Cloning and expression of genes involved in conidiation and surface properties of Penicillium camemberti grown in liquid and solid cultures.

6533b7d1fe1ef96bd125cc38

RESEARCH PRODUCT

Cloning and expression of genes involved in conidiation and surface properties of Penicillium camemberti grown in liquid and solid cultures.

Jean-françois Cavin Dominique Garmyn Khadidja Boualem Yves Waché Patrick Gervais A. Durand Thomas Karbowiak

subject

MESH: Sequence Analysis DNA MESH : Spores Fungal MESH : Molecular Sequence Data Conidiation MESH: Amino Acid Sequence MESH: Base Sequence Gene Expression Regulation Fungal Gene expression MESH : Fungal Proteins Cloning Molecular Fungal protein MESH : Amino Acid Sequence MESH : Sequence Alignment General Medicine Spores Fungal MESH: Mycelium Cell biology Weta Penicillium camemberti MESH: Fungal Proteins MESH : Hydrophobicity Hydrophobic and Hydrophilic Interactions MESH : Mycelium MESH: Gene Expression Regulation Fungal Hypha MESH : Cloning Molecular Hydrophobin Molecular Sequence Data MESH: Sequence Alignment Biology Microbiology Microbiology Fungal Proteins MESH: Spores Fungal MESH : Gene Expression Regulation Fungal MESH: Cloning Molecular [SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular Biology Amino Acid Sequence Molecular Biology Gene [ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular Biology MESH: Penicillium MESH: Hydrophobicity MESH: Molecular Sequence Data Base Sequence Mycelium Penicillium Sequence Analysis DNA MESH : Penicillium biology.organism_classification Culture Media MESH: Culture Media MESH : Base Sequence MESH : Culture Media Sequence Alignment MESH : Sequence Analysis DNA

description

International audience; Based on bioinformatic data on model fungi, the rodA and wetA genes encoding, respectively, a RodA hydrophobin protein and the WetA protein involved in conidiation mechanisms, were PCR-cloned and characterized for the first time in Penicillium camemberti. These results, completed by a sequence of the brlA gene (available in GenBank), which encodes a major transcriptional regulator also involved in the conidiation mechanism, were used to compare, by qRT-PCR, the expression of the three genes in liquid and solid cultures in a synthetic medium. While expression of the brlA and wetA genes increased dramatically in both culture conditions after 4 days of growth, expression of the rodA gene increased only with conidiation and in the solid culture, and this expression was correlated with production and secretion of a RodA protein outside the hyphae, which became very hydrophobic. In liquid cultures, no production of RodA occurred in mycelia, which remained hydrophilic, and no conidiation was detected despite formation of swellings at the tips of hyphae. The absence of conidiation in liquid culture correlated with the lack of rodA gene expression, which could be regulated by the medium composition independently of brlA and wetA genes expression.

year	journal	country	edition	language
2008-03-01

https://hal.archives-ouvertes.fr/hal-00368184