全文获取类型
收费全文 | 140篇 |
免费 | 18篇 |
出版年
2022年 | 1篇 |
2021年 | 5篇 |
2020年 | 2篇 |
2019年 | 4篇 |
2018年 | 3篇 |
2017年 | 4篇 |
2016年 | 6篇 |
2015年 | 11篇 |
2014年 | 9篇 |
2013年 | 3篇 |
2012年 | 16篇 |
2011年 | 11篇 |
2010年 | 5篇 |
2009年 | 7篇 |
2008年 | 8篇 |
2007年 | 6篇 |
2006年 | 4篇 |
2005年 | 7篇 |
2004年 | 4篇 |
2003年 | 9篇 |
2002年 | 9篇 |
2001年 | 4篇 |
2000年 | 2篇 |
1999年 | 1篇 |
1998年 | 1篇 |
1997年 | 3篇 |
1996年 | 1篇 |
1992年 | 3篇 |
1987年 | 3篇 |
1984年 | 1篇 |
1982年 | 2篇 |
1980年 | 1篇 |
1969年 | 1篇 |
1928年 | 1篇 |
排序方式: 共有158条查询结果,搜索用时 15 毫秒
31.
Migration strategies of the Baltic dunlin: rapid jump migration in the autumn but slower skipping type spring migration
下载免费PDF全文
![点击此处可从《Journal of avian biology》网站下载免费的PDF全文](/ch/ext_images/free.gif)
Veli‐Matti Pakanen Tuomo Jaakkonen Joni Saarinen Nelli Rönkä Robert L. Thomson Kari Koivula 《Journal of avian biology》2018,49(1)
Migration during spring is usually faster than during autumn because of competition for breeding territories. In some cases, however, the costs and benefits associated with the environment can lead to slower spring migration, but examples are quite rare. We compared seasonal migration strategies of the endangered Baltic population of the dunlin Calidris alpina schinzii using light‐level geolocator data from 26 individuals breeding in Finland. Autumn migration was faster, with individuals showing a ‘jump’ and ‘skipping’ migration strategy characterised by fewer stationary periods, shorter total stopping time and faster flight. Spring migration was slower, with individuals using a ‘skipping’ strategy. The duration of migration was longer for early departing birds during spring but not during autumn suggesting that early spring migrants are prevented from arriving to the breeding areas or that fueling conditions are worse on the stopover sites for early arriving individuals. Dunlins showed high migratory connectivity. All individuals had one long staging at the Wadden Sea in the autumn after which half of the individuals flew 4500 km non‐stop to Banc d’Arguin, Mauritania. The other half stopped briefly on the Atlantic coast on their way to Mauritania. One bird wintered on the coast of Portugal. Nine individuals that carried geolocators for two years were site faithful to their final non‐breeding sites. Based on the strategies during the non‐breeding period we identified, Baltic dunlin may be especially vulnerable to rapid environmental changes at the staging and non‐breeding areas. Consequently, the preservation of the identified non‐breeding areas is important for their conservation. 相似文献
32.
The human homologue of yeast CRM1 is in a dynamic subcomplex with CAN/Nup214 and a novel nuclear pore component Nup88. 总被引:34,自引:8,他引:26
M Fornerod J van Deursen S van Baal A Reynolds D Davis K G Murti J Fransen G Grosveld 《The EMBO journal》1997,16(4):807-816
The oncogenic nucleoporin CAN/Nup214 is essential in vertebrate cells. Its depletion results in defective nuclear protein import, inhibition of messenger RNA export and cell cycle arrest. We recently found that CAN associates with proteins of 88 and 112 kDa, which we have now cloned and characterized. The 88 kDa protein is a novel nuclear pore complex (NPC) component, which we have named Nup88. Depletion of CAN from the NPC results in concomitant loss of Nup88, indicating that the localization of Nup88 to the NPC is dependent on CAN binding. The 112 kDa protein is the human homologue of yeast CRM1, a protein known to be required for maintenance of correct chromosome structure. This human CRM1 (hCRM1) localized to the NPC as well as to the nucleoplasm. Nuclear overexpression of the FG-repeat region of CAN, containing its hCRM1-interaction domain, resulted in depletion of hCRM1 from the NPC. In CAN-/- mouse embryos lacking CAN, hCRM1 remained in the nuclear envelope, suggesting that this protein can also bind to other repeat-containing nucleoporins. Lastly, hCRM1 shares a domain of significant homology with importin-beta, a cytoplasmic transport factor that interacts with nucleoporin repeat regions. We propose that hCRM1 is a soluble nuclear transport factor that interacts with the NPC. 相似文献
33.
