Keyword search (4,163 papers available)

"Kálmán L" Authored Publications:

Title Authors PubMed ID
1 Photoactivation and conformational gating for manganese binding and oxidation in bacterial reaction centers Samaei A; Deshmukh SS; Protheroe C; Nyéki S; Tremblay-Ethier RA; Kálmán L; 36216075
PHYSICS
2 Tuning the redox potential of the primary electron donor in bacterial reaction centers by manganese binding and light-induced structural changes. Deshmukh SS, Kálmán L 32777306
PHYSICS
3 Bound detergent molecules in bacterial reaction centers facilitate detection of tetryl explosive. Modafferi D, Zazubovich V, Kálmán L 32632533
PHYSICS
4 Proton release due to manganese binding and oxidation in modified bacterial reaction centers. Kálmán L, Thielges MC, Williams JC, Allen JP 16201752
PHYSICS
5 Comparison of bacterial reaction centers and photosystem II. Kálmán L, Williams JC, Allen JP 18853275
PHYSICS
6 Effect of anions on the binding and oxidation of divalent manganese and iron in modified bacterial reaction centers. Tang K, Williams JC, Allen JP, Kálmán L 19383473
PHYSICS
7 Light-induced conformational changes in photosynthetic reaction centers: dielectric relaxation in the vicinity of the dimer. Deshmukh SS, Williams JC, Allen JP, Kálmán L 21141811
PHYSICS
8 Light-induced conformational changes in photosynthetic reaction centers: redox-regulated proton pathway near the dimer. Deshmukh SS, Williams JC, Allen JP, Kálmán L 21410139
PHYSICS
9 Light-induced conformational changes in photosynthetic reaction centers: impact of detergents and lipids on the electronic structure of the primary electron donor. Deshmukh SS, Akhavein H, Williams JC, Allen JP, Kalman L 21561160
PHYSICS
10 Lipid binding to the carotenoid binding site in photosynthetic reaction centers. Deshmukh SS, Tang K, Kálmán L 21894992
PHYSICS
11 The interaction of streptococcal enolase with canine plasminogen: the role of surfaces in complex formation. Balhara V, Deshmukh SS, Kálmán L, Kornblatt JA 24520380
CHEMBIOCHEM
12 Low potential manganese ions as efficient electron donors in native anoxygenic bacteria. Deshmukh SS, Protheroe C, Ivanescu MA, Lag S, Kálmán L 29355486
PHYSICS

 

Title:The interaction of streptococcal enolase with canine plasminogen: the role of surfaces in complex formation.
Authors:Balhara VDeshmukh SSKálmán LKornblatt JA
Link:https://www.ncbi.nlm.nih.gov/pubmed/24520380?dopt=Abstract
Publication:
Keywords:
PMID:24520380 Category:PLoS One Date Added:2019-06-04
Dept Affiliation: CHEMBIOCHEM
1 Department of Chemistry and Biochemistry, Concordia University, Montréal, Quebec, Canada.
2 Department of Physics, Concordia University, Montréal, Quebec, Canada.
3 Department of Biology and the Centre for Structural and Functional Genomics, Concordia University, Montréal, Quebec, Canada.

Description:

The interaction of streptococcal enolase with canine plasminogen: the role of surfaces in complex formation.

PLoS One. 2014;9(2):e88395

Authors: Balhara V, Deshmukh SS, Kálmán L, Kornblatt JA

Abstract

The enolase from Streptococcus pyogenes (Str enolase F137L/E363G) is a homo-octamer shaped like a donut. Plasminogen (Pgn) is a monomeric protein composed of seven discrete separated domains organized into a lock washer. The enolase is known to bind Pgn. In past work we searched for conditions in which the two proteins would bind to one another. The two native proteins in solution would not bind under any of the tried conditions. We found that if the structures were perturbed binding would occur. We stated that only the non-native Str enolase or Pgn would interact such that we could detect binding. We report here the results of a series of dual polarization interferometry (DPI) experiments coupled with atomic force microscopy (AFM), isothermal titration calorimetry (ITC), dynamic light scattering (DLS), and fluorescence. We show that the critical condition for forming stable complexes of the two native proteins involves Str enolase binding to a surface. Surfaces that attract Str enolase are a sufficient condition for binding Pgn. Under certain conditions, Pgn adsorbed to a surface will bind Str enolase.

PMID: 24520380 [PubMed - indexed for MEDLINE]




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