21. Saccharomyces Bayanus saccharomyces bayanus. saccharomyces bayanus has several synonyms such as saccharomycesabuliensis, saccharomyces globosus, saccharomyces heterogenicus, etc. http://anka.livstek.lth.se:2080/S_bayan.htm

Saccharomyces bayanus As yeasts, i.e. microorganisms which ferment sugar and convert it into ethanol and carbon dioxide, Saccharomyces bayanus is used in winemaking. A long list of yeasts may be found in the National Collection of Yeast Cultures. Saccharomyces bayanus has several synonyms such as Saccharomyces abuliensis, Saccharomyces globosus, Saccharomyces heterogenicus, etc. Saccharomyces bayanus (Lalvin EC-1118) are yeasts ideal to make some special, particularly sparkling, wines. S. bayanus inhibit wild yeasts, restart stuck fermentations, and are tolerant to alcohol concentrations up to 18%. Other specific yeast strains are for red quality wines. If there is an art to winemaking, then it is the art of controlling yeast . There are thousands of types of yeast - of those only 250 will produce fermentation, and only 24 of those are "good" yeasts. Various terms used in enology, including "yeast ecology" are listed in a glossary. More links to brewing: An ongoing site with articles and links on brewing as it applies to the Middle Ages. Medieval Brewers Home Page.

22. The South Side (of Lake Union, That Is) Homey Page Study the position effect that occurs near telomeres in the yeast, saccharomyces cerevisiae. Includes a list of protocols, abstracts of papers from our lab, and a collection of links. http://www.fhcrc.org/labs/gottschling/

@import "/wrapper/fhcrc.css"; HOME Science and Research Gottschling Lab Science and Research Gottschling Lab Home Page Yeast Protocols Bacterial Protocols General Protocols Databases ... Contact Us Welcome to the Gottschling Lab Home Page Y ou have found the home page of Dan Gottschling's laboratory at the Fred Hutchinson Cancer Research Center in Seattle, WA. Within our little cubbyhole of cyberspace, we hope you will find useful resources for studying our organism of choice, Saccharomyces cerevisiae . We have included a list of protocols used in our lab, the Gottschling lab roster, abstracts of papers from our lab, and a collection of indispensible (and not so indispensible) links for molecular biology research. We welcome your suggestions, questions, and gripes. Thanks for visiting us. Prepared By: Michael McMurray Last Modified: Oct 11, 2001

23. Saccharomyces Bayanus Two SEM micrographs of cells of this yeast, with a brief discussion of yeast biology. http://distans.livstek.lth.se:2080/S_bayan.htm

Saccharomyces bayanus As yeasts, i.e. microorganisms which ferment sugar and convert it into ethanol and carbon dioxide, Saccharomyces bayanus is used in winemaking. A long list of yeasts may be found in the National Collection of Yeast Cultures. Saccharomyces bayanus has several synonyms such as Saccharomyces abuliensis, Saccharomyces globosus, Saccharomyces heterogenicus, etc. Saccharomyces bayanus (Lalvin EC-1118) are yeasts ideal to make some special, particularly sparkling, wines. S. bayanus inhibit wild yeasts, restart stuck fermentations, and are tolerant to alcohol concentrations up to 18%. Other specific yeast strains are for red quality wines. If there is an art to winemaking, then it is the art of controlling yeast . There are thousands of types of yeast - of those only 250 will produce fermentation, and only 24 of those are "good" yeasts. Various terms used in enology, including "yeast ecology" are listed in a glossary. More links to brewing: An ongoing site with articles and links on brewing as it applies to the Middle Ages. Medieval Brewers Home Page.

