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101.
102.
Abstract
The large accumulation of organic matter in peatlands is primarily caused by slow rates of litter decomposition. We determined
rates of decomposition of major peat-forming litters of vascular plants and mosses at five sites: a poor fen in New Hampshire
and a bog hummock, a poor fen, a beaver pond margin and a beaver pond in Ontario. We used the litterbag technique, retrieving
triplicate litterbags six or seven times over 3–5 years, and found that simple exponential decay and continuous-quality non-linear
regression models could adequately characterize the decomposition in most cases. Within each site, the rate of decomposition
at the surface was generally Typha
latifolia leaves = Chamaedaphne
calyculata leaves = Carex leaves > Chamaedaphne
calyculata stems > hummock Sphagnum = lawn/hollow Sphagnum, with exponential decay constant (k) values generally ranging from 0.05 to 0.37 and continuous-quality model initial quality (q
0
) values ranging from 1.0 (arbitrarily set for Typha leaves) to 0.7 (Sphagnum). In general, surface decay rates were slowest at the bog hummock site, which had the lowest water table, and in the beaver
pond, which was inundated, and fastest at the fens. The continuous-quality model site decomposition parameter (u
0
) ranged from 0.80 to 0.17. Analysis of original litter samples for carbon, nitrogen and proximate fractions revealed a relatively
poor explanation of decomposition rates, as defined by k and q
0
, compared to most well-drained ecosystems. Three litters, roots of sedge and a shrub and Typha leaves, were placed at depths of 10, 30 and 60 cm at the sites. Decomposition rates decreased with depth at each site, with
k means of 0.15, 0.08 and 0.05 y−1 at 10, 30 and 60 cm, respectively, and u
0
of 0.25, 0.13 and 0.07. These differences are primarily related to the position of the water table at each site and to a lesser
extent the cooler temperatures in the lower layers of the peat. The distinction between bog and fen was less important than
the position of the water table. These results show that we can characterize decomposition rates of surface litter in northern
peatlands, but given the large primary productivity below-ground in these ecosystems, and the differential rates of decomposition
with depth, subsurface input and decomposition of organic matter is an important and relatively uncertain attribute. 相似文献
103.
There is growing evidence that endothelial dysfunction, which is often defined as the decreased endothelial-derived nitric oxide (NO) bioavailability, is a crucial factor leading to vascular disease states such as hypertension, diabetes, atherosclerosis, heart failure and cigarette smoking. This is due to the fact that the lack of NO in endothelium-dependent vascular disorders contributes to impaired vascular relaxation, platelet aggregation, increased vascular smooth muscle proliferation, and enhanced leukocyte adhesion to the endothelium. During the last several years, it has become clear that reduction of NO bioavailability in the endothelium-impaired function disorders is associated with an increase in endothelial production of superoxide (O(2)(*-)). Because O(2)(*-) rapidly scavenges NO within the endothelium, a reduction of bioactive NO might occur despite an increased NO generation. Among many enzymatic systems that are capable of producing O(2)(*-), NAD(P)H oxidase and uncoupled endothelial NO synthase (eNOS) apparently are the main sources of O(2)(*-) in the endothelial cells. It seems that O(2)(*-) generated by NAD(P)H oxidase may trigger eNOS uncoupling and contribute to the endothelial balance between NO and O(2)(*-). That is maintained at diverse levels. 相似文献
104.
Leto K Bartolini A Di Gregorio A Imperiale D De Luca A Parmigiani E Filipkowski RK Kaczmarek L Rossi F 《Development (Cambridge, England)》2011,138(16):3463-3472
The progenitors of cerebellar GABAergic interneurons proliferate up to postnatal development in the prospective white matter, where they give rise to different neuronal subtypes, in defined quantities and according to precise spatiotemporal sequences. To investigate the mechanisms that regulate the specification of distinct interneuron phenotypes, we examined mice lacking the G1 phase-active cyclin D2. It has been reported that these mice show severe reduction of stellate cells, the last generated interneuron subtype. We found that loss of cyclin D2 actually impairs the whole process of interneuron genesis. In the mutant cerebella, progenitors of the prospective white matter show reduced proliferation rates and enhanced tendency to leave the cycle, whereas young postmitotic interneurons undergo severe delay of their maturation and migration. As a consequence, the progenitor pool is precociously exhausted and the number of interneurons is significantly reduced, although molecular layer interneurons are more affected than those of granular layer or deep nuclei. The characteristic inside-out sequence of interneuron placement in the cortical layers is also reversed, so that later born cells occupy deeper positions than earlier generated ones. Transplantation experiments show that the abnormalities of cyclin D2(-/-) interneurons are largely caused by cell-autonomous mechanisms. Therefore, cyclin D2 is not required for the specification of particular interneuron subtypes. Loss of this protein, however, disrupts regulatory mechanisms of cell cycle dynamics that are required to determine the numbers of interneurons of different types and impairs their rhythm of maturation and integration in the cerebellar circuitry. 相似文献
105.
