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Podbilewicz, B., and White, J. G., 1994, Cell fusions in the developing epithelia of C. elegans,
Dev. Biol.
161:
408-424.
Portnoy, D. A., Chakraborty, T., Goebel, W., and Cossart, P., 1992, Molecular determinants of
Listeria monocytogenes pathogenesis,
Infect. Immun.
60:
1263-1267.
Puri, A., Hug, P., Jernigan, K., Barchi, J., Kim, H.-Y., Hamilton, J., Wiels, J., Murray, G. J., Brady,
R. O., and Blumenthal, R., 1998a, The neutral glycosphingolipid globotriaosylceramide
promotes fusion mediated by a CD4-dependent CXCR4-utilizing HIV type 1 envelope
glycoprotein,
Proc. Natl. Acad. Sci. USA
95:
14435-14440.
Puri,A,, Hug, P., Munoz-Barroso, I., and Blumenthal, R., 1998b, Human erythrocyte glycolipids
promote HIV-1 envelope glycoprotein-mediated fusion of CD4+ cells,
Biochem. Biophys.
Res. Comm.
242:
219-225.
Pérez, L., and Carrasco, L., 1994, Involvement of ,the vacuolar H
+
-ATPase in animal virus entry,
J. Gen. Virol.
75:
2595-2606.
Rice, C. M., and Strauss, J. H., 1982, Association of Sindbis virion glycoproteins and their pre-
cursors,
J. Mol. Biol.
154:
325-348.
Rice, C. M., Levis, R., Strauss, J. H., and Huang, H. V., 1987, Production of infectious RNA tran-
scripts from Sindbis virus cDNA clones: Mapping of lethal mutations, rescue of a
temperature-sensitive marker, and
in vitro
mutagenesis to generate defined mutants,
J. Virol.
61:
3809-3819.
Rosenwald, A. G., Machamer, C. E., and Pagano, R. E., 1992, Effects of a sphingolipid
synthesis inhibitor on membrane transport through the secretory pathway,
Biochem.
31:
3581-3590.
Rossjohn, J., Feil, S. C., McKinstry, W. J., Tweten, R. K., and Parker, M. W., 1997, Structure of
a cholesterol-binding, thiol-activate cytolysin and a model of its membrane form,
Cell
89:
685-692.
Rossjohn, J., Gilbert, R. J. C., Crane, D., Morgan, P. J., Mitchell,T. J., Rowe, A. J., Andrew, P. W.,
Paton, J. C., Tweten, R. K., and Parker, M. W., 1998, The molecular mechanism of pneu-
molysin, a virulence factor from Streptococcus pneumoniae,
J. Mol. Biol.
284:
449-461.
Rothman, J. E., and Warren, G., 1994, Implications of the SNARE hypothesis for intracellular
membrane topology and dynamics,
Curr. Biol.
4:
220-233.
Rottem, S., Hardegree, M. C., Grabowski, M. W., Fornwald, R., and Barile, M. E, 1976, Inter-
action between tetanolysin and mycoplasma cell membrane,
Biochim. Biophys. Acta
455:
876-888.
Ruiz-Argüello, M. B., Goni, F. M., Pereira, F. B., and Nieva, J. L., 1998, Phosphatidylinosi-
tol-dependent membrane fusion induced by a putative fusogenic sequence of Ebola virus,
J. Virol.
72:
1775-1781.
Salminen,A.,Wahlberg, J. M., Lobigs, M., Liljeström, P., and Garoff, H., 1992, Membrane fusion
process of Semliki Forest virus II: Cleavage-dependent reorganization of the spike protein
complex controls virus entry,
J. Cell Biol.
116:
349-357.
Scheiffele, P., Roth, M. G., and Simons, K., 1997, Interaction of influenza virus haemagglutinin
with sphingolipid-cholesterol membrane domains via its transmembrane domain,
EMBO
J.
16:
5501-5508.
Scheiffele, P., Rietveld, A,, Wilk,T., and Simons, K., 1999, Influenza viruses select ordered lipid
domains during budding from the plasma membrane,
J. Biol. Chem.
274:
2038-2044.
Schlesinger, M. J., and Schlesinger, S., 1986,
The Togaviridae and Flaviviridae
(Schlesinger, S .
and Schlesinger, M. J., eds.) Plenum Press, New York, NY. 121-148.
Shepard, L. A., Heuck,A. P., Hamman, B. D., Rossjohn, J., Parker, M. W., Ryan, K. R., Johnson,
A . E., andTweten, R. K., 1998, Identification of a membrane-spanning domain of the thiol-
activated pore-forming toxin Clostridium perfringens perfringolysin O: An alpha-helical
to beta-sheet transition identified by fluorescence spectroscopy.,
Biochem.
37:
14563-
14574.
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