AREAS EPG, PASCUTTI PG, SCHREIER S, MUNDIM KC, BISCH PM
JOURNAL OF PHYSICAL CHEMISTRY
99: (40) 14885-14892 OCT 5 1995
Cited References : 19 Times: 3
Abstract:
A recently developed software
has been used to model peptides at a cytoplasm/membrane mimetic environment
where the interface is represented by a discontinuity in the dielectric
constant. Molecular dynamics and energy minimization procedures available
in the program were applied to a wild type and to a 50% active mutant (Delta
78r(1)) peptide signal sequence of a lambda E. coli receptor (maltoporin).
Modeling has been performed for both random coiled and constrained helical
structures. As a general feature, the presence of the dielectric discontinuity
induced the movement of the molecules' center of mass toward the interface.
A decrease in the energy along interface crossing (from epsilon = 80 to
epsilon = 2) was observed and interpreted as an indication of their affinity
for the lipid-mimetic phase. Distinct patterns of migration were recognized
for each sequence, as well as in different simulated conditions for a same
peptide. The random coiled peptides easily cross the interface, showing
a tendency to go into the nonpolar phase, whereas constrained helical sequences
tend to stay at the interface. Potential barriers and potential wells were
identified in the modeling space for constrained helical peptides, which
have been shown to be dependent on the peptide primary sequence, on the
conformational restrictions imposed, and on the charge state of the peptide
terminals.
KeyWords Plus: CONFORMATION, STABILITY, PROTEIN
Addresses:
AREAS EPG, UNIV SAO PAULO, INST QUIM, DEPT QUIM FUNDAMENTAL, CP 26077,
BR-05599970 SAO PAULO, BRAZIL.
FED UNIV RIO DE JANEIRO, INST BIOFIS, BR-21945 RIO JANEIRO, BRAZIL.
UNIV SAO PAULO, DEPT BIOQUIM, BR-05508 SAO PAULO, BRAZIL.
UNIV FED BAHIA, INST FIS, BR-40210 SALVADOR, BA, BRAZIL.
Publisher: AMER CHEMICAL SOC, WASHINGTON
IDS Number: RY818
ISSN:0022-3654