Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0344329 (
collapse
)
28,634
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The surface pressure (pi)-area (A), the surface potential (DeltaV)-A and the dipole moment (mu( perpendicular))-A isotherms were obtained for two-component monolayers of two different cerebrosides (LMC-1 and LMC-2) with phospholipids of dipalmitoylphosphatidylcholine (DPPC) and with dipalmitoylphosphatidylethanolamine (DPPE) on a subphase of 0.5 M
sodium chloride
solution as a function of phospholipid compositions by employing the Langmuir method, the ionizing electrode method, and the fluorescence microscopy. Surface potentials (DeltaV) of pure components were analyzed using the three-layer model proposed by Demchak and Fort. The contributions of the hydrophilic saccharide group and the head group to the vertical component of the dipole moment (mu( perpendicular)) were estimated. The miscibility of cerebroside and phospholipid in the two-component monolayers was examined by plotting the variation of the molecular area and the surface potential as a function of the phospholipid molar fraction (X(phospholipid)), using the additivity rule. From the A-X(phospholipid) and DeltaV(m)-X(phospholipid) plots, partial molecular surface area (PMA) and apparent partial molecular surface potential (APSP) were determined at the discrete surface pressure. The PMA and APSP with the mole fraction were extensively discussed for the miscible system. Judging from the two-dimensional phase diagrams, these can be classified into two types. The first is a positive azeotropic type; the combinations of cerebrosides with DPPC are miscible with each other. The second is a completely immiscible type: the combination of cerebrosides with DPPE. Furthermore, a regular surface mixture, for which the Joos equation was used for the analysis of the
collapse
pressure of two-component monolayers, allowed calculation of the interaction parameter (xi) and the interaction energy (-Delta epsilon) between the cerebrosides and DPPC component. The miscibility of cerebroside and phospholipid components in the monolayer state was also supported by fluorescence microscopy.
...
PMID:Cerebroside Langmuir monolayers originated from the echinoderms I. Binary systems of cerebrosides and phospholipids. 1583 68
Two-component Langmuir monolayers formed on a subphase of 0.5M
sodium chloride
solution were investigated for two different cerebrosides (LMC-1 and LMC-2) with steroids of cholesterol (Ch) and cholesteryl sodium sulfate (Ch-S); i.e. LMC-1/Ch, LMC-1/Ch-S, LMC-2/Ch, and LMC-2/Ch-S were examined in terms of surface pressure (pi), the surface potential (DeltaV) and the dipole moment (mu( perpendicular)) as a function of surface area (A) by employing the Langmuir method, the ionizing electrode method, and the fluorescence microscopy. Surface potentials (DeltaV) of steroids were analyzed using the three-layer model proposed by Demchak and Fort. The miscibility of cerebrosides and steroids in the insoluble monolayers was examined by plotting the variation of the molecular area and the surface potential as a function of the steroid molar fraction (X(steroid)) based upon the additivity rule. From the A-X(steroid) and DeltaV(m)-X(steroid) plots, partial molecular surface area (PMA) and apparent partial molecular surface potential (APSP) were determined at the different surface pressures. The PMA and APSP with the mole fraction were discussed for the miscible system. Judging from the two-dimensional phase diagrams, they can be classified into two types. The first is a completely immiscible type; the combination of cerebrosides with cholesterol. The second is a negative azeotropic type, where cerebrosides and cholesteryl sodium sulfate are completely miscible both in the expanded state and in the condensed state. In addition, a regular surface mixture (the Joos equation for the analysis of the
collapse
pressure of two-component monolayers) allowed calculation of the interaction parameter (xi) and the interaction energy (-Delta epsilon) between the cerebrosides and Ch-S. The miscibility of cerebroside and steroid components in the monolayer state was also supported by fluorescence microscopy.
...
