Az'muko Aa scite author profile

Az'muko Aa

2Publications

16Citation Statements Received

0Citation Statements Given

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Institute of Experimental Cardiology, Ministry of Health of the Russian Federation

Publications

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The Use of Hydrogen Peroxide for Closing Disulfide Bridges in Peptides

Sidorova

Молокоедов

et al. 2004

Russian Journal of Bioorganic Chemistry

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The use of hydrogen peroxide for the formation of disulfide bridges was studied in 15 peptides of various lengths and structures. The oxidation of peptide thiols by hydrogen peroxide was shown to proceed under mild conditions without noticeable side reactions of Trp, Tyr, and Met residues. Yields of the corresponding cyclic disulfides were high and mostly exceeded those obtained with other oxidative agents, in particular, iodine. It was established that the use of hydrogen peroxide in organic medium also provided sufficiently high yields when large-scale syntheses of oxytocin and octreotide (up to 10 g) were carried out. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2004, vol. 30, no. 2; see also http://www.maik.ru.

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The influence of inhibiting no formation on metabolic recovery of ischemic rat heart by apelin-12

IuA

et al. 2012

BIOMED KHIM

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Apelin 12 (A-12) was synthesized by the automatic solid phase method with use of Fmoc 1H-NMR spectroscopy and mass spectrometry. Effects of apelin-12 (a peptide comprised of 12 aminoacids, A-12) on recovery of energy metabolism and cardiac function were studied in isolated working rat hearts perfused with Krebs buffer (KB) containing 11 mM glucose that were subjected to global ischemia and reperfusion. A short-term infusion of μM 140 A-12 in KB prior to ischemia enhanced myocardial ATP, the total adenine nucleotide pool (ΣAN=ATP+ADP+AMP) and the energy charge of cardiomyocites ((ATP+0.5ADP)/ΣAN) at the end of reperfusion compared with control (KB infusion) and reduced lactate content and lactate/pyruvate ratio in reperfused myocardium to the initial values. This effect was accompanied by improved recovery of coronary flow and cardiac function. Coadministration of 140 μM A-12 and 100 μM L-NAME (the nonspecific NOS inhibitor) profoundly attenuated the peptide influence on metabolic and functional recovery of reperfused hearts. The results indicate involvement of NO, formed under the peptide action, in mechanisms of cardioprotection that are tightly associated with recovery of energy metabolism in postischemic heart.

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Az'muko Aa

The Use of Hydrogen Peroxide for Closing Disulfide Bridges in Peptides

The influence of inhibiting no formation on metabolic recovery of ischemic rat heart by apelin-12

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