Prof. Dr. Maria Mittag
The response of Chlamydomonas reinhardtii to
environmental daily temperature cycles: Functional analysis of
components of its signaling pathway
Abstract
A biological clock controls several processes in the flagellate
green alga Chlamydomonas reinhardtii, including
phototaxis and chemotaxis. This endogenous circadian clock can
be synchronized by light-dark as well as by temperature cycles.
In the past years, several components were shown to be involved
in the oscillatory machinery of the circadian clock of C.
reinhardtii (Schmidt et al., 2006, Plant Cell 18, 1908-1930;
Iliev et al., 2006, Plant Physiol. 142, 797-806; Matsuo et al.,
2008, Genes Dev. 22, 918-930). Recently, we could demonstrate
that certain clock-relevant components are able to integrate
temperature information (Voytsekh et al al., 2008, Plant Physiol.
147, 2179-2193 and unpublished data). The project aims to
characterize the molecular mechanism of temperature sensing in
C. reinhardtii. This green alga is well suited for
investigations at the molecular level, since its entire genome
has been sequenced and many molecular genetics methods including
e.g., transformation, reporter genes as well as proteome
analysis tools have been established for this organism (Merchant
et al., 2007, Science 318, 245-250).
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