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Podospora anserina
Known as:
Podospora anserinas
, anserina, Podospora
Filamentous ascomycete fungus that is a model organism used for the genetic and molecular study of several biological processes especially aging.
National Institutes of Health
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Podospora
Papers overview
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Highly Cited
2015
Highly Cited
2015
Substrate specificity and regioselectivity of fungal AA9 lytic polysaccharide monooxygenases secreted by Podospora anserina
C. Bennati-Granier
,
Soňa Garajová
,
+9 authors
J. Berrin
Biotechnology for Biofuels
2015
Corpus ID: 3882087
BackgroundThe understanding of enzymatic polysaccharide degradation has progressed intensely in the past few years with the…
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Highly Cited
2013
Highly Cited
2013
Structural and Biochemical Analyses of Glycoside Hydrolase Families 5 and 26 β-(1,4)-Mannanases from Podospora anserina Reveal Differences upon Manno-oligosaccharide Catalysis*
M. Couturier
,
A. Roussel
,
A. Rosengren
,
P. Leone
,
H. Stålbrand
,
J. Berrin
Journal of Biological Chemistry
2013
Corpus ID: 12399391
Background: Fungal mannanases contribute to enzymatic degradation of lignocellulose. Results: New fungal mannanases reveal…
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Highly Cited
2012
Highly Cited
2012
Cello-Oligosaccharide Oxidation Reveals Differences between Two Lytic Polysaccharide Monooxygenases (Family GH61) from Podospora anserina
M. Bey
,
Simeng Zhou
,
+4 authors
J. Sigoillot
Applied and Environmental Microbiology
2012
Corpus ID: 31721647
ABSTRACT The genome of the coprophilic ascomycete Podospora anserina encodes 33 different genes encoding copper-dependent lytic…
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Highly Cited
2009
Highly Cited
2009
De Novo Biosynthesis of Vanillin in Fission Yeast (Schizosaccharomyces pombe) and Baker's Yeast (Saccharomyces cerevisiae)
E. Hansen
,
B. Møller
,
+7 authors
J. Hansen
Applied and Environmental Microbiology
2009
Corpus ID: 28459630
ABSTRACT Vanillin is one of the world's most important flavor compounds, with a global market of 180 million dollars. Natural…
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Review
2009
Review
2009
An attempt to prevent senescence: a mitochondrial approach.
V. Skulachev
,
V. Anisimov
,
+24 authors
D. Zorov
Biochimica et Biophysica Acta
2009
Corpus ID: 2334276
Highly Cited
2003
Highly Cited
2003
Domain organization and structure–function relationship of the HET‐s prion protein of Podospora anserina
Axelle Balguerie
,
Suzana Dos Reis
,
+8 authors
S. Saupe
EMBO Journal
2003
Corpus ID: 24961228
The [Het‐s] infectious element of the fungus Podospora anserina is a prion protein involved in a genetically controlled cell…
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Highly Cited
2003
Highly Cited
2003
Sexual transmission of the [Het-s] prion leads to meiotic drive in Podospora anserina
H. Dalstra
,
K. Swart
,
A. Debets
,
S. Saupe
,
R. Hoekstra
Proceedings of the National Academy of Sciences…
2003
Corpus ID: 1943229
In the filamentous fungus Podospora anserina, two phenomena are associated with polymorphism at the het-s locus, vegetative…
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Highly Cited
1997
Highly Cited
1997
The protein product of the het-s heterokaryon incompatibility gene of the fungus Podospora anserina behaves as a prion analog.
V. Coustou
,
C. Deleu
,
S. Saupe
,
J. Bégueret
Proceedings of the National Academy of Sciences…
1997
Corpus ID: 20894194
The het-s locus of Podospora anserina is a heterokaryon incompatibility locus. The coexpression of the antagonistic het-s and het…
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Review
1997
Review
1997
Mating types and sexual development in filamentous ascomycetes
E. Coppin
,
R. Debuchy
,
S. Arnaise
,
M. Picard
Microbiology and Molecular Biology Reviews
1997
Corpus ID: 12666911
The progress made in the molecular characterization of the mating types in several filamentous ascomycetes has allowed us to…
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Highly Cited
1993
Highly Cited
1993
A single amino acid difference is sufficient to elicit vegetative incompatibility in the fungus Podospora anserina.
C. Deleu
,
C. Clavé
,
J-B. Begueret
Genetics
1993
Corpus ID: 42032900
Vegetative incompatibility is known to limit heterokaryosis in filamentous fungi. It results from genetic differences between…
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