首页 | 本学科首页   官方微博 | 高级检索  
文章检索
  按 检索   检索词:      
出版年份:   被引次数:   他引次数: 提示:输入*表示无穷大
  收费全文   3389篇
  免费   335篇
  国内免费   1篇
  3725篇
  2023年   24篇
  2022年   70篇
  2021年   86篇
  2020年   52篇
  2019年   65篇
  2018年   61篇
  2017年   53篇
  2016年   93篇
  2015年   147篇
  2014年   162篇
  2013年   175篇
  2012年   222篇
  2011年   250篇
  2010年   123篇
  2009年   106篇
  2008年   171篇
  2007年   160篇
  2006年   134篇
  2005年   128篇
  2004年   93篇
  2003年   103篇
  2002年   108篇
  2001年   74篇
  2000年   69篇
  1999年   76篇
  1998年   29篇
  1997年   26篇
  1996年   27篇
  1995年   20篇
  1994年   25篇
  1992年   47篇
  1991年   35篇
  1990年   36篇
  1989年   37篇
  1988年   32篇
  1987年   26篇
  1986年   29篇
  1985年   39篇
  1984年   21篇
  1983年   30篇
  1982年   29篇
  1981年   20篇
  1980年   21篇
  1979年   26篇
  1978年   19篇
  1977年   21篇
  1973年   24篇
  1972年   24篇
  1970年   21篇
  1969年   18篇
排序方式: 共有3725条查询结果,搜索用时 15 毫秒
71.
AT1 receptor blockers and ACE inhibitors decrease the risk for new onset diabetes mellitus. The phenomenon could be related to a direct angiotensin II effect on tissue metabolism. To address the issue, we recruited eighteen obese hypertensive patients. Patients were randomized to double-blind treatment with either valsartan (n = 8) or atenolol (n = 10) for thirteen weeks. They underwent an oral glucose tolerance test before and during active treatment, while metabolism was monitored through subcutaneous and intramuscular microdialysis and indirect calorimetry. After glucose ingestion, venous glucose and insulin concentrations increased rapidly while systemic free fatty acid concentrations were suppressed. Dialysate glucose and lactate concentrations increased briskly in adipose tissue and in skeletal muscle. Dialysate glycerol decreased profoundly in both tissues. Respiratory quotient increased markedly after glucose ingestion. These responses were identical at baseline and during active treatment either drug. We conclude that AT1 receptor blockade in obese hypertensive patients has no effect on interstitial glucose supply, lipolysis, and substrate oxidation. One possible explanation is that angiotensin II levels in obese hypertensives are not sufficient to elicit the metabolic changes that have been observed after direct angiotensin II application. The exact mechanism by which inhibition of the renin-angiotensin-aldosterone system decreases the diabetes risk remains unresolved and requires further study.  相似文献   
72.
Summary M1 is a virulent bacteriophage of Methanobacterium thermoautotrophicum strain Marburg. Restriction enzyme analysis of the linear, 30.4 kb phage DNA led to a circular map of the 27.1 kb M1 genome. M1 is thus circularly permuted and exhibits terminal redundancy of approximately 3 kb. Packaging of M1 DNA from a concatemeric precursor initiates at the pac site which was identified at coordinate 4.6 kb on the circular genome map. It proceeds clockwise for at least five packaging rounds. Headful packaging was also shown for M2, a phage variant with a 0.7 kb deletion at coordinate 23.25 on the map.  相似文献   
73.