106.
A simple reconstitution technique has been developed and then applied to prepare a series of light-harvesting antenna 1 (LH1) complexes with a programmed carotenoid composition, not available from native photosynthetic membranes. The complexes were reconstituted with different C(40) carotenoids, having two structural parameters variable: the functional side groups and the number of conjugated C-C double bonds, systematically increasing from 9 to 13. The complexes, differing only in the type of carotenoid, bound to an otherwise identical bacteriochlorophyll-polypeptide matrix, can serve as a unique model system in which the relationship between the carotenoid character and the functioning of pigment-protein complexes can be investigated. The reconstituted LH1 complexes resemble the native antenna, isolated from wild-type Rhodospirillum rubrum, but their coloration is entirely determined by carotenoid. Along with the increase in its conjugation size, the carotenoid absorption transitions gradually shift to the red. Thus, the extension of the conjugation size of the antenna carotenoids provides a mechanism for the spectral tuning of light harvesting in the visible part of the spectrum. The carotenoids in the reconstitution system promote the LH1 formation and seem to bind and transfer the excitation energy specifically only to a species with characteristically red-shifted absorption and emission maxima, apparently, due to a cooperative effect. Monitoring the LH1 formation by steady-state absorption and fluorescence spectroscopies reveals that in the presence of carotenoids it proceeds without spectrally resolved intermediates, leading directly to B880. The effect of the carotenoid is enhanced when the pigment contains the hydroxy or methoxy side groups, implying that, in parallel to hydrophobic interactions and pi-pi stacking, other interactions are also involved in the formation and stabilization of LH1. 相似文献
107.
Kamil Deryło Barbara Michalec-Wawiórka Dawid Krokowski Leszek Wawiórka Maria Hatzoglou Marek Tchórzewski 《Biochimica et Biophysica Acta (BBA)/Molecular Cell Research》2018,1865(1):34-47
The ribosomal uL10 protein, formerly known as P0, is an essential element of the ribosomal GTPase-associated center responsible for the interplay with translational factors during various stages of protein synthesis. In eukaryotic cells, uL10 binds two P1/P2 protein heterodimers to form a pentameric P-stalk, described as uL10-(P1-P2)2, which represents the functional form of these proteins on translating ribosomes. Unlike most ribosomal proteins, which are incorporated into pre-ribosomal particles during early steps of ribosome biogenesis in the nucleus, P-stalk proteins are attached to the 60S subunit in the cytoplasm. Although the primary role of the P-stalk is related to the process of translation, other extraribosomal functions of its constituents have been proposed, especially for the uL10 protein; however, the list of its activities beyond the ribosome is still an open question. Here, by the combination of biochemical and advanced fluorescence microscopy techniques, we demonstrate that upon nucleolar stress induction the uL10 protein accumulates in the cytoplasm of mammalian cells as a free, ribosome-unbound protein. Importantly, using a novel approach, FRAP-AC (FRAP after photoConversion), we have shown that the ribosome-free pool of uL10 represents a population of proteins released from pre-existing ribosomes. Taken together, our data indicate that the presence of uL10 on the ribosomes is affected in stressed cells, thus it might be considered as a regulatory element responding to environmental fluctuations. 相似文献
108.
109.
Summary A unified model of social organization, spatial distribution, and demographic parameters in the bank vole was developed. It is based on social relations among females, among males and also between reproductive females and males. In the model, social status and reproductive condition of an individual depend exclusively on interactions with its nearest neighbours. A result of interactions between two neighbours remains local, i.e., it cannot affect other, more distant individuals. The simulated variables show similar trend and scatter as those found in a growing real population of the bank vole. The relevance of the model for theories of population dynamics is discussed. 相似文献
110.
Leszek A. Lyznik Kathryn K. Kamo Howard D. Grimes Randy Ryan Ka-Lai Chang Thomas K. Hodges 《Plant cell reports》1989,8(5):292-295
Summary The importance of cell culture conditions, including the use of feeder cells, on protoplast growth and transformation in maize (Zea mays L.) was investigated. Total GUS activity, measured two days after transformation, was five-fold higher in protoplasts cultured on feeder cells compared to those grown in the absence of feeder cells. Since the specific activity of GUS was only slightly higher in the transformed protoplasts plated over feeder cells, the stimulation in transient gene expression resulted mainly from the improved environment provided by the feeder system. For stable transformation, either PEG treatment or electroporation of protoplasts was used to introduce the neo gene. When PEG was used, over 85% of the putative transformants (resistant to kanamycin) contained the neo gene. The combination of PEG transformation and the optimized cell culture protocol using feeder cells enabled the selection of about 100 stably transformed lines per gFW of cells. Electroporation was less efficient. 相似文献