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991.
Klumpp S Bechmann G Mäurer A Selke D Krieglstein J 《Biochemical and biophysical research communications》2003,306(1):110-115
The first protein histidine phosphatase from vertebrates discovered recently was found in a variety of tissues, however, a physiological substrate protein was missing. Phosphorylation of liver extracts in the presence of EDTA, followed by SDS-PAGE and autoradiography showed labeling of three proteins. Acid- and alkaline-treatment revealed the existence of N-phosphates. Addition of histidine phosphatase exclusively resulted in dephosphorylation of a 110kDa protein (denaturing conditions). Gelfiltration revealed its native molecular mass of approximately 450kDa. That protein was purified and identified as ATP-citrate lyase. The results are in favor of histidine phosphatase playing an important yet unidentified role in metabolic processes. 相似文献
992.
Bunk R Klinth J Montelius L Nicholls IA Omling P Tågerud S Månsson A 《Biochemical and biophysical research communications》2003,301(3):783-788
We have here, for the first time, used nanofabrication techniques to reproduce aspects of the ordered actomyosin arrangement in a muscle cell. The adsorption of functional heavy meromyosin (HMM) to five different resist polymers was first assessed. One group of resists (MRL-6000.1XP and ZEP-520) consistently exhibited high quality motility of actin filaments after incubation with HMM. A second group (PMMA-200, PMMA-950, and MRI-9030) generally gave low quality of motility with only few smoothly moving filaments. Based on these findings electron beam lithography was applied to a bi-layer resist system with PMMA-950 on top of MRL-6000.1XP. Grooves (100-200nm wide) in the PMMA layer were created to expose the MRL-6000.1XP surface for adsorption of HMM and guidance of actin filament motility. This guidance was quite efficient allowing no U-turns of the filaments and approximately 20 times higher density of moving filaments in the grooves than on the surrounding PMMA. 相似文献
993.
Ylipahkala H Halleen JM Kaija H Vihko P Väänänen HK 《Biochemical and biophysical research communications》2003,308(2):320-324
Tartrate-resistant acid phosphatase (TRACP) is an enzyme with unknown biological function. In addition to its acid phosphatase activity, TRACP is capable of generating reactive oxygen species (ROS) at neutral pH. Two forms of TRACP circulate in human serum, macrophage-derived TRACP 5a and osteoclast-derived TRACP 5b. Here we have studied the circulating forms of the osteoclast-derived TRACP 5b in rat and human serum. In human serum, TRACP 5b circulates in a large complex that contained α2M and calcium. On the contrary, rat serum TRACP 5b circulates as a free molecule. Formation of the TRACP 5b complex in vitro decreased significantly the ROS generating activity of TRACP 5b without affecting its phosphatase activity. These results suggest that the complex formation may be necessary to eliminate the formation of the harmful ROS in the neutral pH of serum. 相似文献
994.
Ascorbate-mediated LHCII protein phosphorylation--LHCII kinase regulation in light and in darkness 总被引:1,自引:0,他引:1
A freeze-thaw cycle of isolated thylakoids in darkness in the presence of ascorbate was employed as a novel experimental system to activate the light-harvesting complex (LHC) II kinase. Under these conditions ascorbate reduces Q(A), the primary quinone electron acceptor of photosystem (PS) II, and the subsequent reduction of plastoquinone and the cytochrome (cyt) b(6)f complex results in the activation of the LHCII kinase. Using this activation system, several facets of regulation of LHCII protein phosphorylation were unravelled. (i) Myxothiazol inhibited the activation of LHCII protein phosphorylation, thus being a potent inhibitor of electron flow not only in cyt bc complexes but in darkness also in cyt b(6)f complexes. (ii) Oxygen, the only electron acceptor in darkness, was required for LHCII kinase activation demonstrating that after a full reduction of the cyt b(6)f complex, an additional plastoquinol oxidation cycle in the quinol oxidation (Qo) site is required for LHCII kinase activation. (iii) In the absence of electron flow, when the intersystem electron carriers are reduced, the activated LHCII kinase has a half-life of 40 min, whereas the fully activated LHCII kinase becomes deactivated in a time scale of seconds upon oxidation of the cyt b(6)f complex, indicating that the kinase constantly reads the redox poise of the cyt b(6)f complex. (iv) The LHCII kinase is more tightly bound to the thylakoid membrane than the PS II core protein kinase(s). It is concluded that oxidation of plastoquinol at the Qo site of the reduced cyt b(6)f complex is required for LHCII kinase activation, while rapid reoccupation of the Qo site with plastoquinol is crucial for sustenance of the active state of the LHCII kinase. 相似文献
995.
Flavin adenine dinucleotide (FAD) and three different flavoproteins in aqueous solution were subjected to redox-triggered Fourier transform infrared difference spectroscopy. The acquired vibrational spectra show a great number of positive and negative peaks, pertaining to the oxidized and reduced state of the molecule, respectively. Density functional theory calculations on the B3LYP/6-31G(d) level were employed to assign several of the observed bands to vibrational modes of the isoalloxazine moiety of the flavin cofactor in both its oxidized and, for the first time, its reduced state. Prominent modes measured for oxidized FAD include nu(C(4)=O) and nu(C(2)=O) at 1716 and 1674 cm(-1), respectively, nu(C(4a)=N(5)) at 1580 cm(-1), and nu(C(10a)=N(1)) at 1548 cm(-1). Measured modes of the reduced form of FAD include nu(C(2)=O) at 1692 cm(-1), nu(C(4)=O) at 1634 cm(-1), and nu(C(4a)=C(10a)) at 1600 cm(-1). While the overall shape of the enzyme spectra is similar to the shape of the spectrum of free FAD, there are numerous differences in detail. In particular, the nu(C=N) modes of the flavin exhibit frequency shifts in the protein-bound form, most prominently for pyruvate oxidase where nu(C(10a)=N(1)) downshifts by 14 cm(-1) to 1534 cm(-1). The significance of this shift and a possible explanation in connection with the bent conformation of the flavin cofactor in this enzyme are discussed. 相似文献
996.
