118 6-145 Jackson Hall, 321 Church St. SE Dept Fax: (612) 626-5009 Minneapolis, MN 55455 e-mail: [hidden email] |
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Yes, there will be starch in tea leaves, but it will be recognizably
confined to the chloroplasts so if caffeine is in crystalline granules they could be recognizable. However, the cellulose of the cell walls is also highly birefringent and this would create a pretty high background. And the caffeine may well be in solution even if it is in discrete vesicles. This is a tricky one - would caffeine have a recognizable signature in Raman microscopy? 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) Australian Centre for Microscopy & Microanalysis, 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 Martin Wessendorf Sent: Wednesday, 2 June 2010 1:32 AM To: [hidden email] Subject: Re: Immuno-labelling leaf material. Please help! Dear Guy et al-- Never having done a bit of work in plants, I have no idea of the considerations involved here. However, based on the chemistry of caffeine--i.e., it's soluble in polar solvents and has no free primary amines or carboxyl groups--it seems as if it'd be unlikely to stay in place without fixation but hard to fix covalently. The only way I know that might fix the stuff would be with McLean-Nakane fixation, where the ketones would get oxidized to aldehydes, but that would probably render it unrecognizable by the antibody. Is there any way that polarized microscopy could be used, since caffeine is birefringent? I realize that starch is also birefringent, but is there likely to be much starch in tea leaves? Martin Guy Cox wrote: > I have immuno-labelled leaf epidermal peels. I found that mild > paraformaldehyde fixation and cellulase treatment were necessary to get > penetration. I can't answer for what that will do for caffeine, since I > don't know how easy it is to leach (though we do use boiling water to > make coffee or tea) but short of microinjection I can't see what would > do better. Anything that would allow the antibody to enter would surely > allow caffeine to dissolve, it's just a question of how fast it > dissolves at room temperature. Another point - leaf tissue after this > sort of treatment is not robust, so I found it was essential to fix the > epidermis to coverslips with poly-l-lysine. Otherwise, even if they > looked OK, the intracellular structure was scrambled. > > 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) > Australian Centre for Microscopy & Microanalysis, > 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 > On Behalf Of Shane van Breda > Sent: Monday, 31 May 2010 7:18 PM > To: [hidden email] > Subject: Immuno-labelling leaf material. Please help! > > I am currently trying to determine the tissue and intracellular > localisation of > caffeine in C.sinensis (tea) leaves. I have a polyclonal caffeine > antibody Ig > fraction that is directly labelled to FTC-ED. > > I am struggling to find literature of labelling leaves with > flourescently labelled > antibodies. Would it be possible to label fresh material without > or > dehydration (I am worried these steps will dissolve or remove caffeine > from > the leaf). > > Alternatively I will be doing high pressure freezing and freeze > substitution (in a > solvent that caffeine does not dissovle in) or maybe freeze drying in 3 > weeks > to embedd my samples. But how would I ensure labelling with my antibody? > > and will I still need to premeablise my cells? > > Another idea I have is to determine if caffeine has any type of > autoflourescence and then use this to aid in visualising it. > > Any ideas, references or protocols that could give me a starting point > will be > much appreciated! -- Martin Wessendorf, Ph.D. office: (612) 626-0145 Assoc Prof, Dept Neuroscience lab: (612) 624-2991 University of Minnesota Preferred FAX: (612) 624-8118 6-145 Jackson Hall, 321 Church St. SE Dept Fax: (612) 626-5009 Minneapolis, MN 55455 e-mail: [hidden email] |
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Shane van Breda |
Re: Immuno-labelling leaf material. Please help!
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In reply to this post by Shane van Breda
Thanks to everyone for their help on my topic!
