Your search keyword '"Loo Y"' showing total 228 results

201. Transport of chitosan-DNA nanoparticles in human intestinal M-cell model versus normal intestinal enterocytes.

Author

Kadiyala I, Loo Y, Roy K, Rice J, and Leong KW

Subjects

Caco-2 Cells, Chitosan pharmacokinetics, Coculture Techniques, DNA pharmacokinetics, Humans, Hydrogen-Ion Concentration, Models, Biological, Biological Transport physiology, Chitosan chemistry, DNA chemistry, Drug Carriers chemical synthesis, Drug Carriers pharmacokinetics, Enterocytes metabolism, Intestinal Absorption physiology, Lymphocytes metabolism, Nanoparticles chemistry

Abstract

Oral vaccination is one of the most promising applications of polymeric nanoparticles. Using two different in vitro cellular models to partially reproduce the characteristics of intestinal enterocytes and M-cells, this study demonstrates that nanoparticle transport through the M-cell co-culture model is 5-fold that of the intestinal epithelial monolayer, with at least 80% of the chitosan-DNA nanoparticles uptaken in the first 30 min. Among the properties of nanoparticles studied, ligand decoration has the most dramatic effect on the transcytosis rate: transferrin modification enhances transport through both models by 3- to 5-fold. The stability of the nanoparticles also affects transport kinetics. Factors which de-stabilize the nanoparticles, such as low charge (N/P) ratio and addition of serum, result in aggregation and in turn decreases transport efficiency. Of these stability factors, luminal pH is of great interest as an increase in pH from 5.5 to 6.4 and 7.4 leads to a 3- and 10-fold drop in nanoparticle transport, respectively. Since soluble chitosan can act as an enhancer to increase paracellular transport by up to 60%, this decrease is partially attributed to the soluble chitosan precipitating near neutral pH. The implication that chitosan-DNA nanoparticles are more stable in the upper regions of the small intestine suggests that higher uptake rates may occur in the duodenum compared to the ileum and the colon., (Copyright 2009 Elsevier B.V. All rights reserved.)

Published

2010

202. Impact of a fall prevention programme in acute hospital settings in Singapore.

Author

Koh SL, Hafizah N, Lee JY, Loo YL, and Muthu R

Subjects

Adolescent, Adult, Disability Evaluation, Female, Hospitals, General, Humans, Inservice Training, Male, Middle Aged, Nursing Staff, Hospital education, Risk Assessment, Singapore, Wounds and Injuries prevention & control, Young Adult, Accidental Falls prevention & control, Safety Management methods

Abstract

Introduction: This study aimed to develop a multifaceted strategy using tailored interventions to implement a fall prevention programme, and to achieve a change in fall prevention practices and a reduction in fall incidence at an acute care hospital in Singapore., Methods: A comparative study was conducted at two acute care hospitals (intervention and control) in Singapore. Pre-intervention, post-intervention and six-month follow-up knowledge assessments of 641 nursing staff, and audits of fall rates and fall prevention practices were performed to determine the effectiveness of a multifaceted strategy with targeted interventions in supporting the implementation of a fall prevention programme., Results: The mean post-knowledge test scores at six months were statistically significantly higher (t[516] is -3.3, p-value is less than 0.01) at the intervention hospital (10.3 +/- 2.3) compared to the scores at the control hospital (9.8 +/- 1.8). Increased compliance with the use of fall risk assessment tools was evident in 99.4 percent and 99.3 percent of all patient records at the control and intervention hospitals, respectively. Following the implementation strategy for a fall prevention programme, there was a non-significant reduction in fall rates from 1.44 to 1.09 per 1,000 patient days at the intervention hospital. No reduction in the fall rate was observed at the control hospital., Conclusion: A multifaceted strategy for the implementation of a fall prevention programme was effective in increasing nurses' knowledge and the use of the fall risk assessment, but did not have a statistically significant impact on a reduction in the fall rate. The increase in nurses' knowledge and change in nursing practice were important markers of success in terms of fall prevention at the acute hospitals.

