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161.
162.
163.
Yann Neuzillet Xavier Paoletti Slah Ouerhani Pierre Mongiat-Artus Hany Soliman Hugues de The Mathilde Sibony Yves Denoux Vincent Molinie Aurélie Herault May-Linda Lepage Pascale Maille Audrey Renou Dimitri Vordos Claude-Clément Abbou Ashraf Bakkar Bernard Asselain Nadia Kourda Amel El Gaaied Karen Leroy Agnès Laplanche Simone Benhamou Thierry Lebret Yves Allory Fran?ois Radvanyi 《PloS one》2012,7(12)
TP53 and FGFR3 mutations are the most common mutations in bladder cancers. FGFR3 mutations are most frequent in low-grade low-stage tumours, whereas TP53 mutations are most frequent in high-grade high-stage tumours. Several studies have reported FGFR3 and TP53 mutations to be mutually exclusive events, whereas others have reported them to be independent. We carried out a meta-analysis of published findings for FGFR3 and TP53 mutations in bladder cancer (535 tumours, 6 publications) and additional unpublished data for 382 tumours. TP53 and FGFR3 mutations were not independent events for all tumours considered together (OR = 0.25 [0.18–0.37], p = 0.0001) or for pT1 tumours alone (OR = 0.47 [0.28–0.79], p = 0.0009). However, if the analysis was restricted to pTa tumours or to muscle-invasive tumours alone, FGFR3 and TP53 mutations were independent events (OR = 0.56 [0.23–1.36] (p = 0.12) and OR = 0.99 [0.37–2.7] (p = 0.35), respectively). After stratification of the tumours by stage and grade, no dependence was detected in the five tumour groups considered (pTaG1 and pTaG2 together, pTaG3, pT1G2, pT1G3, pT2-4). These differences in findings can be attributed to the putative existence of two different pathways of tumour progression in bladder cancer: the CIS pathway, in which FGFR3 mutations are rare, and the Ta pathway, in which FGFR3 mutations are frequent. TP53 mutations occur at the earliest stage of the CIS pathway, whereas they occur would much later in the Ta pathway, at the T1G3 or muscle-invasive stage. 相似文献
164.
Johnson RJ West CE Swaih AM Folwell BD Smith BE Rowland SJ Whitby C 《Environmental microbiology》2012,14(4):872-882
Naphthenic acids (NAs) are complex mixtures of carboxylic acids found in weathered crude oils and oil sands, and are toxic, corrosive and persistent. However, little is known about the microorganisms and mechanisms involved in NA degradation. We isolated a sediment bacterium (designated strain IS2.3), with 100% 16S rRNA gene sequence identity to Mycobacterium aurum, which degraded synthetic NAs (4'-n-butylphenyl)-4-butanoic acid (n-BPBA) and (4'-t-butylphenyl)-4-butanoic acid (t-BPBA). n-BPBA was readily oxidized with almost complete degradation (96.8% ± 0.3) compared with t-BPBA (77.8% ± 3.7 degraded) by day 49. Cell counts increased fourfold by day 14 but decreased after day 14 for both n- and t-BPBA. At day 14, (4'-butylphenyl)ethanoic acid (BPEA) metabolites were detected. Additional metabolites produced during t-BPBA degradation were identified by mass spectrometry of derivatives as (4'-carboxy-t-butylphenyl)-4-butanoic acid and (4'-carboxy-t-butylphenyl)ethanoic acid; suggesting that strain IS2.3 used omega oxidation of t-BPEA to oxidize the tert-butyl side-chain to produce (4'-carboxy-t-butylphenyl)ethanoic acid, as the primary route for biodegradation. However, strain IS2.3 also produced this metabolite through initial omega oxidation of the tert-butyl side-chain of t-BPBA, followed by beta-oxidation of the alkanoic acid side-chain. In conclusion, an isolate belonging to the genus Mycobacterium degraded highly branched aromatic NAs via two different pathways. 相似文献
165.
Andreas Jürgens Amber Sciligo Taina Witt Ashraf M. El‐Sayed D. Max Suckling 《Biological reviews of the Cambridge Philosophical Society》2012,87(3):602-615
Most carnivorous plants utilize insects in two ways: the flowers attract insects as pollen vectors for sexual reproduction, and the leaves trap insects for nutrients. Feeding on insects has been explained as an adaptation to nutrient‐poor soil, and carnivorous plants have been shown to benefit from insect capture through increased growth, earlier flowering and increased seed production. Most carnivorous plant species seem to benefit from insect pollination, although many species autonomously self‐pollinate and some propagate vegetatively. However, assuming that outcross pollen is advantageous and is a more important determinant of reproductive success than the nutrients gained from prey, there should be a selective pressure on carnivorous plants not to feed on their potential pollen vectors. Therefore, it has been suggested that carnivorous plants are subject to a conflict, often called the pollinator‐prey conflict (PPC). The conflict results from a trade‐off of the benefits from feeding on potentially pollinating insects versus the need to use them as pollen vectors for sexual reproduction. In this review we analyze the conditions under which a PPC may occur, review the evidence for the existence of PPCs in carnivorous plants, and explore the mechanisms that may be in place to prevent or alleviate a PPC. With respect to the latter, we discuss how plant signals such as olfactory and visual cues may play a role in separating the functions of pollinator attraction and prey capture. 相似文献
166.
