Computational Studies of RNA Dynamics and RNA– Ligand Interactions

2011 ◽  
Author(s):  
Julia Romanowska ◽  
Dariusz Ekonomiuk ◽  
Joanna Trylska
Keyword(s):  
Computational Studies ◽  
Rna Dynamics ◽  
Ligand Interactions

A Computational Perspective on Molecular Recognition by Galectins

2021 ◽  
Vol 28 ◽  
Author(s):  
Reyes Núñez-Franco ◽  
Francesca Peccati ◽  
Gonzalo Jiménez-Osés
Keyword(s):  
Binding Energies ◽  
Computational Studies ◽  
Computational Results ◽  
Future Perspectives ◽  
Computational Approaches ◽  
Simulation Techniques ◽  
Small Molecule Ligands ◽  
Ligand Interactions ◽  
Entropy Effects ◽  
Mature Field

: This article presents an overview of recent computational studies dedicated to the analysis of binding between galectins and small-molecule ligands. We first present a summary of the most popular simulation techniques adopted for calculating binding poses and binding energies, and then discuss relevant examples reported in the literature for the three main classes of galectins (dimeric, tandem and chimera). We show that simulation of galectin-ligand interactions is a mature field which has proven invaluable for completing and unraveling experimental observations. Future perspectives to further improve the accuracy and cost-effectiveness of existing computational approaches will involve the development of new schemes to account for solvation and entropy effects, which represent the main current limitations to the accuracy of computational results.

New insights into heparan sulphate biosynthesis from the study of mutant mice

2002 ◽  
Vol 69 ◽  
pp. 47-57 ◽  
Author(s):  
Catherine L. R. Merry ◽  
John T. Gallagher
Keyword(s):  
Growth Factors ◽  
Biosynthetic Pathway ◽  
Heparan Sulphate ◽  
Mutant Mice ◽  
Gene Products ◽  
Multiple Gene ◽  
Adhesion Proteins ◽  
Ligand Interactions

Heparan sulphate (HS) is an essential co-receptor for a number of growth factors, morphogens and adhesion proteins. The biosynthetic modifications involved in the generation of a mature HS chain may determine the strength and outcome of HS–ligand interactions. These modifications are catalysed by a complex family of enzymes, some of which occur as multiple gene products. Various mutant mice have now been generated, which lack the function of isolated components of the HS biosynthetic pathway. In this discussion, we outline the key findings of these studies, and use them to put into context our own work concerning the structure of the HS generated by the Hs2st-/- mice.

Activated CD4+ T cells enriched from spleen or colon induce apoptosis in intestinal epithellal cells via fas/fas ligand interactions

2001 ◽  
Vol 120 (5) ◽  
pp. A192-A192
Author(s):  
H TAKAISHI ◽  
T DENNING ◽  
K ITO ◽  
R MIFFLIN ◽  
P ERNST
Keyword(s):  
T Cells ◽  
Cd4 T Cells ◽  
Fas Ligand ◽  
Ligand Interactions

Modulation of Platelet Activation by Native DNA – Initial Description of Platelet Receptor Type, Number and Discrimination for Native DNA

1981 ◽  
Vol 45 (03) ◽  
pp. 263-266 ◽  
Author(s):  
B A Fiedel ◽  
M E Frenzke
Keyword(s):  
Platelet Aggregation ◽  
Human Platelets ◽  
Scatchard Analysis ◽  
Type Number ◽  
Single Class ◽  
Receptor Ligand ◽  
Platelet Receptor ◽  
Platelet Binding ◽  
Ligand Interactions ◽  
Initial Description

SummaryNative DNA (dsDNA) induces the aggregation of isolated human platelets. Using isotopically labeled dsDNA (125I-dsDNA) and Scatchard analysis, a single class of platelet receptor was detected with a KD = 190 pM and numbering ~275/platelet. This receptor was discriminatory in that heat denatured dsDNA, poly A, poly C, poly C · I and poly C · poly I failed to substantially inhibit either the platelet binding of, or platelet aggregation induced by, dsDNA; by themselves, these polynucleotides were ineffective as platelet agonists. However, poly G, poly I and poly G · I effectively and competitively inhibited platelet binding of the radioligand, independently activated the platelet and when used at a sub-activating concentration decreased the extent of dsDNA stimulated platelet aggregation. These data depict a receptor on human platelets for dsDNA and perhaps certain additional polynucleotides and relate receptor-ligand interactions to a physiologic platelet function.

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