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Query: UMLS:C0694563 (
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1,062
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Many cell lines respond to mitogenic stimuli (serum, growth factors) with rapid phosphorylation of the ribosomal protein S6 at several serine sites. We have tried to identify the protein kinase(s) mediating this effect of growth stimuli. Examining post-DEAE chromatography fractions of S49 kin- cell extracts, we could detect a highly active effector-independent S6 kinase with specificity for serine residues. The study was extended to the presumably homologous human enzyme, using HeLa S3 cells as model system. Activity yields increased up to sevenfold when exhausted HeLa cells were supplied with fresh medium plus serum. The enzyme uses
ATP
, not GTP, as cosubstrate, 40-S or 80-S (reassociated from subunits) ribosomal particles being substrate. The optimal K+ concentration, measured at 3 mM Mg2+, is 35 mM. Under optimized assay conditions S6 phosphorylation proceeded faster in vitro than it appeared to do in vivo. The apparent Mr of the enzyme, as estimated by gel filtration on Sephadex G-100, is 56,000 (determination in the presence of 200 mM KCl in 25 mM phosphate buffer). Tighter binding to DEAE-Sephacel and higher specificity for S6 distinguishes this enzyme from the following S6-phosphorylating protein kinases: protein kinase C, protease-activated kinase II, histone-4 phosphotransferase and an enzyme with the properties of casein kinase I. In published summaries of observations shown here and in a follow-up study with chick embryo fibroblasts, the enzyme(s) has been referred to as mitogen-responsive S6 kinase(s) [Martini, O. H. W. and Lawen, A. (1985) in Hormones and cell regulation (Dumont, J. E., Hamprecht, B. and Nunez, J.,
eds
) vol. 9, pp. 411-412, Elsevier Company, North-Holland, Amsterdam; Lawen, A. and Martini, O. H. W. (1985) FEBS Lett. 185, 272-276].
...
PMID:Mitogen-responsive S6 kinase. 254 4
Modifications of the cyclic AMP radioimmunoassay of Cailla et al. [in Hormones and Cell Regulation (J. Dumont and J. Nunez,
eds
.), Vol. 4, pp. 1-24, Elsevier/North-Holland, Amsterdam/New York (1980)] allowed its use in the determination of adenylate cyclase activity, which was otherwise precluded by high blank values. These high values originate mainly from chemically formed cyclic AMP and from
ATP
cross-reactivity. The simultaneous presence of
ATP
and magnesium ions generates cyclic AMP under the alkaline conditions used to succinylate the sample; this interference can be dealt with either by chelation of Mg2+ ions with EDTA during succinylation or by periodic acid oxidation of samples prior to succinylation. In addition,
ATP
itself contributes to blank values by its cross-reactivity, especially when working with high concentrations of this substrate. This interference can be decreased by a batch adsorption of
ATP
or oxidized
ATP
on alumina. Detailed procedures were discussed, with the choice of the additional steps to the standard method of Cailla et al. having to be made on the basis of the sensitivity requirements. When preventing
ATP
cyclization, the radioimmunoassay was as sensitive as methods using [alpha-32P]
ATP
as substrate. Elimination of
ATP
can improve the sensitivity by one order of magnitude. This method is especially interesting with high
ATP
concentrations and/or with low cyclic AMP production.
...
