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891.
Nuria Suesa Maria Francisca Fernandez Marta Gutierrez Maria Jose Rufat Elisabet Rotllan Lidia Calvo David Mauleon Germano Carganico 《Chirality》1993,5(8):589-595
The pharmacological activity of rac-ketoprofen and its enantiomers was investigated in vitro using different cellular models. The effect of these compounds on arachidonic acid metabolism was assessed by measuring the inhibition of prostanoid generation under the action of several agonists. Thus, we have evaluated the inhibition of (1) thromboxane B2 synthesis in rabbit platelets and human polymorphonuclear leukocytes (PMNs), (2) prostaglandin E2 synthesis in three cultured cells, namely human umbilical vein endothelial cells (HUVEC), human keratinocytes, and mouse macrophage-like P388D1 cells. The IC50 values found for (+)-(S)-ketoprofen were in the range between 0.1 nM and 0.8 μM, being slightly lower in all models than those found for rac-ketoprofen (0.4 nM–3 μM). On the other hand, (?)-(R)-ketoprofen showed inhibition of cyclooxygenase only at concentrations two or three orders of magnitude higher than those required for the (+)-(S) enantiomer. These results, obtained with cell types of relevance for inflammatory processes and with compounds of high optical purity, demonstrate that the prostanoid biosynthesis inhibition caused by the drug rac-ketoprofen is exclusively due to its dextrorotatory enantiomer. © 1993 Wiley-Liss, Inc. 相似文献
892.
Binding of a Hoechst dye to d(CGCGATATCGCG) and its influence on the conformation of the DNA fragment 总被引:15,自引:0,他引:15
M A Carrondo M Coll J Aymami A H Wang G A van der Marel J H van Boom A Rich 《Biochemistry》1989,28(19):7849-7859
Hoechst dye 33258 is a planar drug molecule that binds to the minor groove of DNA, especially where there are a number of A.T base pairs. We have solved the structure of the Hoechst dye bound to the DNA dodecamer d(CGCGATATCGCG) at 2.3 A. This structure is compared to that of the same dodecamer with the minor-groove-binding drug netropsin bound to it, as well as to structures that have been solved for this Hoechst dye bound to a DNA dodecamer containing the central four base pairs with the sequence AATT. We find that the position of the Hoechst drug in this dodecamer is quite different from that found in the other dodecamer since it has an opposite orientation compared to the other two structures. The drug covers three of the four A.T base pairs and extends its piperazine ring to the first G.C base pair adjacent to the alternating AT segment. Furthermore, the drug binding has modified the structure of the DNA dodecamer. Other DNA dodecamers with alternating AT sequences show an alternation in the size of the helical twist between the ApT step (small twist) and the TpA step (large twist). In this structure the alternation is reversed with larger twists in the ApT steps than in the TpA step. In addition, there is a rotation of one of the thymine bases in the DNA dodecamer that is associated with hydrogen bonding to the Hoechst drug. This structure illustrates the considerable plasticity found in the DNA molecule when it binds to different planar molecules inserted into the minor groove. 相似文献
893.
Effects of 5-fluorouracil/guanine wobble base pairs in Z-DNA: molecular and crystal structure of d(CGCGFG). 总被引:1,自引:1,他引:0 下载免费PDF全文
The chemotherapeutic agent 5-fluorouracil is a DNA base analogue which is known to incorporate into DNA in vivo. We have solved the structure of the oligonucleotide d(CGCGFG), where F is 5-fluorouracil (5FU). The DNA hexamer crystallizes in the Z-DNA conformation at two pH values with the 5FU forming a wobble base pair with guanine in both crystal forms. No evidence of the enol or ionized form of 5FU is found under either condition. The crystals diffracted X-rays to a resolution of 1.5 A and their structures have been refined to R-factors of 20.0% and 17.2%, respectively, for the pH = 7.0 and pH = 9.0 forms. By comparing this structure to that of d(CGCGCG) and d(CGCGTG), we were able to demonstrate that the backbone conformation of d(CGCGFG) is similar to that of the archetypal Z-DNA. The two F-G wobble base pairs in the duplex are structurally similar to the T-G base pairs both with respect to the DNA helix itself and its interactions with solvent molecules. In both cases water molecules associated with the wobble base pairs bridge between the bases and stabilize the structure. The fluorine in the 5FU base is hydrophobic and is not hydrogen bonded to any solvent molecules. 相似文献
894.