24. Merriam-Webster Online MerriamWebster provides a free online dictionary, thesaurus, audio pronunciations, Word of the Day, word games, and other English language resources. One entry found for saccharomyces. Main Entry sac·cha·ro·my·ces any of a genus (saccharomyces of the family Saccharomycetaceae) of usually unicellular yeasts (as a brewer's http://www.m-w.com/cgi-bin/dictionary?va=saccharomyces

25. GeneQuiz - Analysis Of Saccharomyces Cerevisiae Genome saccharomyces cerevisiae. Compiled at EMBLEBI, Jan 1997. In the ensuing8000 years, saccharomyces cerevisiae played a central role http://www.sander.ebi.ac.uk/genequiz/genomes/sc/

Saccharomyces cerevisiae Compiled at EMBL-EBI, Jan 1997. In the ensuing 8000 years, Saccharomyces cerevisiae played a central role in food production and conservation thanks to its ability to ferment glucose to ethanol and carbon-dioxide. But not only being useful in daily brewers and bakers practice, yeast, as a simple, unicellular eukaryote developed to a unique powerful model system for biological research. Its prominent useful features are the cheap and easy cultivation, short generation times, the detailed genetic and biochemical knowledge accumulated in many years of research and the ease of the application of molecular techniques for its genetic manipulation. Therefore, this fungus provides a highly suitable system to study basic biological processes that are relevant for many other higher eukaryotes including man. More info from NCBI Genome length: 12.06 Mb Reference: Goffeau et al. (1996). Science 274:546, 563-7. A general list of publications can be found here Functional information clock How much is known about the proteins encoded in this genome? Click on the clock to see the tabulated numbers.

26. Saccharomyces Genome Sequencing saccharomyces Genome Sequencing at the GSC. With Finding functional featuresin saccharomyces Genomes by phylogenetic footprinting The http://www.genome.wustl.edu/projects/yeast/

Information C. elegans Genome C. briggsae Genome Human Genome ... Home Navigation Saccharomyces Genomes Overview Phylogenetic Tree Assembly Information BLAST Saccharomyces Genome Sequencing at the GSC With the goal of identifying functional non-coding DNA sequences in the yeast genome, we have partially determined the genome sequences (2 to 4-fold shotgun coverage) of five Saccharomyces species (click here for a phlyogenetic tree of these species): S. mikatae S. kudriavzevii S. bayanus S. castellii S. kluyveri Finding functional features in Saccharomyces Genomes by phylogenetic footprinting The first three species listed above are relatively closely related to S. cerevisiae, and the alignments of their sequences to S. cerevisiae sequence are likely to be most useful for identifying conserved non-coding sequences. The last two species listed above are more distantly related to S. cerevisiae, so alignments of S. cerevisiae protein sequences to their orthologs in these species are likely to be more useful for identifying possible functional domains in protein sequence (see Cliften et al.

27. YeastDeletionWebPages Dear Colleagues, Happy New Year and welcome to the saccharomyces GenomeDeletion Project web page. The purpose of this page is to http://www-sequence.stanford.edu/group/yeast_deletion_project/deletions3.html

Deletion Page Home Databases and Datasets FAQs Deletion Strains Available ... Yeast Deletion Database (consortium members only) Dear Colleagues, Happy New Year and welcome to the Saccharomyces Genome Deletion Project web page. The purpose of this page is to communicate protocols, methods and information about the project. Please let us know what information you would like to see included or suggest useful links. Project Overview The Saccharomyces Genome Project has revealed the presence of more than 6000 open reading frames (ORFs) in the S. cerevisiae genome. Approximately one third of these ORFs currently have no known function four years after their discovery. The goal of the Saccharomyces Genome Deletion Project is to generate as complete a set as possible of yeast deletion strains with the overall goal of assigning function to the ORFs through phenotypic analysis of the mutants. The method used was a PCR-based gene deletion strategy to generate a start- to stop- codon deletion of each of the ORFs in the yeast genome. As part of the deletion process, each gene disruption was replaced with a KanMX module and uniquely tagged with one or two 20mer sequence(s) . The presence of the tags can be detected via hybridization to a high-density oligonucleotide array, enabling growth phenotypes of individual strains to be analyzed in parallel .

