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181.
182.
Adam Felton Joern Fischer David B. Lindenmayer Rebecca Montague-Drake Arianne R. Lowe Debbie Saunders Annika M. Felton Will Steffen Nicola T. Munro Kara Youngentob Jake Gillen Phil Gibbons Judsen E. Bruzgul Ioan Fazey Suzi J. Bond Carole P. Elliott Ben C. T. Macdonald Luciana L. Porfirio Martin Westgate Martin Worthy 《Biodiversity and Conservation》2009,18(8):2243-2253
Recent reviews of the conservation literature indicate that significant biases exist in the published literature regarding
the regions, ecosystems and species that have been examined by researchers. Despite the global threat of climatic change,
similar biases may be occurring within the sub-discipline of climate-change ecology. Here we hope to foster critical thought
and discussion by considering the directions taken by conservation researchers when addressing climate change. To form a quantitative
basis for our perspective, we assessed 248 papers from the climate change literature that considered the conservation management
of biodiversity and ecosystems. We found that roughly half of the studies considered climate change in isolation from other
threatening processes. We also found that the majority of surveyed scientific publications were conducted in the temperate
forests of Europe and North America. Regions such as Latin America that are rich in biodiversity but may have low adaptive
capacity to climate change were not well represented. We caution that such biases in research effort may be distracting our
attention away from vulnerable regions, ecosystems and species. Specifically we suggest that the under-representation of research
from regions low in adaptive capacity and rich in biodiversity requires international collaboration by those experienced in
climate-change research, with researchers from less wealthy nations who are familiar with local issues, ecosystems and species.
Furthermore, we caution that the propensity of ecologists to work in essentially unmodified ecosystems may fundamentally hamper
our ability to make useful recommendations in a world that is experiencing significant global change. 相似文献
183.
Andrew D. Morley Peter W. Kenny Brenda Burton Robert A. Heald Philip A. MacFaul Julia Mullett Ken Page Soraya S. Porres Lyn Rosenbrier Ribeiro Phil Smith Stuart Ward Tina J. Wilkinson 《Bioorganic & medicinal chemistry letters》2009,19(6):1658-1661
A series of pyrimidine nitrile inhibitors of Cathepsin K with reduced glutathione reactivity has been identified and Molecular Core Matching (MoCoM) has been used to quantify the effect of an amino substituent at C5. 相似文献
184.
Yong Chang David Mead Vinay Dhodda Phil Brumm Brian G. Fox 《Protein science : a publication of the Protein Society》2009,18(11):2316-2325
A single plasmid that allows controlled coexpression has been developed for use in mycobacteria. The tetracycline inducible promoter, PtetO, was used to provide tetracycline‐dependent induction of one gene, while the Psmyc, Pimyc, or Phsp promoters were used to provide three different levels of constitutive expression of a second gene. The functions of these four individual promoters were established using green fluorescent protein (GFP) and a newly identified red fluorescence inducible protein from Geobacillus sterothermophilus strain G1.13 (RFIP) as reporters. The tandem use of GFP and RFIP as reporter genes allowed optimization of the tunable coexpression in Mycobacterium smegmatis; either time at a fixed inducer concentration or changes in inducer concentration could be used to control the protein:protein ratio. This single vector system was used to coexpress the two‐protein Mycobacterium tuberculosis stearoyl‐CoA Δ9 desaturase complex (integral membrane desaturase Rv3229c and NADPH oxidoreductase Rv3230c) in M. smegmatis. The catalytic activity was found to increase in a manner corresponding to increasing the level of Rv3230c relative to a fixed level of Rv3229c. This system, which can yield finely tuned coexpression of the fatty acid desaturase complex in mycobacteria, may be useful for study of other multicomponent complexes. Furthermore, the tunable coexpression strategy used herein should also be applicable in other species with minor modifications. 相似文献
185.
186.