895.
Structural Degradation in Mediterranean Sea Food Webs: Testing Ecological Hypotheses Using Stochastic and Mass-Balance Modelling 总被引:1,自引:0,他引:1
Human-mediated disturbances such as fishing, habitat modification, and pollution have resulted in significant shifts in species
composition and abundance in marine ecosystems which translate into degradation of food-web structure. Here, we used a comparative
ecological modelling approach and data from two food webs (North-Central Adriatic and South Catalan Sea) and two time periods
(mid-late 1970s and 1990s) in the Mediterranean Sea to evaluate how changes in species composition and biomass have affected
food-web properties and the extent of ecosystem degradation. We assembled species lists and ecological information for both
regions and time periods into stochastic structural and mass-balance food-web models, and compared the outcomes of 22 food-web
properties. Our results show strong similarities in structural food-web properties between the North-Central Adriatic and
South Catalan Seas indicating similar ecosystem structure and levels of ecological degradation between regions and time periods.
In contrast, a comparison with other published marine food webs (Caribbean, Benguela, and US continental shelf) suggested
that Mediterranean webs are in an advanced state of ecological degradation. This was reflected by lower trophic height, linkage
density, connectance, omnivory, species involved in looping, trophic chain length and fraction of biomass at higher trophic
levels, as well as higher generality and fraction of biomass at lower trophic levels. An analysis of robustness to simulated
species extinction revealed lower robustness to species removals in Mediterranean webs and corroborated their advanced state
of degradation. Importantly, the two modelling approaches used delivered comparable results suggesting that they both capture
fundamental information about how food webs are structured.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
896.
Chrisanthar R Knappskog S Løkkevik E Anker G Østenstad B Lundgren S Berge EO Risberg T Mjaaland I Maehle L Engebretsen LF Lillehaug JR Lønning PE 《PloS one》2008,3(8):e3062
Background
Chemoresistance is the main obstacle to cure in most malignant diseases. Anthracyclines are among the main drugs used for breast cancer therapy and in many other malignant conditions. Single parameter analysis or global gene expression profiles have failed to identify mechanisms causing in vivo resistance to anthracyclines. While we previously found TP53 mutations in the L2/L3 domains to be associated with drug resistance, some tumors harboring wild-type TP53 were also therapy resistant. The aim of this study was; 1) To explore alterations in the TP53 gene with respect to resistance to a regular dose epirubicin regimen (90 mg/m2 every 3 week) in patients with primary, locally advanced breast cancer; 2) Identify critical mechanisms activating p53 in response to DNA damage in breast cancer; 3) Evaluate in vitro function of Chk2 and p14 proteins corresponding to identified mutations in the CHEK2 and p14(ARF) genes; and 4) Explore potential CHEK2 or p14(ARF) germline mutations with respect to family cancer incidence.Methods and Findings
Snap-frozen biopsies from 109 patients collected prior to epirubicin (as preoperative therapy were investigated for TP53, CHEK2 and p14(ARF) mutations by sequencing the coding region and p14(ARF) promoter methylations. TP53 mutastions were associated with chemoresistance, defined as progressive disease on therapy (p = 0.0358; p = 0.0136 for mutations affecting p53 loop domains L2/L3). Germline CHEK2 mutations (n = 3) were associated with therapy resistance (p = 0.0226). Combined, mutations affecting either CHEK2 or TP53 strongly predicted therapy resistance (p = 0.0101; TP53 mutations restricted to the L2/L3 domains: p = 0.0032). Two patients progressing on therapy harbored the CHEK2 mutation, Arg95Ter, completely abrogating Chk2 protein dimerization and kinase activity. One patient (Epi132) revealed family cancer occurrence resembling families harboring CHEK2 mutations in general, the other patient (epi203) was non-conclusive. No mutation or promoter hypermethylation in p14(ARF) were detected.Conclusion
This study is the first reporting an association between CHEK2 mutations and therapy resistance in human cancers and to document mutations in two genes acting direct up/down-stream to each other to cause therapy failure, emphasizing the need to investigate functional cascades in future studies. 相似文献897.