Published

2009

203. Novel anisotropic engineered cardiac tissues: studies of electrical propagation.

Author

Bursac N, Loo Y, Leong K, and Tung L

Subjects

Action Potentials, Animals, Anisotropy, Arrhythmias, Cardiac physiopathology, Bioreactors, Electric Conductivity, Glycolates chemistry, Heart physiopathology, Lactic Acid, Membrane Potentials, Myocardium ultrastructure, Myocytes, Cardiac physiology, Polyglycolic Acid, Polylactic Acid-Polyglycolic Acid Copolymer, Rats, Rats, Sprague-Dawley, Sucrose chemistry, Tissue Culture Techniques, Heart physiology, Tissue Engineering

Abstract

The goal of this study was to engineer cardiac tissue constructs with uniformly anisotropic architecture, and to evaluate their electrical function using multi-site optical mapping of cell membrane potentials. Anisotropic polymer scaffolds made by leaching of aligned sucrose templates were seeded with neonatal rat cardiac cells and cultured in rotating bioreactors for 6-14 days. Cells aligned and interconnected inside the scaffolds and when stimulated by a point electrode, supported macroscopically continuous, anisotropic impulse propagation. By culture day 14, the ratio of conduction velocities along vs. across cardiac fibers reached a value of 2, similar to that in native neonatal ventricles, while action potential duration and maximum capture rate, respectively, decreased to 120ms and increased to approximately 5Hz. The shorter culture time and larger scaffold thickness were associated with increased incidence of sustained reentrant arrhythmias. In summary, this study is the first successful attempt to engineer a cm(2)-size, functional anisotropic cardiac tissue patch.

Published

2007

204. Interactions of the papovavirus DNA replication initiator proteins, bovine papillomavirus type 1 E1 and simian virus 40 large T antigen, with human replication protein A.

Author

Han Y, Loo YM, Militello KT, and Melendy T

Subjects

Humans, Replication Protein A, Antigens, Polyomavirus Transforming physiology, DNA Helicases physiology, DNA Replication, DNA-Binding Proteins physiology, Simian virus 40 immunology, Trans-Activators physiology, Viral Proteins physiology, Virus Replication

Abstract

Papovaviruses utilize predominantly cellular DNA replication proteins to replicate their own viral genomes. To appropriate the cellular DNA replication machinery, simian virus 40 (SV40) large T antigen (Tag) binds to three different cellular replication proteins, the DNA polymerase alpha-primase complex, the replication protein A (RPA) complex, and topoisomerase I. The functionally similar papillomavirus E1 protein has also been shown to bind to the DNA polymerase alpha-primase complex. Enzyme-linked immunoassay-based protein interaction assays and protein affinity pull-down assays were used to show that the papillomavirus E1 protein also binds to the cellular RPA complex in vitro. Furthermore, SV40 Tag was able to compete with bovine papillomavirus type 1 E1 for binding to RPA. Each of the three RPA subunits was individually overexpressed in Escherichia coli as a soluble fusion protein. These fusion proteins were used to show that the E1-RPA and Tag-RPA interactions are primarily mediated through the 70-kDa subunit of RPA. These results suggest that different viruses have evolved similar mechanisms for taking control of the cellular DNA replication machinery.

Published

1999

205. Effect of feeding clofibrate-containing diet on the hepatic NAD+ level in rats.

Author

Loo Y, Shin M, Yamashita Y, Ishigami M, Sasaki M, Sano K, and Umezawa C

Subjects

Animals, Clofibrate pharmacology, Diethylhexyl Phthalate administration & dosage, Diethylhexyl Phthalate pharmacology, Fenofibrate administration & dosage, Fenofibrate analogs & derivatives, Fenofibrate pharmacology, Hypolipidemic Agents pharmacology, Liver drug effects, Liver ultrastructure, Male, Microbodies drug effects, Microbodies metabolism, Rats, Rats, Sprague-Dawley, Clofibrate administration & dosage, Diet, Hypolipidemic Agents administration & dosage, Liver metabolism, NAD metabolism

Abstract

Feeding rats with a diet containing 0.25% clofibrate for 2 weeks elevated the hepatic NAD+ and total nicotinate levels significantly. Other peroxisome proliferators, such as 2-(4-chlorophenoxy)propionic acid and di(2-ethylhexyl)phthalate, had similar effects. When rats were fed the control diet without clofibrate for 1 week after 2 weeks of the clofibrate diet, the hepatic NAD+ level returned to the control value. Muscular NAD+ content was not affected by the peroxisome proliferators. The results were discussed in relation to induction of peroxisomal beta-oxidation enzymes by the peroxisome proliferators.