167.
In order to determine whether cell membrane permeability, activities of antioxidant enzymes such as superoxide dismutase (SOD), catalase (CAT) and peroxidase (POX) and K+ vs. Na+ selectivity could be used as effective selection criteria for salt tolerance in canola (Brassica napus L.) four lines, Dunkled, CON-III, Rainbow and Cyclone were subjected to non-saline (control) or saline (150 mM NaCl) conditions for 30 d in hydroponics. Cultivar Dunkled was the highest and cv. Cyclone the lowest, whereas both CON-III and Rainbow the intermediate in shoot and root masses. Relative membrane permeability (RMP) was recorded to be the lowest in salt-tolerant Dunkled, whereas the reverse was true in salt-sensitive Cyclone. RMP was found to be associated with the activities of antioxidant enzymes, SOD, CAT and POX determined in the present study, the activities of these enzymes being highest in cv. Dunkled and lowest in cv. Cyclone, whereas intermediate in the other two lines. Since the lines did not differ significantly for shoot K+/Na+ ratios and shoot K+ vs. Na+ selectivity, these traits did not prove to be good indicators of salt tolerance in the canola lines examined. Overall relative cell membrane permeability and activities of antioxidant enzymes (SOD, CAT and POX) proved to be very effective in discriminating the canola cultivars for salt tolerance. 相似文献
168.
Type A botulinum neurotoxin is one of the most lethal of the seven serotypes and is increasingly used as a therapeutic agent
in neuromuscular dysfunctions. Its toxic function is related to zinc-endopeptidase activity of the N-terminal light chain
(LC) on synaptosome-associated protein-25 kDa (SNAP-25) of the SNARE complex. To understand the determinants of substrate
specificity and assist the development of strategies for effective inhibitors, we used site-directed mutagenesis to investigate
the effects of 13 polar residues of the LC on substrate binding and catalysis. Selection of the residues for mutation was
based on a computational analysis of the three-dimensional structure of the LC modeled with a 17-residue substrate fragment
of SNAP-25. Steady-state kinetic parameters for proteolysis of the substrate fragment were determined for a set of 16 single
mutants. Of the mutated residues non-conserved among the serotypes, replacement of Arg-230 and Asp-369 by polar or apolar
residues resulted in drastic lowering of the catalytic rate constant (k
cat), but had less effect on substrate affinity (K
m). Substitution of Arg-230 with Lys decreased the catalytic efficiency (k
cat/K
m) by 50-fold, whereas replacement by Leu yielded an inactive protein. Removal of the electrostatic charge at Asp-369 by mutation
to Asn resulted in 140-fold decrease in k
cat/K
m. Replacement of other variable residues surrounding the catalytic cleft (Glu-54, Glu-63, Asn-66, Asp-130, Asn-161, Glu-163,
Glu-170, Glu-256), had only marginal effect on decreasing the catalytic efficiency, but unexpectedly the substitution of Lys-165
with Leu resulted in fourfold increase in k
cat/K
m. For comparison purposes, two conserved residues Arg-362 and Tyr-365 were investigated with substitutions of Leu and Phe,
respectively, and their catalytic efficiency decreased 140- and 10-fold, respectively, whereas substitution of the tyrosine
ring with Asn abolished activity. The altered catalytic efficiencies of the mutants were not due to any significant changes
in secondary or tertiary structures, or in zinc content and thermal stability. We suggest that, despite the large minimal
substrate size for catalysis, only a few non-conserved residues surrounding the active site are important to render the LC
competent for catalysis or provide conformational selection of the substrate. 相似文献
169.
Ashraf SM Berger I Nazarov AA Hartinger CG Koroteev MP Nifant'ev EE Keppler BK 《化学与生物多样性》2008,5(8):1640-1644
The synthesis of metal complexes with bioligands is one option to introduce chirally defined ligands to catalysts. Herein, the hydration of nitriles to the corresponding carboxamides by use of ruthenium(II) complexes is described, which were obtained by attaching derivatives of the 3,5,6-bicyclophosphite-alpha-D-glucofuranoside ligand. 相似文献
170.
Bioassay-guided fractionation of the acetone extract of the roots of Casearia membranacea furnished three new clerodane diterpenes, caseamembrins S-U (1-3) and the known caseamembrin Q (4). Their structures were established by extensive spectroscopic analyses, especially 2D-NMR. Compounds 1-4 were tested against human tumor cells, including HeLa (cervical epitheloid carcinoma), DLD-1 (colon carcinoma), Daoy (medulloblastoma), and KB (oral epidermoid carcinoma) cell lines. Caseamembrin T (2) exhibited the most potent activity against Daoy cells (ED(50)=10 ng/ml), superior to that of the standard drug mitomycin. 相似文献