Browsing by Author "Mukherjee, K L"
Now showing 1 - 20 of 30
Results Per Page
Sort Options
Item Ascorbic acid concentration in developing human fetal vitreous humor.(1983-03-01) Sen, A; Roy, R; Mukherjee, K LItem Biological characteristics of institutional delivery cases in a rural area.(1990-04-01) Mukherjee, K L; Mallick, P KItem Composition of the brain in human fetuses.(1970-02-01) Chatterjee, K K; Mehrotra, G K; Dey, A K; Mukherjee, K LItem Development of mammalian tooth cultured in vitro and as transplants: a light and scanning electron microscopic study.(1985-10-01) Majumder, A L; Wrathall, J R; Mukherjee, K L; Bhussry, B RItem Diabetic state in chronic liver disease.(1976-06-01) Majumder, G; Basu, J; Panja, M; Neelakantan, C; Balial, S K; Sengupta, S K; Mukherjee, K L; Chhetri, M KItem Effect of staphylococcal infection on the phosphate turnover rate in mice.(1966-07-01) Mukherjee, K L; Smith, I M; Lindell, S SItem Fructose-1, 6-bisphosphatase in human fetal brain and liver during development.(1982-06) Biswas, Tapas; Majumder, Arun Lahiri; Thakurta, Gitanjali Guha; Mukherjee, K LActivity of fructose-1,6-bisphosphatase (EC 3.1.3.11), one of the key gluconeogenic enzymes, was measured in human fetal brain and liver during development. Fructose-1,6- bisphosphatase was distributed throughout the different regions of the brain. In contrast to the partially purified enzyme from the brain, the liver enzyme was dependent on Mg2+ for maximal activity, EDTA, citrate, oleate and linoleate were stimulatory, whereas 5'-AMP inhibited the activity of the liver enzyme.Item Fructose-1,6-bisphosphatase: Part III--Characterization of the enzyme from developing human fetal liver.(1985-12-01) Biswas, T; Majumder, A L; Majumder, A L; Mukherjee, K LItem Fructose-1,6-bisphosphatase: Part IV--Characterization of the enzyme from developing human fetal brain.(1985-12-01) Biswas, T; Majumder, A L; Majumder, A L; Mukherjee, K LItem Glucose homeostasis in human fetuses.(1986-03-01) Ghosh, S; Guhathakurta, G; Mukherjee, K LItem Glycogen content & structure & some enzymes of glycogen metabolism in human foetal organs.(1989-04-01) Ghosh, S; Thakurta, G G; Mukherjee, K LThe glycogen content, and its structure and the enzymes involved in glycogenolysis in human foetal organs were studied at different periods of gestation. Of all the tissues studied glycogen content was found to be the highest in cardiac muscle. Very little glycogen was present in the foetal liver at 9-12 wk of gestation, this increased progressively to nearly 2 per cent at 24 wk. Glycogen content of placenta was lower than that of skeletal muscle and liver. The level of glycogen in adipose tissue, placenta and cerebrum was not high enough to play any role in glucose homeostasis of the foetus. Human foetal liver and skeletal muscle glycogen showed the normal branched structure while the liver glycogen was found to be unusually stable. Glycogen phosphorylase activity in the foetal liver and muscle was found to be low, i.e., about a fifth and a fourth of adult liver and muscle activity respectively. The stability of foetal liver glycogen and phosphorolytic activity in the liver and muscle indicate negligible glycogenolysis during foetal development. Glucose-6-phosphatase activity in foetal liver was undetectable below 12 wk of gestation, the activity increasing progressively up to 24 wk.Item Glycolipid content of human brain in protein-calorie malnutrition.(1972-12-01) Mokashi, S; Mukherjee, K L; Ganguli, C; Bachhawat, B KItem Glycosaminoglycans in human fetal liver in relation to water and electrolytes.(1987-03) Ganguly, Chameli; Mukherjee, K LThe acidic mucopolysaccharides secreted into the extracellular space are thought to play many important functions amongst which are binding of water and electrolytes on the polyanionic glycosaminoglycans. Characteristically these components undergo continuous changes during growth and development of the fetuses. Relationships of the concentrations of glycosaminoglycans to the water and principal electrolytes at different periods of gestation were studied in human fetuses. It was found that during growth of the human fetuses there was a progressive decrease in water, thiocyanate space, total sodium content and glycosaminoglycans. However the decrease of glycosaminoglycans was greater than the rate of decrease of the other constituents. Hence mucopolysaccharides were thought to play more important roles than just binding of water and cations.Item Growth and development of the human fetal kidney.(1986-03-01) Mehrotra, G K; Datta, G; Mukherjee, K LItem HMP-shunt pathway in human foetal lung.(1987-12-01) Chandra, N C; Ganguli, C; Dutta, G; Mukherjee, K LItem Host parasite relationship in bird malaria-haemoglobin and serum composition in susceptible and resistant birds.(1978-05-01) Basu, T; Mukherjee, S; Mukherjee, K LItem Institutional intra-natal care services--extent and pattern of its utilisation in rural areas.(1989-01-01) Mukherjee, K L; Mallick, P KItem Intra-amniotic tetanus toxoid as a safe abortifacient.(1979-09-01) Bhattacharya, N; Chaudhuri, N; Banerjee, S K; Mukherjee, K LItem Mucopolysaccharidoses in Calcutta.(1986-03-01) Ganguly, C; Ganguly, P; Sarangi, N N; Mukherjee, K LItem Nitrogen metabolism in staphylococcal infected mice.(1966-11-01) Mukherjee, K L; Lindell, S S; Routh, J I; Smith, I M