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131.
132.
CA Lei- CHEN Run-Zheng- YIN Zhi-Jian- ZHANG Guo-Xue- CHEN Wen-Hong- SHUI Yu-Min 《Plant Diversity》2015,37(6):733-736
A new species of Gesneriaceae from Honghe County, Southeastern Yunnan, China, Tremacron hongheense WH. Chen & YM. Shui, is described and illustrated. The new species is similar to Tremacron forrestii Craib, but differs by its leaf blade adaxially sparsely long setose (vs. densely white appressed pubescent and sparsely rusty brown villous), corolla tube outside short white glandular (vs. nearly glabrous), corolla lobes red and thickening at apex, especially adaxial lip (vs. yellow and not thickening), stamens 16-18cm long (vs. 04-12cm long), staminode 05-14cm long (vs. 02-04cm long). 相似文献
133.
Grasslands are one of the most widespread landscapes worldwide, covering approximately one-fifth of the world’s land surface, where grazing is a common practice. How carbon storage responds to grazing in steppes remains poorly understood. We quantified the effects of grazing on community composition and species diversity, and carbon storage in two typical grasslands of northeastern China, one in Horqin and the other one in Hulunbeier. In both grasslands, grazing did not influence plant species diversity. However, it substantially decreased aboveground carbon by 31% and 54% in Horqin and Hulunbeier, respectively. Fenced and grazing treatments showed a similar belowground carbon at both locations. The predominant carbon pool in the study grassland ecosystem was found in the upper 100 cm soil depth, from 98.2 to 99.1% of the total carbon storage. There were no significant effects of grazing on soil carbon neither in the whole profile nor in the uppermost 20 cm soil depth in the two study grasslands. Studies on the effects of varying rangeland management, such as region disparity and grazing systems, may have important consequences on species diversity and carbon partitioning, and thus on rangeland stability and ecosystem functioning. 相似文献
134.
135.
Carbon monoxide, reactive oxygen signaling, and oxidative stress 总被引:2,自引:0,他引:2
Piantadosi CA 《Free radical biology & medicine》2008,45(5):562-569
136.
Craig J Smith Hedley CA Emsley Carole M Gavin Rachel F Georgiou Andy Vail Elisa M Barberan Gregory J del Zoppo John M Hallenbeck Nancy J Rothwell Stephen J Hopkins Pippa J Tyrrell 《BMC neurology》2004,4(1):1-8
Background
Cerebral ischaemia initiates an inflammatory response in the brain and periphery. We assessed the relationship between peak values of plasma interleukin-6 (IL-6) in the first week after ischaemic stroke, with measures of stroke severity and outcome.Methods
Thirty-seven patients with ischaemic stroke were prospectively recruited. Plasma IL-6, and other markers of peripheral inflammation, were measured at pre-determined timepoints in the first week after stroke onset. Primary analyses were the association between peak plasma IL-6 concentration with both modified Rankin score (mRS) at 3 months and computed tomography (CT) brain infarct volume.Results
Peak plasma IL-6 concentration correlated significantly (p < 0.001) with CT brain infarct volume (r = 0.75) and mRS at 3 months (r = 0.72). It correlated similarly with clinical outcome at 12 months or stroke severity. Strong associations were also noted between either peak plasma C-reactive protein (CRP) concentration or white blood cell (WBC) count, and all outcome measures.Conclusions
These data provide evidence that the magnitude of the peripheral inflammatory response is related to the severity of acute ischaemic stroke, and clinical outcome. 相似文献137.
Huang YT Ghio AJ Nozik-Grayck E Piantadosi CA 《American journal of physiology. Lung cellular and molecular physiology》2001,280(3):L474-L481
In this study, we hypothesized that the lung actively releases excess iron into the circulation to regulate iron homeostasis. We measured nonheme iron (NHFe) in the perfusate of control isolated perfused rabbit lungs and lungs with ischemia-reperfusion (I/R) ventilated with normoxic (21% O(2)) or hypoxic (95% N(2)) gas mixtures. Some were perfused with bicarbonate-free (HEPES) buffer or treated with the anion exchange inhibitor DIDS. The control lungs released approximately 0.25 microg/ml of NHFe or 20% of the total lung NHFe into the vascular space that was not complexed with ferritin, transferrin, or lactoferrin or bleomycin reactive. The I/R lungs released a similar amount of NHFe during ischemia and some bleomycin-detectable iron during reperfusion. NHFe release was attenuated by approximately 50% in both control and ischemic lungs by hypoxia and by >90% in control lungs and approximately 60% in ischemic lungs by DIDS and HEPES. Reperfusion injury was not affected by DIDS or HEPES but was attenuated by hypoxia. These results indicate that biologically nonreactive nonheme iron is released rapidly by the lung into the vascular space via mechanisms that are linked to bicarbonate exchange. During prolonged ischemia, redox-active iron is also released into the vascular compartment by other mechanisms and may contribute to lung injury. 相似文献
138.