Yan Li Jingyi Yu Yipeng Wang Noelle M. Griffin Fred Long Sabrina Shore Phil Oh Jan E. Schnitzer 《Molecular & cellular proteomics : MCP》2009,8(6):1219-1235
Lipid membranes structurally define the outer surface and internal organelles of cells. The multitude of proteins embedded in lipid bilayers are clearly functionally important, yet they remain poorly defined. Even today, integral membrane proteins represent a special challenge for current large scale shotgun proteomics methods. Here we used endothelial cell plasma membranes isolated directly from lung tissue to test the effectiveness of four different mass spectrometry-based methods, each with multiple replicate measurements, to identify membrane proteins. In doing so, we substantially expanded this membranome to 1,833 proteins, including >500 lipid-embedded proteins. The best method combined SDS-PAGE prefractionation with trypsin digestion of gel slices to generate peptides for seamless and continuous two-dimensional LC/MS/MS analysis. This three-dimensional separation method outperformed current widely used two-dimensional methods by significantly enhancing protein identifications including single and multiple pass transmembrane proteins; >30% are lipid-embedded proteins. It also profoundly improved protein coverage, sensitivity, and dynamic range of detection and substantially reduced the amount of sample and the number of replicate mass spectrometry measurements required to achieve 95% analytical completeness. Such expansion in comprehensiveness requires a trade-off in heavy instrument time but bodes well for future advancements in truly defining the ever important membranome with its potential in network-based systems analysis and the discovery of disease biomarkers and therapeutic targets. This analytical strategy can be applied to other subcellular fractions and should extend the comprehensiveness of many future organellar proteomics pursuits.The plasma membrane provides a fundamental physical interface between the inside and outside of any cell. Beyond creating a protected compartment with a segregated, distinct, and well controlled internal milieu for the cell, it also mediates a wide variety of basic biological functions including signal transduction, molecular transport, membrane trafficking, cell migration, cell-cell interactions, intercellular communication, and even drug resistance. Plasma membrane-associated proteins, especially integral membrane proteins (IMPs)1 that traverse the lipid bilayer, are key elements mediating these vital biological processes. Consistent with its fundamental importance in both normal cellular functions and pathophysiology, the plasma membrane has also been targeted extensively for biomarker discovery and drug development. In fact, more than two-thirds of known targets for existing drugs are plasma membrane proteins (1).Despite the potential benefits, profiling the proteome of plasma membranes comprehensively using standard large scale methods including MS-based strategies has been limited and technically quite challenging. Intrinsic hydrophobicity, a wide concentration range of proteins, and other factors have hampered IMP resolution and identification using conventional two-dimensional gel electrophoresis. Gel and gel-free protein separations, including combinations of both, have been reported as an alternative to two-dimensional gel electrophoresis (2–9). Yet most such efforts have focused predominantly on identifying rather soluble proteins from body fluids (i.e. plasma, serum, and cerebrospinal fluid), cell lysates, or cytoplasm. These proteins, unlike IMPs, are relatively abundant and readily susceptible to enzymatic digestion in solution. Various attempts have been made to solubilize and enrich for IMPs, including different detergents, solvents, high pH solutions, and affinity purification (10–22). Even when organellar membranes are enriched through isolation by subcellular fractionation, the yield of proteins identified has been below expectation, especially for multipass transmembrane proteins such as G-protein-coupled receptors.Here we systematically characterize four analytical approaches to enhance the identification of proteins, specifically those embedded in plasma membranes isolated directly from vascular endothelium in rat lung. Endothelial cells (ECs) constitute the tissue-blood interface that controls many important physiological functions, including tissue homeostasis, nutrition, vasomotion, and even drug delivery. In vivo mapping of the EC plasma membrane