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31.
Effect of inorganic cations on phase transitions. 总被引:4,自引:0,他引:4
H Hauser 《Chemistry and physics of lipids》1991,57(2-3):309-325
The effect of protons and cations on the crystal (gel)-to-liquid crystal transition temperature Tm of isoelectric and negatively charged phospholipids are summarized. The general trends emerging are as follows: Tm depends on the state of ionization of the phospholipid in that Tm-vs-pH-curves parallel the titration curve of the phospholipid. Protonation of phospholipids causes Tm to increase, deprotonation or ionization has the opposite effect. The effects of cations on the Tm of phospholipids may be grouped into non-specific and specific effects. Unspecific effects of cations such as the screening of negative charges of the phospholipid polar group are qualitatively similar to protonation: Tm increases, in the order monovalent less than divalent less than trivalent cations and the effects on negatively charged phospholipids are larger than those on isoelectric phospholipids. Unspecific, electrostatic effects on Tm are reasonably well accounted for by the Gouy-Chapman theory. If, however, specific binding comes into play and/or electrostatic effects are accompanied by changes in phospholipid structure, simple, electrostatic theories fail to explain the observed changes in Tm. The crystal (gel)-to-liquid crystal transition is also a function of the degree of hydration: Tm generally decreases with increasing hydration reaching a plateau in excess H2O. In addition to screening of electric charges, ions may exert yet another non-specific effect: ions may affect Tm indirectly by competing with the phospholipid polar group for water of hydration. This indirect effect plays a role at high ionic strength and/or at low hydration of the phospholipid. Specific binding of cations to negatively charged phospholipids can lead to tight associations of the metal ion with the lipid polar group. Isothermal crystallization of the phospholipid bilayer is induced that is accompanied by a total or partial loss of water of hydration resulting in a marked increase in Tm. For instance, in crystalline Ca2(+)-phosphatidylserine complexes Tm is increased by more than 100 degrees C. 相似文献
32.
The intestinal brush-border membrane contains one or several membrane proteins that mediate fusion and/or aggregation of small unilamellar egg phosphatidylcholine vesicles. The fusion is accompanied by a partial loss of vesicle contents. Proteolytic treatment of the brush-border membrane with proteinase K abolishes the fusogenic property. This finding suggests that the fusogenic activity is associated with a membrane protein exposed on the external or luminal side of the brush-border membrane. Activation of intrinsic proteinases of the brush-border membrane liberates water-soluble proteins (supernate proteins). These proteins behave in an analogous way to intact brush-border membrane vesicles; they induce fusion of egg phosphatidylcholine vesicles and render the egg phosphatidylcholine bilayer permeable to ions and small molecules (Mr less than or equal to 5000). Furthermore, supernate proteins mediate phosphatidylcholine and cholesterol exchange between two populations of small, unilamellar phospholipid vesicles. Supernate proteins are fractionated on Sephadex G-75 SF yielding three protein peaks of apparent Mr greater than or equal to 70,000, Mr = 22,000 and Mr = 11,500. All three protein fractions show similar phosphatidylcholine-exchange activity, but they differ in their effects on the stability of egg phosphatidylcholine vesicles. The protein fraction with an apparent Mr greater than or equal to 70,000 has the highest fusogenic activity while the protein fraction of apparent Mr = 11,500 appears to be most effective in rendering the egg phosphatidylcholine bilayer permeable. 相似文献
33.
