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101.
102.
Chronic nitrogen additions suppress decomposition and sequester soil carbon in temperate forests 总被引:2,自引:0,他引:2
S. D. Frey S. Ollinger K. Nadelhoffer R. Bowden E. Brzostek A. Burton B. A. Caldwell S. Crow C. L. Goodale A. S. Grandy A. Finzi M. G. Kramer K. Lajtha J. LeMoine M. Martin W. H. McDowell R. Minocha J. J. Sadowsky P. H. Templer K. Wickings 《Biogeochemistry》2014,121(2):305-316
The terrestrial biosphere sequesters up to a third of annual anthropogenic carbon dioxide emissions, offsetting a substantial portion of greenhouse gas forcing of the climate system. Although a number of factors are responsible for this terrestrial carbon sink, atmospheric nitrogen deposition contributes by enhancing tree productivity and promoting carbon storage in tree biomass. Forest soils also represent an important, but understudied carbon sink. Here, we examine the contribution of trees versus soil to total ecosystem carbon storage in a temperate forest and investigate the mechanisms by which soils accumulate carbon in response to two decades of elevated nitrogen inputs. We find that nitrogen-induced soil carbon accumulation is of equal or greater magnitude to carbon stored in trees, with the degree of response being dependent on stand type (hardwood versus pine) and level of N addition. Nitrogen enrichment resulted in a shift in organic matter chemistry and the microbial community such that unfertilized soils had a higher relative abundance of fungi and lipid, phenolic, and N-bearing compounds; whereas, N-amended plots were associated with reduced fungal biomass and activity and higher rates of lignin accumulation. We conclude that soil carbon accumulation in response to N enrichment was largely due to a suppression of organic matter decomposition rather than enhanced carbon inputs to soil via litter fall and root production. 相似文献
103.
Kristjansdottir K Wolfgeher D Lucius N Angulo DS Kron SJ 《Journal of proteome research》2008,7(7):2812-2824
A significant consequence of protein phosphorylation is to alter protein-protein interactions, leading to dynamic regulation of the components of protein complexes that direct many core biological processes. Recent proteomic studies have populated databases with extensive compilations of cellular phosphoproteins and phosphorylation sites and a similarly deep coverage of the subunit compositions and interactions in multiprotein complexes. However, considerably less data are available on the dynamics of phosphorylation, composition of multiprotein complexes or that define their interdependence. We describe a method to identify candidate phosphoprotein complexes by combining phosphoprotein affinity chromatography, separation by size, denaturing gel electrophoresis, protein identification by tandem mass spectrometry, and informatics analysis. Toward developing phosphoproteome profiling, we have isolated native phosphoproteins using a phosphoprotein affinity matrix, Pro-Q Diamond resin (Molecular Probes-Invitrogen). This resin quantitatively retains phosphoproteins and associated proteins from cell extracts. Pro-Q Diamond purification of a yeast whole cell extract followed by 1-D PAGE separation, proteolysis and ESI LC-MS/MS, a method we term PA-GeLC-MS/MS, yielded 108 proteins, a majority of which were known phosphoproteins. To identify proteins that were purified as parts of phosphoprotein complexes, the Pro-Q eluate was separated into two fractions by size, <100 kDa and >100 kDa, before analysis by PAGE and ESI LC-MS/MS and the component proteins queried against databases to identify protein-protein interactions. The <100 kDa fraction was enriched in phosphoproteins indicating the presence of monomeric phosphoproteins. The >100 kDa fraction contained 171 proteins of 20-80 kDa, nearly all of which participate in known protein-protein interactions. Of these 171, few are known phosphoproteins, consistent with their purification by participation in protein complexes. By comparing the results of our phosphoprotein profiling with the informational databases on phosphoproteomics, protein-protein interactions and protein complexes, we have developed an approach to examining the correlation between protein interactions and protein phosphorylation. 相似文献
104.
Pin Lu Sandrine Prost Helen Caldwell Jonathan D. Tugwood Graham R. Betton David J. Harrison 《Mammalian genome》2007,18(9):617-626
Polyploidisation in hepatocytes has been associated with many physiologic and pathologic processes such as proliferation, metabolism, regeneration, aging, and cancer. We studied gene expression patterns in hepatocytes of different ploidy. Primary hepatocytes were obtained from mice of different ages: young (4-6 weeks old), adult (8-10 weeks old), and older (22-24 weeks old). Diploid (2N), tetraploid (4N), and octoploid (8N) hepatocytes were isolated for studies using a high-density mouse genome microarray. No major changes of gene expression patterns between hepatocytes of different ploidy were found. Fifty genes were identified as differentially expressed in the diploid and tetraploid populations, but the changes were less than twofold either way. Four genes (Gas2, Igfbp2, Nr1i3, and Ccne2) were differentially expressed in tetraploid and octoploid cells. This was confirmed in two age groups, "adult" and "older," but once again the factors were less than twofold and the expressions of Gas2 and Igfbp2 were more different between age groups than between ploidy classes. Our results show that polyploid hepatocytes are stable and "normal" without aberrant gene expression, unlike what is thought for cancer cells. By contrast to megakaryocytes, hepatocyte polyploidisation is not a differentiation step associated with major changes in gene expression. Our data support the hypothesis that hepatocyte polyploidisation is a protective mechanism against oxidative stress that occurs via a controlled process throughout growth and aging where binucleation is important. 相似文献
105.
