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1.
ATPase was purified from an alkalophilic Bacillus. The enzyme has a molecular weight of 410,000 and consists of five types of subunits of molecular weights of 60,000 (α), 58,000 (β), 34,000 (γ), 14,000 (δ), and 11,000 (?). The subunit structure is suggested to be α3β3γδ?. The enzyme is activated by Mg2+ and Ca2+. The pH optima of the enzyme with 0.1 and 2.0 mm Mg2+ are 9 and 6, and those with 1 and 10 mm Ca2+ are 8–9 and 7, respectively. Ca2+-ATPase hydrolyzes only ATP, whereas Mg2+-ATPase hydrolyzes GTP and, to a lesser extent, ATP. The values of V and Km of the enzyme with ATP in the presence of 10 mm Ca2+ or 0.6 mm Mg2+ at pH 7.2 are 17 or 0.5 units/mg protein and 1.2 or 0.3 mm, respectively. The enzyme with Mg2+ is appreciably activated by HCO?3. Relationship of the ATPase to the active transport system in the bacterium is suggested.  相似文献   
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Although interspecific competition has long been recognised as a major driver of trait divergence and adaptive evolution, relatively little effort has focused on how it influences the evolution of intraspecific cooperation. Here we identify the mechanism by which the perceived pressure of interspecific competition influences the transition from intraspecific conflict to cooperation in a facultative cooperatively breeding species, the Asian burying beetle Nicrophorus nepalensis. We not only found that beetles are more cooperative at carcasses when blowfly maggots have begun to digest the tissue, but that this social cooperation appears to be triggered by a single chemical cue – dimethyl disulfide (DMDS) – emitted from carcasses consumed by blowflies, but not from control carcasses lacking blowflies. Our results provide experimental evidence that interspecific competition promotes the transition from intraspecific conflict to cooperation in N. nepalensis via a surprisingly simple social chemical cue that is a reliable indicator of resource competition between species.  相似文献   
3.
The bone marrow stroma constitutes the marrow‐blood barrier, which sustains immunochemical homoeostasis and protection of the haematopoietic tissue in sequelae of systemic bacterial infections. Under these conditions, the bone marrow stromal cells affected by circulating bacterial pathogens shall elicit the adaptive stress‐response mechanisms to maintain integrity of the barrier. The objective of this communication was to demonstrate (i) that in vitro challenge of mesenchymal stromal cells, i.e. colony‐forming unit fibroblasts (CFU‐F), with Staphylococcus epidermidis can activate the autophagy pathway to execute antibacterial defence response, and (ii) that homoeostatic shift because of the bacteria‐induced stress includes the mitochondrial remodelling and sequestration of compromised organelles via mitophagy. Implication of Drp1 and PINK1–PARK2‐dependent mechanisms in the mitophagy turnover of the aberrant mitochondria in mesenchymal stromal cells is investigated and discussed.  相似文献   
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K Koshiya 《Life sciences》1985,37(15):1373-1379
L-[3H]Glutamate binding sites were solubilized with a zwitterionic detergent 3-[(3-cholamidopropyl)-dimethylammonio]-1-propane-sulfonate (CHAPS) plus ammonium thiocyanate from guinea pig synaptosomal membranes. The binding of L-[3H]glutamate to the solubilized binding sites was saturable and reversible. Scatchard analysis suggested the existence of two different classes of binding sites with KDs of 63.8 and 644 nM. The L-[3H]glutamate binding was displaced by excitatory amino acids with such an order of potency that L-glutamate much greater than D-glutamate congruent to L-aspartate greater than D-aspartate. Quisqualate effectively displaced the glutamate binding in biphasic manner. L-Glutamic acid diethyl ester, the quisqualate receptor antagonist, also showed a moderate displacing ability. Other neuroactive amino acid analogues displaced the glutamate binding only weakly, except for L- and D-homocysteic acids which had moderate potency. It is very likely from these results that the glutamate binding sites solubilized in this study are relevant to the physiological glutamate receptors especially of quisqualate-type.  相似文献   
7.
