Studio dell'aggregazione cellulare in ceppi vinari di Saccharomyces ...
Studio dell'aggregazione cellulare in ceppi vinari di Saccharomyces ...
Studio dell'aggregazione cellulare in ceppi vinari di Saccharomyces ...
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
Baillie, G. S. & Douglas, L. J. Role of <strong>di</strong>morphism <strong>in</strong> the development of<br />
Can<strong>di</strong>da albicans biofilms. J. Med. Microbiol. 48, 671–679 (1999).<br />
Bar<strong>di</strong> L. (2005). In “Microbiologia del v<strong>in</strong>o”. A cura <strong>di</strong> V<strong>in</strong>cenz<strong>in</strong>i, M.,<br />
Romano, P., Farris, G.A. Casa E<strong>di</strong>trice Ambrosiana: 132-157.<br />
Bardwell L, Cook JG, Voora D, Baggot DM, Mart<strong>in</strong>ez AR, Thorner J<br />
(1998). Repression of yeast Ste12 transcription factor by b<strong>in</strong>d<strong>in</strong>g of<br />
unphosporylated Kss1 MAPK and its regulation by the Ste7 MEK. Genes<br />
Dev 12, 2887-2898<br />
Barrales R. R., Jimenez J. and Ibeas J. I. (2008) Identification of Novel<br />
Activation Mechanisms for FLO11 Regulation <strong>in</strong> <strong>Saccharomyces</strong><br />
cerevisiae. Genetics 178: 145–156<br />
Bell P.B., L<strong>in</strong>droth M., Fredriksson B-A. (1988). Preparations of<br />
cytoskeletons of cells <strong>in</strong> culture for high resolution scann<strong>in</strong>g and<br />
scann<strong>in</strong>g transmission electron microscopy. Scann<strong>in</strong>g Microscopy, 2:<br />
1647-1661.<br />
Berlanga TM., Atanasio C., Mauricio JC., Ortega JM. (2001) Influence of<br />
aeration on the physiological activity of flor yeasts. J Agric Food Chem<br />
49:3378–3384.<br />
Betz, R., W. Duntze, and T. R. Manney. (1978). Mat<strong>in</strong>g factorme<strong>di</strong>ated<br />
sexual agglut<strong>in</strong>ation <strong>in</strong> <strong>Saccharomyces</strong> cerevisiae. FEMS Lett. 4:107-110.<br />
Bidenne C., Blond<strong>in</strong> B., Dequ<strong>in</strong> S., Vez<strong>in</strong>het F. (1992). Analysis of the<br />
chromosomal DNA polymorphism of w<strong>in</strong>e stra<strong>in</strong>s of <strong>Saccharomyces</strong><br />
cerevisiae. Curr. Gen. 22, 1-7.<br />
Bishop, A. J. R., E. J. Louis, and R. H. Borts. (2000). M<strong>in</strong>isatellite variants<br />
generated <strong>in</strong> yeast meiosis <strong>in</strong>volve DNA removal dur<strong>in</strong>g gene conversion.<br />
Genetics, 156:7–20.<br />
Bishop, A. J. R., Louis, E. J. & Borts, R. H. M<strong>in</strong>isatellite variants generated<br />
<strong>in</strong> yeast meiosis <strong>in</strong>volve DNA removal dur<strong>in</strong>g gene conversion. Genetics<br />
156, 7–20 (2000).<br />
Boeke, J. D., F. LaCroute, and G. R. F<strong>in</strong>k. (1984). A positive selection for<br />
mutants lack<strong>in</strong>g orotid<strong>in</strong>e-5'-phosphate decarboxylase activity <strong>in</strong> yeast: 5-<br />
fluoro-orotic acid resistance. Mol. Gen. Genet. 197:345-346.<br />
P<strong>in</strong>na Clau<strong>di</strong>a<br />
127<br />
<strong>Stu<strong>di</strong>o</strong> dell’aggregazione <strong>cellulare</strong> <strong>in</strong> <strong>ceppi</strong> v<strong>in</strong>ari <strong>di</strong> <strong>Saccharomyces</strong> cerevisiae<br />
Tesi <strong>di</strong> Dottorato <strong>in</strong> Biotecnologie Microbiche Agroalimentari<br />
Università degli Stu<strong>di</strong> <strong>di</strong> Sassari
Change language