PMID:Cerebroside Langmuir monolayers originated from the echinoderms: II. Binary systems of cerebrosides and steroids. 1583 69
The surface pressure (pi)-area (A), the surface potential (DeltaV)-A and the dipole moment (mu( perpendicular))-A isotherms were obtained for six cerebrosides of LLC-2, LLC-2-1, LLC-2-8, LLC-2-10, LLC-2-12, and LLC-2-15, which were isolated from Linckia laevigata, and two-component monolayers of two different cerebrosides (LLC-2 and LLC-2-8) with phospholipid of dipalmitoylphosphatidylcholine (DPPC) on a subphase of 0.15 M
sodium chloride
solution as a function of cerebroside compositions in the two-component systems by employing the Wilhelmy method, the ionizing electrode method, and the fluorescence microscopy. The new finding was that LLC-2 showed a stable and liquid expanded type film. Four of them (LLC-2-8, -10, -12, and -15) had the phase transition from the liquid-expanded (LE) to the liquid-condensed (LC) states at 298.2 K. The apparent molar quantity changes (Deltas(gamma), Deltah(gamma), and Deltau(gamma)) on their phase transition on 0.15M at 298.2 K were calculated. The miscibility of cerebroside and phospholipid in the two-component monolayers was examined by plotting the variation of the molecular area and the surface potential as a function of the cerebroside molar fraction (X(cerebroside)), using the additivity rule. From the A-X(cerebroside) and DeltaV(m)-X(phospholipid) plots, a partial molecular surface area (PMA) and an apparent partial molecular surface potential (APSP) were determined at the discrete surface pressure. The PMA and APSP with the mole fraction were extensively discussed for the miscible systems. Judging from the two-dimensional phase diagrams, these were found to be one type, a positive azeotropic type; all the cerebrosides were miscible with DPPC. Furthermore, assuming a regular surface mixture, the Joos equation for the analysis of the
collapse
pressure of two-component monolayers allowed calculation of the interaction parameter (xi) and the interaction energy (-Deltavarepsilon) between the cerebrosides and DPPC. The miscibility of cerebroside and phospholipid components in the monolayer state was also supported by fluorescence microscopy.
...
PMID:Langmuir monolayers of cerebroside originated from Linckia laevigata: binary systems of cerebrosides and phospholipid. 1605 75
The novel perfluorinated double long-chain salts with divalent counterions of separate electric charge, 1,1-(1,omega-alkanediyl)-bispyridinium perfluorotetradecane- carboxylate [CnBP(FC14)2 : n = 2, 6, 10, 14], were newly synthesized and their interfacial behavior was investigated by Langmuir monolayer methods. Surface properties [surface pressure (pi)-, surface potential (DeltaV)-, dipole moment (micro perpendicular)-area (A) isotherms] and morphological images of CnBP(FC14)2 monolayers on a subphase of water and on various NaCl concentrations were measured by employing the Wilhelmy method, the ionizing electrode method, fluorescence microscopy (FM), and Brewster angle microscopy (BAM). CnBP(FC14)2 formed a stable monolayer on water at 298.2 K, where these pi-A isotherms shifted to a larger molecular area with increasing charge separation and had no transition point from a disordered phase to an ordered one. On the contrary, the pi-A isotherms on NaCl solutions moved to the smaller areas, showed the transition and higher
collapse
pressures compared to the pi-A isotherms on water. These results suggested that a
sodium chloride
subphase induced the condensation of CnBP(FC14)2 molecules upon compression. In addition, it is quite noticeable that a dissociation of CnBP counterion from CnBP(FC14)2 occurs on NaCl solutions, depending on the extent of charge separation. This phenomenon was supported by the changes of the limiting area, transition pressure,
collapse
pressure, repeated compression-expansion cycle curve, and DeltaV behavior of perfluorotetradecanoic acid (FC14). Furthermore, temperature dependence of these monolayers was investigated, and an apparent molar quantity change on the phase transition was evaluated on 0.15 M NaCl. The morphological behavior of CnBP(FC14)2 and FC14 monolayers was also confirmed by FM and BAM images.
...
