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41.
Cytochrome bc(1), a key enzyme of biological energy conversion, generates or uses a proton motive force through the Q cycle that operates within the two chains of cofactors that embed two catalytic quinone oxidation/reduction sites, the Q(o) site and the Q(i) site. The Q(o) site relies on the joint action of two cofactors, the iron-sulfur (FeS) cluster and heme b(L). Side reactions of the Q cycle involve a generation of superoxide which is commonly thought to be a product of an oxidation of a highly unstable semiquinone formed in the Q(o) site (SQ(o)), but the overall mechanism of superoxide generation remains poorly understood. Here, we use selectively modified chains of cytochrome bc(1) to clearly isolate states linked with superoxide production. We show that this reaction takes place under severely impeded electron flow that traps heme b(L) in the reduced state and reflects a probability with which a single electron on SQ(o) is capable of reducing oxygen. SQ(o) gains this capability only when the FeS head domain, as a part of a catalytic cycle, transiently leaves the Q(o) site to communicate with the outermost cofactor, cytochrome c(1). This increases the distance between the FeS cluster and the remaining portion of the Q(o) site, reducing the likelihood that the FeS cluster participates in an immediate removal of SQ(o). In other states, the presence of both the FeS cluster and heme b(L) in the Q(o) site increases the probability of completion of short-circuit reactions which retain single electrons within the enzyme instead of releasing them on oxygen. We propose that in this way, cytochrome bc(1) under conditions of impeded electron flow employs the leak-proof short-circuits to minimize the unwanted single-electron reduction of oxygen. 相似文献
42.
Marek Orzechowski Xiaochuan? Li Stefan Fischer William Lehman 《Biophysical journal》2014,107(3):694-699
Tropomyosin regulates a wide variety of actin filament functions and is best known for the role that it plays together with troponin in controlling muscle activity. For effective performance on actin filaments, adjacent 42-nm-long tropomyosin molecules are joined together by a 9- to 10-residue head-to-tail overlapping domain to form a continuous cable that wraps around the F-actin helix. Yet, despite the apparent simplicity of tropomyosin’s coiled-coil structure and its well-known periodic association with successive actin subunits along F-actin, the structure of the tropomyosin cable on actin is uncertain. This is because the conformation of the overlap region that joins neighboring molecules is poorly understood, thus leaving a significant gap in our understanding of thin-filament structure and regulation. However, recent molecular-dynamics simulations of overlap segments defined their overall shape and provided unique and sufficient cues to model the whole actin-tropomyosin filament assembly in atomic detail. In this study, we show that these MD structures merge seamlessly onto the ends of tropomyosin coiled-coils. Adjacent tropomyosin molecules can then be joined together to provide a comprehensive model of the tropomyosin cable running continuously on F-actin. The resulting complete model presented here describes for the first time (to our knowledge) an atomic-level structure of αα-striated muscle tropomyosin bound to an actin filament that includes the critical overlap domain. Thus, the model provides a structural correlate to evaluate thin-filament mechanics, self-assembly mechanisms, and the effect of disease-causing mutations. 相似文献
43.
Zimowska W Motyl T Skierski J Balasinska B Ploszaj T Orzechowski A Filipecki M 《Apoptosis : an international journal on programmed cell death》1997,2(6):529-539
The aim of this study was to explore the dose- and time-dependent effects of hydrophilic peroxyl radical initiator 2,2'azobis(2amidinopropane)dihydrochloride
(AAPH) on apoptosis, and on expression of Bcl-2 in L1210 leukaemic cells. We observed a progressive increase of intracellular
concentration of oxygen free radicals (OFR), manifested by the rise of 6-carboxy-2', 7'-dichlorodihydrofluorescein diacetate,
di(acetoxymethyl ester) oxidation, during 24 h of cells exposure to AAPH. Oxidative stress was associated with peroxidation
of cellular lipids, which was demonstrated by the measurement of thiobarbituric acid-reactive substances and conjugated dienes.
Analysis of cell viability by the use of trypan blue exclusion method revealed that AAPH reduced the ability of L1210 cells
to multiply or survive. AAPH increased the number of leukaemic cells with typical features of apoptosis like condensation
of chromatin, pyknosis and fragmentation of nucleus, followed by secondary necrosis. A characteristic internucleosomal DNA
cleavage, visualized as a DNA ‘ladder’ consisting of fragments that are multiples of 180-200 bp was also observed. The intensity
of apoptosis was dependent on AAPH concentration, time of cell exposure and the availability of growth factors and nutrients
in extracellular environment (FCS concentration). The novel observation is the increase of Bcl-2 level in L1210 leukaemic
cells surviving an oxidative stress. The level of Bcl-2 protein significantly rose with increasing AAPH concentration, and
time of cell exposure to this oxidant. This phenomenon could be the result of: (1) negative selection of cells with the lowest
expression of bcl-2, being more susceptible to oxidative stress and (2) increased synthesis and/or decreased degradation of
Bcl-2 protein as an adaptation to continuous OFR loading. In contrast to growth-promoting medium (10% FCS/RPMI), the maintenance
medium (2% FCS/RPMI) did not cover cell requirements for progressive Bcl-2 increase at the highest AAPH concentration (2 mM)
applied in this study. Several observations indicate that the increased Bcl-2 level in surviving L1210 leukaemic cells exposed
to oxidative stress is a symptom of their natural defence against cellular lipids peroxidation and apoptosis.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
44.
