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Regulation of the oncogenic activity of the cellular src protein requires the correct spacing between the kinase domain and the C-terminal phosphorylated tyrosine (Tyr-527). 下载免费PDF全文
Repression of the tyrosine kinase activity of the cellular src protein (pp60c-src) depends on the phosphorylation of a tyrosine residue (Tyr-527) near the carboxy terminus. Tyr-527 is located 11 residues C terminal from the genetically defined end of the kinase domain (Leu-516) and is therefore in a negative regulatory region. Because the precise sequence of amino acids surrounding Tyr-527 appears to be unimportant for regulation, we hypothesized that the conformational constraints induced by phosphorylated Tyr-527 may require the correct spacing between the kinase domain (Leu-516) and Tyr-527. In this report, we show that deletions at residue 518 of two, four, or seven amino acids or insertions at this residue of two or four amino acids activated the kinase activity and thus the transforming potential of pp60c-src. As is the case for the prototype transforming variant, pp60527F, activation caused by these deletions or insertions was abolished when Tyr-416 (the autophosphorylation site) was changed to phenylalanine. In comparison with wild-type pp60c-src, the src proteins containing the alterations at residue 518 showed a lower phosphorylation state at Tyr-527 regardless of whether residue 416 was a tyrosine or a phenylalanine. Mechanisms dealing with the importance of spacing between the kinase domain and Tyr-527 are discussed. 相似文献
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The primary structures of the alpha chains in hemoglobins from three stocks of mice with theHba
w2,Hba
w3, andHba
w4 haplotypes were determined to establish whether the tentative alpha-chain assignments based on the results of isoelectric focusing patterns were correct. TheseHba haplotypes were identified in laboratory descendants of feral mice captured in different parts of the world. Hemoglobin from Centreville, Maryland,Mus musculus domesticus (Hba
w2) contains equal amounts of alpha chains 1 and 3. Hemoglobin from CzechMus musculus musculus (Hba
w4) contains equal amounts of alpha chains 3 and 4. Amino acid analysis of the alpha-globins of Skive DanishMus musculus musculus (Hba
w3) establishes that its hemoglobin is comprised of about one-third alpha chain 2 as expected plus a greater amount of a unique alpha chain that has not been described previously. This unique alpha chain has glycine at position 25, isoleucine at position 62, and serine at position 68; it is called chain 7. It may represent an intermediate in the evolution of genes that code for chain 2 (which has glycine, valine, and serine at positions 25, 62, and 68, respectively) and chain 4 (which has valine, isoleucine, and serine at positions 25, 62, and 62, respectively).This research was sponsored jointly by the National Institutes of Environmental Health Sciences under Contract 1-ES-55078 and by the Office of Health and Environmental Research, U.S. Department of Energy, under Contract DE-AC05-840R21400 with Martin Marietta Energy Systems, Inc. 相似文献
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M H Cobb J G Burr M E Linder T B Gray J S Gregory 《Biochemical and biophysical research communications》1986,137(2):702-708
Insulin and transformation by Rous sarcoma virus stimulate the phosphorylation of ribosomal protein S6. Soluble fractions containing activated S6 protein kinase from insulin-treated cells and from transformed chick embryo fibroblasts were compared. Based upon several characteristics notably elution from DEAE-cellulose and sedimentation in glycerol gradients, these two S6 protein kinase activities appear to be similar enzymes. Thus insulin and retroviral transformation may activate the same enzyme to regulate the phosphorylation state of S6. 相似文献
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To characterize the movement of sugars during kernel development in maize, a newly devised in vitro kernel development scheme was utilized. Viable seeds of wild type maize (Zea mays L.) as well as the mutant shrunken-2 (sh2) were found to mature when grown in culture with reducing sugars or sucrose as the carbon source. However, wild type and sh2 kernels had greater germination, starch content, and seed weight when sucrose, rather than reducing sugars, was the carbon source. By the use of labeled sucrose it was shown that sucrose can move into endosperm tissue without intervening degradation and resynthesis. These results show that when grown in vitro the maize seed can utilize reducing sugars for development, but it prefers sucrose. 相似文献