PMID:Radioimmunoassay of cyclic AMP can provide a highly sensitive assay for adenylate cyclase, even at very high ATP concentrations. 258 70
The kinetical characteristics of
ATP
hydrolysis by mitochondrial F1-ATPase from Saccharomyces cerevisiae (yeast) have been studied under conditions where only a single catalytic site per enzyme molecule bound
ATP
. Four major features were observed, that is, fast
ATP
binding to the enzyme, slow product release from the enzyme, an equilibrium close to unity between
ATP
and products on the enzyme, and promotion of
ATP
hydrolysis on the second addition of a large excess of
ATP
(cold chase). These are essentially the same as the kinetical characteristics observed for beef heart mitochondrial F1-ATPase, which were called as unisite catalysis by Grubmeyer et al. (Grubmeyer, C. et al. (1982) J. Biol. Chem. 257, 12092-12100), although the release of a hydrolysis product, Pi, from the yeast enzyme appeared to occur significantly faster than that from the beef enzyme, which resulted in a decreased extent of cold chase promotion of
ATP
hydrolysis of the yeast enzyme. The yeast F1-ATPase showed unisite catalysis even in the absence of Pi in the reaction mixtures, while it was reported for the beef F1-ATPase that the presence of Pi in the reaction mixture was essential for unisite catalysis (Penefsky, H.S. & Grubmeyer, C. (1984) in H+-ATPase (
ATP
Synthase) (Papa, S. et al.,
eds
.) pp. 195-204, The ICSU Press). Another difference in the Pi effect on the kinetics was that
ATP
hydrolysis was initiated without a lag time in the absence of Pi in the case of the yeast enzyme when a 1,000-fold molar excess of
ATP
per enzyme molecular was mixed with the enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Single site catalysis of the F1-ATPase from Saccharomyces cerevisiae and the effect of inorganic phosphate on it. 288 26
The coupling of Ca2+ movements and phosphate fluxes as well as the time-dependent occurrence of sequential reaction intermediates in the forward mode of the Ca,Mg-dependent ATPase reaction have been investigated using leaky vesicles (A23187) in the presence of varying Ca2+, Mg2+, and K+ concentrations. The employed
ATP
concentration of 2 microM does not allow more than one reaction cycle to occur. The respective fractions of ADP-sensitive and ADP-insensitive phosphoenzyme have been determined. The chosen experimental conditions (0-1 degree C, pH 6.0, absence of solubilizers) allow a prolonged time of observation and exclude interfering alterations of coupling and binding parameters, respectively. It is shown that under the experimental conditions K+ interacts with at least four different reaction steps (phosphoenzyme formation, E1P----E2P transition, E2P hydrolysis, and E2----E1 transformation). Mg2+ represents the sole ionic co-factor for the formation of the substrate MgATP if it is present in high concentrations (5 mM). Additional Ca2+ is bound to the substrate as well as to unspecific sites otherwise occupied by Mg2+ if Mg2+ is reduced to 0.1 mM. In this case the E1P----E2P transition rate (including Ca2+ translocation and Ca2+ release from low-affinity sites) is little diminished. If, in the absence of K+, both Mg2+ and Ca2+ are deficient E2P hydrolysis is vastly retarded. We find Ca2+ release to occur time-coincidently with E1P formation and not concomitantly with the comparably slow appearance of E2P; the molar amount of Ca2+ released, however, rather agreed with that of E2P formed. This suggests that under the prevailing conditions of a high proton concentration, phosphoenzyme states containing occluded Ca2+ or Ca2+ bound to low-affinity sites are transitional and not detectable. Preliminary findings on this subject have been published by us and colleagues from this laboratory [Hasselbach, W., Agostini, B., Medda, P., Migala, A. & Waas, W. (1985) in The sarcoplasmic reticulum calcium pump: Early and recent developments critically overviewed (Fleischer, S. & Tonomura, Y.,
eds
) pp. 19-49, Academic Press, Orlando].
...
