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<h3>[[Freimoser:Group|Group]]</h3>
{{Template:FreimoserTopTemplate}}
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*[[User:mstadler|Martha Stadler]]<BR>
* [[User:Huerlimann|Hans Caspar Hürlimann]]<BR>
* [[User:werner|Thomas Werner]]<BR>
* [[User:freimoser|Florian Freimoser]]<BR>






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<h3>[[Freimoser:Research|Research]]</h3>
*Projects
*Poly P
<h3>[[Freimoser:Publications|Publications]]</h3>
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<h3>[[Freimoser:Protocols|Protocols]]</h3>
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* [[Freimoser:Protocols:Yeast|Yeast]]
*Poly P
*DNA
*Protein
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<h3>[[Freimoser:Recipes|Recipes]]</h3>
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*Yeast media
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*Other media
*Buffers (DNA)
*Buffers (Proteins)


[[Image:Florian1.jpg|left]]
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<h3>[[Freimoser:Contact|Contact]]</h3>
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<h2><b>Florian M. Freimoser, PhD</b></h2>
<h3>Institute of Plant Sciences</h3>
<b>Biochemistry and Physiology of Plants</b>
ETH Zurich, LFW D46.1<br>
Universit&auml;tsstr. 2<br>
CH-8092 Zurich<br>
Switzerland
<br>
Tel: +41 +44 632 38 44<br>
Fax: +41 +44 632 10 44<br>


ETH Zurich<BR>
Please also visit our [http://www.polyphosphate.ethz.ch/ other web site!]
Institute of Plant Sciences<BR>
Universitätsstr. 2<BR>
8092 Zürich<BR>
Switzerland<BR>
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<h3>The molecule we study is so plain<br>
<h3>The molecule we study is so plain<br>
the inorganic polyphosphate chain</h3>
the inorganic polyphosphate chain</h3>
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The focus of the research in
Our group studies a simple
our group is a simple
molecule: <strong>inorganic
molecule: <strong>inorganic
polyphosphate (poly P)</strong>.<br>
polyphosphate (poly P)</strong>.<br>
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phosphate residues
phosphate residues
(from three to more than a thousand) that are
(from three to more than a thousand) that are
linked by energy-rich phosphoanhydride bonds. It has been detected
linked by energy-rich phosphoanhydride bonds. It occurs ubiquitously in all living cells and regulates many molecular and biological processes. Nevertheless, poly P is scarcely studied and little is known about poly P metabolism and its exact molecular functions; especially in eukaryotes. In our group we have developed methods to quantify poly P, to stain and localize poly P and to screen for poly P binding proteins. We are using these tools to investigate poly P metabolism and functions in fungi, plants and algae. However, at the moment our main efforts are devoted to the study of poly P metabolism in the yeast ''Saccharomyces cerevisiae'' and of poly P in fungal cell walls.
in all organisms and living cells and was found in many organelles.
In eukaryotes, poly P is particularly
prominent in fungi, algae and trypanosomatids.
Poly P serves as a phosphate and energy store and regulates
enzymes, chromatin condensation
and translation. Poly P is also involved in bacterial pathogenicity,
survival during stationary phase in
bacteria and yeast, or the adaptation to alkaline and osmotic stress.
In the slime mold <i>Dictyostelium discoideum</i>, poly P regulates
development and predation behaviour, and in humans blood coagulation is
accelerated and fibrinolysis is delayed by poly P.
In our group we study poly P metabolism and functions in eukaryotes and
we work mostly with yeast, filamentous fungi and algae.
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Latest revision as of 13:55, 7 May 2008

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Florian's Lab    People     Research     Publications     Protocols     Recipes     Links     Contact     Group info    


Florian M. Freimoser, PhD

Institute of Plant Sciences

Biochemistry and Physiology of Plants ETH Zurich, LFW D46.1
Universitätsstr. 2
CH-8092 Zurich
Switzerland
Tel: +41 +44 632 38 44
Fax: +41 +44 632 10 44

Please also visit our other web site!

The molecule we study is so plain
the inorganic polyphosphate chain

Our group studies a simple molecule: inorganic polyphosphate (poly P).
Poly P is a linear polymer that consists of a variable number of phosphate residues (from three to more than a thousand) that are linked by energy-rich phosphoanhydride bonds. It occurs ubiquitously in all living cells and regulates many molecular and biological processes. Nevertheless, poly P is scarcely studied and little is known about poly P metabolism and its exact molecular functions; especially in eukaryotes. In our group we have developed methods to quantify poly P, to stain and localize poly P and to screen for poly P binding proteins. We are using these tools to investigate poly P metabolism and functions in fungi, plants and algae. However, at the moment our main efforts are devoted to the study of poly P metabolism in the yeast Saccharomyces cerevisiae and of poly P in fungal cell walls.


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