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Mechanoradicals in tensed tendon collagen as a new source of oxidative stress
by
Prisner, Thomas
, Dick, Tobias P
, Mercadante, Davide
, Bennati, Marina
, Barayeu, Uladzimir
, Obarska-Kosinska, Agnieszka
, Daday, Csaba
, Denysenkov, Vasyl
, Kappl, Reinhard
, Rennekamp, Benedikt
, Zapp, Christopher
, Gräter, Frauke
in
Cleavage
/ Collagen
/ Crosslinking
/ Dihydroxyphenylalanine
/ Hydrogen peroxide
/ Molecular dynamics
/ Oxidation
/ Oxidative stress
/ Paramagnetic resonance
/ Proteins
/ Radicals
2019
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Mechanoradicals in tensed tendon collagen as a new source of oxidative stress
by
Prisner, Thomas
, Dick, Tobias P
, Mercadante, Davide
, Bennati, Marina
, Barayeu, Uladzimir
, Obarska-Kosinska, Agnieszka
, Daday, Csaba
, Denysenkov, Vasyl
, Kappl, Reinhard
, Rennekamp, Benedikt
, Zapp, Christopher
, Gräter, Frauke
in
Cleavage
/ Collagen
/ Crosslinking
/ Dihydroxyphenylalanine
/ Hydrogen peroxide
/ Molecular dynamics
/ Oxidation
/ Oxidative stress
/ Paramagnetic resonance
/ Proteins
/ Radicals
2019
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While trying to remove the title from your shelf something went wrong :( Kindly try again later!
Do you wish to request the book?
Mechanoradicals in tensed tendon collagen as a new source of oxidative stress
by
Prisner, Thomas
, Dick, Tobias P
, Mercadante, Davide
, Bennati, Marina
, Barayeu, Uladzimir
, Obarska-Kosinska, Agnieszka
, Daday, Csaba
, Denysenkov, Vasyl
, Kappl, Reinhard
, Rennekamp, Benedikt
, Zapp, Christopher
, Gräter, Frauke
in
Cleavage
/ Collagen
/ Crosslinking
/ Dihydroxyphenylalanine
/ Hydrogen peroxide
/ Molecular dynamics
/ Oxidation
/ Oxidative stress
/ Paramagnetic resonance
/ Proteins
/ Radicals
2019
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Mechanoradicals in tensed tendon collagen as a new source of oxidative stress
Paper
Mechanoradicals in tensed tendon collagen as a new source of oxidative stress
2019
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Overview
As established nearly a century ago, mechanoradicals originate from homolytic bond scission in polymers. The existence, nature and biological relevance of mechanoradicals in proteins, instead, are unknown. We here show that mechanical stress on collagen produces radicals and subsequently reactive oxygen species, essential biological signaling molecules. Electron-paramagnetic resonance (EPR) spectroscopy of stretched rat tail tendon, atomistic Molecular Dynamics simulations and quantum calculations show that the radicals form by bond scission in the direct vicinity of crosslinks in collagen. Radicals migrate to adjacent clusters of aromatic residues and stabilize on oxidized tyrosyl radicals, giving rise to a distinct EPR spectrum consistent with a stable dihydroxyphenylalanine (DOPA) radical. The protein mechanoradicals, as a yet undiscovered source of oxidative stress, finally convert into hydrogen peroxide. Our study suggests collagen I to have evolved as a radical sponge against mechano-oxidative damage and proposes a new mechanism for exercise-induced oxidative stress and redox-mediated pathophysiological processes.
Publisher
Cornell University Library, arXiv.org
Subject
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