PMID:The effect of monovalent and divalent cations on the ATP-dependent Ca2+-binding and phosphorylation during the reaction cycle of the sarcoplasmic reticulum Ca2+-transport ATPase. 295 19
The influence of DNase I binding to Ca-
ATP
-G-actin and of Ca2+/Mg2+ and
ATP
/ADP exchange on the conformation of G-actin were investigated by measuring the fluorescence of dansyl cadaverine (DC) conjugated to Gln41 in subdomain 2 of the protein. Fluorescence resonance energy transfer (FRET) between this probe and N-[4-(dimethylamino)-3,5-dinitrophenyl]maleimide (DDPM) attached to Cys374 in subdomain 1 was also measured. Contrary to an earlier report [dos Remedios, Kiessling and Hambly (1994) in Synchrotron Radiation in the Biosciences (Chance, B., Deisenhofer, J., Ebashi, S., Goodhead, D. T., Helliwell, J. R., Huxley, H. E., Iizuka, T., Kirz, J., Mitsui, T., Rubenstein, E. et al.,
eds
.), pp. 418-425, Oxford University Press, Oxford], the distance between these probes did not change significantly when DNase I was bound to actin. A small but reproducible increase in the quantum yield and a blue shift of the DC fluorescence maximum were observed when bound Ca2+ was replaced by Mg2+. A large increase (about 70%) in the quantum yield and an approx. 12 nm blue shift of the emission spectrum occurred when
ATP
in Mg-G-actin was replaced by ADP. These changes were not accompanied by any significant change in the FRET distance between the dansyl donor and DDPM acceptor probes. A substantial change in the fluorescence of DC-actin was observed after proteolytic removal of the last three residues of actin, in accordance with earlier evidence suggesting that there is a conformational coupling between subdomain 2 and the C-terminal segment in subdomain 1 of actin. The results are discussed in relation to recently published data obtained with another fluorescent probe and to earlier observations based on limited cleavage using proteolytic enzymes.
...
PMID:Structural changes in subdomain 2 of G-actin observed by fluorescence spectroscopy. 871 92
Glutamine synthetase (GS) is the key enzyme in ammonia assimilation and catalyzes the
ATP
-dependent condensation of NH3 with glutamate to produce glutamine. GS in plants is an octameric enzyme. Recent work from our laboratory suggests that GS activity in plants may be regulated at the level of protein turnover (S.J. Temple, T.J. Knight, P.J. Unkefer, C. Sengupta-Gopalan [1993] Mol Gen Genet 236: 315-325; S.J. Temple, S. Kunjibettu, D. Roche, C. Sengupta-Gopalan [1996] Plant Physiol 112: 1723-1733; S.J. Temple, C. Sengupta-Gopalan [1997] In C.H. Foyer, W.P. Quick,
eds
, A Molecular Approach to Primary Metabolism in Higher Plants. Taylor & Francis, London, pp 155-177). Oxidative modification of GS has been implicated as the first step in the turnover of GS in bacteria. By incubating soybean (Glycine max) root extract enriched in GS in a metal-catalyzed oxidation system to produce the.OH radical, we have shown that GS is oxidized and that oxidized GS is inactive and more susceptible to degradation than nonoxidized GS. Histidine and cysteine protect GS from metal-catalyzed inactivation, indicating that oxidation modifies the GS active site and that cysteine and histidine residues are the site of modification. Similarly,
ATP
and particularly
ATP
/glutamate give the enzyme the greatest protection against oxidative inactivation. The roots of plants fed ammonium nitrate showed a 3-fold increase in the level of GS polypeptides and activity compared with plants not fed ammonium nitrate but without a corresponding increase in the GS transcript level. This would suggest either translational or posttranslational control of GS levels.
...
PMID:Oxidative turnover of soybean root glutamine synthetase. In vitro and in vivo studies 1019 8
This historical review was compiled and edited by Giorgio Forti, whereas the other authors of the different sections are listed alphabetically after his name, below the title of the paper; they are also listed in the individual sections. This review deals with the research on photosynthesis performed in several Italian laboratories during the last 50 years; it includes research done, in collaboration, at several international laboratories, particularly USA, UK, Switzerland, Hungary, Germany, France, Finland, Denmark, and Austria. Wherever pertinent, references are provided, especially to other historical papers in Govindjee et al. [Govindjee, Beatty JT, Gest H, Allen JF (
eds
) (2005) Discoveries in Photosynthesis. Springer, Dordrecht]. This paper covers the physical and chemical events starting with the absorption of a quantum of light by a pigment molecule to the conversion of the radiation energy into the stable chemical forms of the reducing power and of
ATP
. It describes the work done on the structure, function and regulation of the photosynthetic apparatus in higher plants, unicellular algae and in photosynthetic bacteria. Phenomena such as photoinhibition and the protection from it are also included. Research in biophysics of photosynthesis in Padova (Italy) is discussed by G.M. Giacometti and G. Giacometti (2006).
...
PMID:Photosynthesis research in Italy: a review. 1675 26