898.
Schizosaccharomyces pombe Rho GTPases regulate actin cytoskeleton organization and cell integrity. We studied the fission yeast gene SPBC4F6.12 based on its ability to suppress the thermosensitivity of cdc42-1625 mutant strain. This gene, named pxl1(+), encodes a protein with three LIM domains that is similar to paxillin. Pxl1 does not interact with Cdc42 but it interacts with Rho1, and it negatively regulates this GTPase. Fission yeast Pxl1 forms a contractile ring in the cell division region and deletion of pxl1(+) causes a delay in cell-cell separation, suggesting that it has a function in cytokinesis. Pxl1 N-terminal region is required and sufficient for its localization to the medial ring, whereas the LIM domains are necessary for its function. Pxl1 localization requires actin polymerization and the actomyosin ring, but it is independent of the septation initiation network (SIN) function. Moreover, Pxl1 colocalizes and interacts with Myo2, and Cdc15, suggesting that it is part of the actomyosin ring. Here, we show that in cells lacking Pxl1, the myosin ring is not correctly assembled and that actomyosin ring contraction is delayed. Together, these data suggest that Pxl1 modulates Rho1 GTPase signaling and plays a role in the formation and contraction of the actomyosin ring during cytokinesis. 相似文献
899.
Structural insight into the function of myelin basic protein as a ligand for integrin alpha M beta 2
Stapulionis R Oliveira CL Gjelstrup MC Pedersen JS Hokland ME Hoffmann SV Poulsen K Jacobsen C Vorup-Jensen T 《Journal of immunology (Baltimore, Md. : 1950)》2008,180(6):3946-3956
Multiple sclerosis (MS) is an inflammatory disease where phagocytic cells infiltrate the nerve tissue and act as terminal agents in destruction of the myelin sheath. However, the mechanism that triggers the ability of these cells to recognize myelin remains obscure. We show that myelin basic protein (MBP), a major autoantigen in MS, is a potent and specific ligand for the integrin alpha(M)beta(2) (Mac-1, CD11b/CD18) expressed mainly on phagocytic cells. MBP undergoes a dramatic conformational change when liberated from the lipid-rich environment of the myelin sheath. The MS drug glatiramer acetate mimics the conformationally labile regions of MBP, interacts in the unfolded state strongly with alpha(M)beta(2), and inhibits the MBP binding to alpha(M)beta(2). Our study reveals a link between MBP, glatiramer acetate, and the alpha(M)beta(2) integrin, and suggests a new model for MS pathogenesis based on the recognition of unfolded MBP by the alpha(M)beta(2) integrin. 相似文献
900.
Sylvain Delagrange Catherine Potvin Christian Messier Lluis Coll 《Trees - Structure and Function》2008,22(3):337-349
To improve establishment yield and carbon accumulation during reforestation, analyses of species adaptations to local environments
are needed. Here we measured, at the individual scale, links between biomass accumulation and multiple-level tree traits:
biomass partitioning, crown morphology and leaf physiology. The study was carried out on one- and three-year-old individuals
of five tropical tree species assigned to pioneer (P) or non-pioneer (NP) functional groups. Among the species, Cedrela odorata, Luehea seemannii and Hura crepitans showed the greatest biomass accumulation. On our seasonally dry site, species performance during the first year was dependent
on a greater investment in above-ground foraging, while performance after three years was mainly related to water relations.
However, large biomass accumulations were not simply associated with an efficient water use but also with contrasting water
uses, based on inter-specific relationships. Generally, greater carbon isotope discrimination (Δleaf) was related to greater allocation to roots. Species with high Δleaf generally showed high leaf potential nitrogen use efficiency (PNUE), suggesting that lower water use efficiency (WUE) increases
the efficiency of photosynthetically active N. Also, PNUE was negatively correlated to leaf mass per area (LMA), implying
that photosynthetically active N is diluted as total leaf mass increases. Finally, no distinction in measured traits, including
biomass accumulation, was observed between the two functional groups. 相似文献