FLO11 Is the Primary Factor in Flor Formation Caused by Cell Surface Hydrophobicity in Wild-Type Flor Yeast
スポンサーリンク
概要
- 論文の詳細を見る
Some strains of Saccharomyces cerevisiae form a biofilm called a “flor” on the surface of wine after ethanolic fermentation, but the molecular mechanism of flor formation by the wild-type flor strain involved in wine making is not clear. Previously, we found that expression of the C-terminally truncated form of NRG1 (NRG11-470) on a multicopy plasmid increases the hydrophobicity of the cell surface, conferring flor formation on the non-flor laboratory strain. Here we show that in Ar5-H12, a wild-type flor haploid strain, flor formation is regulated by NRG11-470. Moreover, the disruptant of the wild-type flor diploid strain (Δflo11/Δflo11) show a weak ability to form the flor. The expression of FLO11 is always high in the wild-type flor strain, regardless of carbon source. Thus FLO11 is primary factor for wild-type flor strains. Furthermore, the disruptant (Δflo11) shows lower hydrophobicity of cell surface than the wild type. However, the hydrophobicity of the wild-type flor strains grown in ethanol medium was much higher than those grown in glucose medium. These results indicate that cell surface hydrophobicity is closely related to flor formation in wild-type flor yeasts.
- 2006-03-23
著者
-
ISHIGAMI Mari
Division of Biotechnology, Interdisciplinary Graduate School of Medicine and Engineering, University
-
NAKAGAWA Youji
Division of Biotechnology, Interdisciplinary Graduate School of Medicine and Engineering, University
-
HAYAKAWA Masayuki
Division of Biotechnology, Interdisciplinary Graduate School of Medicine and Engineering, University
-
IIMURA Yuzuru
Division of Biotechnology, Interdisciplinary Graduate School of Medicine and Engineering, University
-
Ishida Yuumi
Nite Biological Resource Center (nbrc) National Institute Of Technology And Evaluation
-
Iimura Yuzuru
Division Of Applied Biological Sciences Interdisciplinary Graduate School Of Medicine And Engineerin
-
Ishigami Mari
Division Of Biotechnology Interdisciplinary Graduate School Of Medicine And Engineering University O
-
Nakagawa Youji
Division Of Applied Biological Sciences Interdisciplinary Graduate School Of Medicine And Engineerin
-
Hayakawa Masayuki
Division Of Applied Biological Sciences Interdisciplinary Graduate School Of Medicine And Engineerin
-
Hayakawa M
Division Of Applied Biological Sciences Interdisciplinary Graduate School Of Medicine And Engineerin
-
Iimura Y
National Research Institute Of Brewing
-
Hayakawa Masayuki
Division Of Biotechnology Interdisciplinary Graduate School Of Medicine And Engineering University O
-
Nakagawa Youji
Interdisciplinary Graduate School Of Medicine And Engineering University Of Yamanashi
-
Hayakawa Masayuki
Interdisciplinary Graduate School Of Medicine And Engineering University Of Yamanashi
関連論文
- FLO11 Is the Primary Factor in Flor Formation Caused by Cell Surface Hydrophobicity in Wild-Type Flor Yeast
- Diversity Analysis of Actinomycetes Assemblages Isolated from Soils in Cool-temperate and Subtropical Areas of Japan
- Isolation and Characterization of a Yeast Cryptococcus sp. S-2 That Produces Raw Starch-digesting α-Amylase, Xylanase, and Polygalacturonase
- Development of an Integrative DNA Transformation System for the Yeast Hansenula anomala
- Taxonomic Diversity of Actinomycetes Isolated from Swine Manure Compost
- Virgisporangium aliadipatigenens sp. nov., Isolated from Soil in Iriomote Island and Emended Description of the Genus Virgisporangium
- Numerical phenetic and phylogenetic analyses of Actinokineospora isolates, with a description of Actinokineospora auranticolor sp. nov. and Actinokineospora enzanensis sp. nov.
- A Selective Isolation Method for Actinomadura viridis in Soil
- Pollen-Baiting and Drying Method for the Highly Selective Isolation of Actinoplanes spp. from Soil
- Selective Isolation of Actinoplanes and Dactylosporangium from Soil by Using γ-Collidine as the Chemoattractant
- FLO11 is essential for pellicle formation by wild pellicle-forming yeasts isolated from contaminated wines(GENETICS, MOLECULAR BIOLOGY, AND GENE ENGINEERING)
- Productino of HM-1 Killer Toxin in Saccharomyces cerevisiae Transformed with the PDR4 Gene and δ-Sequence-Mediated Multi-Integration System
- Structural Relationships among Killer Toxins Secreted from the Killer Strains of the Genus Williopsis
- Isolation and Nucleotide Sequence of Hansenula anomala URA3 Gene Encoding Orotidine-5'-Phosphate Decarboxylase
- A New Enrichment Method for the Selective Isolation of Streptomycetes from the Root Surfaces of Herbaceous Plants
- Stimulatory effect of indole-3-acetic acid on aerial mycelium formation and antibiotic production in Streptomyces spp.
- Two Alleles of the Sulfite Resistance Genes Are Differentially Regulated in Saccharomyces cerevisiae
- Distribution of the Sulfite Resistance Gene SSU1-R and the Variation in Its Promoter Region in Wine Yeasts(BREWING AND FOOD TECHNOLOGY)
- Species Diversity of Nocardiae Isolated from Lake and Moat Sediment Samples
- Chemotaxis in the Zoosporic Actinomycete Catenuloplanes japonicus
- New Methods for the Highly Selevtive Isolation of Streptosporangium and Dacrylosporangium from Soil
- New Methods for the Highly Selective Isolation of Micromonospora and Microbispora from Soil
- Humic Acid-Vitamin Agar, a New Medium for the Selective Isolation of Soil Actinomycetes
- Cloning and Functional Analysis of the Aspergillus oryzae Conidiation Regulator Gene brlA by Its Disruption and Misscheduled Expression
- 904 Isolation and Characterization of Mutants of Saccharomyces cerevisiae with pH-sensitive Growth
- Studies on the Isolation and Distribution of Rare Actinomycetes in Soil
- A new angucycline and a new butenolide isolated from lichen-derived Streptomyces spp.
- Actinoplanes rishiriensis sp. nov., a novel motile actinomycete isolated by rehydration and centrifugation method
- Actinomycetospora iriomotensis sp. nov., a novel actinomycete isolated from a lichen sample
- A new 16-membered tetraene macrolide JBIR-100 from a newly identified Streptomyces species
- JBIR-120 : a new growth inhibitor of hormone-refractory prostate cancer cells
- Luteimicrobium album sp. nov., a novel actinobacterium isolated from a lichen collected in Japan, and emended description of the genus Luteimicrobium