scispace - formally typeset
Search or ask a question
Author

Herman M. Kalckar

Bio: Herman M. Kalckar is an academic researcher from Boston University. The author has contributed to research in topics: Hexose transport & Galactose. The author has an hindex of 34, co-authored 113 publications receiving 5795 citations. Previous affiliations of Herman M. Kalckar include Public Health Research Institute & University of Copenhagen.


Papers

Cited by
More filters
Book ChapterDOI
TL;DR: The turbidity produced when protein is mixed with low concentrations of any of the common protein precipitants can be used as an index of protein concentration, and this advantage is used to eliminate the interference of nucleic acids in the estimation of protein.
Abstract: Publisher Summary The turbidity produced when protein is mixed with low concentrations of any of the common protein precipitants can be used as an index of protein concentration. The resulting turbidity is maximum after about 10 minutes and may be measured spectrophotometrically in the wavelength region of 600 m. Standardization may be effected by comparison with the turbidity produced by a suspension of a dried protein precipitate, or reference may be had to the methyl acrylate-styrene polymer. Turbidimetric techniques are rapid and convenient, but they yield different values with different proteins. They do not permit differentiation between protein and acid-insoluble compounds such as nucleic acids. Protein estimation with the Folin-Ciocalteu reagent include (1) biuret reaction of protein with copper ion in alkali, and (2) reduction of the phosphomolybdic-phosphotungstic reagent by the tyrosine and tryptophan present in the treated protein. Protein estimation by ultraviolet absorption takes advantage of the fact that nucleic acid, however, absorbs much more strongly at 260 mμ than at 280 mμ, whereas with protein the reverse is true. This advantage is used to eliminate, by calculation, the interference of nucleic acids in the estimation of protein.

3,391 citations

Journal ArticleDOI
01 Jun 1988-Diabetes
TL;DR: Apres l'ingestion de glucose, l'insulino-secretion du pancreas est stimulee et la combinaison de l'hyperglycemie et de l-hyperinsulinemie doit induire la captation de glucose dans les territoires splanchique et peripherique (muscles) and the suppression of the production hepatique du glucose.
Abstract: Apres l'ingestion de glucose, l'insulino-secretion du pancreas est stimulee et la combinaison de l'hyperglycemie et de l'hyperinsulinemie doit induire la captation de glucose dans les territoires splanchique (foie et tube digestif) et peripherique (muscles) et la suppression de la production hepatique du glucose. Le but de cette conference est de prouver que, bien que la perturbation du metabolisme hepatique du glucose joue un role dans le maintien de l'etat diabetique, le foie ne joue probablement pas de role majeur dans le developpement precoce de l'hyperglycemie a jeun des DNID

2,394 citations

Journal ArticleDOI
TL;DR: Information concerning the loss of first-phase insulin secretion, altered pulsatility of insulin release, and enhanced proinsulin-insulin secretory ratio is discussed as it pertains to altered β-cell function in NIDDM.
Abstract: Non-insulin-dependent diabetes mellitus (NIDDM) results from an imbalance between insulin sensitivity and insulin secretion. Both longitudinal and cross-sectional studies have demonstrated that the earliest detectable abnormality in NIDDM is an impairment in the body's ability to respond to insulin. Because the pancreas is able to appropriately augment its secretion of insulin to offset the insulin resistance, glucose tolerance remains normal. With time, however, the beta-cell fails to maintain its high rate of insulin secretion and the relative insulinopenia (i.e., relative to the degree of insulin resistance) leads to the development of impaired glucose tolerance and eventually overt diabetes mellitus. The cause of pancreatic "exhaustion" remains unknown but may be related to the effect of glucose toxicity in a genetically predisposed beta-cell. Information concerning the loss of first-phase insulin secretion, altered pulsatility of insulin release, and enhanced proinsulin-insulin secretory ratio is discussed as it pertains to altered beta-cell function in NIDDM. Insulin resistance in NIDDM involves both hepatic and peripheral, muscle, tissues. In the postabsorptive state hepatic glucose output is normal or increased, despite the presence of fasting hyperinsulinemia, whereas the efficiency of tissue glucose uptake is reduced. In response to both endogenously secreted or exogenously administered insulin, hepatic glucose production fails to suppress normally and muscle glucose uptake is diminished. The accelerated rate of hepatic glucose output is due entirely to augmented gluconeogenesis. In muscle many cellular defects in insulin action have been described including impaired insulin-receptor tyrosine kinase activity, diminished glucose transport, and reduced glycogen synthase and pyruvate dehydrogenase. The abnormalities account for disturbances in the two major intracellular pathways of glucose disposal, glycogen synthesis, and glucose oxidation. In the earliest stages of NIDDM, the major defect involves the inability of insulin to promote glucose uptake and storage as glycogen. Other potential mechanisms that have been put forward to explain the insulin resistance, include increased lipid oxidation, altered skeletal muscle capillary density/fiber type/blood flow, impaired insulin transport across the vascular endothelium, increased amylin, calcitonin gene-related peptide levels, and glucose toxicity.

2,144 citations

Journal ArticleDOI
TL;DR: The steady state kinetic data are consistent with a branching reaction mechanism previously proposed for glutathione reductase from yeast, and at low GSSG concentrations the rate equation can be approximated by that of a simple ping pong mechanism.

1,755 citations

Journal ArticleDOI
TL;DR: The ratio of P32 to Cl4 in the product was closely similar to that of the labeled P-choline, suggesting incorporation of both phosphorus and choline as an intact unit into a phospholipide, presumably lecithin.

1,614 citations