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Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The expression time for induced mutants resistant to 6-thioguanine, in V-79 Chinese hamster cells, was determined by respreading the cells in the selective medium, at various times after treatment. The length of the expression time for mutants induced by X-rays, ethyl methane sulphonate and ultraviolet irradiation was dose dependent. For the highest dose used this was 7 to 8 days, beyond which there was no further changes in mutant frequency. The dose-response relationship of these agents does not appear to deviate from linearity; this permits the calculation of mutation rate per unit dose. For X-rays this value was 1.35 - 10(-7) per rad per locus, for ethyl methane sulphonate, 2.2 - 10(-2) per
mole
per locus and for ultraviolet irradiation, 6.3 - 10(-6) per
erg
per mm2 per locus. The effectiveness of the 3 different mutagens for the induction of mutations was compared by calculating the increase in mutant frequency per unit of decrease in survival (Do). These increments in frequency were: 5.6 - 10(-5) for X-rays, 69.5 - 10(-5) for ethyl methane sulphonate and 16.1 - 10(-5) for ultraviolet irradiation.
...
PMID:Linear dose--response relationships after prolonged expression times in V-79 Chinese hamster cells. 17 97
We have observed the magnetically induced orientation of purple membrane suspensions by measuring the birefringence as a function of concentration and temperature at fields up to 10.5 Tesla (T). At these fields, the orientation approaches saturation even in dilute solutions; therefore, the birefringence data, together with an estimate of the membrane size distribution obtained from electron microscopy, permits one to determine the diamagnetic susceptibility anisotropy. We find delta chi
mole
= 1.2 +/- 0.3 X 10(-3)
erg
G-2mol-1 of bacteriorhodopsin. If delta chi were due only to the oriented peptide bonds of the transmembrane alpha helices, this experimental value would indicate that delta K, the anisotropy per
mole
of peptide bonds, is considerably larger than previously suggested. On the other hand, the large value for delta chi
mole
of bacteriorhodopsin can also be explained by a net orientation of the aromatic amino acid side chains of bacteriorhodopsin with their planes perpendicular to the membrane surface. In addition, the present data analysis demonstrates the critical dependence of the calculated delta chi value on the values for the membrane size distribution.
...
PMID:Magnetic birefringence studies of dilute purple membrane suspensions. 397 96
The structure, hydration properties, and adhesion energy of the membrane glycolipid galactosylceramide (GalCer) were studied by osmotic stress/X-ray diffraction analysis.(1) Fully hydrated GalCer gave a repeat period of 67 A, which decreased less than 2 A with application of applied osmotic pressures as large as 1.6 x 10(9) dyn/cm(2). These results, along with the invariance of GalCer structure obtained by a Fourier analysis of the X-ray data, indicated that there was an extremely narrow fluid space (less than the diameter of a single water molecule) between fully hydrated cerebroside bilayers. Electron density profiles showed that the hydrocarbon chains from apposing GalCer monolayers partially interdigitated in the center of the bilayer. To obtain information on the adhesive properties of GalCer bilayers, we incorporated into the bilayer various
mole
ratios of the negatively charged lipid dipalmitoylphosphatidylglycerol (DPPG) to provide known electrostatic repulsion between the bilayers. Although 17 and 20 mol % DPPG swelled (disjoined) the GalCer bilayers by an amount predictable from electrostatic double-layer theory, 5, 10, 13, and 15 mol % DPPG did not disjoin the bilayers. By calculating the magnitude of the electrostatic pressure necessary to disjoin the bilayers, we estimated the adhesion energy for GalCer bilayers to be about -1.5
erg
/cm(2), a much larger value than that previously measured for phosphatidylcholine bilayers. The observed discontinuous disjoining with increased electrostatic pressure and this relatively large value for adhesion energy indicated the presence of an attractive interaction, in addition to van der Waals attraction, between cerebroside bilayers. Possible attractive interactions are hydrogen bond formation and hydrophobic interactions between the galactose headgroups of apposing GalCer bilayers.
...
PMID:Adhesion between cerebroside bilayers. 1056 11