Two molecularly and kinetically distinct major species of the extracellular nuclease BAL 31 from Alteromonas espejiana, previously characterized as the "fast" (F) and "slow" (S) BAL 31 nucleases, have been evidenced to derive from proteolysis starting from a still larger (approximately 120 kDa) precursor nuclease. The expected protease activity in the culture fluid has been confirmed and is strongly dependent on the cell growth phase. The disappearance of the largest nuclease species with the concomitant sequential appearance of first the F and then the S species has been demonstrated for nuclease obtained from culture supernatants as a function of cell growth phase. Nuclease from periplasmic extracts displayed very little of the F and S nucleases. Treatment of purified F nuclease with Pronase or subtilisin readily converted it to species with only a few percent of the native exonuclease activity against duplex DNA but retaining much of the initial activity against single-stranded DNA. Electrophoresis in nuclease-detecting gels demonstrated a parallel conversion of the larger species to one indistinguishable in molecular weight from the S species. The observed loss of exonuclease activity could correspond to the conversion of the F to the S nuclease. However, treatment of S nuclease with subtilisin resulted in a drastic reduction of exonuclease activity of this enzyme on duplex DNA with retention of most of the activity against single-stranded and nicked circular duplex DNA substrates. Evidence of internal proteolysis of the S nuclease could be seen after electrophoresis in denaturing gels but only after the denaturation buffer was adjusted to 6 M in urea. The preferential removal of the exonuclease activity may enhance the usefulness of the BAL 31 nuclease in such applications as heteroduplex mapping. 相似文献
34.
Helmut Zacharias 《Chromosoma》1990,99(1):24-35
Drosophila nasutoides has an extraordinary genome since 62% of its DNA resides in chromosome4. This element mainly consists of constitutive heterochromatin which does not polytenize. Earlier studies of heterochromatin attributed little attention to the fact that condensed chromosomes often vary in condensation. This paper reports that chromosomes of the same complement display different degrees and kinetics of condensation. InD. nasutoides, even sex specific differences can be observed. The results of a comparative microphotometric study on neuroblast metaphases in both sexes revealed the following picture. The process of chromosome condensation is not restricted to mitotic prophase but continues into the metaphase. The mean condensation is not equal for all chromosomes. In the metaphase of the female, Feulgen density increases from theX chromosome, via3 and2, to chromosome4. In the male, the order isX, 2, 3, Y, and4. During the metaphase of the male, chromosomes condense with similar kinetics. In contrast, chromosomes of the female display asynchrony as monitored by area and length determinations. TheX chromosomes of the female probably have enhanced shortening during prophase. This would explain the metaphase of the female where theX chromosomes shorten less than the autosomes, and why each of theX chromosomes is 15% shorter than theX chromosome in the metaphase of the male. Further differences were observed in the longitudinal and lateral compaction of the chromosomes in males and females. The sex chromosomes and chromosome3 condense by shortening, while chromosomes2 and4 preferentially reduce their diameter. The large amount of DNA engaged in heteropycnosis and the isochromosome nature allow the identification of chromosome4 during interphase. At this stage, a new category of extreme DNA packaging was detected. The interphase density of chromosome4 can exceed that of metaphase by a factor of up to 8. Two events account for this high degree of condensation:(1) the homologues are particularly associated due to somatic pairing and (2) the arms are further tightened as a result of pericentric folding. The features of the isochromosome suggest that the interaction of chromatids during interphase is essentially caused by specific DNA sequences. The data confirm that heteropycnosis not only interferes with gene expression but also strongly inhibits DNA synthesis in endocycles. 相似文献
35.
Almuth-Sigrun Jandel Helmut Hustedt Christian Wandrey 《Applied microbiology and biotechnology》1982,15(2):59-63
Summary L-alanine was produced continuously from fumaric acid by means of soluble aspartase and L-aspartate--decarboxylase. The two reaction steps were carried out in two membrane reactors in series at different pH and temperature. The retention of the soluble enzymes within the reactor vessels was achieved by means of ultrafiltration membranes. 相似文献
36.
Summary Poly(A) RNA from S phase, G2 phase and starved macroplasmodia of Physarum contain mRNA sequences which when translated in vitro, yield similar patterns of polypeptides after fluorography.Reassociation of nick-translated DNA (Cot) allows the isolation of highly labeled single copy DNA which, after saturation hybridization with poly(A) RNA, gives values of 23% for growth and 17% for starvation.Homologous cDNA/poly(A) RNA hybridization reactions (Rot) indicate that 22–28% of the genome is transcribed during growth and 12% during starvation and that about half of the cDNA reacts with 0.1% of the genome and could represent 50–80 RNA species, each present in about 1,000 copies per nucleus. Up to 25,000 different RNA species, 1–5 copies each per nucleus, are estimated to be present during growth, and about 15,000 during starvation. Heterologous cDNA/poly(A) RNA hybridization reactions (Rot) indicate that the RNA sequences in S and G2 phase of the cell cycle are similar, with RNA sequences being more abundant in G2 phase.During starvation about 25% of the sequences present during growth cannot be detected and those sequences present during growth have become diluted during starvation. 相似文献
37.