Published

1995

206. Aromatic acid metabolites of phenylalanine in the brain of the hyperphenylalaninemic rat: effect of pyridoxamine.

Author

Loo YH, Scotto L, and Horning MG

Subjects

Animals, Brain Chemistry, Drug Evaluation, Preclinical, Humans, Mandelic Acids analysis, Phenylacetates analysis, Phenylketonurias chemically induced, Phenylketonurias drug therapy, Phenylpyruvic Acids analysis, Rats, Brain metabolism, Phenylalanine analogs & derivatives, Phenylketonurias metabolism, Pyridoxamine pharmacology

Published

1977

207. Biochemical indices of neuronal development in experimental phenylketonuria: high affinity transport systems and gangliosides.

Author

Loo YH, Fulton TR, Hyde KR, and Wisniewski HM

Subjects

Animals, Choline metabolism, Glucosamine metabolism, Glutamates metabolism, Glutamic Acid, Humans, Rats, Rats, Inbred Strains, Synaptosomes metabolism, gamma-Aminobutyric Acid metabolism, Brain metabolism, Gangliosides analysis, Neurotransmitter Agents metabolism, Phenylketonurias metabolism

Abstract

High affinity transport systems and gangliosides were assessed in an animal model of experimental phenylketonuria, namely the rat injected with phenylacetate during the first 21 days of life. The velocity of synaptosomal high affinity uptake of [3H]-choline, [14C]-gamma-aminobutyric acid (GABA), and [14C]-glutamic acid served as a measure of the relative density of uptake sites of these specific types of terminals. A reduction of cholinergic (25-37%) and GABAergic (23-45%) functioning terminals was produced by phenylacetate in the hippocampal, occipital, and frontal cortices from 40- to 55- and 80- to 95-day-old rats. In contrast, glutamatergic terminals in these same areas of the cerebrum from animals of both ages were not affected. This selection effect of phenylacetate on synaptic junctions is discussed. Cerebral ganglioside content was reduced approximately 40% in experimental hyperphenylalaninemia induced with p-chlorophenylalanine and L-phenylalanine. A similar decrease was observed in the rat exposed to phenylacetate but not in the animal injected with phenylpyruvate. Short-term exposure to phenylacetate did not alter the capacity of the very young rat to utilize glucosamine for the biosynthesis and incorporation of sialic acid into gangliosides. The large decrease in cerebral ganglioside concentration and the significantly smaller percentage distribution of GM1, observed in the 19-day-old chronically exposed to phenylacetate, are apparently associated with deficient neuronal development.

Published

1983

208. Experimental maternal phenylketonuria: an examination of two animal models.

Author

Loo YH, Rabe A, Potempska A, Wang P, Fersko R, and Wisniewski HM

Subjects

Animals, Female, Fenclonine toxicity, Humans, Maternal-Fetal Exchange, Phenylacetates toxicity, Phenylalanine toxicity, Pregnancy, Rats, Rats, Inbred Strains, Disease Models, Animal, Phenylketonurias chemically induced, Phenylketonurias complications, Pregnancy Complications

Abstract

Two satisfactory rat models of maternal phenylketonuria (PKU) have been developed. Continuous subcutaneous infusion into pregnant rats from the 9th-20th day of gestation of either (1) phenylacetate (PA), to elevate plasma levels of unconjugated PA to 0.25-0.60 mumol/ml, or (2) a nontoxic dose (0.2 mumol/g/day) of p-chlorophenylalanine (pClPhe) with L-phenylalanine (Phe), to elevate plasma Phe levels at least 10-fold (1.7-2.3 mumol/ml) and unconjugated PA to at least 0.2 mumol/ml, produced the syndrome of untreated maternal PKU: spontaneous abortion, mortality rate greater than normal among the newborn, retarded growth of fetal body and brain, and a learning deficit among the progeny. From the plasma of rats infused with only pClPhe, a metabolite was isolated and identified as p-chlorophenylacetic acid. This compound, at a concentration greater than 0.15 mumol/ml plasma was found to retard fetal body and brain growth. In the pregnant rat, plasma levels of unconjugated PA, in the range observed in some PKU individuals on a normal diet, effectively induced a simulation of maternal PKU. The results of this investigation support our contention that PA, which is produced in excessive amounts in clinical PKU, is the primary cause of the brain dysfunction.