Retinal pigment epithelium has a crucial role in the physiology and pathophysiology of the retina due to its location and metabolism. Oxidative damage has been demonstrated as a pathogenic mechanism in several retinal diseases, and reactive oxygen species are certainly important by-products of ethanol (EtOH) metabolism. Autophagy has been shown to exert a protective effect in different cellular and animal models. Thus, in our model, EtOH treatment increases autophagy flux, in a concentration-dependent manner. Mitochondrial morphology seems to be clearly altered under EtOH exposure, leading to an apparent increase in mitochondrial fission. An increase in 2′,7′-dichlorofluorescein fluorescence and accumulation of lipid peroxidation products, such as 4-hydroxy-nonenal (4-HNE), among others were confirmed. The characterization of these structures confirmed their nature as aggresomes. Hence, autophagy seems to have a cytoprotective role in ARPE-19 cells under EtOH damage, by degrading fragmented mitochondria and 4-HNE aggresomes. Herein, we describe the central implication of autophagy in human retinal pigment epithelial cells upon oxidative stress induced by EtOH, with possible implications for other conditions and diseases.Retinal pigment epithelium (RPE) is a single neuroectodermal layer placed in the outermost part of the eye cup faced to photoreceptors.1, 2 Owing to its anatomical location and function, RPE is continuously exposed to potential cell damage caused by oxidative stress, specifically due to oxygen and nitrogen reactive species.3 This is probably one of the reasons why these cells are more resistant to oxidative stress.4 Oxidative stress is present as part of the pathophysiology in several retinal degenerations associated with blindness, for example, age-related macular degeneration,3 where RPE is considered a key factor for its development.5 Studies with the human-derived cell line ARPE-19 have proven to be very useful in the elucidation of the role of these cells in disease.Autophagy is a catabolic process aimed to degrade damaged organelles, proteins and cellular debris by engulfing them into a double membrane vesicle called the autophagosome and eliminating them by posterior fusion with the lysosome. Activation of macroautophagy, a form of autophagy, has been recently confirmed to be a primary response of ARPE-19 cells to stress.6 Furthermore, the two major functions of RPE, phagocytosis of the photoreceptor outer segments and visual cycle performance, have been linked to a noncanonical form of autophagy that is known as LC3 (microtubule-associated protein 1A/1B-light chain 3)-associated phagocytosis and is supposed to contribute to the normal supply of vitamin A and therefore to normal vision.7, 8Despite its negative effects on health, ethanol (EtOH) is consumed daily worldwide, standing as one of the top public health challenges. EtOH induces morphological and physiological changes in the nervous tissue, and most of these changes may be attributed to reactive oxygen species (ROS), as they can be normalized or prevented by antioxidant treatments.9, 10, 11, 12, 13 Autophagy has been identified as cytoprotector in nervous and liver cells under EtOH-induced toxicity,14, 15 where it seems to degrade damaged organelles, including mitochondria. Recent findings support the idea that there is an increased mitochondrial stress and dysfunction in the RPE cells in AMD patients.16, 17 Oxidative-damaged mitochondria, a main source of ROS, seem to be removed by autophagy (known as mitophagy), in order to guarantee cell survival.18 As a matter of fact, deregulation of mitophagy has been implicated in several neurodegenerative diseases, such as Parkinson''s disease (PD), Alzheimer''s disease (AD) and Huntington''s disease (HD).Peroxidation of polyunsaturated fatty acids is intensified in cells subjected to oxidative stress, and results in the generation of various bioactive compounds, among others 4-hydroxyalkenals (HAE). ROS-induced lipid peroxidation and the resulting HAE markedly contribute to the development and progression of different diseases.19 Specifically, 4-hydroxy-nonenal (4-HNE), a major α,β-unsaturated aldehyde product of n-6 fatty acid oxidation, has been shown to be involved in a great number of maladies.20 It has been reported that 4-HNE induces apoptosis in ARPE-19 cells21 and its ability to form protein adducts, thus it seems to be a key factor in aggresome formation. Aggresome is a term referred to cytoplasmic perinuclear inclusion bodies formed by aggregated proteins.22 Indeed, the presence of aggresomes is a pathological hallmark of most neurodegenerative diseases, and 4-HNE seems to be involved in their formation in AD,23 PD,24 HD25 and amyotrophic lateral sclerosis.26 These aggresomes depend on the protein type to be cleared,27, 28 and their degradation by autophagy, known as aggrephagy, has been proposed to increase cell viability in neurodegeneration models.29 Interestingly, 4-HNE aggregates have been also found in hepatic cells from alcoholic patients.30, 31, 32 Recent data provide no clear cut evidence of a link between PD risk and alcohol consumption with both positive33 and negative34 results.In this study, we report the cellular effects of EtOH on ARPE-19 cells and determine that EtOH exposure induces the formation of 4-HNE-aggresomes, together with other neurodegenerative hallmarks such as mitochondrial damage and autophagy activation. Considering the central role of RPE in retinal physiology and pathophysiology, and its neural origin, these findings render new insights into the mechanism of neurodegeneration caused by alcohol toxicity in retinal cells, and may contribute to the development of therapeutic strategies in several nervous and retinal diseases.  相似文献   
74.