34.
35.
As a contribution towards identification of the principal environmental factors involved in cadmium accumulation in Antarctic
marine organisms and the establishment of a baseline near the Italian Antarctic Station “Baia Terra Nova”, surface sediments,
plankton and benthic organisms were studied in coastal waters of Terra Nova Bay (Ross Sea). The cadmium content of sediments
was similar to that regarded as background in most marine coastal areas, whereas in surface water, phyto- and zooplankton
it was similar to values measured in areas of enhanced upwelling. Algal and animal taxa dominating benthic associations had
a higher cadmium content than related species from other seas. Very high concentrations of the metal were found in sponges
(10–80 μg/g dw) and in the digestive gland of molluscs (up to 345 μg/g in Neobuccinum eatoni). The rapid regeneration of cadmium and its natural occurrence and bioavailability in highly productive coastal waters seem
to be responsible for cadmium accumulation in the tissues of marine organisms near the “Baia Terra Nova” station.
Received: 6 June 1995/Accepted: 23 November 1995 相似文献
36.
37.
Coccidioides immitis is a fungal human pathogen endemic to semiarid soils in southern California and Baja California (Mexico). Results of culture-dependent detection of C. immitis in the past indicated a spotty distribution and unreliable prediction of C. immitis growth sites and accumulation sites. In this project we investigated bulk soil samples for the presence of the pathogen in nonagricultural loamy soils at nine different locations around Bakersfield, Kern County, California, for almost 2 y (2008-2009). To detect the pathogen we used a multiplex PCR method with optimized soil handling and storage, DNA extraction procedure and PCR protocol. With this method we were able to detect C. immitis in 8.42% of our samples in 2008 (n = 285), mostly from early spring to early summer. In 2009 however the percentage of samples positive for C. immitis from the same sites declined to 2.68% (n = 261). We also were able to distinguish C. immitis growth sites from accumulation sites. One site close to a recreation area (Lake Webb, Buena Vista Lake Basin), not previously known to support the growth of C. immitis, was identified as a strong growth site of the fungus. The cultivation-independent method in this study together with soil parameters can be used to predict and confirm C. immitis growth sites and might be a valuable tool for public health institutions. 相似文献
38.
Nelli Mnatsakanyan Arathianand M. Krishnakumar Toshiharu Suzuki Joachim Weber 《The Journal of biological chemistry》2009,284(17):11336-11345
ATP synthase uses a unique rotational mechanism to convert chemical energy
into mechanical energy and back into chemical energy. The helix-turn-helix
motif, termed “DELSEED-loop,” in the C-terminal domain of the
β subunit was suggested to be involved in coupling between catalysis and
rotation. Here, the role of the DELSEED-loop was investigated by functional
analysis of mutants of Bacillus PS3 ATP synthase that had 3–7
amino acids within the loop deleted. All mutants were able to catalyze ATP
hydrolysis, some at rates several times higher than the wild-type enzyme. In
most cases ATP hydrolysis in membrane vesicles generated a transmembrane
proton gradient, indicating that hydrolysis occurred via the normal rotational
mechanism. Except for two mutants that showed low activity and low abundance
in the membrane preparations, the deletion mutants were able to catalyze ATP
synthesis. In general, the mutants seemed less well coupled than the wild-type
enzyme, to a varying degree. Arrhenius analysis demonstrated that in the
mutants fewer bonds had to be rearranged during the rate-limiting catalytic
step; the extent of this effect was dependent on the size of the deletion. The
results support the idea of a significant involvement of the DELSEED-loop in
mechanochemical coupling in ATP synthase. In addition, for two deletion
mutants it was possible to prepare an
α3β3γ subcomplex and measure nucleotide
binding to the catalytic sites. Interestingly, both mutants showed a severely
reduced affinity for MgATP at the high affinity site.F1F0-ATP synthase catalyzes the final step of
oxidative phosphorylation and photophosphorylation, the synthesis of ATP from
ADP and inorganic phosphate. F1F0-ATP synthase consists
of the membrane-embedded F0 subcomplex, with, in most bacteria, a
subunit composition of ab2c10, and the peripheral
F1 subcomplex, with a subunit composition of
α3β3γδε. The energy
necessary for ATP synthesis is derived from an electrochemical transmembrane
proton (or, in some organisms, a sodium ion) gradient. Proton flow down the
gradient through F0 is coupled to ATP synthesis on F1 by
a unique rotary mechanism. The protons flow through (half) channels at the
interface of the a and c subunits, which drives rotation of the ring of c
subunits. The c10 ring, together with F1 subunits
γ and ε, forms the rotor. Rotation of γ leads to
conformational changes in the catalytic nucleotide binding sites on the β
subunits, where ADP and Pi are bound. The conformational changes
result in the formation and release of ATP. Thus, ATP synthase converts
electrochemical energy, the proton gradient, into mechanical energy in the
form of subunit rotation and back into chemical energy as ATP. In bacteria,
under certain physiological conditions, the process runs in reverse. ATP is
hydrolyzed to generate a transmembrane proton gradient, which the bacterium
requires for such functions as nutrient import and locomotion (for reviews,
see Refs.
