Team:Cambridge/Project/Microscopy

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We fused a TorA export sequence to a reflectin A1-green fluorescent protein fusion in an attempt to export reflectin to the periplasm of ''E coli''. Unfortunately, even on a low copy plasmid, it appears that we may have saturated the export pathway and the backlog has formed inclusion bodies in many of the transformed cells.
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We fused a TorA export sequence to a reflectin A1-green fluorescent protein fusion in an attempt to export reflectin to the periplasm of ''E coli''. Unfortunately, even on a low copy plasmid, it appears that we may have saturated the export pathway and the backlog has occured. This means all cells have a detectable amount of GFP in their cytoplasm and fluorescent inclusion bodies in several of the transformed cells.
[[File:Cam Periplasm Export Attempt 1.jpg |thumb| 600px| center| Bacteria expressing a TorA-ReflectinA1-GFP construct appear to produce fluorescent inclusion bodies, not a green halo in the periplasm as expected.]]
[[File:Cam Periplasm Export Attempt 1.jpg |thumb| 600px| center| Bacteria expressing a TorA-ReflectinA1-GFP construct appear to produce fluorescent inclusion bodies, not a green halo in the periplasm as expected.]]

Revision as of 13:25, 19 September 2011

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OVERVIEW
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Preliminary observations

In order to get a real sense of what we were looking to achieve in our project, we felt that it was important to make some observations of native squid reflectin in vivo. We therefore obtained several specimens of Loligo opalescens and Loligo vulgaris squid from a local seafood restaurant and an online fishing bait store for dissection. We chose these species because the whole family of loliginid squid has been identified to contain reflectin, and these particular species were the only members of the family available to us. We used a confocal microscope to observe iridescent behaviour in eye and mantle tissue, by the following protocol. The stunning images produced provided a very useful reference to help us to identify what recombinant (well folded) reflectin could look like in E. coli, and definitely enthused the team to obtain bactiridescence!

Confocal Microscopy

Squid Tissues

File:Squideye reflectin250repeat.gif
This image is a gif composed of layers taken as the depth of the focal plane was altered (via moving the stage of the microscope) through a sample of reflective squid eye cells mounted in Phosphate buffered saline

We set the microscope to collect light reflected from the sample (emission and collection wavelengths overlap) as we were searching for iridescence. We'd like to thank Paul Grant who optimised the settings on the microscope. We then overlaid the images ourselves to produce the animated gif on the right.

We are very grateful to Fernan Federici who helped us, taking the image below using the 405nm, 488nm, 633nm laser beams and with the pinhole opened to a wider aperture.

Iridescent cells from around the squid eye, with thanks to Fernan Federici and Paul Grant

We used the enzyme trypsin to isolate cells from the mantle of the squid as this frees them from the extracellular matrix. Again we used the confocal microscope in a configuration that detects reflected light.

Spindle shaped cells from the squid mantle, isolated using trypsin. Thanks to Paul Grant for helping us take this image.

Reflectin Expressing Cells

We fused a TorA export sequence to a reflectin A1-green fluorescent protein fusion in an attempt to export reflectin to the periplasm of E coli. Unfortunately, even on a low copy plasmid, it appears that we may have saturated the export pathway and the backlog has occured. This means all cells have a detectable amount of GFP in their cytoplasm and fluorescent inclusion bodies in several of the transformed cells.

Bacteria expressing a TorA-ReflectinA1-GFP construct appear to produce fluorescent inclusion bodies, not a green halo in the periplasm as expected.

Reflectin Thin Films