Genome integrity is jeopardized each time DNA replication forks stall or collapse. Here we report the identification of a complex composed of MMS22L (C6ORF167) and TONSL (NFKBIL2) that participates in the recovery from replication stress. MMS22L and TONSL are homologous to yeast Mms22 and plant Tonsoku/Brushy1, respectively. MMS22L-TONSL accumulates at regions of ssDNA associated with distressed replication forks or at processed DNA breaks, and its depletion results in high levels of endogenous DNA double-strand breaks caused by an inability to complete DNA synthesis after replication fork collapse. Moreover, cells depleted of MMS22L are highly sensitive to camptothecin,?a topoisomerase I poison that impairs DNA replication progression. Finally, MMS22L and TONSL are necessary for the efficient formation of RAD51 foci after DNA damage, and their depletion impairs homologous recombination. These results indicate that MMS22L and TONSL are genome caretakers that stimulate the recombination-dependent repair of stalled or collapsed replication forks.  相似文献   
75.
Many tropical plant species show wide intra-population variation in reproductive timing, resulting in the protracted presence of flowering and fruiting individuals. Various eco-evolutionary drivers have been proposed as ultimate causes for asynchronous phenology, yet little is known about the proximate factors that control reproductive onset among individuals or that influence the proportion of trees producing new inflorescences within a population. We employed a nine-year phenological record from 178 individuals of the hyperdominant, asynchronously flowering canopy palm, Oenocarpus bataua (Arecaceae)¸ to assess whether resource-related variables influence individual- and population-level flowering phenology. Among individuals, access to sunlight increased rates of inflorescence production, while the presence of resource sinks related to current investment in reproduction—developing infructescences—reduced the probability of producing new inflorescences. At the population level, climate anomalies induced by El Niño Southern Oscillation (ENSO) affected the proportion of the population producing inflorescences through time. Moreover, the effects of ENSO anomalies on flowering patterns depended on the prevalence of developing infructescences in the population, with stronger effects in periods of low developing-infructescence frequency. Taken together, these results suggest that resource-related variables can drive phenological differences among individuals and mediate population-level responses to larger-scale variables, such as climate anomalies. Consequently, a greater focus on the role of resource levels as endogenous cues for reproduction might help explain the frequent aseasonal phenological patterns observed among tropical plants, particularly those showing high intra-population asynchrony.  相似文献   
76.
Chlorogenic (5‐CQA), 1,5‐, 3,5‐, 4,5‐ and 3,4‐dicaffeoylquinic (DCQA) acids were identified and quantified in the methanol extracts of Inula oculus‐christi L., I. bifrons L., I. aschersoniana Janka var. aschersoniana, I. ensifolia L., I. conyza (Griess .) DC. and I. germanica L. by HPLC analysis. The amount of 5‐CQA varied from 5.48 to 28.44 mg/g DE and the highest content was detected in I. ensifolia. 1,5‐DCQA (4.05–55.25 mg/g DE) was the most abundant dicaffeoyl ester of quinic acid followed by 3,5‐DCQA, 4,5‐DCQA and 3,4‐DCQA. The extract of I. ensifolia showed the highest total phenolic content (119.92±0.95 mg GAE/g DE) and exhibited the strongest DPPH radical scavenging activity (69.41±0.55 %). I. bifrons extract was found to be the most active sample against ABTS.+ (TEAC 0.257±0.012 mg/mL) and the best tyrosinase inhibitor. The studied extracts demonstrated a low inhibitory effect towards acetylcholinesterase and possessed low cytotoxicity in concentration range from 10 to 300 μg/mL toward non‐cancer (MDCK II) and cancer (A 549) cells.  相似文献   
77.