PMID:Langmuir monolayer properties of perfluorinated double long-chain salts with divalent counterions of separate electric charge at the air-water interface. 1769 55
The retention of chromium(III) from a 2,000 ppm chromium basic sulfate and tannery waste solution at pH 4.5 using modified hydroxy-aluminum bentonites (OH-Al bentonites) as adsorbents was studied. OH-Al bentonite was prepared by mixing clay with a hydrolyzed commercial chlorohydroxy Al solution. The modified Al bentonites were obtained by (a) a treatment with 0.5M
sodium chloride
and (b) a treatment with a Na-hexametaphosphate solution (HMP) after adding
sodium chloride
. The effect of heating the adsorbents at 100, 500, 700 and 800 degrees C on Cr retention as a function of time was also analyzed. Cr retention by modified OH-Al bentonite with HMP increased with time (up to 100 mg Cr/g) where modified OH-Al bentonite was twice that of untreated bentonite. The relatively high uptake of metal from the salt solution by modified OH-Al bentonite treated at 800 degrees C, in which a complete interlayer
collapse
occurred, indicated the importance of the contribution of external surface sites to the retention capacity. The maximum Cr uptake from a water waste was 24 mg/g, due to interferences and different chromium species in the industrial solution.
...
PMID:Use of modified hydroxy-aluminum bentonites for chromium(III) removal from solutions. 1790 Jul 92
The pathogenesis is described of renal lesions which developed in 1-day-old chicks fed a ration containing 10%
sodium chloride
for 25 successive days. The gross lesions are described. Microscopically the kidneys showed that nephrosis and glomerular changes were very prominent. These included glomerular hypertrophy, formation of epithelial crescents, fibrous adhesions, lobularity, shrinkage and
collapse
of the glomerular tuft and thickening of the basement membrane of the capillary tuft. Segmental hyalinosis of the tuft was also sometimes observed.
...
PMID:Renal lesions in baby chicks due to sodium chloride poisoning. 1876 83
The operating parameters that affect the performance of analyte focusing by micelle
collapse
(AFMC) to neutral analytes (i.e., dialkyl phthalates) in normal migration micellar electrokinetic chromatography (NM-MEKC) are examined. NM-MEKC is characterized by an electroosmotic flow greater than the electrophoretic velocity of the micellar pseudostationary phase, and was performed using sodium dodecyl sulfate (SDS) with neutral to high pH electrolytes in fused silica capillaries. AFMC is a recently introduced on-line sample preconcentration technique in capillary electrophoresis that can provide hundreds fold improvement in detection sensitivity. The mechanism of AFMC is based on the analyte transport, release, and accumulation by the moving surfactant micelles [e.g., SDS at concentrations closer to the critical micelle concentration (CMC)] in the sample that dilutes below its CMC into a liquid phase zone. The sample is prepared in a matrix that contains SDS micelles and high mobility anions, where the conductivity of the sample matrix is higher compared to that of the separation solution. The sample injection length, sample and separation solution conductivity ratio, and surfactant micelle concentration in the sample were found to affect the AFMC performance, as well as the effective separation length in NM-MEKC. The use of a different electrolyte salt in the sample and separation solution also affected AFMC NM-MEKC results. In particular,
sodium chloride
in the sample matrix can induce a micelle-mediated neutral analyte isotachophoretic concentration that is detrimental to the technique.
...