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The regulatory subunit monomer of cAMP-dependent protein kinase retains the salient kinetic properties of the native dimeric subunit 总被引:2,自引:0,他引:2
S R Rannels C E Cobb L R Landiss J D Corbin 《The Journal of biological chemistry》1985,260(6):3423-3430
Monomeric regulatory subunit (R) fragments of type II cAMP-dependent protein kinase were compared with the parent dimeric R. The monomeric fragments were generated by either endogenous proteolysis of rabbit muscle R or by trypsin treatment of bovine heart R in the holoenzyme form. During isolation of pure R from rabbit muscle, carboxyl-terminal fragments of Mr = 42,000 (42 K) and Mr = 37,000 by denaturing gels are generated by endogenous proteolysis. Although the autophosphorylation site is retained, the 42 K is not dimeric (as is its native 56 K precursor) but, in contrast to the monomeric 37 K product, actively reassociates with purified catalytic subunit (C). Several lines of evidence indicate a type II R origin of the 42 K. N-terminal sequence analysis of the 42 K shows some homology with known bovine RI, RII, and cGMP-dependent protein kinase sequences. Both cyclic nucleotide-binding sites (two/42 K or 37 K) and the site selectivity of cAMP analogs are retained in the monomeric fragments. When purified bovine heart holoenzyme, which contains a dimeric Mr = 56,000 R (denaturing gel analysis) and two C subunits, is treated with trypsin followed by separation procedures, the product is a fully recovered active enzyme with an unaltered ratio of cAMP binding to catalytic activity. From Mr considerations, the product is a dimer containing one intact C and a proteolyzed R of Mr = 48,000 on denaturing gels. This dimeric enzyme is not significantly different from the parent tetramer in cAMP concentration dependence (Hill constant = 1.63), [3H]cAMP dissociation behavior (both intrasubunit cAMP-binding sites are present), stimulation of [3H]cIMP binding by site-selective cAMP analogs, and synergism between two analogs in kinase activation. The data indicate that 1) proteolytic cleavage of the native R dimer can cause monomerization without appreciably affecting the inhibition of C and 2) essentially all of the cAMP binding cooperativity is an intrasubunit interaction. 相似文献
9.
Maintenance of the cellobiose utilization genes of Escherichia coli in a cryptic state 总被引:6,自引:1,他引:5
The genes for cellobiose utilization are normally cryptic in Escherichia
coli. The cellobiose system was used as a model to understand the process
by which silent genes are maintained in microbial populations. Previously
reported was (1) the isolation of a mutant strain that expresses the
cellobiose-utilization (Cel) genes and (2) that expression of those genes
allows utilization of three beta- glucoside sugars: cellobiose, arbutin,
and salicin. The Cel gene cluster has now been cloned from that mutant
strain. In the course of locating the Cel genes within the cloned DNA
segment, it was discovered that inactivation of the Cel-encoded hydrolase
rendered the host strain sensitive to all three beta-glucosides as potent
inhibitors. This sensitivity arises from the accumulation of the
phosphorylated beta- glucosides. Because even the fully active genes
conferred some degree of beta-glucoside sensitivity, the effects of
cellobiose on a series of five Cel+ mutants of independent origin were
investigated. Although each of those strains utilizes cellobiose as a sole
carbon and energy source, cellobiose also acts as a potent inhibitor that
reduces the growth rate on glycerol 2.5-16.5-fold. On the other hand,
wild-type strains that cannot utilize cellobiose are not inhibited. The
observation that the same compound can serve either as a nutrient or as an
inhibitor suggests that, under most conditions in which cellobiose will be
present together with other resources, there is a strong selective
advantage to having the cryptic (Cel0) allele. In those environments in
which cellobiose is the sole, or the best, resource, mutants that express
the genes (Cel+) will have a strong selective advantage. It is suggested
that temporal alternation between these two conditions is a major factor in
the maintenance of these genes in E. coli populations. This alternation of
environments and fitnesses was predicted by the model for cryptic-gene
maintenance that was previously published.
相似文献
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