1–6).F1 (or F1-ATPase) has three catalytic nucleotide
binding sites located on the β subunits at the interface to the adjacent
α subunit. The catalytic sites have pronounced differences in their
nucleotide binding affinity. During rotational catalysis, the sites switch
their affinities in a synchronized manner; the position of γ determines
which catalytic site is the high affinity site
(Kd1 in the nanomolar range), which site is the
medium affinity site (Kd2 ≈ 1
μm), and which site is the low affinity site
(Kd3 ≈ 30–100 μm; see
Refs. 7 and
8). In the original crystal
structure of bovine mitochondrial F1
(9), one of the three catalytic
sites, was filled with the ATP analog
AMP-PNP,2 a second was
filled with ADP (plus azide) (see Ref.
10), and the third site was
empty. Hence, the β subunits are referred to as βTP,
βDP, and βE. The occupied β subunits,
βTP and βDP, were in a closed conformation,
and the empty βE subunit was in an open conformation. The main
difference between these two conformations is found in the C-terminal domain.
Here, the “DELSEED-loop,” a helix-turn-helix structure containing
the conserved DELSEED motif, is in an “up” position when the
catalytic site on the respective β subunit is filled with nucleotide and
in a “down” position when the site is empty
(Fig. 1A). When all
three catalytic sites are occupied by nucleotide, the previously open
βE subunit assumes an intermediate, half-closed
(βHC) conformation. It cannot close completely because of
steric clashes with γ
(11).Open in a separate windowFIGURE 1.The βDELSEED-loop. A, interaction of the
βTP and βE subunits with theγ
subunit.β subunits are shown in yellow andγ in
blue. The DELSEED-loop (shown in orange, with the DELSEED
motif itself in green)of βTP interacts with the
C-terminal helixγ and the short helix that runs nearly perpendicular to
the rotation axis. The DELSEED-loop of βE makes contact with
the convex portion of γ, formed mainly by the N-terminal helix. A
nucleotide molecule (shown in stick representation) occupies the catalytic
site of βTP, and the subunit is in the closed conformation.
The catalytic site on βE is empty, and the subunit is in the
open conformation. This figure is based on Protein Data Bank file 1e79
(32). B, deletions in
the βDELSEED-loop. The loop was “mutated” in silico
to represent the PS3 ATP synthase. The 3–4-residue segments that are
removed in the deletion mutants are color-coded as follows:
380LQDI383, pink;
384IAIL387, green;
388GMDE391, yellow;
392LSD394, cyan;
395EDKL398, orange;
399VVHR402, blue. Residues that are the most
involved in contacts with γ are labeled. All figures were generated
using the program PyMOL (DeLano Scientific, San Carlos, CA).The DELSEED-loop of each of the three β subunits makes contact with
the γ subunit. In some cases, these contacts consist of hydrogen bonds
or salt bridges between the negatively charged residues of the DELSEED motif
and positively charged residues on γ. The interactions of the
DELSEED-loop with γ, its movement during catalysis, the conservation of
the DELSEED motif (see 12–14).
Thus, the finding that an AALSAAA mutant in the
α3β3γ complex of ATP synthase from the
thermophilic Bacillus PS3, where several hydrogen bonds/salt bridges
to γ are removed simultaneously, could drive rotation of γ with
the same torque as the wild-type enzyme
(14) came as a surprise. On
the other hand, it seems possible that it is the bulk of the DELSEED-loop,
more so than individual interactions, that drives rotation of γ.
According to a model favored by several authors
(6,
15,
16) (see also Refs.
