Electrophysical studies of the cold-water coral Lophelia pertusa: dissection of the epithelium and measurements of single-channel currents
This study has demonstrated that it is possible to dissect aboral epithelia from L. pertusa, to apply the patch-clamp technique on the aboral epithelia and to detect single-channel activities within this epithelium. In this study the aboral endoderm (which faces the coelenteron) was patched for the...
Main Author: | |
---|---|
Format: | Thesis |
Language: | English |
Published: |
2008
|
Subjects: | |
Online Access: | https://oceanrep.geomar.de/id/eprint/549/ https://oceanrep.geomar.de/id/eprint/549/1/Dipl.%202008%20Holtmann,%20C.pdf |
Summary: | This study has demonstrated that it is possible to dissect aboral epithelia from L. pertusa, to apply the patch-clamp technique on the aboral epithelia and to detect single-channel activities within this epithelium. In this study the aboral endoderm (which faces the coelenteron) was patched for the first time and single-channel activities were found. The observed ion channel could be characterised as a slow gating cation channel which is permeable for sodium and potassium. As this study represents only the first stages of the characterisation of this channel, making a statement about its role in ion fluxes across the membrane or its possible involvement in calcification would be speculative. In addition, the study provides a comprehensive morphology and histology as a prerequisite for further approaches to study cell physiology. And finally, the first micro-CT records of L. pertusa offer this technique for the monitoring of calcification throughout long-term experiments with high pC02. With further research on the channel it is possible to investigate its meaning for calcification and for L. pertusa. |
---|