Fluorescent In-Situs and FCIS (Vize lab): Difference between revisions

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[[File:33ffar.jpg|200px|thumb|center|FISH, Fluorescein]][[File:2876.jpg|200px|thumb|center|FCIS; fluorescent and colorimetric in situ]]
[[File:38-doubleFISH-big.jpg|200px|thumb|center|Double FISH, Fluorescein and Cy3]][[File:frog10x-big.jpg|200px|thumb|center|FISH plus transmitted light]]
These pages contain protocols for performing wholemount fluorescent in situs. Instructions for two-color FISH and for a combination of fluorescent and colorimetric in situs we have called FCIS. Data can be imaged with a fluorescence stereoscope or a confocal.
These pages contain protocols for performing wholemount fluorescent in situs. Instructions for two-color FISH and for a combination of fluorescent and colorimetric in situs we have called FCIS. Data can be imaged with a fluorescence stereoscope or a confocal.


*FISH protocol
*[[FISH_/_Double_FISH|FISH protocol]]
*Fluorescein tyramide synthesis
*[[Flourescin_Tyramide_Synthesis|Fluorescein tyramide synthesis]]
*Cy3 tyramide synthesis
*[[Cy3_Tyramide_Synthesis|Cy3 tyramide synthesis]]
*FCIS protocol
*[[FCIS|FCIS protocol]]


FISH is not as sensitive as standard BM purple in situs, so if you have a very low abundance message it may not be detectable via fluorescence. You can however do a normal purple development for your low expression gene and a fluorescent counterstain- then overlay them to generate a FCIS image. These are both pretty and very good at highlighting quite subtle overlap
FISH is not as sensitive as standard BM purple in situs, so if you have a very low abundance message it may not be detectable via fluorescence. You can however do a normal purple development for your low expression gene and a fluorescent counterstain- then overlay them to generate a FCIS image. These are both pretty and very good at highlighting quite subtle overlap


'''Images:'''
<gallery>
File:33ffar.jpg|FISH, Fluorescein
File:2876.jpg|FCIS; fluorescent and colorimetric in situ
File:38-doubleFISH-big.jpg|Double FISH, Fluorescein and Cy3
File:frog10x-big.jpg|FISH plus transmitted light
</gallery>
'''Papers and other sites:'''
'''Papers and other sites:'''


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[http://www.faculty.virginia.edu/davidson/fluor_insitu/fluorescent_in_situ.html| Lance Davidson's flourescent in situ methods page]
[http://www.faculty.virginia.edu/davidson/fluor_insitu/fluorescent_in_situ.html| Lance Davidson's flourescent in situ methods page]
Vize, P.D., McCoy, K.E., and Zhou, X. (2009). Multichannel wholemount fluorescent and fluorescent/chromogenic in situ hybridization in Xenopus embryos. [http://www.ncbi.nlm.nih.gov/pubmed/19498377| Nat Protoc. 4(6): 975-983.]

Latest revision as of 11:10, 12 June 2012

These pages contain protocols for performing wholemount fluorescent in situs. Instructions for two-color FISH and for a combination of fluorescent and colorimetric in situs we have called FCIS. Data can be imaged with a fluorescence stereoscope or a confocal.

FISH is not as sensitive as standard BM purple in situs, so if you have a very low abundance message it may not be detectable via fluorescence. You can however do a normal purple development for your low expression gene and a fluorescent counterstain- then overlay them to generate a FCIS image. These are both pretty and very good at highlighting quite subtle overlap

Images:

Papers and other sites:

Zhou, X. and Vize, P.D. (2004). Proximo-distal specialization of epithelial transport processes within the Xenopus pronephric tubules. Developmental Biology 271: 322-338.

Lance Davidson's flourescent in situ methods page

Vize, P.D., McCoy, K.E., and Zhou, X. (2009). Multichannel wholemount fluorescent and fluorescent/chromogenic in situ hybridization in Xenopus embryos. Nat Protoc. 4(6): 975-983.