Krumme D Budde H Hecht HJ Menge U Ohlenschläger O Ross A Wissing J Wray V Flohé L 《Biochemistry》2003,42(50):14720-14728
Tryparedoxins (TXNs) are trypanothione-dependent peroxiredoxin oxidoreductases involved in hydroperoxide detoxification that have been shown to determine virulence in trypanosomatids. The structure of (15)N,(13)C-doubly-labeled, C-terminally-His-tagged tryparedoxin 1 from Crithidia fasciculata (Cf TXN1) was elucidated by three-dimensional NMR spectroscopy. Global folding was found to be similar to the crystal structure, but regions near the active site, especially the onset of helix alpha1 with the redox-active Cys 43 and helix alpha2 relevant to substrate binding, were less well defined in solution. The redox-inactive inhibitory substrate analogue N(1),N(8)-bis(ophthalmyl)spermidine was used to study the substrate/TXN interaction by two-dimensional (1)H,(15)N NMR spectroscopy. The NMR data complemented by molecular modeling revealed several alternative modes of ligand binding. The results confirm and extend the concept of TXN action and specificity derived from X-ray analysis and site-directed mutagenesis and thus improve the rational basis for inhibitor design. 相似文献
997.
Using (1)H NMR spectroscopy, the base-pair opening dynamics of an antiparallel foldback DNA triplex and the corresponding duplex has been characterized via catalyzed imino proton exchange. The triplex system was found to be in an equilibrium between a duplex and a triplex form. The exchange rate between the two forms (i.e., the on/off-rate of the third strand) was measured to be 5 s(-1) at 1 degrees C, and the base-pair dynamics of both forms were investigated separately. Both Watson-Crick and reverse Hoogsteen base pairs were found to have base-pair lifetimes in the order of milliseconds. The stability of the Watson-Crick base pairs was, however, substantially increased in the presence of the third strand. In the DNA triplex, the opening dynamics of the reverse Hoogsteen base pairs was significantly faster than the dynamics of the Watson-Crick pairs. We were able to conclude that, for both Watson-Crick and reverse Hoogsteen base pairs, spontaneous and individual opening from within the closed base triplet is the dominating opening pathway. 相似文献
998.
Haumann M Porthun A Buhrke T Liebisch P Meyer-Klaucke W Friedrich B Dau H 《Biochemistry》2003,42(37):11004-11015
For the first time, the nickel site of the hydrogen sensor of Ralstonia eutropha, the regulatory [NiFe] hydrogenase (RH), was investigated by X-ray absorption spectroscopy (XAS) at the nickel K-edge. The oxidation state and the atomic structure of the Ni site were investigated in the RH in the absence (air-oxidized, RH(ox)) and presence of hydrogen (RH(+H2)). Incubation with hydrogen is found to cause remarkable changes in the spectroscopic properties. The Ni-C EPR signal, indicative of Ni(III), is detectable only in the RH(+H2) state. XANES and EXAFS spectra indicate a coordination of the Ni in the RH(ox) and RH(+H2) that pronouncedly differs from the one in standard [NiFe] hydrogenases. Also, the changes induced by exposure to H(2) are unique. A drastic modification in the XANES spectra and an upshift of the K-edge energy from 8339.8 (RH(ox)) to 8341.1 eV (RH(+H2)) is observed. The EXAFS spectra indicate a change in the Ni coordination in the RH upon exposure to H(2). One likely interpretation of the data is the detachment of one sulfur ligand in RH(+H2) and the binding of additional (O,N) or H ligands. The following Ni oxidation states and coordinations are proposed: five-coordinated Ni(II)(O,N)(2)S(3) for RH(ox) and six-coordinated Ni((III))(O,N)(3)X(1)S(2) [X being either an (O,N) or H ligand] for RH(+H2). Implications of the structural features of the Ni site of the RH in relation to its function, hydrogen sensing, are discussed. 相似文献
999.
1000.
Conventional kinesins are two-headed molecular motors that move as single molecules micrometer-long distances on microtubules by using energy derived from ATP hydrolysis. The presence of two heads is a prerequisite for this processive motility, but other interacting domains, like the neck and K-loop, influence the processivity and are implicated in allowing some single-headed kinesins to move processively. Neurospora kinesin (NKin) is a phylogenetically distant, dimeric kinesin from Neurospora crassa with high gliding speed and an unusual neck domain. We quantified the processivity of NKin and compared it to human kinesin, HKin, using gliding and fluorescence-based processivity assays. Our data show that NKin is a processive motor. Single NKin molecules translocated microtubules in gliding assays on average 2.14 micro m (N = 46). When we tracked single, fluorescently labeled NKin motors, they moved on average 1.75 micro m (N = 182) before detaching from the microtubule, whereas HKin motors moved shorter distances (0.83 micro m, N = 229) under identical conditions. NKin is therefore at least twice as processive as HKin. These studies, together with biochemical work, provide a basis for experiments to dissect the molecular mechanisms of processive movement. 相似文献