Difference between revisions of "The Data Dump Paper"
From Ucsbgalaxy
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Molecular components are shared between chemo- and photo-reception. Do opsins artifactually affect the chemo-transduction cascade? | Molecular components are shared between chemo- and photo-reception. Do opsins artifactually affect the chemo-transduction cascade? | ||
| − | ====H2: Light cues signal reliability of different feeding modes=== | + | ====H2: Light cues signal reliability of different feeding modes==== |
* Bright light could favor transition to relying on photosynthetic symbionts. | * Bright light could favor transition to relying on photosynthetic symbionts. | ||
* Dim light could signal nightfall, after which zooplankton prey are more active | * Dim light could signal nightfall, after which zooplankton prey are more active | ||
Revision as of 16:45, 21 November 2011
Contents
Title
Abstract
Introduction
Story 1 - Ancestral Light Modulation in Cnidaria
- Previous research indicates light modulates nematocyte firing in hydra Plachetzki nematocyte firing
- Do cnidarians from other classes show a similar response to light, with respect to the modulation of nematocyte firing?
- In addition to the hydrozoan hydra, we tested light modulation of nematocyte firing in one scyphozoan (Aureila), and two anthozoans (Anthopleura and Haliplanella).
Story 2 - Why Light modulation?
H1: Pleiotropy
Molecular components are shared between chemo- and photo-reception. Do opsins artifactually affect the chemo-transduction cascade?
H2: Light cues signal reliability of different feeding modes
- Bright light could favor transition to relying on photosynthetic symbionts.
- Dim light could signal nightfall, after which zooplankton prey are more active