The fact that caffeine is birefringent is very interesting and I will be looking into this. In our on HPLC analysis it seems that caffeine is present in quite a high concentration compared to other alkaloids and starch. One problem that exists is the possibility that caffeine is synthesized in the chloroplasts (caffeine synthase [responsible for caffeine synthesis] was determined to be located here) and then is most probably transported somewhere? I think the vacuole. I have made this conclusion due to literature stating the presence of alkaloids in the vacuole. The problem with the vacuole is that it contains large amounts of phenolics in tea! And a hypothesis exists that phenolics and alkaloids co-aggregate in the vacoule and if this is true I think it would make it almost impossible to determine that caffeine is present in the vacoule. This is quite a difficult project as there is a lot to consider but I am confident something will work! Any other ideas are welcome! Thanks for the help! Shane van Breda. MSc Biochemistry. University of Pretoria. Department of Biochemistry. |
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Rosemary.White |
Re: Immuno-labelling leaf material. Please help!
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In reply to this post by Martin Wessendorf-2
Hi all,
Hmmm, since caffeine can be used to help stabilise phenolic compounds during fixation, maybe phenolics, e.g. tannic acid, could be used to stabilise caffeine? Should give a dark deposit in the cells, but may also hide epitopes recognised by the antibody. At least it'd give an idea about the caffeine-containing vacuoles or whatever they are. cheers, Rosemary Dr Rosemary White CSIRO Plant Industry GPO Box 1600 Canberra, ACT 2601 T 02 6246 5475 F 02 6246 5334 E [hidden email] On 2/06/10 1:32 AM, "Martin Wessendorf" <[hidden email]> wrote: > Dear Guy et al-- > > Never having done a bit of work in plants, I have no idea of the > considerations involved here. However, based on the chemistry of > caffeine--i.e., it's soluble in polar solvents and has no free primary > amines or carboxyl groups--it seems as if it'd be unlikely to stay in > place without fixation but hard to fix covalently. The only way I know > that might fix the stuff would be with McLean-Nakane fixation, where the > ketones would get oxidized to aldehydes, but that would probably render > it unrecognizable by the antibody. > > Is there any way that polarized microscopy could be used, since caffeine > is birefringent? I realize that starch is also birefringent, but is > there likely to be much starch in tea leaves? > > Martin > > Guy Cox wrote: >> I have immuno-labelled leaf epidermal peels. I found that mild >> paraformaldehyde fixation and cellulase treatment were necessary to get >> penetration. I can't answer for what that will do for caffeine, since I >> don't know how easy it is to leach (though we do use boiling water to >> make coffee or tea) but short of microinjection I can't see what would >> do better. Anything that would allow the antibody to enter would surely >> allow caffeine to dissolve, it's just a question of how fast it >> dissolves at room temperature. Another point - leaf tissue after this >> sort of treatment is not robust, so I found it was essential to fix the >> epidermis to coverslips with poly-l-lysine. Otherwise, even if they >> looked OK, the intracellular structure was scrambled. >> >> 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) >> Australian Centre for Microscopy & Microanalysis, >> 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 Shane van Breda >> Sent: Monday, 31 May 2010 7:18 PM >> To: [hidden email] >> Subject: Immuno-labelling leaf material. Please help! >> >> I am currently trying to determine the tissue and intracellular >> localisation of >> caffeine in C.sinensis (tea) leaves. I have a polyclonal caffeine >> antibody Ig >> fraction that is directly labelled to FTC-ED. >> >> I am struggling to find literature of labelling leaves with >> flourescently labelled >> antibodies. Would it be possible to label fresh material without fixing >> or >> dehydration (I am worried these steps will dissolve or remove caffeine >> from >> the leaf). >> >> Alternatively I will be doing high pressure freezing and freeze >> substitution (in a >> solvent that caffeine does not dissovle in) or maybe freeze drying in 3 >> weeks >> to embedd my samples. But how would I ensure labelling with my antibody? >> >> and will I still need to premeablise my cells? >> >> Another idea I have is to determine if caffeine has any type of >> autoflourescence and then use this to aid in visualising it. >> >> Any ideas, references or protocols that could give me a starting point >> will be >> much appreciated! |