28. Yeasts: Saccharomyces, Cryptococcus, Candida The Microbial World Yeasts and yeastlike fungi saccharomyces, Cryptococcusand Candida albicans. Produced by Jim Deacon Institute http://helios.bto.ed.ac.uk/bto/microbes/yeast.htm

The Microbial World: Yeasts and yeast-like fungi Saccharomyces Cryptococcus and Candida albicans Produced by Jim Deacon Institute of Cell and Molecular Biology, The University of Edinburgh Yeasts Yeasts are fungi that grow as single cells, producing daughter cells either by budding (the budding yeasts ) or by binary fission (the fission yeasts ). They differ from most fungi, which grow as thread-like hyphae. But this distinction is not a fundamental one, because some fungi can alternate between a yeast phase and a hyphal phase, depending on environmental conditions. Such fungi are termed dimorphic (with two shapes) and they include several that cause disease of humans. Here we consider several examples of yeasts and dimorphic fungi: the common baker's yeast, Saccharomyces cerevisiae the genus Cryptococcus , which includes C. neoformans

29. En.wikipedia.org/wiki/Saccharomyces_cerevisiae saccharomyces cerevisiae Translate this page Eumycota. Ascomycetes. Saccharomycetales. Saccharomycetaceae.saccharomyces cerevisiae. Cellule di lievito in gemmazione. http://en.wikipedia.org/wiki/Saccharomyces_cerevisiae

30. Genome Biology | Full Text | Prediction Of Saccharomyces Cerevisiae Replication Prediction of saccharomyces cerevisiae replication origins Adam M Breier 1 , SouravChatterji 2 and Nicholas R Cozzarelli 3 1 Graduate Group in Biophysics http://genomebiology.com/2004/5/4/R22

home comment reviews reports ... my journal Enter your e-mail address to receive regular updates from Genome Biology .refereed research refereed research sort by date sort by subject ... Issue 4 Viewing options Abstract Full text PDF Other links: E-mail to a friend Download references Post a comment PubMed record ... ISI Web of Science Search PubMed For Breier AM Chatterji S Cozzarelli NR Key E-mail Corresponding author Research Prediction of Saccharomyces cerevisiae replication origins Adam M Breier Sourav Chatterji and Nicholas R Cozzarelli Graduate Group in Biophysics, University of California-Berkeley, Berkeley, CA 94720-3204, USA Department of Computer Science, University of California-Berkeley, Berkeley, CA 94720-3204, USA Department of Molecular and Cellular Biology, Barker Hall, University of California-Berkeley, Berkeley, CA 94720-3204, USA Genome Biology Subject areas: Molecular biology, Bioinformatics, Genome studies, Model organisms The electronic version of this article is the complete one and can be found online at: http://genomebiology.com/2004/5/4/R22 Received Revisions received Accepted Published Outline Abstract Abstract Background Results Discussion ... References Background Autonomously replicating sequences (ARSs) function as replication origins in Saccharomyces cerevisiae . ARSs contain the 17 bp ARS consensus sequence (ACS), which binds the origin recognition complex. The yeast genome contains more than 10,000 ACS matches, but there are only a few hundred origins, and little flanking sequence similarity has been found. Thus, identification of origins by sequence alone has not been possible.

31. Entrez PubMed Click here to read Identification of the copper regulon in saccharomyces cerevisiaeby DNA microarrays. Gross C, Kelleher M, Iyer VR, Brown PO, Winge DR. http://genomebiology.com/pubmed/10922376

Entrez PubMed Nucleotide Protein ... Books Search PubMed Protein Nucleotide Structure Genome Books CancerChromosomes 3D Domains Domains Gene GEO GEO DataSets HomoloGene Journals MeSH NCBI Web Site OMIM PMC PopSet SNP Taxonomy UniGene UniSTS for Limits Preview/Index History Clipboard ... Text Version Entrez PubMed Overview FAQ Tutorial New/Noteworthy ... E-Utilities PubMed Services Journals Database MeSH Database Single Citation Matcher Batch Citation Matcher ... Cubby Related Resources Order Documents NLM Gateway TOXNET Consumer Health ... PubMed Central Summary Brief Abstract Citation ASN.1 MEDLINE XML UI List LinkOut Related Articles Cited in Books CancerChrom Links Domain Links 3D Domain Links GEO DataSet Links Gene Links Genome Links GEO Links HomoloGene Links Nucleotide Links OMIM Links PMC Links Cited in PMC PopSet Links Protein Links SNP Links Structure Links UniSTS Links Show: Sort Author Journal Pub Date Text File Clipboard E-mail Order J Biol Chem. 2000 Oct 13;275(41):32310-6. Related Articles, Links Identification of the copper regulon in Saccharomyces cerevisiae by DNA microarrays. Gross C, Kelleher M, Iyer VR, Brown PO, Winge DR.

