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971.
Correction of certain mutant phenotypes by intimate contact with normal cells, i.e. ‘metabolic cooperation’, is an easily studied form of cell communication. Metabolic cooperation between normal cells and mutant cells deficient in hypoxanthine-guanine or adenine phosphoribosyl transferase (HGPRTase and APRTase respectively) appears to be the result of transfer of the enzyme product, nucleotide or nucleotide derivative, from normal to mutant cells. This process shows selectivity in that mutant derivatives of mouse L cells are unable to function as recipients of HGPRTase or APRTase products, while hamster and human fibroblasts with these enzyme deficiencies, exhibit correction of the mutant phenotype, when in contact with normal donor cells. There is also selectivity with respect to substances transferred, since other mutant phenotypes, i.e. G-6 PD deficiency, are not corrected by contact with normal cells. Species specificities do not appear to influence metabolic cooperation, therefore heterospecific cell mixtures provide an opportunity to cytologically distinguish cells and study individual cell interactions. 相似文献
972.
Oligopeptides containing glycine and one or two L -alanyl or L -glutamyl residues have been studied by circular dichroism (CD) and optical rotatory dispersion (ORD) in aqueous solution at pH 1.0, pH 6.0, and pH 10.0 and in aqueous ethanol. Two glycyl residues are required to remove effects of α-carboxyl or amino titration on the optical activity of the internal alanyl or glutamyl residues. The CD spectra of the alanyl and protonated glutamyl residues are similar, having two regions of negative ellipticity around 215 nm resulting in a spectrum reassembling that of poly-α-L -glutamic acid (PGA) at high pH. Another large positive band below 190 nm was observed for gly2-glu2-gly2 in water at pH 6 and 10 and for several peptides in aqueous ethanol. Residue ellipticities were approximately additive in every case except for peptides containing intrenal glutamyl residu at pH 6.0. 相似文献
973.
974.
The relationship of Caa+ concentration in in vitro tissue culture medium to the ability of the medium to support lizard and chick myotube formation was studied. Lizard myogenic cells (from lines established from the regenerating tail of the lizard, Anolis caroliensis) do not fuse in media with a Ca2+ concentration of below 650 μM; good fusion occurs at 1 750μM; and large anastomosing tubes result in media with concentrations of 2 750,μM. Chick myogenic cells from the limb of 11 day embryos do not fuse at Ca2+ concentrations below 260,μM, fuse well at 1 000 μM, and produce large anastomosing myotubes at concentrations above 1 700 μM. Colonies of myogenic cells from established lines plated at clonal densities in a medium with a 1 750 μM Ca2+ concentration grow more rapidly than those at 650 μM Ca2+; however, there is no increase in plating efficiency. Regardless of the Ca2+ concentration, lizard myogenic cells do not fuse until a large percentage of the cells in a colony have withdrawn from the mitotic cycle in Gl and entered GO. The similarities between in vivo and in vitro lizard myogenesis are discussed. 相似文献
975.
Hexokinase from maize endosperm and scutellum 总被引:7,自引:6,他引:1
Hexokinase (EC 2.7.1.1) was isolated from endosperm and scutellum of developing and germinating maize (Zea mays) seeds. With fructose as the variable substate, Michaelis constant values for the scutellum enzyme were about onethird those of the endosperm enzyme (0.05 versus 0.15 mm), and no developmental differences were observed. With glucose as the variable substrate, Michaelis constant values were all in the range 0.1 to 0.2 mm. The enzyme preparation from germinating scutellum was studied further; when glucose was varied over a wide range, a Michaelis constant of 3.4 mm was observed in addition to the much lower Michaelis constant noted above. This low affinity binding of glucose may have regulatory significance and may indicate the presence of a glucokinase in addition to hexokinase. 相似文献
976.
977.
1. Two species of double-helical RNA isolated from mycelium of Penicillium chrysogenum were titrated with acid at 25°C and 95°C (solvent 0.1m-sodium phosphate buffer). At 25°C denaturation occurred at about pH3. At 95°C in the denatured form cytosine residues titrated as a simple monobasic acid of pK3.9 compared with pK2.5 for the native form at 25°C. 2. On thermal denaturation in neutral and acidic solutions one species of RNA (38% rG·rC) `melted' in three distinct stages, equivalent to a mixture of three species, namely one of about 25% rG·rC, another of about 33% rG·rC and a third of about 46% rG·rC: the relative proportions were 0.25:0.35:0.40. 3. On thermal denaturation in acidic solutions the increase in the fraction of ionized cytosine residues concomitant with the `melting' of rG·rC base pair also affects the spectrum especially at 280nm and serves to enhance the contribution of rG·rC base pairs at this wavelength. The increment in ε(P) at 280nm on `melting' an rG·rC base pair approaches 53501·mol−1·cm−1 depending on pH, compared with 33501·mol−1·cm−1 at pH7. In contrast ε(P) at 280nm is scarcely affected by `melting' rA·rU base pairs or by the protonization of adenine residues. 4. Changes in the spectrum of Escherichia coli rRNA on denaturation in acidic solutions were studied to yield the mole fractions of rA·rU and rG·rC base pairs `melting' at particular pH values. 相似文献
978.
Ubiquinone biosynthesis in Escherichia coli K-12. Accumulation of an octaprenol, farnesylfarnesylgeraniol, by a multiple aromatic auxotroph 总被引:3,自引:0,他引:3
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Cell extracts of a multiple aromatic auxotroph of Escherichia coli K-12, strain AB2830, grown in the absence of precursors of the quinone rings of the ubiquinone and menaquinone molecules, converted 4-hydroxy[U-14C]benzoate into a mixture of 3-octaprenyl-4-hydroxybenzoate and 2-octaprenylphenol. An octaprenol, farnesylfarnesylgeraniol, was isolated from such cell extracts and characterized by n.m.r. and mass spectroscopy. Neither the octaprenol, nor polyprenylation of 4-hydroxy[U-14C]benzoate, could be detected in cell extracts of strain AB2830 grown in the presence of 0.1mm-4-hydroxybenzoate. It was concluded that, in the biosynthesis of ubiquinone, the polyprenyl side chain is added to 4-hydroxybenzoate as a C40 unit, the active form of which is converted by cell extracts into farnesylfarnesylgeraniol. The multiple aromatic auxotroph, when grown in the absence of 4-hydroxybenzoate but in the presence of 4-aminobenzoate, converted the latter compound into 3-octaprenyl-4-aminobenzoate. This compound was isolated from whole cells and characterized by n.m.r. and mass spectroscopy. 相似文献
979.
980.