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Well, except that tea contains a lot of phenolics already. But then
again, they might stabilise the caffeine without any further treatment???? 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) Australian Centre for Microscopy & Microanalysis, 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 Rosemary White Sent: Monday, 7 June 2010 4:55 PM To: [hidden email] Subject: Re: Immuno-labelling leaf material. Please help! Hi all, Hmmm, since caffeine can be used to help stabilise phenolic compounds during fixation, maybe phenolics, e.g. tannic acid, could be used to stabilise caffeine? Should give a dark deposit in the cells, but may also hide epitopes recognised by the antibody. At least it'd give an idea about the caffeine-containing vacuoles or whatever they are. cheers, Rosemary Dr Rosemary White CSIRO Plant Industry GPO Box 1600 Canberra, ACT 2601 T 02 6246 5475 F 02 6246 5334 E [hidden email] On 2/06/10 1:32 AM, "Martin Wessendorf" <[hidden email]> wrote: > Dear Guy et al-- > > Never having done a bit of work in plants, I have no idea of the > considerations involved here. However, based on the chemistry of > caffeine--i.e., it's soluble in polar solvents and has no free primary > amines or carboxyl groups--it seems as if it'd be unlikely to stay in > place without fixation but hard to fix covalently. The only way I know > that might fix the stuff would be with McLean-Nakane fixation, where the > ketones would get oxidized to aldehydes, but that would probably render > it unrecognizable by the antibody. > > Is there any way that polarized microscopy could be used, since caffeine > is birefringent? I realize that starch is also birefringent, but is > there likely to be much starch in tea leaves? > > Martin > > Guy Cox wrote: >> I have immuno-labelled leaf epidermal peels. I found that mild >> paraformaldehyde fixation and cellulase treatment were necessary to get >> penetration. I can't answer for what that will do for caffeine, since I >> don't know how easy it is to leach (though we do use boiling water to >> make coffee or tea) but short of microinjection I can't see what would >> do better. Anything that would allow the antibody to enter would surely >> allow caffeine to dissolve, it's just a question of how fast it >> dissolves at room temperature. Another point - leaf tissue after this >> sort of treatment is not robust, so I found it was essential to fix the >> epidermis to coverslips with poly-l-lysine. Otherwise, even if they >> looked OK, the intracellular structure was scrambled. >> >> 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) >> Australian Centre for Microscopy & Microanalysis, >> 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 >> On Behalf Of Shane van Breda >> Sent: Monday, 31 May 2010 7:18 PM >> To: [hidden email] >> Subject: Immuno-labelling leaf material. Please help! >> >> I am currently trying to determine the tissue and intracellular >> localisation of >> caffeine in C.sinensis (tea) leaves. I have a polyclonal caffeine >> antibody Ig >> fraction that is directly labelled to FTC-ED. >> >> I am struggling to find literature of labelling leaves with >> flourescently labelled >> antibodies. Would it be possible to label fresh material without >> or >> dehydration (I am worried these steps will dissolve or remove caffeine >> from >> the leaf). >> >> Alternatively I will be doing high pressure freezing and freeze >> substitution (in a >> solvent that caffeine does not dissovle in) or maybe freeze drying in 3 >> weeks >> to embedd my samples. But how would I ensure labelling with my antibody? >> >> and will I still need to premeablise my cells? >> >> Another idea I have is to determine if caffeine has any type of >> autoflourescence and then use this to aid in visualising it. >> >> Any ideas, references or protocols that could give me a starting point >> will be >> much appreciated! No virus found in this incoming message. Checked by AVG - www.avg.com Version: 9.0.829 / Virus Database: 271.1.1/2914 - Release Date: 06/07/10 04:35:00 |
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Christian-103 |
Re: Immuno-labelling leaf material. Please help!
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