Results 151 to 160 of about 26,137 (206)
Use of a Dihydroxyacetone Derivative as Protecting Reagent to Phosphorylate Oligonucleotides. [PDF]
Lartia R.
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Electrochemical N-Formylation of Amines: Mechanistic Insights and Sustainable Synthesis of Formamides via a Methylisocyanide Intermediate. [PDF]
Broersen PJL +3 more
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ChemPhysChem, 2007
AbstractThe hydrogen‐transfer reaction catalysed by methylamine dehydrogenase (MADH) with methylamine (MA) as substrate is a good model system for studies of proton tunnelling in enzyme reactions—an area of great current interest—for which atomistic simulations will be vital.
Ranaghan, Kara E. +4 more
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AbstractThe hydrogen‐transfer reaction catalysed by methylamine dehydrogenase (MADH) with methylamine (MA) as substrate is a good model system for studies of proton tunnelling in enzyme reactions—an area of great current interest—for which atomistic simulations will be vital.
Ranaghan, Kara E. +4 more
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The structure of liquid methylamine and solutions of lithium in methylamine
Molecular Physics, 2001The technique of hydrogen/deuterium isotopic substitution in neutron diffraction has been used to measure the intra- and intermolecular correlations in liquid methylamine, and 2 and 8 MPM (mole percent metal) lithium methylamine solutions. We find that pure methylamine forms only one strong hydrogen bond per molecule, with evidence for weaker ...
S. HAYAMA +3 more
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On methylamine assimilation in a bacterium
Archiv f�r Mikrobiologie, 1967Kinetic analyses of 14C-methylamine and 14C-bicarbonate assimilation in a gram-negative diplococcus suggests that methylamine assimilation occurs via a glycine-serine hydroxymethylation sequence rather than autotrophically by a Calvin cycle.
E R, Leadbetter, J A, Gottlieb
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Clinica Chimica Acta, 2001
Methylamine is the simplest aliphatic amine found in human urine. In the body it is thought to play a significant part in central nervous system disturbances observed during renal and hepatic disease and also has a role in general toxicity caused by oxidative stress.
S C, Mitchell, A Q, Zhang
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Methylamine is the simplest aliphatic amine found in human urine. In the body it is thought to play a significant part in central nervous system disturbances observed during renal and hepatic disease and also has a role in general toxicity caused by oxidative stress.
S C, Mitchell, A Q, Zhang
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Enzymology of Methylamine Dehydrogenase
1996Methylamine dehydrogenase (MADH) belongs to the class of quinoprotein enzymes because it has tryptophyl tryptophanquinone (TTQ) as cofactor. In most cases, it is clear that the small blue copper protein, amicyanin, functions as natural electron acceptor.
Gorren, A.F.C. +3 more
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The Journal of Chemical Physics, 1944
The photolysis of methylamine has been shown to proceed essentially by two consecutive first-order reactions, the first to produce hydrogen, ammonia, and CH2 : NCH3; the second a dehydrogenation of the latter at a rate approximately double the first. A mechanism involving hydrogen atoms has been postulated.
Orville C. Wetmore, H. Austin Taylor
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The photolysis of methylamine has been shown to proceed essentially by two consecutive first-order reactions, the first to produce hydrogen, ammonia, and CH2 : NCH3; the second a dehydrogenation of the latter at a rate approximately double the first. A mechanism involving hydrogen atoms has been postulated.
Orville C. Wetmore, H. Austin Taylor
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