Related ArticlesA REDOR ssNMR Investigation of the Role of an N-terminus Lysine in R5 silica Recognition.
Langmuir. 2016 Apr 3;
Authors: Ndao M, Goobes G, Emani PS, Drobny GP
Abstract
Diatoms are unicellular algae that construct cell walls called frustules by the precipitation of silica, using special proteins that order the silica into a wide variety of nanostructures. The diatom species Cylindrotheca fusiformis contains proteins called silaffins within its frustules, which are believed to assemble into supramolecular matrices that serve as both accelerators and templates for silica deposition. Studying the properties of these biosilicification proteins has allowed the design of new protein and peptide systems that generate customizable silica nanostructures, with potential generalization to other mineral systems. It is essential to understand the mechanisms of aggregation of the protein and its co-precipitation with silica. We continue previous investigations into the peptide R5, derived from silaffin protein sil1p, shown to independently catalyze the precipitation of silica nanospheres in vitro. We used the solid-state NMR technique 13C{29Si} and 15N{29Si} REDOR to investigate the structure and interactions of R5 in complex with co-precipitated silica. These experiments are sensitive to the strength of magnetic dipole-dipole interactions between the 13C nuclei in R5 and the 29Si nuclei in the silica, and thus yield distance between parts of R5 and 29Si in silica. Our data show strong interactions and short internuclear distances of 3.74 ± 0.20 Å between 13C=O Lys3 and silica. The C? and C? nuclei, on the other hand show little or no interaction with 29Si. This selective proximity between the K3 C=O and the silica supports a previously proposed mechanism of rapid silicification of the antimicrobial peptide KSL (KKVVFKVKFK) through an imidate intermediate. This study reports for the first time a direct interaction between the N-terminus of R5 and silica, leading us to believe that the N-terminus of R5 is a key component in the molecular recognition process and a major factor in silica morphogenesis.
PMID: 27039990 [PubMed - as supplied by publisher]
[NMR paper] NMR investigation of the role of osteocalcin and osteopontin at the organic-inorganic interface in bone.
NMR investigation of the role of osteocalcin and osteopontin at the organic-inorganic interface in bone.
Related Articles NMR investigation of the role of osteocalcin and osteopontin at the organic-inorganic interface in bone.
Langmuir. 2013 Oct 15;
Authors: Nikel O, Laurencin D, McCallum SA, Gundberg CM, Vashishth D
Abstract
Mechanical resilience of bone tissue decreases with age. The ability to comprehensively probe and understand bone properties could help alleviate this problem. One important aspect of bone quality which has recently...
nmrlearner
Journal club
0
10-17-2013 04:57 PM
[NMR paper] Investigation of Lysine Side Chain Interactions of Interleukin-8 with Heparin and other Glycosaminoglycans Studied by a Methylation-NMR Approach.
Investigation of Lysine Side Chain Interactions of Interleukin-8 with Heparin and other Glycosaminoglycans Studied by a Methylation-NMR Approach.
Investigation of Lysine Side Chain Interactions of Interleukin-8 with Heparin and other Glycosaminoglycans Studied by a Methylation-NMR Approach.
Glycobiology. 2013 Aug 27;
Authors: Möbius K, Nordsieck K, Pichert A, Samsonov SA, Thomas L, Schiller J, Kalkhof S, Pisabarro MT, Beck-Sickinger AG, Huster D
Abstract
Although the interaction between interleukin-8 (IL-8) and glycosaminoglycans (GAG) is...
nmrlearner
Journal club
0
08-29-2013 01:53 PM
[NMR paper] An NMR investigation of the structure, function and role of the hERG channel selectivity filter in the long QT syndrome.
An NMR investigation of the structure, function and role of the hERG channel selectivity filter in the long QT syndrome.
Related Articles An NMR investigation of the structure, function and role of the hERG channel selectivity filter in the long QT syndrome.
Biochim Biophys Acta. 2013 Mar 5;
Authors: Gravel AE, Arnold AA, Dufourc EJ, Marcotte I
Abstract
The human ether-a-go-go-related gene (hERG) voltage-gated K+ channels are located in heart cell membranes and hold a unique selectivity filter (SF) amino acid sequence (SVGFG) as compared...
nmrlearner
Journal club
0
03-12-2013 07:09 PM
PhD SSNMR
PhD SSNMR
We are looking for a young, open-minded, enthusiastic, committed and diligent individual with a background in chemistry, physics or material-sciences (German Diploma/MSc equivalent).
The successful candidate will work on the multi nuclear solid state NMR characterization of immobilized catalysts, metal-clusters, metal-nanoparticles and their interactions with substrates. The immobilized catalysts are made in-house by covalently binding metal-containing catalysts to the surface of nano-structured silica materials with different morphologies (porous or nanoparticles) via organic...
nmrlearner
Job marketplace
0
11-21-2011 08:57 PM
Investigation of the Interface in Silica-Encapsulated Liposomes by Combining Solid State NMR and First Principles Calculations
Investigation of the Interface in Silica-Encapsulated Liposomes by Combining Solid State NMR and First Principles Calculations
Nicolas Folliet, Claire Roiland, Sylvie Be?gu, Anne Aubert, Tzonka Mineva, Annick Goursot, Kaliaperumal Selvaraj, Luminita Duma, Frederik Tielens, Francesco Mauri, Guillaume Laurent, Christian Bonhomme, Christel Gervais, Florence Babonneau and Thierry Azai?s
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/ja201002r/aop/images/medium/ja-2011-01002r_0009.gif
Journal of the American Chemical Society
DOI:...
nmrlearner
Journal club
0
10-05-2011 08:52 AM
[Question from NMRWiki Q&A forum] RDCs di-Methyl lysine
RDCs di-Methyl lysine
We are interested in studying di-methyl lysine, given that in most cases the two methyl groups are equivalent and each have the three protons, how much and if so what, information could you realistically get from RDCs on the Di- methyl signals?
Check if somebody has answered this question on NMRWiki QA forum
nmrlearner
News from other NMR forums
0
03-30-2011 09:11 PM
[NMR paper] N epsilon,N epsilon-dimethyl-lysine cytochrome c as an NMR probe for lysine involveme
N epsilon,N epsilon-dimethyl-lysine cytochrome c as an NMR probe for lysine involvement in protein-protein complex formation.
Related Articles N epsilon,N epsilon-dimethyl-lysine cytochrome c as an NMR probe for lysine involvement in protein-protein complex formation.
Biochem J. 1998 Jun 1;332 ( Pt 2):439-49
Authors: Moore GR, Cox MC, Crowe D, Osborne MJ, Rosell FI, Bujons J, Barker PD, Mauk MR, Mauk AG
The reductively dimethylated derivatives of horse and yeast iso-1-ferricytochromes c have been prepared and characterized for use as NMR...
nmrlearner
Journal club
0
11-17-2010 11:06 PM
The Role of Basic Amino Acids in the Molecular Recognition of Hydroxyapatite by Stath
The Role of Basic Amino Acids in the Molecular Recognition of Hydroxyapatite by Statherin using Solid State NMR.
Related Articles The Role of Basic Amino Acids in the Molecular Recognition of Hydroxyapatite by Statherin using Solid State NMR.
Surf Sci. 2010 Aug 15;604(15-16):L39-L42
Authors: Ndao M, Ash JT, Stayton PS, Drobny GP
Organisms use proteins such as statherin to control the growth of hydroxyapatite (HAP), which is the principal component of teeth and bone. Though much emphasis has been placed on the acidic character of these...
A REDOR ssNMR Investigation of the Role of an N-terminus Lysine in R5 silica Recognition.
Linear Mode