32. Saccharomyces Species saccharomyces are unable to utilize nitrate for growth; saccharomyces lack hyphae;saccharomyces have asci containing 1 to 4 ascospores. saccharomyces spp. http://www.doctorfungus.org/thefungi/Saccharomyces.htm

The Fungi Introduction Descriptions Synonyms Image Bank Lecture Bank Video Bank Mycoses Introduction Human Veterinary Environmental Industrial Agricultural Drugs Introduction Medical Veterinary Environmental Industrial Agricultural Laboratory Introduction Susceptibility MIC Database Procedures Histopathology Tools Introduction Abbreviations Links CME Conference Highlights Bibliography Glossary Good Books Events Calendar About Us Introduction Our Mission Editorial Board Editorial Staff Supporters Contributors Developers Legal Stuff This page updated: 3/16/2004 10:33:54 AM Site built and designed for doctorfungus by Webillustrated You are here: The Fungi Descriptions Absidia spp. Acremonium spp. Actinomadura spp. Alternaria spp. Apophysomyces sp. Arthrographis spp. Arthrinium spp. Aspergillus spp. Aureobasidium spp. Basidiobolus spp. Beauveria spp. Bipolaris spp. Blastomyces sp. Blastoschizomyces sp. Botrytis spp. Candida spp. - Candida albicans - Candida dubliniensis - Candida glabrata - Candida guilliermondii - Candida kefyr - Candida krusei - Candida lusitaniae - Candida parapsilosis - Candida tropicalis - Other species of Candida Chaetomium spp.

33. SCMD - Saccharomyces Cerevisiae Morphological Database Search by Gene / ORF The saccharomyces Cerevisiae Morphological Database(SCMD)is a collection of micrographs of budding yeast mutants. http://yeast.gi.k.u-tokyo.ac.jp/

Yeast Mutant Morphology Search Cell Viewer Publications ... About SCMD Search by Gene / ORF: The Saccharomyces Cerevisiae Morphological Database(SCMD) is a collection of micrographs of budding yeast mutants. Micorgraphs of mutants with altered cell morphology were taken at Ohya Group University of Tokyo , from a set of the haploid MATa deleted strains obtained from EUROSCARF. From the micrographs, disruptant cells are automatically extracted by our novel cell-image processing software developed at Morishita Group University of Tokyo We plan to update the SCMD weekly and made the data available at http://yeast.gi.k.u-tokyo.ac.jp Current Status Updated: Wednesday, May 26, 2004 19:26:32 PM JST (GMT +0900) Mutants analyzed: Micrographs Processed (x 3) Cells retrieved: Morishita Laboratory Please enable JavaScript to properly display SCMD.

34. Probiotics as Acidophilus, Bifidobacterium bifidum, Bifidobacterium longum, Intestinal Flora,Lactobacillus acidophilus, Lactobacillus casei, saccharomyces boulardii. http://www.mycustompak.com/healthNotes/Supp/Probiotics.htm

Probiotics Also indexed as: Acidophilus, Bifidobacterium bifidum Bifidobacterium longum , Intestinal Flora, Lactobacillus acidophilus Lactobacillus casei Saccharomyces boulardii What it does Where found Helpful for Are you deficient? ... References What do they do? Beneficial bacteria, such as Lactobacillus acidophilus and Bifidobacterium bifidum, are called probiotics. Probiotic bacteria favorably alter the intestinal microflora balance, inhibit the growth of harmful bacteria, promote good digestion, boost immune function , and increase resistance to infection People with flourishing intestinal colonies of beneficial bacteria are better equipped to fight the growth of disease-causing bacteria. Probiotic bacteria also produce substances called bacteriocins, which act as natural antibiotics to kill undesirable microorganisms. Immune function tends to decline with age. Twice daily supplementation with Bifidobacterium lactis (a particular strain of bifidobacteria) in milk was found in a double-blind trial to significantly enhance various aspects of immune function in a group of healthy elderly people. Benefits were apparent after only six weeks of supplementation.