The conformation and molecular packing of 3-palmitoyl-dl-glycerol-1-phosphoryl-ethanolamine has been determined by a single crystal analysis (R = 0.115); it crystallizes in the monoclinic space group with a unit cell of , with four molecules per unit cell. The molecules exist as configurational and conformational enantiomers and pack in a bilayer arrangement. The phosphorylethanolamine groups have an orientation parallel to the layer surface. The hydrocarbon chains are arranged according to the T∥ chain packing mode and adopt an extreme tilt of 57.5 ° with respect to the layer normal. The free glycerol hydroxyl group forms an intramolecular hydrogen bond with, a phosphate oxygen and thus affects the conformation and orientation of the head group. The phosphorylethanolamine dipoles are oriented parallel to each other in double rows, while they are antiparallel and form a continuous network in dilauroylphosphatidylethanolamine (Elder et al., 1977). The area per molecule in 3-palmitoyl-dl-glycerol-1-phosphorylethanolamine (34.8 Å2) is less than in diacylphosphatidylethanolamine (38.6 Å2), indicating that in the latter the hydrocarbon chains determine the molecular cross-section. The significance of the interaction and space requirement of the phosphorylethanolamine group for the phase behaviour of phosphatidylethanolamine is discussed. 相似文献
38.
Alterations of Phospholipid Metabolism in Rat Cerebral Cortex Mince Induced by Cationic Amphiphilic Drugs 总被引:3,自引:3,他引:0
Abstract Cationic amphiphilic drugs (CADs) of varied clinical use were screened to determine their capacity to alter the pattern of labeling with 32 Pj of cerebral cortex mince phospholipids. The altered phospholipid labeling patterns were qualitatively similar, the prominent features being reduced incorporation into phosphatidylcholine and increased incorporation into phosphatidic acid. Relative potencies were: (±)-propranolol > chlorpromazine = 4,4'-bis(diethylaminoethoxy) α,β -diethyldiphenylethane > desipramine > di-bucaine > pimozide > oxymetazoline = fenfluramine = haloperidol = chloroquine > amphetamine = no drug added. Propranolol was used to study the action of CADs further. Its effect was time- and dose-dependent, but in contrast with pineal gland, no label appeared in phosphatidyl-CMP (CDP-diacylglycerol), nor did dialysis of the mince to reduce diffusible substrates or exogenous addition of substrates cause appearance of liponucleotide. Thus lack of diffusible precursors is not responsible for CAD effects in vitro. Pulse-chase experiments with 32 P1 and [2-3 H]glycerol suggested that inhibition of phosphatidate phosphohydrolase may be partly responsible for the observed alterations in phospholipid labeling in the presence of CADs. 相似文献
39.
Data are presented which were collected in the course of the past ten years and bear on the correlation of absorbance at 800 nm and the EPR signal at g = 2 (‘copper signal’) of cytochrome c oxidase in various states of oxidation and ligation. Both EPR and optical reflectance spectra were obtained at low temperature (?170 to ?190°C). For some sets of samples spectra were recorded in the range 500–1100 nm. A particular effort was made to study this correlation with what are called ‘mixed valence’ states (Greenwood, C., Wilson, M.T. and Brunori, M. (1974) Biochem. J. 137, 205–215), when cytochrome a and the EPR-detectable copper are thought to be oxidized and the other components reduced and vice versa. These data show no evidence that the copper component of cytochrome oxidase which has so far not been detected by EPR makes a contribution to the absorption between 800 and 900 nm exceeding 10–15% of the total, which is close to or within the error of the respective measurements. For the various states of the oxidase examined in this work the 700–800 nm region did not appear to be more useful than the 800–900 nm region for determining the state of the EPR-undetectable copper in a reliable way. These conclusions are in agreement with results presented previously from other laboratories concerning the relationship of optical (approx. 800 nm) and EPR spectroscopic (g = 2) data obtained with the enzyme. 相似文献
40.