Ghio AJ Wang X Silbajoris R Garrick MD Piantadosi CA Yang F 《American journal of physiology. Lung cellular and molecular physiology》2003,284(6):L938-L944
Despite a lack of transferrin, hypotransferrinemic (Hp) mice demonstrate an accumulation of iron in peripheral organs including the lungs. One potential candidate for such transferrin-independent uptake of iron is divalent metal transporter-1 (DMT1), an established iron transporter. We tested the hypothesis that increased concentrations of iron in the lungs of Hp mice are associated with elevations in DMT1 expression. With the use of inductively coupled plasma emission spectroscopy, measurements of nonheme iron confirmed significantly elevated concentrations in the lung tissue of Hp mice relative to the wild-type mice. Western blot analyses for the expression of two isoforms of DMT1 in the Hp mice relative to the wild-type animals demonstrated an elevation for the isoform that lacks an iron-responsive element (IRE) with significant decrements in the expression of +IRE DMT1. With the use of immunohistochemistry, -IRE DMT1 was localized to both airway epithelial cells and alveolar macrophages in wild-type mice. Staining appeared increased in both types of cells in the Hp mice. Elevated concentrations of both tissue nonheme iron and expression of -IRE DMT1 in the Hp mice were associated with increased quantities of -IRE mRNA. There was no difference between wild-type and homozygotic Hp mice in the amount of mRNA for DMT1 +IRE. We conclude that differences between Hp and wild-type mice in nonheme iron concentrations were accompanied by increases in the expression of -IRE DMT1. Increased expression of -IRE DMT1 in the lungs of the Hp mice could be responsible for elevated concentrations of the metal in these tissues. 相似文献
139.
Nozik-Grayck E Huang YC Carraway MS Piantadosi CA 《American journal of physiology. Heart and circulatory physiology》2003,285(6):H2327-H2335
Pulmonary vasoconstriction is influenced by inactivation of nitric oxide (NO) with extracellular superoxide (O2-*). Because the short-lived O2-* anion cannot diffuse across plasma membranes, its release from vascular cells requires specialized mechanisms that have not been well delineated in the pulmonary circulation. We have shown that the bicarbonate (HCO3-)-chloride anion exchange protein (AE2) expressed in the lung also exchanges O2-* for HCO3-. Thus we determined whether O2-* release involved in pulmonary vascular tone depends on extracellular HCO3-. We assessed endothelium-dependent vascular reactivity and O2-* release in the presence or absence of HCO3- in pulmonary artery (PA) rings isolated from normal rats and those exposed to hypoxia for 3 days. Lack of extracellular HCO3- in normal PA rings significantly attenuated endothelial O2-* release, opposed hypoxic vasoconstriction, and enhanced acetylcholine-mediated vasodilation. Release of O2-* was also inhibited by an AE2 inhibitor (SITS) and abolished in normoxia by an NO synthase inhibitor (NG-nitro-L-arginine methyl ester). In contrast, hypoxia increased PA AE2 protein expression and O2-* release; the latter was not affected by NG-nitro-l-arginine methyl ester or other inhibitors of enzymatic O2-* generation. Enhanced O2-* release by uncoupling NO synthase with geldanamycin was attenuated by hypoxia or by HCO3- elimination. These results indicate that O2-* produced by endothelial NOS in normoxia and unidentified sources in hypoxia regulate pulmonary vascular tone via AE2. 相似文献
140.
Cronje FJ Carraway MS Freiberger JJ Suliman HB Piantadosi CA 《Free radical biology & medicine》2004,37(11):1802-1812
The biochemical paradigm for carbon monoxide (CO) is driven by the century-old Warburg hypothesis: CO alters O(2)-dependent functions by binding heme proteins in competitive relation to 1/oxygen partial pressure (PO(2)). High PO(2) thus hastens CO elimination and toxicity resolution, but with more O(2), CO-exposed tissues paradoxically experience less oxidative stress. To help resolve this paradox we tested the Warburg hypothesis using a highly sensitive gas-reduction method to track CO uptake and elimination in brain, heart, and skeletal muscle in situ during and after exogenous CO administration. We found that CO administration does increase tissue CO concentration, but not in strict relation to 1/PO(2). Tissue gas uptake and elimination lag behind blood CO as predicted, but 1/PO(2) vs. [CO] fails even at hyperbaric PO(2). Mechanistically, we established in the brain that cytosol heme concentration increases 10-fold after CO exposure, which sustains intracellular CO content by providing substrate for heme oxygenase (HO) activated after hypoxia when O(2) is resupplied to cells rich in reduced pyridine nucleotides. We further demonstrate by analysis of CO production rates that this heme stress is not due to HO inhibition and that heme accumulation is facilitated by low brain PO(2). The latter becomes rate limiting for HO activity even at physiological PO(2), and the heme stress leads to doubling of brain HO-1 protein. We thus reveal novel biochemical actions of both CO and O(2) that must be accounted for when evaluating oxidative stress and biological signaling by these gases. 相似文献