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.
Cappellaro, C., Hauser, K., Mrsa, V., Watzele, M., Watzele, G., Gruber, C.<br />
and Tanner,W. (1991). <strong>Saccharomyces</strong> cerevisiae a- and alpha-agglut<strong>in</strong><strong>in</strong>:<br />
characterization of their molecular <strong>in</strong>teraction EMBO J., 10, 4081-4088.<br />
Cappellaro, C.,Baldermann, C.,Re<strong>in</strong>hard R., and Tanner,W. (1994).Mat<strong>in</strong>g<br />
type-specific cell-cell recognition of <strong>Saccharomyces</strong> cerevisiae: cell wall<br />
attachment and active sites of a- and α-agglut<strong>in</strong><strong>in</strong>1. The EMBO Journal.<br />
13(20):4737-4744.<br />
Caro, L. H., G. J. Smith, P. van Egmond, J. W. Chapman, and M. Klis.<br />
(1998). Transcription of multiple cell wall prote<strong>in</strong>-encod<strong>in</strong>g genes <strong>in</strong><br />
<strong>Saccharomyces</strong> cerevisiae is <strong>di</strong>fferentially regulated dur<strong>in</strong>g the cell cycle.<br />
FEMS Microbiol. Lett. 161:345–349.<br />
Chandra, J. et al. Biofilm formation by the fungal pathogen Can<strong>di</strong>da<br />
albicans: development, architecture, and drug resistance. J. Bacteriol.<br />
183, 5385–5394 (2001).<br />
Cobb MH and Goldsmith EJ (1995). How MAP k<strong>in</strong>ases are regulated. J<br />
Biol Chem 270(25), 14843-14846.<br />
Codon A. C., Benitez T., Korhola M. (1998). Chromosomal polymorphism<br />
and adaptation to specific <strong>in</strong>dustrial environments of <strong>Saccharomyces</strong><br />
stra<strong>in</strong>s. Appl. Microbiol. Biotechon. 49, 154-163.<br />
Colombo, S., Ma, P.S., Cauwenberg, L., W<strong>in</strong>derickx, J., Crauwels, M.,<br />
Teunissen, A., et al. (1998) Involvement of <strong>di</strong>st<strong>in</strong>ct G-prote<strong>in</strong>s, Gpa2 and<br />
Ras, <strong>in</strong> glucose- and <strong>in</strong>tracellular aci<strong>di</strong>fication-<strong>in</strong>duced cAMP signall<strong>in</strong>g <strong>in</strong><br />
the yeast <strong>Saccharomyces</strong> cerevisiae. EMBO J 17: 3326–3341.<br />
Colombo, S., Ma, P.S., Cauwenberg, L., W<strong>in</strong>derickx, J.,Crauwels, M.,<br />
Teunissen, A., et al. (1998) Involvement of <strong>di</strong>st<strong>in</strong>ct G-prote<strong>in</strong>s, Gpa2 and<br />
Ras, <strong>in</strong> glucose- and <strong>in</strong>tracellular aci<strong>di</strong>fication-<strong>in</strong>duced cAMP signall<strong>in</strong>g <strong>in</strong><br />
the yeast <strong>Saccharomyces</strong> cerevisiae. EMBO J 17: 3326–3341.<br />
Cook JG, Bardwell L, Thorner J (1997). Inhibitory and activat<strong>in</strong>g functions<br />
for MAP Kss1 <strong>in</strong> the S. cerevisiae filamentous-growth signal<strong>in</strong>g pathway.<br />
Nature 390, 85-88.<br />
Cooper JA (1994). MAP k<strong>in</strong>ase pathways. Straight and narrow or tortuous<br />
and <strong>in</strong>tersect<strong>in</strong>g? Curr Biol 4, 1118-1121.<br />
P<strong>in</strong>na Clau<strong>di</strong>a<br />
129<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