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C-terminal part of the protein is apparently not transmembrane but may
form a re-entrant loop penetrating part of the way across the membrane.
Neither MBP, PLP, PMP22, MAG nor full-length P0 or MOG mem-
brane glycoproteins have been crystallized for structural determination
and structurally based drug design. Bioinformatics and protein crystal
growers will be very busy in the years to come.
Acknowledgment
Jan Sedzik acknowledges the partial support of the Swedish Research
Council, grant 2007-6890.
References
Aloy P, Pichaud M, Russell RB. (2005) Protein complexes: Structure
prediction challenges for the 21st century.
Curr Opin Struct Biol
1
:
15-22.
Aloy P, Russell RB. (2006) Structural systems biology: Modelling protein
interactions.
Nat Rev Mol Cell Biol
3
: 188-197.
Aro E-M, Suorsa M, Rokka A, Allahverdiyeva Y, Paakkarinen V,
Saleem A, Battchikova N, Rintamäki E. (2005) Dynamics of photo-
system II: A proteomic approach to thylakoid protein complexes.
J
Exp Botany
56
: 347-356.
Ballas SK, Krasnov SH. (1980) Structure of erythrocyte membrane and its
transport functions.
Ann Clin Lab Sci
10
: 209-219.
Bernard CC, Johns TG, Slavin A, Ichikawa M, Ewing C, Liu J,
Bettadapura J. (1997) Myelin oligodendrocyte glycoprotein: A novel
candidate autoantigen in multiple sclerosis.
J Mol Med
75
: 77-88.
Boguski MS. (1998) Bioinformatics — A new era.
Trends Biotech
16
(S1): 1-3.
Corcelli A, Lattanzio VMT, Mascolo G, Papadia P, Francesco F. (2002)
Lipid-protein stoichiometries in a crystalline biological membrane:
NMR quantitative analysis of he lipid extract of the purple membrane.
J Lipid Res
43
: 132-140.
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