Ingeborg M Kooter Jeroen L A Pennings Paul H B Fokkens Daan L A C Leseman A John F Boere Miriam E Gerlofs-Nijland Flemming R Cassee Johanna A C Schalk Tom J H Orzechowski Mirjam M Schaap Timo M Breit Jan A M A Dormans Conny T M van Oostrom Annemieke de Vries Harry van Steeg 《Journal of applied physiology》2007,102(3):1185-1192
45.
Genomic in situ hybridisation (GISH) was used to reveal chromosome pairing in two partly fertile, triploid (2n = 3x = 21) hybrids obtained by crossing the diploid (2n = 2x = 14) Festuca pratensis Huds. (designated FpFp), used as a female parent, with the autotetraploid (2n = 4x = 28) Lolium multiflorum Lam. (designated LmLmLmLm), used as a male parent. The pattern of chromosome pairing calculated on the basis of the mean values of chromosome configurations identified in all 100 PMCs analysed, was: 0.71I Lm + 2.24I Fp + 2.18II Lm/Lm + 0.54II Lm/Fp + 4.18III Lm/Lm/Fp. A relatively high number of Lm/Lm bivalents and Fp univalents, and a low number of Lm/Fp bivalents and Lm univalents indicated that the pairing was preferential between L. multiflorum chromosomes. Other observations regarding chromosome pairing within the Lm/Lm/Fp trivalents also confirmed this preferential pairing in the analysed triploids, as the Fp chromosome was not randomly located in the chain- and frying-pan-shaped trivalents. The similarities and differences in chromosome pairing at metaphase I and the level of preferential pairing between Lolium chromosomes in the different triploid Lolium-Festuca hybrids are discussed. 相似文献
46.
Metabolism of testosterone to various products (catalyzed by several different CYP isozymes) and the activities of phenol sulfotransferase (pST) and glutathione transferase (GST) in S9 fractions prepared from the mucosa of the duodenum, jejunum, ileum, caecum and upper and lower colon of male Sprague-Dawley rats were determined and compared to the corresponding hepatic and renal activities. Incubation of the S9 fraction prepared from the jejunum with testosterone and NADPH resulted in the formation of 2alpha-, 6alpha-, 6beta- and 16alpha-hydroxytestosterone and androstenedione at rates that were 1.6, 24, 1.3, 0.6 and 1.3%, respectively, of the corresponding hepatic values. The production of 2alpha-hydroxytestosterone was catalyzed only by the preparations from the duodenum and jejunum; whereas 6alpha-, 6beta- and 16alpha-hydroxytestosterone and androstenedione were produced in all regions of the intestine. In the case of the rat kidney, the rates of formation of the different testosterone metabolites were between 0.6 and 35% of the corresponding liver activity. The activity of glutathione transferase was approximately 12-26% of the corresponding hepatic activity throughout the intestine. The highest activity of phenol sulfotransferase was observed in the lower colon (almost 6% of the liver activity) and the lowest activity in the duodenum (1%). The renal activities of GST and pST were 70 and 1%, respectively, of the corresponding liver values. In summary, the metabolism of testosterone and the activities of GST and pST in rat intestine are generally low to very low in comparison to the corresponding activities in rat liver. In most cases, these activities are present throughout the entire intestine and not restricted to a particular portion(s) of this organ. 相似文献
47.
