Theory of a Narrow roton Absorption Line in the Spectrum of a Disk-Shaped SHF Resonator

We calculate the probability of the birth of a circular phonon (c-phonon) in He II by a c-photon of the resonator. It is shown that this probability has sharp maxima at frequencies, where the effective group velocity of the c-phonon is equal to zero; the density of states of c-phonons strongly grows at such frequencies. For He II, these frequencies correspond to a roton and a maxon. From the probability of the c-roton birth, we calculate the roto line width which is found to approximately agree with the experimental one. We conclude that the roton line observed in the super-high-frequency (SHF) absorption spectrum of helium is related to the birth of c-rotons. A possible interpretation of the Stark effect observed for the roton line is also proposed.Comment: 13 pages, 1 figure, v2: journal variant, several minor correction

Liver regeneration is associated with lipid reorganization in membranes of the endoplasmic reticulum

BACKGROUND:In recent years, an adaptive endoplasmic reticulum (ER) stress response has been actively investigated. The ER membrane, isolated from the intact and regenerating liver, may be an appropriate model for investigating the association between structural and functional characteristics of ER in vivo and their corresponding behavioral characteristics in vitro. The rate of lipid synthesis and that of intracellular lipid exchange between the ER and cytosol were investigated in the intact and regenerating liver (13 h after partial hepatectomy). Particularly, membrane characteristics, surface potential, and glucose 6-phosphatase (G6Pase) activity were investigated, along with the degradation rate of G6Pase in vitro, which was estimated by the loss of G6Pase activity, formation of lipid peroxides, and size of excreted membrane vesicles. METHODS:The rate of lipid synthesis was determined by measuring the intensity of radioactive precursor (C14 - sodium acetate) in different fractions of lipids (phospholipids, non-esterified fatty acids, and triacylglycerides) after 30 min exposure. The rate of lipid metabolism was assessed by measuring the quantity of lipids with radioactive labels emerging in the cytosol of hepatocytes (CPM). Viscosity and surface potential were determined by fluorescent probes. RESULTS:It was observed that after 13 h of partial hepatectomy, the rate of lipid synthesis in the ER of hepatocytes in the regenerating liver was 3 times lower than that in ER of hepatocytes in the intact liver, wherein the rate of incorporation of newly synthesized lipids in cytosol was several times higher in the regenerating liver. Increase in the rate of exchange of neutral lipids in cells of the regenerating liver was accompanied by lipid reconstruction in the ER, changing the structural and functional characteristics of the membrane. Such membrane rebuilding also contributed to the rate of degradation of the ER in vitro,which that must be taken into account during development of systems for in vitro assessment of xenobiotic metabolism. CONCLUSIONS:An increase in the rate of direct (microsomes---cytosol) and reverse transport of lipids (cytosol --- microsomes) was observed in the regenerating liver. Microsomes, isolated from the regenerating liver, were degraded in the in vitro system at a higher rate

Expression of genes encoding IGF1, IGF2, and IGFBPs in blood of obese adolescents with insulin resistance

Objective. The development of obesity and its metabolic complications is associated with dys-regulation of various intrinsic mechanisms, which control basic metabolic processes via changes in the expression of numerous regulatory genes. The main goal of this work was to study the association between the expression of insulin-like growth factors (IGF1 and IGF2) and IGF-binding proteins and insulin resistance in obese adolescents for evaluation of possible contribution of these genes in development of insulin resistance

Liver regeneration is associated with lipid reorganization in membranes of the endoplasmic reticulum

BACKGROUND:In recent years, an adaptive endoplasmic reticulum (ER) stress response has been actively investigated. The ER membrane, isolated from the intact and regenerating liver, may be an appropriate model for investigating the association between structural and functional characteristics of ER in vivo and their corresponding behavioral characteristics in vitro. The rate of lipid synthesis and that of intracellular lipid exchange between the ER and cytosol were investigated in the intact and regenerating liver (13 h after partial hepatectomy). Particularly, membrane characteristics, surface potential, and glucose 6-phosphatase (G6Pase) activity were investigated, along with the degradation rate of G6Pase in vitro, which was estimated by the loss of G6Pase activity, formation of lipid peroxides, and size of excreted membrane vesicles. METHODS:The rate of lipid synthesis was determined by measuring the intensity of radioactive precursor (C14 - sodium acetate) in different fractions of lipids (phospholipids, non-esterified fatty acids, and triacylglycerides) after 30 min exposure. The rate of lipid metabolism was assessed by measuring the quantity of lipids with radioactive labels emerging in the cytosol of hepatocytes (CPM). Viscosity and surface potential were determined by fluorescent probes. RESULTS:It was observed that after 13 h of partial hepatectomy, the rate of lipid synthesis in the ER of hepatocytes in the regenerating liver was 3 times lower than that in ER of hepatocytes in the intact liver, wherein the rate of incorporation of newly synthesized lipids in cytosol was several times higher in the regenerating liver. Increase in the rate of exchange of neutral lipids in cells of the regenerating liver was accompanied by lipid reconstruction in the ER, changing the structural and functional characteristics of the membrane. Such membrane rebuilding also contributed to the rate of degradation of the ER in vitro,which that must be taken into account during development of systems for in vitro assessment of xenobiotic metabolism. CONCLUSIONS:An increase in the rate of direct (microsomes---cytosol) and reverse transport of lipids (cytosol --- microsomes) was observed in the regenerating liver. Microsomes, isolated from the regenerating liver, were degraded in the in vitro system at a higher rate