Published

1983

209. Identification of metabolites of phenylacetic acid in rat brain by plasma desorption mass spectrometry.

Author

Loo YH, Miller KA, Nowlin J, and Horning MG

Subjects

Acetylation, Animals, Chromatography, Gas, Female, Hydroxamic Acids metabolism, Mass Spectrometry, Phenylbutyrates metabolism, Pregnancy, Rats, Brain metabolism, Phenylacetates metabolism

Published

1980

210. On the possible mechanism of phenylacetate neurotoxicity: inhibition of choline acetyltransferase by phenylacetyl-CoA.

Author

Potempska A, Loo YH, and Wisniewski HM

Subjects

Acetate-CoA Ligase antagonists & inhibitors, Acetyl Coenzyme A toxicity, Female, Humans, Kinetics, Phenylketonurias metabolism, Placenta enzymology, Pregnancy, Saccharomyces cerevisiae enzymology, Acetyl Coenzyme A analogs & derivatives, Choline O-Acetyltransferase antagonists & inhibitors, Neurotoxins, Phenylacetates toxicity

Abstract

The influence of phenylacetate, phenylbutyrate, and phenylacetyl-CoA on the activity of choline acetyltransferase and S-acetyl-CoA synthetase was investigated in vitro. Phenylacetyl-CoA was found to be a very potent inhibitor of choline acetyltransferase, competitive for acetyl-CoA with Ki of 3.1 X 10(-7)M. In contrast, millimolar concentrations of phenylacetate and phenylbutyrate were required to inhibit the activity of the enzyme. Activity of S-acetyl-CoA synthetase was affected only slightly by the three agents in concentrations of 10(-3)-10(-2)M. At this time, results are interpreted to suggest that in phenylketonuria, phenylacetate exerts its neurotoxic action through its metabolic product, phenylacetyl-CoA, which could severely decrease the availability of acetyl-CoA.

Published

1984

211. Phenylacetate and the enduring behavioral deficit in experimental phenylketonuria.

Author

Fulton TR, Triano T, Rabe A, and Loo YH

Subjects

Animals, Body Weight drug effects, Escape Reaction drug effects, Female, Fenclonine, Humans, Hyperkinesis, Male, Phenylacetates metabolism, Phenylalanine metabolism, Phenylketonurias chemically induced, Pregnancy, Rats, Sex Factors, Behavior, Animal drug effects, Phenethylamines pharmacology, Phenylacetates pharmacology, Phenylketonurias physiopathology

Published

1980

212. A biochemical explanation of phenyl acetate neurotoxicity in experimental phenylketonuria.

Author

Loo YH, Potempska A, and Wisniewski HM

Subjects

3-Hydroxybutyric Acid, Animals, Brain drug effects, Disease Models, Animal, Female, Glycoproteins metabolism, Kinetics, Male, Rats, Rats, Inbred Strains, Sialic Acids metabolism, Acetyl Coenzyme A metabolism, Brain metabolism, Hydroxybutyrates metabolism, Phenylacetates toxicity, Phenylketonurias metabolism

Abstract

The in vivo formation of [1-14C]acetyl-coenzyme A from D-[3-14C]3-hydroxybutyrate in the brain of the suckling rat was not affected by postnatal exposure to phenyl acetate. However, utilization of the generated acetyl-coenzyme A was significantly inhibited in certain metabolic reactions, namely synthesis of fatty acids and of sterols, but not in others as the Krebs cycle reactions that lead to the production of dicarboxylic amino acids. The incorporation of D-[U-14C]glucosamine into N-acetylneuraminic acid bound to glycoproteins was appreciably diminished in the rat pup previously exposed to maternal phenylketonuria induced by phenyl acetate. During the period of very rapid development of the brain, interference by phenyl acetate and/or its metabolites with certain critical biosynthetic pathways that require acetyl-coenzyme A would significantly contribute to retarded maturation of the brain that occurs in phenylketonuria.

Published

1985

213. Gas chromatographic determination of aromatic acid metabolites of phenylalanine in brain.

Author

Loo YH, Scotto L, and Horning MG

Subjects

Animals, Chromatography, Gas methods, Rats, Trimethylsilyl Compounds, Brain metabolism, Phenylalanine metabolism

Published

1976

214. Phenylacetate and brain dysfunction in experimental phenylketonuria: synaptic development.

Author

Loo YH, Fulton T, Miller K, and Wisniewski HM

Subjects

Animals, Cerebral Cortex analysis, Choline metabolism, Female, Fenclonine, Humans, Male, Norepinephrine metabolism, Organ Size drug effects, Phenylketonurias chemically induced, Pregnancy, Rats, Serotonin metabolism, Sialic Acids analysis, gamma-Aminobutyric Acid metabolism, Neurotransmitter Agents metabolism, Phenethylamines pharmacology, Phenylacetates pharmacology, Phenylalanine pharmacology, Phenylketonurias physiopathology, Synaptosomes drug effects

