Yuliya G Smirnova
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Explore the profile of Yuliya G Smirnova including associated specialties, affiliations and a list of published articles.
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9
Citations
157
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Recent Articles
1.
Spencer R, Smirnova Y, Soleimani A, Muller M
Biophys J
. 2024 Jun;
123(16):2455-2475.
PMID: 38867448
Exchange of material across two membranes, as in the case of synaptic neurotransmitter release from a vesicle, involves the formation and poration of a hemifusion diaphragm (HD). The nontrivial geometry...
2.
Smirnova Y, Risselada H, Muller M
Proc Natl Acad Sci U S A
. 2019 Feb;
116(7):2571-2576.
PMID: 30700547
Biological membrane fusion proceeds via an essential topological transition of the two membranes involved. Known players such as certain lipid species and fusion proteins are generally believed to alter the...
3.
Fuhrmans M, Marelli G, Smirnova Y, Muller M
Chem Phys Lipids
. 2014 Aug;
185:109-28.
PMID: 25087882
Lipid bilayers play a fundamental role in many biological processes, and a considerable effort has been invested in understanding their behavior and the mechanism of topological changes like fusion and...
4.
Muller M, Smirnova Y, Marelli G, Fuhrmans M, Shi A
Phys Rev Lett
. 2012 Sep;
108(22):228103.
PMID: 23003657
The formation of an hourglass-shaped passage (stalk) connecting two apposed membranes is an essential initial step in membrane fusion. The most probable transition path from two separate membranes to a...
5.
Risselada H, Marelli G, Fuhrmans M, Smirnova Y, Grubmuller H, Marrink S, et al.
PLoS One
. 2012 Jul;
7(6):e38302.
PMID: 22761674
Our molecular simulations reveal that wild-type influenza fusion peptides are able to stabilize a highly fusogenic pre-fusion structure, i.e. a peptide bundle formed by four or more trans-membrane arranged fusion...
6.
Smirnova Y, Marrink S, Lipowsky R, Knecht V
J Am Chem Soc
. 2010 Apr;
132(19):6710-8.
PMID: 20411937
Membrane fusion is a key step in intracellular trafficking and viral infection. The underlying molecular mechanism is poorly understood. We have used molecular dynamics simulations in conjunction with a coarse...
7.
Nonmonotonic incommensurability effects in lamellar-in-lamellar self-assembled multiblock copolymers
Kriksin Y, Erukhimovich I, Smirnova Y, Khalatur P, Brinke G
J Chem Phys
. 2009 Jun;
130(20):204901.
PMID: 19485475
Using the self-consistent-field theory numerical procedure we find that the period D of the lamellar-in-lamellar morphology formed in symmetric multiblock copolymer melts A(mN/2)(B(N/2)A(N/2))(n)B(mN/2) at intermediate segregations changes nonmonotonically with an...
8.
Kriksin Y, Erukhimovich I, Khalatur P, Smirnova Y, Brinke G
J Chem Phys
. 2008 Jul;
128(24):244903.
PMID: 18601379
The order-disorder and order-order transitions (ODT and OOT) in the linear multiblock copolymers with two-length scale architecture A(fmN)(B(N2)A(N2))(n)B((1-f)mN) are studied under intermediate cooling below the ODT critical point where a...
9.
Smirnova Y, Brinke G, Erukhimovich I
J Chem Phys
. 2006 Feb;
124(5):054907.
PMID: 16468918
The phase behavior of AfmN(BN2AN2)B(1-fmN) multiblock copolymer melts is studied within the weak segregation theory. The interplay between ordering on different length scales is shown to cause dramatic changes both...