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StampaTaxon Name
Candida zeylanoides (Castellani) Langeron & Guerra
Accession number
6163
Form of supply
agar slant
Synonymous
Azymocandida zeylanoides (Castellani) E.K. Novák & Zsolt, Monilia zeylanoides Castellani var. zeylanoides, Mycotorula zeylanoides (Castellani) Ciferri & Redaelli, Parendomyces zeylanoides (Castellani) C.W. Dodge, Blastodendrion canis von Szilvinyi, Blast
Restrictions on use
For research use only
Nagoya protocol compliance conditions
Not under the scope of the CBD and the Nagoya protocol
Other Collections numbers
ATCC 7351; CBS 619; CCRC 21743; IFO 10324; IGC 2601; JCM 1627; NRRL Y-1774; NRRL Y-6360; VKMY-2324
Risk Group
1
GMO
No
Status of the strain
Isotype of Monilia zeylanoides Castellani
Isolation source
blastomycotic macroglossia
Received from
Yarrow – CBS, Delft, The Netherlands
Date of deposit
22/05/1978
LSU (D1/D2)
GenBank U45832
18S rRNA
GenBank AB013509
ITS1&2
GenBank AY542871
Recommended growth temperature
25°C
Recommended growth medium
YPDA (Yeast Extract Peptone Glucose Agar)
References
Buzzini et al.. Antimycotic activity of 4-thioisosteres of flavonoids towards yeast and
yeast-like microorganisms. Bioorg.Med.Chem.Lett (2008), 18: 3731-3733 DOI: 10.1016/j.bmcl.2008.05.048
Buzzini, Martini. Biodiversity of killer activity in yeasts isolated from the Brazilian rain forest. Can.J.Microbiol. (2000), 46: 607-611 DOI: 10.1139/w00-032
Buzzini, Pieroni. Antimicrobial activity of extracts of Clematis vitalba towards pathogenic yeast and yeast-like microorganisms. Fitoterapia (2003), 74: 397-400 DOI: 10.1016/S0367-326X(03)00047-9
Daniel et al.. Partial sequence analysis of the actin gene and its potential for studying the phylogeny of Candida species and their teleomorphs. Int.J.Syst.Evol.Microbiol. (2001), 51: 1593-1606 DOI: 10.1099/00207713-51-4-1593
Chen et al. Polymorphic Internal Transcribed Spacer Region 1 DNA Sequences Identify Medically Important Yeasts. J.Clin.Microbiol. (2001), 39: 4042-4051 DOI: 10.1128/JCM.39.11.4042-4051.2001
Diezmann et al.. Phylogeny and evolution of medical species of candida and related taxa: A multigenic analysis. J.Clin.Microbiol. (2004), 42: 5624-5635 DOI: 10.1128/JCM.42.12.5624-5635.2004
Kurtzman, Robnett. Identification of clinically important ascomycetous yeasts based on nucleotide divergence in the 5\’ end of the large-subunit (26S) ribosomal DNA gene. J.Clin.Microbiol. (1997), 35: 1216-1223 DOI: 10.1128/jcm.35.5.1216-1223.1997
Nakase, Komagata. SIGNIFICANCE OF DNA BASE COMPOSITION IN THE CLASSIFICATION OF YEAST GENUS PICHIA. J.Gen.Appl.Microbiol. (1970), 16: 511-521 DOI: 10.2323/jgam.16.6_511
Romani et al.. Analysis of condensed and hydrolysable tannins from commercial plant extracts. J.Pharm.Biomed.Anal. (2006), 41: 415-420 DOI: 10.1016/j.jpba.2005.11.031
Suzuki, Nakase. Cellular neutral sugar compositions and ubiquinone systems of the genus Candida. Microbiol.Cult.Coll. (1998), 14: 49-62
Blagodatskaya et al.. Microbiology (1980), 49: 219-222
Turchetti et al.. In vitro Antimycotic Activity of Some Plant Extracts Towards Yeast and Yeast-like Strains. Phytother.Res. (2005), 19: 44-49 DOI: 10.1002/ptr.1622
Sugita, Nakase. Non-universal Usage of the Leucine CUG Codon and the Molecular Phylogeny of the Genus Candida. Syst.Appl.Microbiol. (1999), 22: 79-86 DOI: 10.1016/S0723-2020(99)80030-7
Diddens, Lodder. (1942), 304- Die anaskosporogenen Hefen, Amsterdam: North-Holland Publ.,
Buzzini, Martini. Biodiversity of killer activity in yeasts isolated from the Brazilian rain forest. Can.J.Microbiol. (2000), 46: 607-611 DOI: 10.1139/w00-032
Buzzini, Pieroni. Antimicrobial activity of extracts of Clematis vitalba towards pathogenic yeast and yeast-like microorganisms. Fitoterapia (2003), 74: 397-400 DOI: 10.1016/S0367-326X(03)00047-9
Daniel et al.. Partial sequence analysis of the actin gene and its potential for studying the phylogeny of Candida species and their teleomorphs. Int.J.Syst.Evol.Microbiol. (2001), 51: 1593-1606 DOI: 10.1099/00207713-51-4-1593
Chen et al. Polymorphic Internal Transcribed Spacer Region 1 DNA Sequences Identify Medically Important Yeasts. J.Clin.Microbiol. (2001), 39: 4042-4051 DOI: 10.1128/JCM.39.11.4042-4051.2001
Diezmann et al.. Phylogeny and evolution of medical species of candida and related taxa: A multigenic analysis. J.Clin.Microbiol. (2004), 42: 5624-5635 DOI: 10.1128/JCM.42.12.5624-5635.2004
Kurtzman, Robnett. Identification of clinically important ascomycetous yeasts based on nucleotide divergence in the 5\’ end of the large-subunit (26S) ribosomal DNA gene. J.Clin.Microbiol. (1997), 35: 1216-1223 DOI: 10.1128/jcm.35.5.1216-1223.1997
Nakase, Komagata. SIGNIFICANCE OF DNA BASE COMPOSITION IN THE CLASSIFICATION OF YEAST GENUS PICHIA. J.Gen.Appl.Microbiol. (1970), 16: 511-521 DOI: 10.2323/jgam.16.6_511
Romani et al.. Analysis of condensed and hydrolysable tannins from commercial plant extracts. J.Pharm.Biomed.Anal. (2006), 41: 415-420 DOI: 10.1016/j.jpba.2005.11.031
Suzuki, Nakase. Cellular neutral sugar compositions and ubiquinone systems of the genus Candida. Microbiol.Cult.Coll. (1998), 14: 49-62
Blagodatskaya et al.. Microbiology (1980), 49: 219-222
Turchetti et al.. In vitro Antimycotic Activity of Some Plant Extracts Towards Yeast and Yeast-like Strains. Phytother.Res. (2005), 19: 44-49 DOI: 10.1002/ptr.1622
Sugita, Nakase. Non-universal Usage of the Leucine CUG Codon and the Molecular Phylogeny of the Genus Candida. Syst.Appl.Microbiol. (1999), 22: 79-86 DOI: 10.1016/S0723-2020(99)80030-7
Diddens, Lodder. (1942), 304- Die anaskosporogenen Hefen, Amsterdam: North-Holland Publ.,
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