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91.
92.
The possible mechanisms by which various metals exert their mutagenic effects were investigated using both chemical and biochemical techniques. Ions of Cu, Ni and Cr enhanced the release of either adenine [Cu(II) and Ni(II)] or guanine [Cr(VI)] from DNA as measured in a chromatography assay, suggesting the possible importance of depurination in metal-induced mutagenesis. Transfection experiments with single-stranded bacteriophage phi X174 DNA indicated that micromolar levels of Cu(II), Cr(III), Cr(VI) and Pt(IV) are capable of causing extensive lethal damage to the phage DNA. In case of Cu(II) and Pt(IV) this damage proved mutagenic for phi X174 am3 after transfection of DNA into SOS-induced spheroplasts. For Cu(II) mutagenesis is likely due to the release of adenine residues from the phage DNA based on the abolishment of mutagenesis by alkali and the observed specificity of the phage revertants. The enhancement of the adenine depurination rate by Cu(II) was estimated to be as high as 10,000-fold. 相似文献
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94.
Jacques Loeb 《The Journal of general physiology》1920,3(2):247-269
1. Our results show clearly that the Hofmeister series is not the correct expression of the relative effect of ions on the swelling of gelatin, and that it is not true that chlorides, bromides, and nitrates have "hydrating," and acetates, tartrates, citrates, and phosphates "dehydrating," effects. If the pH of the gelatin is taken into considertion, it is found that for the same pH the effect on swelling is the same for gelatin chloride, nitrate, trichloracetate, tartrate, succinate, oxalate, citrate, and phosphate, while the swelling is considerably less for gelatin sulfate. This is exactly what we should expect on the basis of the combining ratios of the corresponding acids with gelatin since the weak dibasic and tribasic acids combine with gelatin in molecular proportions while the strong dibasic acid H2SO4 combines with gelatin in equivalent proportions. In the case of the weak dibasic acids he anion in combination with gelatin is therefore monovalent and in the case of the strong H2SO4 it is bivalent. Hence it is only the valency and not the nature of the ion in combination with gelatin which affects the degree of swelling.
2. This is corroborated in the experiments with alkalies which show that LiOH, NaOH, KOH, and NH4OH cause the same degree of swelling at the same pH of the gelatin solution and that this swelling is considerably higher than that caused by Ca(OH)2 and Ba(OH)2 for the same pH. This agrees with the results of the titration experiments which prove that Ca(OH)2 and Ba(OH)2 combine with gelatin in equivalent proportions and that hence the cation in combination with the gelatin salt with these two latter bases is bivalent.
3. The fact that proteins combine with acids and alkalies on the basis of the forces of primary valency is therefore not only in full agreement with the influence of ions on the physical properties of proteins but allows us to predict this influence qualitatively and quantitatively.
4. What has been stated in regard to the influence of ions on the swelling of the different gelatin salts is also true in regard to the influence of ions on the relative solubility of gelatin in alcohol-water mixtures.
5. Conductivity measurements of solutions of gelatin salts do not support the theory that the drop in the curves for swelling, osmotic pressure, or viscosity, which occurs at a pH 3.3 or a little less, is due to a drop in the concentration of ionized protein in the solution; nor do they suggest that the difference between the physical properties of gelatin sulfate and gelatin chloride is due to differences in the degree of ionization of these two salts. 相似文献
95.
96.
97.
98.
Comparison of the relative mutagenicities of O-alkylthymines site-specifically incorporated into phi X174 DNA 总被引:5,自引:0,他引:5
The relative mutagenicities of O-alkylthymine-DNA adducts were analyzed in vivo by site-specific mutagenesis. Purified DNA polymerases were used to incorporate O4-methyl (Me)-, O4-ethyl (Et)-, O4-isopropyl (iPr)-, or O2-Me-dTTP onto the 3' terminus of a synthetic oligonucleotide (15-mer) hybridized to phi X174 am3 DNA. The product oligonucleotides were further extended in the presence of unmodified dNTPs to yield 21-mers containing single O-alkylthymine adducts opposite the adenine residue of the bacteriophage amber codon. Polyacrylamide gel electrophoresis and nearest-neighbor analyses confirmed the identities and nucleotide positions of the adducts. Transfection and replication of the site-specifically alkylated DNAs in ada- Escherichia coli (defective in the alkyltransferase capable of repairing O4-alkylthymine-DNA adducts) yielded mutant progeny phage with reversion frequencies of: O4-Me-dThd (19.5 X 10(-6) ) greater than O4-Et-dThd (7.5 X 10(-6) ) greater than O4-iPr-dThd (3.0 X 10(-6) ) greater than or equal to O2-Me-dThd (1.0 X 10(-6) ) approximately equal to dThd (2.0 X 10(-6) ). None of the adducts produced mutations above background following replication in ada+ E. coli. DNA sequence analyses of 40 independently isolated mutant phage derived from the O4-Me- or O4-Et-dThd-containing DNAs showed that all mutants contained guanine residues opposite the original site of the alkylthymines. These data are consistent with a mechanism of mutagenesis involving the formation of O4-alkyl-T.G base pairs during DNA replication in E. coli and suggest that the formation of A.T----G.C transition mutations is characteristic of mutagenesis by O4-Me- and O4-Et-dThds in vivo. 相似文献
99.
NGF and other growth factors induce an association between ERK1 and the NGF receptor, gp140prototrk.
As detected by coimmunoprecipitation from PC12 cells, NGF induces rapid association between ERK1 (a growth factor-activated serine/threonine protein kinase) and gp140prototrk NGF receptors. In contrast, no such association is found with the closely related ERK2. Anti-trk immunocomplexes generated from NGF-treated cells also contain protein kinase activity that shares many properties with soluble ERK1. The association of both ERK1 protein and ERK-like kinase activity with gp140prototrk is maximal by 5 min of NGF treatment, persists for approximately 1 hr, and subsequently declines by 18 hr. Treatment with either basic fibroblast growth factor, epidermal growth factor, or orthovanadate also leads to association of ERK1 with gp140prototrk without tyrosine phosphorylation of the latter. The interaction between ERK1 and gp140prototrk may prove relevant to the NGF mechanism. 相似文献
100.
Human O(6)-alkylguanine-DNA alkyltransferase (MGMT) repairs potentially cytotoxic and mutagenic alkylation damage at the O(6)-position of guanine and the O(4)-position of thymine in DNA. We have used random sequence mutagenesis and functional complementation to obtain human MGMT mutants that are resistant to the MGMT inhibitor, O(6)-benzylguanine [Encell, L. P., Coates, M. M., and Loeb, L. A. (1998) Cancer Res. 58, 1013-1020]. Here we describe screening of O(6)-benzylguanine-resistant mutants for altered substrate specificity, i.e., for an increased level of utilization of O(4)-methylthymine (m(4)T) relative to that of O(6)-methylguanine (m(6)G). One mutant identified by the screen, 56-8, containing eight substitutions near the active site (C150Y, S152R, A154S, V155G, N157T, V164M, E166Q, and A170T), was purified and characterized kinetically. The second-order rate constant for repair of m(4)T by the mutant was up to 11.5-fold greater than that of WT MGMT, and the relative m(4)T specificity, k(m(4)T)/k(m(6)G), was as much as 75-fold greater. In competition experiments with both substrates present, the mutant was 277-fold more sensitive to inhibition by m(4)T than WT MGMT. This mutant, and others like it, could help elucidate the complex relationship between adduction at specific sites in DNA and the cytotoxicity and mutagenicity of alkylating agents. 相似文献