Add to ORKGIt was shown in preceding communications that glycocyamine is converted into creatine by surviving liver slices (1). Our findings indicated that the methylating agent is methionine or a derivative of methionine. Liver slices can methylate glycocyamine rapidly enough to permit assignment to the liver alone, if necessary, of the task of making good the loss of creatine and creatinine in the urine. This holds for the livers of all mammals studied. We found no evidence of this methylating mechanism in any other tissues, except possibly slight activity in the kidney. In the pigeon the kidney is as effective in this respect as the liver
Glycocyamine is formed in the kidney by the transfer of the amidine group of arginine to the nitroge...
The metabolism of methylamine has been investigated in the rabbit and rat, and evidence has been pre...
Methionine is an indispensable amino acid in the diet of neonates and has a metabolic role in the s...
It was shown in preceding communications that glycocyamine is converted into creatine by surviving l...
We reported recently (1) the formation of creatine from glycocyamine by rat liver slices; and that 4...
The study of the precursors of creatine in animals has been beset by two difficulties principally. O...
We reported in a previous communication (1) that guanidoacetic acid is methylated to creatine by rat...
There are two, at least, methyl transfer reactions promoted by liver slices in vitro (2). The fundam...
Glycocyamine was first isolated from human and dog urine and identified by Weber (1-3). He supported...
Creatine (Cr) is an important high-energy phosphate buffer in tissues with a high energy demand such...
In the two following communications (1, 2) evidence is presented that glycocyamine is a normal precu...
Creatine (Cr) is an important high-energy phosphate buffer in tissues with a high energy demand such...
Creatine (Cr) is an important high-energy phosphate buffer in tissues with a high energy demand such...
Excluding inorganic ions and molecules, the methyl group is surely one of the simplest chemical un...
Creatine serves as an energy-storing molecule in muscle, and in mammals it can be synthesized in the...
Glycocyamine is formed in the kidney by the transfer of the amidine group of arginine to the nitroge...
The metabolism of methylamine has been investigated in the rabbit and rat, and evidence has been pre...
Methionine is an indispensable amino acid in the diet of neonates and has a metabolic role in the s...
It was shown in preceding communications that glycocyamine is converted into creatine by surviving l...
We reported recently (1) the formation of creatine from glycocyamine by rat liver slices; and that 4...
The study of the precursors of creatine in animals has been beset by two difficulties principally. O...
We reported in a previous communication (1) that guanidoacetic acid is methylated to creatine by rat...
There are two, at least, methyl transfer reactions promoted by liver slices in vitro (2). The fundam...
Glycocyamine was first isolated from human and dog urine and identified by Weber (1-3). He supported...
Creatine (Cr) is an important high-energy phosphate buffer in tissues with a high energy demand such...
In the two following communications (1, 2) evidence is presented that glycocyamine is a normal precu...
Creatine (Cr) is an important high-energy phosphate buffer in tissues with a high energy demand such...
Creatine (Cr) is an important high-energy phosphate buffer in tissues with a high energy demand such...
Excluding inorganic ions and molecules, the methyl group is surely one of the simplest chemical un...
Creatine serves as an energy-storing molecule in muscle, and in mammals it can be synthesized in the...
Glycocyamine is formed in the kidney by the transfer of the amidine group of arginine to the nitroge...
The metabolism of methylamine has been investigated in the rabbit and rat, and evidence has been pre...
Methionine is an indispensable amino acid in the diet of neonates and has a metabolic role in the s...