Published

1980

215. Myelin deficiency in experimental phenylketonuria: contribution of the aromatic acid metabolites of phenylalanine.

Author

Loo YH, Scotto J, and Wisniewski HM

Subjects

Animals, Brain growth & development, Brain metabolism, Female, Fenclonine, Humans, Male, Membrane Lipids metabolism, Myelin Proteins metabolism, Myelin Sheath metabolism, Phenylacetates metabolism, Phenylalanine metabolism, Phenylpyruvic Acids metabolism, Rats, Disease Models, Animal, Myelin Sheath growth & development, Phenylketonurias physiopathology

Abstract

Retarded body and brain growth and a deficit of myelin in the cerebral hemispheres and the cerebellum were observed in an animal model of phenylketonuria, the p-chlorophenylalanine and L-phenylalanine treated preweanling rat. These manifestations of phenylketonuria were reproduced in rats treated with phenylacetate in amounts approximating those likely to be produced in phenylketonuria. Young rats treated with equivalent amounts of other metabolites of phenylalanine, namely, phenylpyruvate, phenyllactate, and mandelate, which also accumulate in the brain during hyperphenylalaninemia, did not exhibit any toxic effects. Phenylpyruvate did not give rise to phenylacetate in the brain, but a small percentage was converted to phenyllactate. The gross composition of myelin isolated from the brains of saline and phenylacetate treated animals was similar. At various time intervals after subcutaneous injection, phenylacetate in the brain reached levels thirty times those of phenylpyruvate and phenyllactate, although animals received equivalent amounts of the three metabolites. The retarded growth of the body and brain of the young animal treated with phenylacetate may be attributed to the formation of phenylacetylcoenzyme A in the tissues. The site of action is very likely linked to acylcoenzyme A metabolism, i.e., the synthesis and utilization of acetylCoA and acetoacetylCoA, which are involved in reactions generating ATP and energy and in the synthesis of cholesterol and fatty acids. Results of this investigation indicate that growth retardation induced by phenylacetate during the period of very rapid development of the brain is responsible for the mental retardation in phenylketonuria.

Published

1978

216. Cerebral biochemical abnormalities in experimental maternal phenylketonuria: gangliosides and sialoglycoproteins.

Author

Loo YH, Hyde KR, Lin FH, and Wisniewski HM

Subjects

Animals, Animals, Newborn, Brain embryology, Cholesterol metabolism, Chromatography, Gel, DNA metabolism, Disease Models, Animal, Female, Fetus metabolism, Nerve Tissue Proteins metabolism, Pregnancy, Rats, Rats, Inbred Strains, Brain metabolism, Gangliosides metabolism, Phenylketonurias metabolism, Pregnancy Complications metabolism, Sialoglycoproteins metabolism

Abstract

The present study sought a biochemical explanation for retarded brain development in the heterozygous offspring of the phenylketonuric (PKU) mother. Two rat models of simulated maternal PKU, one induced by p-chlorophenylalanine and phenylalanine and the other by phenylacetate, were employed in this investigation. Maternal PKU had no influence on cerebral concentrations of DNA, protein, and cholesterol, which were normal in the 2 d old pup. However, there was a noticeable disruption of the normal ganglioside pattern and a significant reduction of sialoglycoproteins. Concomitant with a delayed drop in the gangliosides Q1b and D3, was a slower rise in M1 and D1a. At least 66% of sialoglycoproteins located on SDS-PAGE gel chromatograms, by radioactivity incorporated in vivo from radiolabeled N-acetylmannosamine and by (3H) sialic acid released by Neuraminidase from periodate-(3H)borohydride labeled glycoproteins, have mobilities of the cell adhesion molecules N-CAM and D-CAM. Whether the reduction of the sialoglycoproteins induced by maternal PKU is mainly in these cell adhesion molecules requires further investigation. Interference with the function of gangliosides and certain sialoglycoproteins during cerebral development may contribute to the brain dysfunction observed in the offspring of PKU mothers not on diet control during pregnancy.