17–19),
binding of ATP (or, more precisely, MgATP) to the low affinity catalytic site
on βE and the subsequent closure of this site, accompanied by
its conversion into the high affinity site, are responsible for driving the
large (80–90°) rotation substep during ATP hydrolysis, with the
DELSEED-loop acting as a “pushrod.” A recent molecular dynamics
(20) study supports this model
and implicates mainly the region around several hydrophobic residues upstream
of the DELSEED motif (specifically βI386 and
βL387)3 as being
responsible for making contact with γ during the large rotation
substep.
TABLE 1
Conservation of residues in the DELSEED-loop Amino acids found in selected species in the turn region of the DELSEED-loop. Listed are all positions subjected to deletions in the present study. Residue numbers refer to the PS3 enzyme. Consensus annotation: p, polar residue; s, small residue; h, hydrophobic residue; –, negatively charged residue; +, positively charged residue.Open in a separate windowIn the present study, we investigated the function of the DELSEED-loop using an approach less focused on individual residues, by deleting stretches of 3–7 amino acids between positions β380 and β402 of ATP synthase from the thermophilic Bacillus PS3. We analyzed the functional properties of the deletion mutants after expression in Escherichia coli. The mutants showed ATPase activities, which were in some cases surprisingly high, severalfold higher than the activity of the wild-type control. On the other hand, in all cases where ATP synthesis could be measured, the rates where below or equal to those of the wild-type enzyme. In Arrhenius plots, the hydrolysis rates of the mutants were less temperature-dependent than those of wild-type ATP synthase. In those cases where nucleotide binding to the catalytic sites could be tested, the deletion mutants had a much reduced affinity for MgATP at high affinity site 1. The functional role of the DELSEED-loop will be discussed in light of the new information. 相似文献39.
Background
Effective prevention of excessive alcohol use has the potential to reduce the public burden of disease considerably. We investigated the cost-effectiveness of Screening and Brief Intervention (SBI) for excessive alcohol use in primary care in the Netherlands, which is targeted at early detection and treatment of ‘at-risk’ drinkers.Methodology and Results
We compared a SBI scenario (opportunistic screening and brief intervention for ‘at-risk’ drinkers) in general practices with the current practice scenario (no SBI) in the Netherlands. We used the RIVM Chronic Disease Model (CDM) to extrapolate from decreased alcohol consumption to effects on health care costs and Quality Adjusted Life Years (QALYs) gained. Probabilistic sensitivity analysis was employed to study the effect of uncertainty in the model parameters. In total, 56,000 QALYs were gained at an additional cost of €298,000,000 due to providing alcohol SBI in the target population, resulting in a cost-effectiveness ratio of €5,400 per QALY gained.Conclusion
Prevention of excessive alcohol use by implementing SBI for excessive alcohol use in primary care settings appears to be cost-effective. 相似文献40.
This study explores the giant oyster Hyotissa hyotis as a novel environmental archive in tropical reef environments of the Indo-Pacific. The species is a typical accessory component
in coral reefs, can reach sizes of tens of centimetres, and dates back to the Late Pleistocene. Here, a 70.2-mm-long oxygen
and carbon isotope transect through the shell of a specimen collected at Safaga Bay, northern Red Sea, in May 1996, is presented.
The transect runs perpendicularly to the foliate and vesicular layers of the inner ostracum near the ligament area of the
oyster. The measured δ18O and δ13C records show sinusoidal fluctuations, which are independent of shell microstructure. The δ13C fluctuations exhibit the same wavelength as the δ18O fluctuations but are phase shifted. The δ18O record reflects the sea surface temperature variations from 1957 until 1996, possibly additionally influenced by the local
evaporation. Due to locally enhanced evaporation in the semi-enclosed Safaga Bay, the δ18Oseawater value is estimated at 2.17‰, i.e., 0.3–0.8‰ higher than published open surface water δ18O values (1.36–1.85‰) from the region. The mean water temperature deviates by only 0.4°C from the expected value, and the
minimum and maximum values are 0.5°C lower and 2.9°C higher, respectively. When comparing the mean monthly values, however,
the sea surface temperature discrepancy between reconstructed and global grid datasets is always <1.0°C. The δ13C signal is weakly negatively correlated with regional chlorophyll a concentration and with the sunshine duration, which may
reflect changes in the bivalve’s respiration. The study emphasises the palaeogeographic context in isotope studies based on
fossils, because coastal embayments might not reflect open-water oceanographic conditions. 相似文献