Quantitative imaging of cis-regulatory reporters in living embryos
Abstract
A confocal laser scanning microscopy method has been developed for the quantitation of green fluorescent protein (GFP) as a reporter of gene activity in living three-dimensional structures such as sea urchin and starfish embryos. This method is between 2 and 50 times more accurate than conventional confocal microscopy procedures depending on the localization of GFP within an embryo. By using coinjected Texas red dextran as an internal fluorescent standard, the observed GFP intensity is corrected for variations in laser excitation and fluorescence collection efficiency. To relate the recorded image intensity to the number of GFP molecules, the embryos were lysed gently, and a fluorometric analysis of their contents was performed. Confocal laser scanning microscopy data collection from a single sea urchin blastula required less than 2 min, thereby allowing gene expression in dozens of embryos to be monitored in parallel with high spatial and temporal resolution.
Additional Information
© 2002 by the National Academy of Sciences. Contributed by Eric H. Davidson, August 9, 2002. Published online before print September 17, 2002. We thank Drs. Andrew Cameron and Chiou-Hwa Yuh for many helpful discussions; Carolina B. Livi for providing the Krox-GFP construct; Dr. Veronica Hinman for providing starfish embryos; and the California Institute of Technology Seismological Laboratory for computational facilities. This work was supported by the Helen Hay Whitney Foundation (to I.J.D.), National Aeronautics and Space Administration Earth System Science Fellowship Grant NGT5-30393 (to J.E.D.), and National Institutes of Health Grant HD37105 (to E.H.D. and S.E.F.).Attached Files
Published - DMOpnas02.pdf
Supplemental Material - 4831Fig6.xls
Files
| Name | Size | Download all |
|---|---|---|
|
md5:c94ac77b1d8f8f52036ad48fa9a54a9e
|
18.9 kB | Download |
|
md5:1bdac4c4e1cce97518be8821221bde4b
|
344.6 kB | Preview Download |
Additional details
- PMCID
- PMC130556
- Eprint ID
- 27299
- Resolver ID
- CaltechAUTHORS:20111019-092516176
- Helen Hay Whitney Foundation
- NASA Earth System Science Fellowship
- NGT5-30393
- NIH
- HD37105
- Created
-
2011-10-24Created from EPrint's datestamp field
- Updated
-
2021-11-09Created from EPrint's last_modified field