Published

1985

217. Levels of B 6 vitamers and of pyridoxal phosphokinase in rat brain during maturation.

Author

Loo YH

Subjects

Animals, Phosphoric Acids metabolism, Pyridoxal metabolism, Pyridoxal Phosphate metabolism, Pyridoxamine metabolism, Rats, Brain enzymology, Brain growth & development, Brain metabolism, Phosphotransferases metabolism, Picolines metabolism, Pyridoxine metabolism

Published

1972

218. Pyridoxal kinase in brain and its inhibition by pyridoxylidene-beta-phenylethylamine.

Author

Loo YH and Whittaker VP

Subjects

Animals, Guinea Pigs, Humans, In Vitro Techniques, Phenylketonurias metabolism, Pyridoxine metabolism, Brain enzymology, Cerebral Cortex enzymology, Imines pharmacology, Phenethylamines pharmacology, Phosphotransferases administration & dosage, Phosphotransferases analysis

Published

1967

219. Alkaloid formation in ergot sclerotia.

Author

LOO YH and LEWIS RW

Subjects

Ascomycota, Cardiovascular Agents, Claviceps, Ergot Alkaloids

Published

1955

220. Phenylketonuria and vitamin B6 function.

Author

Loo YH and Ritman P

Subjects

Acrodynia, Alopecia, Animals, Body Weight, Diet, Growth, Humans, Learning, Male, Phenylalanine pharmacology, Pyridoxine pharmacology, Rats, Swimming, Vitamin B 6 Deficiency, Behavior, Animal, Phenylketonurias metabolism, Pyridoxine metabolism

Published

1967

221. Spectrofluorimetric assay of vitamin B6 analogues in brain tissue.

Author

Loo YH and Badger L

Subjects

Animals, Chromatography, Ion Exchange, Fluorometry, History, 20th Century, Phosphates analysis, Pyridoxine analysis, Spectrum Analysis, Tritium, Brain Chemistry, Vitamin B Complex analysis

Published

1969

222. Effect of vitamin B 6 on phenylalanine metabolism in the brain of normal and p-chlorophenylalanine-treated rats.

Author

Loo YH and Mack K

Subjects

Animals, Carbon Isotopes, Female, Humans, Injections, Intraperitoneal, Injections, Subcutaneous, Phenylketonurias chemically induced, Pregnancy, Pyridoxamine pharmacology, Rats, Spectrometry, Fluorescence, Time Factors, Tritium, Brain metabolism, Fenclonine pharmacology, Phenylalanine metabolism, Phenylketonurias metabolism, Pyridoxine pharmacology

Published

1972

223. NEW METABOLITES OF PHENYLALANINE.

Author

LOO YH and RITMAN P

Subjects

Rats, Body Fluids, Brain Chemistry, Carbon Isotopes, Chemistry Techniques, Analytical, Chromatography, Metabolism, Phenylalanine, Pyridoxine, Research, Toxicology, Urine

Published

1964

224. Erythropoietic activity of proteolytic enzymes.

Author

LOO YH, LEE CC, and FLEMMING M

Subjects

Dermatologic Agents, Endopeptidases, Erythrocytes, Hydrolases, Peptide Hydrolases chemistry

Published

1960

225. Effect of hyperphenylalaninemia on vitamin B 6 metabolism in developing rat brain.

Author

Loo YH and Mack K

Subjects

Animals, Brain enzymology, Brain growth & development, Carbon Isotopes, Chromatography, Ion Exchange, Female, Fenclonine, Humans, Injections, Intraperitoneal, Injections, Subcutaneous, Phenylketonurias chemically induced, Phenylketonurias enzymology, Phosphotransferases metabolism, Pregnancy, Pyridoxal metabolism, Pyridoxamine metabolism, Rats, Spectrometry, Fluorescence, Time Factors, Brain metabolism, Phenylketonurias metabolism, Pyridoxine metabolism

Published

1972

226. Streptomycin; the linkage between streptidine and streptobiosamine.

Author

CARTER HE, LOO YH, and SKELL PS

Subjects

Disaccharides, Genetic Linkage, Guanidines, Hexosamines, Streptomycin

Published

1947

227. Oxidation of hydroxy-L-proline by periodate.

Author

CARTER HE and LOO YH

Subjects

Oxidation-Reduction, Periodic Acid, Proline

Published

1948

228. Degradation products of streptamine; alpha, gamma-diamino-beta-hydroxyglutaric acid.

Author

CARTER HE, LOO YH, and ROTHROCK JW

Subjects

Gamma Rays, Hexosamines metabolism

Published

1949