PMID:Neutral analyte focusing by micelle collapse in micellar electrokinetic chromatography. 1899 Mar 96
Halotolerant microorganisms able to live in saline environments offer a multitude of actual or potential applications in various fields of biotechnology. This is why some strains of Halobacteria from an Algerian culture collection were screened for biosurfactant production in a standard medium using the qualitative drop-
collapse
test and emulsification activity assay. Five of the Halobacteria strains reduced the growth medium surface tension below 40 mN m(-1), and two of them exhibited high emulsion-stabilizing capacity. Diesel oil-in-water emulsions were stabilized over a broad range of conditions, from pH 2 to 11, with up to 35%
sodium chloride
or up to 25% ethanol in the aqueous phase. Emulsions were stable to three cycles of freezing and thawing. The components of the biosurfactant were determined; it contained sugar, protein and lipid. The two Halobacteria strains with enhanced biosurfactant producers, designated strain A21 and strain D21, were selected to identify by phenotypic, biochemical characteristics and by partial 16S rRNA gene sequencing. The strains have Mg(2+), and salt growth requirements are always above 15% (w/v) salts with an optimal concentration of 15-25%. Analyses of partial 16S rRNA gene sequences of the two strains suggested that they were halophiles belonging to genera of the family Halobacteriaceae, Halovivax (strain A21) and Haloarcula (strain D21). To our knowledge, this is the first report of biosurfactant production at such a high salt concentration.
...
PMID:Isolation and characterization of halophilic Archaea able to produce biosurfactants. 1926 23
The triggering receptor expressed on myeloid cells (TREM) 1, a receptor expressed on the surface of neutrophils and monocytes/macrophages, synergizes with the Toll-like receptors in amplifying the inflammatory response mediated by microbial components. Because the pathogenesis of severe blood loss-induced excessive inflammation and multiple organ failure implies leukocyte activation and bacterial translocation, we hypothesized that the TREM-1 pathway modulation would prove beneficial in this setting. Wistar rats were subjected to a 1-h period of hemorrhagic shock and then reperfused with shed blood and ringer lactate for 1 h. At the time of reperfusion, animals were administered with LP17 (a synthetic soluble TREM-1 decoy receptor), a control peptide, or a vehicle (isotonic
sodium chloride
solution). Plasma concentration of TNF-alpha, IL-6, and soluble TREM-1 were measured by enzyme-linked immunosorbent assay. Lung permeability was assessed by the weight-dry ratio and fluorescein isothiocyanate-labeled albumin lung-blood ratio. Organ dysfunction was appreciated by measuring plasma aspartate aminotransferase and urea concentrations. Bacterial translocation was estimated by blood, mesenteric lymph nodes, and spleens culture. Hemorrhagic shock associated with cardiovascular
collapse
, lactic acidosis, systemic inflammatory response, and organ dysfunction that was partly prevented by LP17 administration. Hemorrhagic shock induced a marked increase in lung permeability that was also prevented by TREM-1 modulation. Finally, LP17 improved survival. Thus, the early modulation of the TREM-1 pathway by means of a synthetic peptide may be useful during severe hemorrhagic shock in rats in preventing organ dysfunction and improving survival.
...
PMID:Effects of the TREM 1 pathway modulation during hemorrhagic shock in rats. 1933 44
By cooling fresh suprarenal gland tissue immediately on removal from the animal, and by defatting, and mincing the same at low temperatures, and drying at 37 degrees C. with the least loss of time, a preparation is obtained which in daily doses of 3 grm. per os, is effective in restoring a large measure of health to sufferers from Addison's disease.It is essential that a potent extract of suprarenal cortex be available for (a) restoring the patient sufficiently to enable whole gland treatment to be instituted and (b) to treat any return of abdominal symptoms or circulatory
collapse
induced by intercurrent illness or failure to retain the whole gland through vomiting.It is desirable to increase the intake of
sodium chloride
to 10 to 15 grm. daily.Neither saline alone, nor cortical extract alone produces the same effective result as whole suprarenal gland prepared as above administered per os.Commercial preparations of whole suprarenal can be entirely without effect.Subcutaneous injection of adrenalin in a phase of weakness may have disastrous results.Trials, using the whole gland preparation on normal subjects, further establish the observations of Rowntree, that the gastric musculature is stimulated by injection of whole suprarenal gland. In certain cases, considerable elevation of blood-pressure may also result.
...
PMID:The Treatment of Addison's Disease by Whole Adrenal Gland: (Section of Therapeutics and Pharmacology). 1999 Mar 13
<< Previous
1
2
3
Next >>