Protein optimization is a major focus of the biotech and pharmaceutical industry. Various in vitro technologies have been developed to accelerate protein evolution and to achieve protein optimization of functional characteristics such as substrate specificity, enzymatic activity and thermostability. The chicken B cell line DT40 diversifies its immunoglobulin (Ig) gene by gene conversion and somatic hypermutation. This machinery can be directed to almost any gene inserted into the Ig locus. Enormously diverse protein libraries of any gene of interest can be quickly generated in DT40 by utilizing random shuffling of complex genetic domains (gene conversion) and by the introduction of novel non-templated genetic information (random mutagenesis). The unique characteristics of the chicken cell line DT40 make it a powerful in-cell diversification system to improve proteins of interest within living cells. One essential advantage of the DT40 protein optimization approach is the fact that variants are generated within an in-cell system thus allowing the direct screening for desired features in the context of intracellular networks. Utilizing specially designed selection strategies, such as the powerful fluorescent protein technology, enables the reliable identification of protein variants exhibiting the most desirable traits. Thus, DT40 is well positioned as a biotechnological tool to generate optimized proteins by applying a powerful combination of gene specific hypermutation, gene conversion and mutant selection. 相似文献
106.
Protein misfolding and aggregation are key pathological features observed in numerous neurodegenerative diseases, including the misfolding of α-synuclein (α-syn) in Parkinson's disease (PD) and β-amyloid in Alzheimer's disease. While this phenomenon is widely observed, the etiology and progression of these diseases is not fully understood. Furthermore, there is a lack of therapeutic treatments directed at halting the progression and neurodegeneration associated with these diseases. This demands a need for an inexpensive, easy to manipulate multicellular organism to conduct both genetic and chemical screens within to identify factors that may play a pivotal role in the pathology of these diseases. Herein, we describe methodology involved in identifying genetic modifiers of α-syn misfolding and toxicity in the nematode roundworm, Caenorhabditis elegans. Transgenic nematodes engineered to express human α-syn in the body wall muscles or dopaminergic (DA) neurons result in formation of cytoplasmic puncta or DA neurodegeneration, respectively. Using these models, we describe the use of RNA interference (RNAi) and transgenic gene expression to functionally elucidate potential therapeutic gene targets that alter α-syn misfolding and DA neurotoxicity. 相似文献
107.
Christopher B Arena Michael B Sano John H Rossmeisl Jr John L Caldwell Paulo A Garcia Marissa Nichole Rylander Rafael V Davalos 《Biomedical engineering online》2011,10(1):1-21
Background
Therapeutic irreversible electroporation (IRE) is an emerging technology for the non-thermal ablation of tumors. The technique involves delivering a series of unipolar electric pulses to permanently destabilize the plasma membrane of cancer cells through an increase in transmembrane potential, which leads to the development of a tissue lesion. Clinically, IRE requires the administration of paralytic agents to prevent muscle contractions during treatment that are associated with the delivery of electric pulses. This study shows that by applying high-frequency, bipolar bursts, muscle contractions can be eliminated during IRE without compromising the non-thermal mechanism of cell death.Methods
A combination of analytical, numerical, and experimental techniques were performed to investigate high-frequency irreversible electroporation (H-FIRE). A theoretical model for determining transmembrane potential in response to arbitrary electric fields was used to identify optimal burst frequencies and amplitudes for in vivo treatments. A finite element model for predicting thermal damage based on the electric field distribution was used to design non-thermal protocols for in vivo experiments. H-FIRE was applied to the brain of rats, and muscle contractions were quantified via accelerometers placed at the cervicothoracic junction. MRI and histological evaluation was performed post-operatively to assess ablation.Results
No visual or tactile evidence of muscle contraction was seen during H-FIRE at 250 kHz or 500 kHz, while all IRE protocols resulted in detectable muscle contractions at the cervicothoracic junction. H-FIRE produced ablative lesions in brain tissue that were characteristic in cellular morphology of non-thermal IRE treatments. Specifically, there was complete uniformity of tissue death within targeted areas, and a sharp transition zone was present between lesioned and normal brain.Conclusions
H-FIRE is a feasible technique for non-thermal tissue ablation that eliminates muscle contractions seen in IRE treatments performed with unipolar electric pulses. Therefore, it has the potential to be performed clinically without the administration of paralytic agents. 相似文献108.
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