Microdialysis sampling of lipophilic molecules in human tissues is challenging because protein binding and adhesion to the membrane limit recovery. Hydroxypropyl-ß-cyclodextrin (HP-ß-CD) forms complexes with hydrophobic molecules thereby improving microdialysis recovery of lipophilic molecules in vitro and in rodents. We tested the approach in human subjects. First, we determined HP-ß-CD influences on metabolite stability, delivery, and recovery in vitro. Then, we evaluated HP-ß-CD as microdialysis perfusion fluid supplement in 20 healthy volunteers. We placed 20 kDa microdialysis catheters in subcutaneous abdominal adipose tissue and in the vastus lateralis muscle. We perfused catheters with lactate free Ringer solution with or without 10% HP-ß-CD at flow rates of 0.3–2.0 µl/min. We assessed tissue metabolites, ultrafiltration effects, and blood flow. In both tissues, metabolite concentrations with Ringer+HP-ß-CD perfusate were equal or higher compared to Ringer alone. Addition of HP-ß-CD increased dialysate volume by 10%. Adverse local or systemic reactions to HP-ß-CD did not occur and analytical methods were not disturbed. HP-ß-CD addition allowed to measure interstitial anandamide concentrations, a highly lipophilic endogenous molecule. Our findings suggest that HP-ß-CD is a suitable supplement in clinical microdialysis to enhance recovery of lipophilic molecules from human interstitial fluid.  相似文献   
78.
Upon stimulation by histamine, human vascular endothelial cells (EC) shed a soluble form of tumour necrosis factor receptor 1 (sTNFR1) that binds up free TNF, dampening the inflammatory response. Shedding occurs through proteolytic cleavage of plasma membrane-expressed TNFR1 catalysed by TNF-α converting enzyme (TACE). Surface expressed TNFR1 on EC is largely sequestered into specific plasma membrane microdomains, the lipid rafts/caveolae. The purpose of this study was to determine the role of these domains in TACE-mediated TNFR1 shedding in response to histamine. Human umbilical vein endothelial cells derived EA.hy926 cells respond to histamine via H1 receptors to shed TNFR1. Both depletion of cholesterol by methyl-β-cyclodextrin and small interfering RNA knockdown of the scaffolding protein caveolin-1 (cav-1), treatments that disrupt caveolae, reduce histamine-induced shedding of membrane-bound TNFR1. Moreover, immunoblotting of discontinuous sucrose gradient fractions show that TACE, such as TNFR1, is present within low-density membrane fractions, concentrated within caveolae, in unstimulated EA.hy926 endothelial cells and co-immunoprecipitates with cav-1. Silencing of cav-1 reduces the levels of both TACE and TNFR1 protein and displaces TACE, from low-density membrane fractions where TNFR1 remains. In summary, we show that endothelial lipid rafts/caveolae co-localize TACE to surface expressed TNFR1, promoting efficient shedding of sTNFR1 in response to histamine.  相似文献   
79.
We studied a sample of 75 Chinese, 73 Malay, and 29 Indian healthy neonates taking part in a cohort study to examine potential differences in neonatal brain morphology and white matter microstructure as a function of ethnicity using both structural T2-weighted magnetic resonance imaging (MRI) and diffusion tensor imaging (DTI). We first examined the differences in global size and morphology of the brain among the three groups. We then constructed the T2-weighted MRI and DTI atlases and employed voxel-based analysis to investigate ethnic differences in morphological shape of the brain from the T2-weighted MRI, and white matter microstructure measured by fractional anisotropy derived from DTI. Compared with Malay neonates, the brains of Indian neonates’ tended to be more elongated in anterior and posterior axis relative to the superior-inferior axis of the brain even though the total brain volume was similar among the three groups. Although most anatomical regions of the brain were similar among Chinese, Malay, and Indian neonates, there were anatomical variations in the spinal-cerebellar and cortical-striatal-thalamic neural circuits among the three populations. The population-related brain regions highlighted in our study are key anatomical substrates associated with sensorimotor functions.  相似文献   
80.
System level effects exhibited by a population subjected to a chronic or an acute dose of toxicant are the emphasis of this study. A three dimensional model of a toxicant and a population, with state variables (the population biomass, the concentration of toxicant in an organism, and the concentration of toxicant in the environment) coupled by a linear dose-response function, is analyzed analytically. One of the main results presents sufficient conditions, in terms of a system level parameter, for the persistence, and for the extinction, of a population exposed to a chronic dose of toxicant. When depuration and degradation are negligible processes, the effects of toxicant accumulation associated with an acute exposure of a population are analyzed in some detail. Both persistence and extinction are shown to be viable behavior modes of a population in this biochemical setting.  相似文献   
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号