Results 81 to 90 of about 119 (115)
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Effect of β-mercaptoethylamine on reproduction of the rat

Toxicology and Applied Pharmacology, 1967
Abstract The effects of β-mercaptoethylamine administration on reproduction in two successive matings of rats were studied. MEA reduced the body weight gain of parent rats when administered at a level of 375 mg/kg/day. MEA reduced the number of first litters produced in all groups receiving 375 mg/kg/day.
R P, Beliles, W J, Scott
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Inhibition of recA induction by the radioprotector 2-mercaptoethylamine

Mutation Research Letters, 1992
Our earlier finding that the radioprotective action of 2-mercaptoethylamine (MEA) is counteracted by ascorbate suggests a biochemical mechanism of action, which is supported by observations that MEA is not radioprotective in Rec- E. coli strains. In this study we show that MEA inhibits the induction of the recA gene by UV- or gamma-irradiation or by ...
M, Näslund, A, Kolman, L, Ehrenberg
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Mechanism of beta-mercaptoethylamine-induced hypotension in the dog

American Journal of Physiology-Legacy Content, 1963
Radioprotectant doses of beta-mercaptoethylamine (MEA) are toxic to the dog, inducing hypotension and hemoconcentration. Antihistaminics and two adrenergic blocking agents with antihistaminic properties were effective against MEA-induced hypotension. Adrenergic blocking agents with little antihistaminic action were ineffective against the hypotension.
R L, MUNDY, M H, HEIFFER, B, MEHLMAN
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Radioprotection of Mice with Ascorbic Acid, Desferal and Mercaptoethylamine

1988
Radiation damage in biological systems is initiated by the ionic, excited and free radical species formed during the energy deposition events. It progresses with time through a variety of mechanisms.1 Because of the variety of these mechanisms, any single radioprotective agent can be only partially effective. Simultaneous use of several radioprotective
A, Singh   +5 more
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Surface Modification of CdS Colloids with Mercaptoethylamine

Israel Journal of Chemistry, 1993
AbstractSurface modification as well as size control of CdS colloids in acetonitrile has been achieved with mercaptoethylamine (MEA). The CdS emission yield increases as it interacts with the surface modifier. A decrease in the hole‐trapping yield was observed in optically excited CdS colloids which were modified with MEA. Use of such surface modifiers
Prashant V. Kamat   +2 more
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Protective effect of mercaptoethylamine and cysteine against monocrotaline intoxication in rats

Toxicology and Applied Pharmacology, 1968
Abstract Protection by MEA and cysteine against monocrotaline intoxication in male Sprague-Dawley rats was studied. An intraperitoneal injection of MEA, 150 mg/kg, 15 minutes before a subcutaneous injection of monocrotaline, 30 mg/kg, caused a significant increase in the survival rate.
Y, Hayashi, J J, Lalich
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Apparent Instability Constants of 2-Mercaptoethylamine Complexes

Radiation Research, 1961
The apparent instability constants of the MEA complexes of Zn, Co, Cd, and Cu were determined polarographically in a phosphate buffer of pH 7.4 and in a sodium bicarbonate solution. In these media, the Zn complex is least strong and the Cu complex rnost strong. These data are discussed in relation to the role of Zn in enzymatic oxidation. (auth)
Edward C. Knoblock, William C. Purdy
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The Effect of Mercaptoethylamine on Survival of Mice Irradiated with Cobalt 60

Radiation Research, 1957
Survival of experimental animals after whole-body irradiation can be strikingly enhanced by different methods. Chemical agents such as glutathione (1), cysteine (2) and related SH-compounds, ,-mercaptoethylamine or Becaptan (3-6) and, S-0-Aminoethylisothiuronium Br HBr (7) have been recently shown to protect mice against early radiation deaths.
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ChemInform Abstract: SYNTHESIS OF CARBOHYDRATE ANALOGS OF MERCAPTOETHYLAMINE

Chemischer Informationsdienst, 1979
Abstract1,2‐O,O‐Cyclohexyliden‐3‐O‐methyl‐5,6‐epithio‐α‐D‐glucofuranose (I) reagiert mit den Aminen (II) zu den α‐D‐Glucofuranosederivaten (IIIa)‐(IIIc).
YU. A. ZHDANOV, G. E. LEVITAN
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[76] Radioprotection by ascorbic acid, desferal, and mercaptoethylamine

1990
Publisher Summary This chapter discusses the methods of determining radioprotection by chemical agents using the mouse as a model animal system. It discusses the mechanisms of radiation damage and their multiplicity. It also presents the rationale for choosing three chemical agents [ascorbic acid (AA), Desferal (DF), and mercaptoethylamine (MEA)] for
Ajit Singh   +2 more
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