The tautomeric pair of garcinielliptone FC (GFC) is a novel tautomeric pair of polyprenyl benzophenonoid isolated from the pericarps of Garcinia subelliptica Merr. (G. subelliptica, Clusiaceae), a tree with abundant sources of polyphenols. Our previous report demonstrated that GFC induced apoptosis on various types of human cancer cell lines including chemoresistant human colorectal cancer HT‐29 cells. In the present study, we observed that many autophagy‐related genes in GFC‐treated HT‐29 cells were up‐ and down‐regulated using a cDNA microarray containing oncogenes and kinase genes. GFC‐induced autophagy of HT‐29 cells was confirmed by observing the formation of acidic vesicular organelles, LC3 puncta, and double‐membrane autophagic vesicles using flow cytometry, confocal microscopy, and transmission electron microscopy, respectively. Inhibition of AKT/mTOR/P70S6K signaling as well as formation of Atg5‐Atg12 and PI3K/Beclin‐1 complexes were observed using Western blot. Administration of autophagy inhibitor (3‐methyladenine and shRNA Atg5) and apoptosis inhibitor Z‐VAD showed that the GFC‐induced autophagy was cytotoxic form and GFC‐induced apoptosis enhanced GFC‐induced autophagy. Our data suggest the involvement of autophagy and apoptosis in GFC‐induced anticancer mechanisms of human colorectal cancer.  相似文献   
8.
Ethyl and acetate esters are naturally produced in various yeasts, plants, and bacteria. The biosynthetic pathways that produce these esters share a common reaction step, the condensation of acetyl/acyl‐CoA with an alcohol by alcohol‐O‐acetyl/acyltransferase (AATase). Recent metabolic engineering efforts exploit AATase activity to produce fatty acid ethyl esters as potential diesel fuel replacements as well as short‐ and medium‐chain volatile esters as fragrance and flavor compounds. These efforts have been limited by the lack of a rapid screen to quantify ester biosynthesis. Enzyme engineering efforts have also been limited by the lack of a high throughput screen for AATase activity. Here, we developed a high throughput assay for AATase activity and used this assay to discover a high activity AATase from tomato fruit, Solanum lycopersicum (Atf‐S.l). Atf1‐S.l exhibited broad specificity towards acyl‐CoAs with chain length from C4 to C10 and was specific towards 1‐pentanol. The AATase screen also revealed new acyl‐CoA substrate specificities for Atf1, Atf2, Eht1, and Eeb1 from Saccharomyces cerevisiae, and Atf‐C.m from melon fruit, Cucumis melo, thus increasing the pool of characterized AATases that can be used in ester biosynthesis of ester‐based fragrance and flavor compounds as well as fatty acid ethyl ester biofuels.  相似文献   
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A novel benzoylphloroglucinol derivative, garcimultiflorone G ( 1 ), was isolated from the fruits of Garcinia multiflora. The structure of 1 was determined through extensive 1D‐ and 2D‐NMR, and MS analyses. Garcimultiflorone G ( 1 ) showed inhibitory effects against superoxide anion (O$\rm{{_{2}^{{^\cdot} -}}}$ ) generation and elastase release by human neutrophils in response to formyl‐L ‐methionyl‐L ‐leucyl‐L ‐phenylalanine/cytochalasin B (fMLP/CB), with IC50 values of 6.97±1.56 and 11.70±1.58 μM , respectively.  相似文献   
10.
Two new thymol (=5‐methyl‐2‐(1‐methylethyl)phenol) derivatives, 8,10‐didehydro‐9‐(3‐methylbutanoyl)thymol 3‐O‐tiglate ( 1 ) and 9‐O‐angeloyl‐8‐methoxythymol 3‐O‐isobutyrate ( 2 ), were isolated from the root of Eupatorium cannabinum ssp. asiaticum, together with six known compounds, 3 – 8 . The structures of 1 and 2 were determined through extensive 1D/2D‐NMR and MS analyses. Among the isolates, 9‐acetoxy‐8,10‐epoxythymol 3‐O‐tiglate ( 3 ) was the most cytotoxic, with IC50 values of 0.02±0.01, 1.02±0.07, and 1.36±0.12 μg/ml, respectively, against DLD‐1, CCRF‐CEM, and HL‐60 cell lines. In addition, 10‐acetoxy‐9‐O‐angeloyl‐8‐hydroxythymol ( 4 ) and eupatobenzofuran ( 6 ) exhibited cytotoxicities, with IC50 values of 1.14±0.16 and 2.63±0.22, and 7.63±0.94 and 2.31±0.14 μg/ml, respectively, against DLD‐1 and CCRF‐CEM cell lines.  相似文献   
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