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排序方式: 共有128条查询结果,搜索用时 15 毫秒
41.
Chapman HN Hau-Riege SP Bogan MJ Bajt S Barty A Boutet S Marchesini S Frank M Woods BW Benner WH London RA Rohner U Szöke A Spiller E Möller T Bostedt C Shapiro DA Kuhlmann M Treusch R Plönjes E Burmeister F Bergh M Caleman C Huldt G Seibert MM Hajdu J 《Nature》2007,448(7154):676-679
Extremely intense and ultrafast X-ray pulses from free-electron lasers offer unique opportunities to study fundamental aspects of complex transient phenomena in materials. Ultrafast time-resolved methods usually require highly synchronized pulses to initiate a transition and then probe it after a precisely defined time delay. In the X-ray regime, these methods are challenging because they require complex optical systems and diagnostics. Here we propose and apply a simple holographic measurement scheme, inspired by Newton's 'dusty mirror' experiment, to monitor the X-ray-induced explosion of microscopic objects. The sample is placed near an X-ray mirror; after the pulse traverses the sample, triggering the reaction, it is reflected back onto the sample by the mirror to probe this reaction. The delay is encoded in the resulting diffraction pattern to an accuracy of one femtosecond, and the structural change is holographically recorded with high resolution. We apply the technique to monitor the dynamics of polystyrene spheres in intense free-electron-laser pulses, and observe an explosion occurring well after the initial pulse. Our results support the notion that X-ray flash imaging can be used to achieve high resolution, beyond radiation damage limits for biological samples. With upcoming ultrafast X-ray sources we will be able to explore the three-dimensional dynamics of materials at the timescale of atomic motion. 相似文献
42.
Recent decline in the global land evapotranspiration trend due to limited moisture supply 总被引:31,自引:0,他引:31
Jung M Reichstein M Ciais P Seneviratne SI Sheffield J Goulden ML Bonan G Cescatti A Chen J de Jeu R Dolman AJ Eugster W Gerten D Gianelle D Gobron N Heinke J Kimball J Law BE Montagnani L Mu Q Mueller B Oleson K Papale D Richardson AD Roupsard O Running S Tomelleri E Viovy N Weber U Williams C Wood E Zaehle S Zhang K 《Nature》2010,467(7318):951-954
More than half of the solar energy absorbed by land surfaces is currently used to evaporate water. Climate change is expected to intensify the hydrological cycle and to alter evapotranspiration, with implications for ecosystem services and feedback to regional and global climate. Evapotranspiration changes may already be under way, but direct observational constraints are lacking at the global scale. Until such evidence is available, changes in the water cycle on land?a key diagnostic criterion of the effects of climate change and variability?remain uncertain. Here we provide a data-driven estimate of global land evapotranspiration from 1982 to 2008, compiled using a global monitoring network, meteorological and remote-sensing observations, and a machine-learning algorithm. In addition, we have assessed evapotranspiration variations over the same time period using an ensemble of process-based land-surface models. Our results suggest that global annual evapotranspiration increased on average by 7.1?±?1.0?millimetres per year per decade from 1982 to 1997. After that, coincident with the last major El Ni?o event in 1998, the global evapotranspiration increase seems to have ceased until 2008. This change was driven primarily by moisture limitation in the Southern Hemisphere, particularly Africa and Australia. In these regions, microwave satellite observations indicate that soil moisture decreased from 1998 to 2008. Hence, increasing soil-moisture limitations on evapotranspiration largely explain the recent decline of the global land-evapotranspiration trend. Whether the changing behaviour of evapotranspiration is representative of natural climate variability or reflects a more permanent reorganization of the land water cycle is a key question for earth system science. 相似文献
43.
Beukelaers P Vandenbosch R Caron N Nguyen L Moonen G Malgrange B 《Cellular and molecular life sciences : CMLS》2012,69(9):1493-1503
The adult brain most probably reaches its highest degree of plasticity with the lifelong generation and integration of new
neurons in the hippocampus and olfactory system. Neural precursor cells (NPCs) residing both in the subgranular zone of the
dentate gyrus and in the subventricular zone of the lateral ventricles continuously generate neurons that populate the dentate
gyrus and the olfactory bulb, respectively. The regulation of NPC proliferation in the adult brain has been widely investigated
in the past few years. Yet, the intrinsic cell cycle machinery underlying NPC proliferation remains largely unexplored. In
this review, we discuss the cell cycle components that are involved in the regulation of NPC proliferation in both neurogenic
areas of the adult brain. 相似文献
44.