Stephen K. Burley Helen M. Berman Wah Chiu Wei Dai Justin W. Flatt Brian P. Hudson Jason T. Kaelber Sagar D. Khare Arkadiusz W. Kulczyk Catherine L. Lawson Grigore D. Pintilie Andrej Sali Brinda Vallat John D. Westbrook Jasmine Y. Young Christine Zardecki 《Biophysical reviews》2022,14(6):1281
As a discipline, structural biology has been transformed by the three-dimensional electron microscopy (3DEM) “Resolution Revolution” made possible by convergence of robust cryo-preservation of vitrified biological materials, sample handling systems, and measurement stages operating a liquid nitrogen temperature, improvements in electron optics that preserve phase information at the atomic level, direct electron detectors (DEDs), high-speed computing with graphics processing units, and rapid advances in data acquisition and processing software. 3DEM structure information (atomic coordinates and related metadata) are archived in the open-access Protein Data Bank (PDB), which currently holds more than 11,000 3DEM structures of proteins and nucleic acids, and their complexes with one another and small-molecule ligands (~ 6% of the archive). Underlying experimental data (3DEM density maps and related metadata) are stored in the Electron Microscopy Data Bank (EMDB), which currently holds more than 21,000 3DEM density maps. After describing the history of the PDB and the Worldwide Protein Data Bank (wwPDB) partnership, which jointly manages both the PDB and EMDB archives, this review examines the origins of the resolution revolution and analyzes its impact on structural biology viewed through the lens of PDB holdings. Six areas of focus exemplifying the impact of 3DEM across the biosciences are discussed in detail (icosahedral viruses, ribosomes, integral membrane proteins, SARS-CoV-2 spike proteins, cryogenic electron tomography, and integrative structure determination combining 3DEM with complementary biophysical measurement techniques), followed by a review of 3DEM structure validation by the wwPDB that underscores the importance of community engagement. 相似文献
48.
Huidong Zhang Seung-Joo Lee Arkadiusz W. Kulczyk Bin Zhu Charles C. Richardson 《The Journal of biological chemistry》2012,287(41):34273-34287
Bacteriophage T7 expresses two forms of gene 4 protein (gp4). The 63-kDa full-length gp4 contains both the helicase and primase domains. T7 phage also express a 56-kDa truncated gp4 lacking the zinc binding domain of the primase; the protein has helicase activity but no DNA-dependent primase activity. Although T7 phage grow better when both forms are present, the role of the 56-kDa gp4 is unknown. The two molecular weight forms oligomerize by virtue of the helicase domain to form heterohexamers. The 56-kDa gp4 and any mixture of 56- and 63-kDa gp4 show higher helicase activity in DNA unwinding and strand-displacement DNA synthesis than that observed for the 63-kDa gp4. However, single-molecule measurements show that heterohexamers have helicase activity similar to the 63-kDa gp4 hexamers. In oligomerization assays the 56-kDa gp4 and any mixture of the 56- and 63-kDa gp4 oligomerize to form more hexamers than does the 63-kDa gp4. The zinc binding domain of the 63-kDa gp4 interferes with hexamer formation, an inhibition that is relieved by the insertion of the 56-kDa species. Compared with the 63-kDa gp4, heterohexamers synthesize a reduced amount of oligoribonucleotides, mediated predominately by the 63-kDa subunits via a cis mode. During coordinated DNA synthesis 7% of the tetraribonucleotides synthesized are used as primers by both heterohexamers and hexamers of the 63-kDa gp4. Overall, an equimolar mixture of the two forms of gp4 shows the highest rate of DNA synthesis during coordinated DNA synthesis. 相似文献
49.
Yan Lou Francisco Lopez Yongying Jiang Xiaochun Han Chris Brotherton Roland Billedeau Steve Gabriel Shelly Gleason David M. Goldstein Ramona Hilgenkamp Buelent Kocer Lucja Orzechowski Jenny Tan Peter Wovkulich Bo Wen David Fry Paola Di Lello Lucy Chen Timothy D. Owens 《Bioorganic & medicinal chemistry letters》2017,27(3):632-635
Reactive metabolites have been putatively linked to many adverse drug reactions including idiosyncratic toxicities for a number of drugs with black box warnings or withdrawn from the market. Therefore, it is desirable to minimize the risk of reactive metabolite formation for lead molecules in optimization, in particular for non-life threatening chronic disease, to maximize benefit to risk ratio. This article describes our effort in addressing reactive metabolite issues for a series of 3-amino-2-pyridone inhibitors of BTK, e.g. compound 1 has a value of 459 pmol/mg protein in the microsomal covalent binding assay. Parallel approaches were taken to successfully resolve the issues: establishment of a predictive screening assay with correlation association of covalent binding assay, identification of the origin of reactive metabolite formation using MS/MS analysis of HLM as well as isolation and characterization of GSH adducts. This ultimately led to the discovery of compound 7 (RN941) with significantly reduced covalent binding of 26 pmol/mg protein. 相似文献
50.
Orzechowski Xavier M Pasqualotto AC Uchoa Sales Mda P Bittencourt Severo C Peixoto Camargo JJ Severo LC 《Revista iberoamericana de micología》2008,25(3):176-178
Invasive pulmonary aspergillosis is typically caused by a single Aspergillus species, most frequently Aspergillus fumigatus. Here we report that a lung transplant recipient developed invasive aspergillosis due to a mixed infection caused by Aspergillus flavus and A. fumigatus. The implications for this unusual finding are discussed. 相似文献