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991.
992.
The characterisation of the alteration in amino acid sequence of the immuno globulin heavy chain of IF4, a charge mutant of the myeloma line MOPC 21, is described. This was achieved by comparing the sequence of mutant IF4 heavy chain with the known sequence of the wild type. The peptic fragment (Fab′)2 from whole immunoglobulin, and all the ten CNBr fragments of MOPC 21 wild-type and mutant IF4 heavy chains, were identified and characterised. The only difference was in a tryptic peptide of the C-terminal CNBr fragment which had the same amino acid composition, but different electrophoretic mobilities. Thermolysin digestion products showed that asparagine 415 of wild-type heavy chain had been replaced by an aspartate in the mutant. Analysis of newly synthesized immunoglobulins from wild type and mutant showed the same charge difference, which did not seem therefore to result from deamidation.Fingerprints of the [32P]mRNA of IF4 heavy chain were prepared. The T1 ribonuclease oligonucleotide that includes the coding sequence for residue 415 in wild type was not found in mutant IF4.The mechanism is most likely a missense point mutation (A to G transition) in the MOPC 21 heavy chain structural cistron. 相似文献
993.
The interaction of 3-aminopyridine-adenine dinucleotide, an NAD + 2 analogue which is fluorescent at the pyridine end of the molecule, with rabbit muscle glyceraldehyde-3-phosphate dehydrogenase was investigated. The fluorescence properties of the AAD+ molecule were used to monitor the nicotinamide subsites ou the GPDHase tetramer, the fluorescent aminopyridine moiety of the molecule serving as an intrinsic probe. Although the binding of AAD+ wag found to be negatively co-operative, no conformational changes induced at the nicotinamide subsite upon coenzyme binding were found to be transmitted to neighboring subunits. These findings, in conjunction with our earlier findings and with the observation that different NAD+ analogues which differ in the chemistry of the pyridine moiety bind with different extents of co-operativity, enable us to offer specific roles for the nicotinamide and the adenine subsites in generating the negative co-operativity.It is suggested that the structure of the pyridine moiety of the coenzyme controls the mode of binding of the pyridine moiety to the nicotinamide subsite. This, in turn, controls the orientation of the adenine moiety with respect to its subsite, thereby determining the mode of the interactions between the adenine and its binding domain. As the propagation of conformational changes caused by these interactions to neighboring subunits is believed to be the cause of the negative co-operativity exhibited by this enzyme towards coenzyme binding, the structure of the pyridine moiety controls this phenomenon. 相似文献
994.
A Levitzki 《Biochemical and biophysical research communications》1977,74(3):1154-1159
An attempt is made to integrate the knowledge on the role of hormones and guanyl nucleotides in regulating adenylate cyclase into a single molecular model. It is suggested that the hormone catalyzes the activation of the enzyme adenylate cyclase by facilitating the conversion of the enzyme from its inactive state to its active form. The hormone is also responsible for the termination of the signal namely the deactivation of the enzyme by inducing the hydrolysis of GTP at its regulatory site. The relative rates of these two processes determine the steady state concentration of the active form of the enzyme. The model also explains the difference in behaviour between GTP and its non-hydrolyzable analogs GppNHp and GTPγS. 相似文献
995.
S Gutteridge D B Winter W J Bruyninckx H S Mason 《Biochemical and biophysical research communications》1977,78(3):945-951
After mild dissociation of cytochrome oxidase protomers, and polyacrylamide gel electrophoresis, copper was found predominantly in polypeptides of Bands V (m.w. 12,100) and VII (m.w. 3,400), and heme a predominantly in polypeptides of Bands I (m.w. 35,300) and II (m.w. 21,000). Some copper was found in Band II – III, and heme a in Band V. 相似文献
996.
M Miyaki G E Sai S Katagiri N Akamatsu T Ono 《Biochemical and biophysical research communications》1977,76(1):136-141
The G1(G0) arrest induced in NRK cells by picolinic acid was preceded by marked changes in iron metabolism. In contrast, picolinic acid did not significantly prevent zinc uptake and changes in intracellular zinc were small and clearly preceded by changes in iron. A kinetic study revealed that iron uptake by NRK cells was rapidly halted by picolinic acid. Experiments with radioiron-labeled cells indicated that picolinic acid, in a dose dependent manner, effectively removed iron from the cells. The dose of picolinic acid that exactly removed iron from the cells was also the concentration that induced the G1(G0) arrest. Picolinic acid, therefore, may induce the growth inhibition by selectively withholding iron from the cells. These data strongly suggest that iron availability may be a controlling factor in the initiation of DNA synthesis in NRK cells. 相似文献
997.
M Sugano T Ide H Okamatsu H Takahara 《Biochemical and biophysical research communications》1977,79(4):1092-1097
A method was developed for the determination of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in the microsomal fraction of crypt cells and villi of rat intestinal mucosa. Addition of trypsin inhibitor to homogenizing and incubation media at a proper concentration appeared inevitable for measurement of the activity of the villi fraction. The reductase in crypt cells was also slightly enhanced by the addition of the inhibitor. Using this technique, the enzyme activity in villi was found to be as active as the crypt cell fraction. Since other types of protease inhibitors were not necessarily effective, it was suggested that specific enzyme(s) inactivates the mucosal reductase in the course of measurement. 相似文献
998.
T Ortega F Castillo J Cárdenas M Losada 《Biochemical and biophysical research communications》1977,75(4):823-831
Ammonia, as well as other uncouplers of photophosphorylation, strongly inhibit the photosynthetic reduction of nitrate by particles of the blue-green alga Nostoc muscorum. The enzyme responsible for nitrate reduction, nitrate reductase, can be reversibly inactivated by reduction in a ferredoxin-dependent reaction. Nitrate protects against this inactivation, and molecular oxygen restores the original activity. 相似文献
999.
1000.
Michael Sribney Jerre L. Dove Eileen M. Lyman 《Biochemical and biophysical research communications》1977,79(3):749-755
The rat liver microsomal enzyme CTP: phosphatidate cytidylyltransferase (EC 2.7.7.41) which catalyzes the formation of CDP-diacylglycerol has been found to be markedly stimulated by GTP. The requirement for GTP is absolute, the novel GTP analogues such as guanosine 5′-[β,γ-methylene]-triphosphate, guanosine 5′-[α,β-methylene]-triphosphate, guanosine 5′-[β,γ-imido]-triphosphate and guanosine 3′-diphosphate 5′-diphosphate are without significant effect. Maximal stimulation occurs at 1 mM GTP. ATP at a concentration of 5 mM totally inhibits the formation of CDP-diacylglycerol even in the presence of optimal GTP concentration. Analogues of ATP such as adenosine 5′-[α,β-methylene]-triphosphate, adenosine 5′-[β,γ-methylene]-triphosphate and adenosine 5′-[β,γ-imido]-triphosphate are without effect on the reaction. The addition of fluoride (8 mM) likewise abolishes the stimulatory effect of GTP. 相似文献