Malgrange B Borgs L Grobarczyk B Purnelle A Ernst P Moonen G Nguyen L 《Cellular and molecular life sciences : CMLS》2011,68(4):635-649
Human pluripotent stem cells, including embryonic (hES) and induced pluripotent stem cells (hiPS), retain the ability to self-renew
indefinitely, while maintaining the capacity to differentiate into all cell types of the nervous system. While human pluripotent
cell-based therapies are unlikely to arise soon, these cells can currently be used as an inexhaustible source of committed
neurons to perform high-throughput screening and safety testing of new candidate drugs. Here, we describe critically the available
methods and molecular factors that are used to direct the differentiation of hES or hiPS into specific neurons. In addition,
we discuss how the availability of patient-specific hiPS offers a unique opportunity to model inheritable neurodegenerative
diseases and untangle their pathological mechanisms, or to validate drugs that would prevent the onset or the progression
of these neurological disorders. 相似文献
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49.
Bingel-Erlenmeyer R Kohler R Kramer G Sandikci A Antolić S Maier T Schaffitzel C Wiedmann B Bukau B Ban N 《Nature》2008,452(7183):108-111
Messenger-RNA-directed protein synthesis is accomplished by the ribosome. In eubacteria, this complex process is initiated by a specialized transfer RNA charged with formylmethionine (tRNA(fMet)). The amino-terminal formylated methionine of all bacterial nascent polypeptides blocks the reactive amino group to prevent unfavourable side-reactions and to enhance the efficiency of translation initiation. The first enzymatic factor that processes nascent chains is peptide deformylase (PDF); it removes this formyl group as polypeptides emerge from the ribosomal tunnel and before the newly synthesized proteins can adopt their native fold, which may bury the N terminus. Next, the N-terminal methionine is excised by methionine aminopeptidase. Bacterial PDFs are metalloproteases sharing a conserved N-terminal catalytic domain. All Gram-negative bacteria, including Escherichia coli, possess class-1 PDFs characterized by a carboxy-terminal alpha-helical extension. Studies focusing on PDF as a target for antibacterial drugs have not revealed the mechanism of its co-translational mode of action despite indications in early work that it co-purifies with ribosomes. Here we provide biochemical evidence that E. coli PDF interacts directly with the ribosome via its C-terminal extension. Crystallographic analysis of the complex between the ribosome-interacting helix of PDF and the ribosome at 3.7 A resolution reveals that the enzyme orients its active site towards the ribosomal tunnel exit for efficient co-translational processing of emerging nascent chains. Furthermore, we have found that the interaction of PDF with the ribosome enhances cell viability. These results provide the structural basis for understanding the coupling between protein synthesis and enzymatic processing of nascent chains, and offer insights into the interplay of PDF with the ribosome-associated chaperone trigger factor. 相似文献
50.
Boxma B de Graaf RM van der Staay GW van Alen TA Ricard G Gabaldón T van Hoek AH Moon-van der Staay SY Koopman WJ van Hellemond JJ Tielens AG Friedrich T Veenhuis M Huynen MA Hackstein JH 《Nature》2005,434(7029):74-79
Hydrogenosomes are organelles that produce ATP and hydrogen, and are found in various unrelated eukaryotes, such as anaerobic flagellates, chytridiomycete fungi and ciliates. Although all of these organelles generate hydrogen, the hydrogenosomes from these organisms are structurally and metabolically quite different, just like mitochondria where large differences also exist. These differences have led to a continuing debate about the evolutionary origin of hydrogenosomes. Here we show that the hydrogenosomes of the anaerobic ciliate Nyctotherus ovalis, which thrives in the hindgut of cockroaches, have retained a rudimentary genome encoding components of a mitochondrial electron transport chain. Phylogenetic analyses reveal that those proteins cluster with their homologues from aerobic ciliates. In addition, several nucleus-encoded components of the mitochondrial proteome, such as pyruvate dehydrogenase and complex II, were identified. The N. ovalis hydrogenosome is sensitive to inhibitors of mitochondrial complex I and produces succinate as a major metabolic end product--biochemical traits typical of anaerobic mitochondria. The production of hydrogen, together with the presence of a genome encoding respiratory chain components, and biochemical features characteristic of anaerobic mitochondria, identify the N. ovalis organelle as a missing link between mitochondria and hydrogenosomes. 相似文献