35. Brewer's Yeast Brewer s yeast is the dried, pulverized cells of saccharomyces cerevisiae, atype of fungus. Brewer’s Yeast. Also indexed as saccharomyces cerevisiae. http://www.mycustompak.com/healthNotes/Supp/Brewers_Yeast.htm

Also indexed as: Saccharomyces cerevisiae What it does Where found Helpful for Are you deficient? ... References What does it do? Saccharomyces cerevisiae, a type of fungus. It is a rich source of B-complex vitamins , protein (providing all essential amino acids ), and minerals, including a biologically active form of chromium diarrhea Where is it found? (refer to the individual health concern for complete information) Rating Health Concerns Diabetes High cholesterol Diarrhea (infectious) Reliable and relatively consistent scientific data showing a substantial health benefit. Contradictory, insufficient, or preliminary studies suggesting a health benefit or minimal health benefit. An herb is primarily supported by traditional use, or the herb or supplement has little scientific support and/or minimal health benefit. Who is likely to be deficient? B-complex vitamins and protein. It is by far the best source of chromium , both in terms of quantity and bio-availability. How much is usually taken? chromium Are there any side effects or interactions? allergies to it exist in some people. It is not related to

36. DEAMBULUM : Champignons Champignons saccharomyces cerevisiae, Top. http://www.infobiogen.fr/services/deambulum/fr/genomes2c.html

Champignons MENU TABLE INDEX BANQUES ... SÉQUENCES GÉNOMES CULTURES STRUCTURES ANALYSE LOGICIELS ... Bactéries Champignons Plantes Animaux Homme Liens internes : Génomes Compilations Génomique fonctionnelle Cours de biologie ... [Organismes modèles] Génomes de champignons : Aspergillus fumigatus Aspergillus nidulans Candida albicans Neurospora crassa Saccharomyces cerevisiae Banques de données génomiques générales des champignons Taxonomie des champignons Fungi Chytridiomycota ... Saccharomyces cerevisiae levure du boulanger baker's yeast Candida albicans Schizosaccharomycetales Schizosaccharomyces pombe fission yeast Eurotiales Aspergillus fumigatus Aspergillus nidulans Sordariales ... Génomes eucaryotes incomplets Taxonomie et écologie des Champignons Liens internes : Cours de biologie Phylogénie Evolution Taxonomie ... UCMP Web Lift (UCMP, The Museum of Paleontology, University of California, Berkeley, US) Fungi The Tree of Life (University of Arizona) Fungi Basidiomycota Ascomycota SBML : Systematic Botany and Mycology Laboratory (ARS USDA, US) SBML Databases Moulds : their isolation, cultivation and identification An introductory guide to the study of moulds (fungi) by David Malloch, University of Toronto, Canada) Banques de données génomiques générales sur les champignons Liens internes : Génomes Compilations Génomique fonctionnelle Génomes ... Métabolisme (BCH, Montreal)

37. The Sanger Institute : S.cerevisiae Sequencing Projects uk/pub/yeast/SCreannotation Contact Information val@sanger.ac.uk Reannotation barrell@sanger.ac.ukGeneral Enquiries Links SGD saccharomyces Genome Database http://www.sanger.ac.uk/Projects/S_cerevisiae/

Sanger Home Acedb YourGenome Ensembl ... Databases S.cerevisiae Overview Chromosome IX Chromosome XIII Chromosome IV ... Sitemap S. cerevisiae Sequencing Projects A Re-annotation of S. cerevisiae We have recently completed a consistent reannotation of the S. cerevisiae genome using new tools and data which have become available since its completion. Comp Funct Genom 2(3): 143-154 Abstract full text Data availability and Searching Complete chromosome sequences from the EBI (ftp) Search using the S.cerevisiae Blast Server at MIPS EMBL entry chromosome IX whole, completed 1994 EMBL entry chromosome XIII whole, completed 1995 EMBL entry chromosome IV cen rightwards, complete 1996 EMBL entry chromosome XVI cen rightwards, completed 1995 chromosome VI single lambda clone, completed 1994 S. cerevisiae clones used in sequencing are available from Research genetics S. cerevisiae Reannotation - Data Availability A complete list of the original and revised gene coordinates ( in EMBL feat ure table format which can be viewed in Artemis ) is available from ftp://ftp.sanger.ac.uk/pub/yeast/SCreannotation

38. The Sanger Institute : S. Cerevisiae Blast Server saccharomyces boulardii (SB) Supplements Main Previous Page saccharomyces boulardii (SB). Although it isnot known exactly how saccharomyces boulardii works, three theories prevail. http://www.sanger.ac.uk/Projects/S_cerevisiae/blast_server.shtml

Sanger Home Acedb YourGenome Ensembl ... Databases S.cerevisiae Overview Chromosome IX Chromosome XIII Chromosome IV ... Sitemap S. cerevisiae Blast Server Find out more about wu-blast Retrieve result for id: Searches the DNA sequences of all S. cerevisiae (strain AB972) chromosomes (The Yeast Genome Directory. Nature supplement 387, 5 1997) and the protein dataset cerpep. These sequences were used for a consistent reannotation of the S. cerevisiae genome using tools and data which have become available since its completion: Comp Funct Genom 2(3): 143-154 Abstract. The cerpep database is the protein dataset resulting from the reannotation. QUERY DATA Paste your sequence here. fasta format or just plain text will do; fasta format will return the sequence name as the e-mail subject OR select the sequence file you wish to search RESULTS Browser, OR Email to OPTIONS Database S. cerevisiae AB972 chromosomes S. cerevisiae proteins Executable BLASTN (DNA vs. DNA) TBLASTN (protein vs. transl. DNA) TBLASTX (transl. DNA vs. transl. DNA)

39. Indoor Fungi Resources - DEHS, UMN Fungus Main Page. Indoor Air Quality Main Page. Home Search Program Areas TrainingForms About Us. saccharomyces sp. Allergen. Reported to be allergenic (7). http://www.dehs.umn.edu/iaq/fungus/saccharomyces/

Glossary Hidden Fungi in Buildings Investigation/Interpretation of Results Links ... About Us Saccharomyces sp. Allergen Reported to be allergenic

40. PWA Health Group: Saccharomyces Boulardii Info Sheet saccharomyces boulardii Info Sheet. saccharomyces boulardii (SB) is a live yeastpackaged in capsules and sold over the counter in Europe to treat diarrhea. http://www.thebody.com/pwa/sacc.html

Saccharomyces boulardii Info Sheet PWA Health Group May, 1996 What Is It Really? Saccharomyces boulardii (SB) is a live yeast packaged in capsules and sold over the counter in Europe to treat diarrhea. Studies suggest that SB protects the gut from amebas and cholera, may keep candida from spreading, alleviates diarrhea caused by c. difficile, Crohn's disease and diarrhea of unknown cause in PWAs, and traveller's diarrhea. How's It Work? We don't know. Test tube results show it doesn't directly kill the bugs (bacteria, fungi, or parasites) causing infection. Theories of how it works include: 1) SB or something it produces may prevent gut inflammation that causes diarrhea, by interfering with how various bugs bind to gut cells; 2) SB might increase certain protective immune proteins that in turn kill the infection-causing bugs; and/or 3) SB might be a superior non-toxic competitor with amebas and candida in the intestine ("There ain't room in this gut for the both of us."). Clinical Studies in PWAs There's only been one so far, as one in Seattle was cancelled. In a French study, 30 PWAs with chronic, severe (watery, 4-8 liters/day) diarrhea from no known cause, all with a history of CMV, MAI and KS, took 3 grams (3000 mg) of SB per day. Within two days, the volume of their diarrhea had been reduced to 1 liter. By the eighth day on SB, their stools were normally formed.

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