proteome provides unique opportunities for extending basic understanding in vascular biology and for directing the delivery of therapeutic and imaging agents in vivo (23–25). But it also presents distinct challenges beyond those generally associated with extraction, solubilization, and identification of IMPs in cells and tissues. ECs form a thin monolayer lining each blood vessel. They constitute a very small fraction of all the cells existing in tissue, thereby making it difficult to isolate sufficiently pure EC plasma membrane fractions for proteomics analysis using conventional subcellular fractionation techniques. Although relatively simple to isolate from tissue and grow in culture, ECs require cues from the tissue microenvironment to maintain their tissue-specific qualities and thus undergo rapid and considerable phenotypic drift after isolation (26).We have developed a specialized coating procedure using colloidal silica nanoparticles perfused through the blood vessels of the tissue to isolate luminal plasma membranes of the vascular endothelium as they exist natively in tissue (26–28). Our initial survey of these plasma membranes isolated directly from rat lungs used primarily three standard analytical techniques of the time: two-dimensional electrophoresis, Western analysis, and the shotgun method of two-dimensional liquid chromatography-tandem mass spectrometry (24, 26). We identified 450 proteins of which only ∼15% were IMPs. Although at the time this was a notable total number of proteins, more IMPs are expected. In fact, this large scale 2DC study did not identify several well known EC surface marker proteins, including specific enzymes, adhesion molecules, and growth factor receptors.Here we comparatively analyze four different MS-based strategies involving two- and three-dimensional separation by combining protein prefractionation via SDS-PAGE with in-gel digestion to produce peptides separated by one- and two-dimensional nano-HPLC before seamless and continuous MS analysis. Each method used multiple replicate measurements to comprehensively identify proteins, especially IMPs, and in doing so achieved a clear statistical definition of completeness that permits meaningful comparisons. Ultimately this analysis greatly expanded the EC plasma membranome to 1,833 proteins of which nearly 30% are membrane-embedded. 相似文献
187.
Tully DC Liu H Alper PB Chatterjee AK Epple R Roberts MJ Williams JA Nguyen KT Woodmansee DH Tumanut C Li J Spraggon G Chang J Tuntland T Harris JL Karanewsky DS 《Bioorganic & medicinal chemistry letters》2006,16(7):1975-1980
A series of N(alpha)-2-benzoxazolyl-alpha-amino acid-(arylaminoethyl)amides were identified as potent, selective, and noncovalent inhibitors of cathepsin S. Structure-activity relationships including strategies for modulating the selectivities among cathepsins S, K, and L, and in vivo pharmacokinetics are discussed. A X-ray structure of compound 3 bound to the active site of cathepsin S is also reported. 相似文献
188.
Tully DC Liu H Chatterjee AK Alper PB Williams JA Roberts MJ Mutnick D Woodmansee DH Hollenbeck T Gordon P Chang J Tuntland T Tumanut C Li J Harris JL Karanewsky DS 《Bioorganic & medicinal chemistry letters》2006,16(19):5107-5111
We report a novel series of noncovalent inhibitors of cathepsin S. The synthesis of the peptidomimetic scaffold is described and structure-activity relationships of P3, P1, and P1' subunits are discussed. Lead optimization to a non-peptidic scaffold has resulted in a new class of potent, highly selective, and orally bioavailable cathepsin S inhibitors. 相似文献
189.
Jadlowiec JA Zhang X Li J Campbell PG Sfeir C 《The Journal of biological chemistry》2006,281(9):5341-5347
Cells have ingenious mechanisms for interpreting complex signals from their external microenvironment. Previously, we have shown that phosphophoryn (PP) regulates the expression of bone/dentin marker genes via the integrin/MAPK signaling pathway (Jadlowiec, J., Koch, H., Zhang, X., Campbell, P. G., Seyedain, M., and Sfeir, C. (2004) J. Biol. Chem. 279, 53323-53330). We hypothesize that other signaling pathways important for mineralized tissue morphogenesis such as the Smad pathway could be involved in PP signaling. We determined activation of the Smad pathway in human adult mesenchymal stem cells following treatment with recombinant PP (rPP). We observed that PP enhanced phosphorylation of Smad1 within 30 min and Smad1 translocation to the nucleus within 1 h. PP up-regulated the expression of Smad1 target genes, Smad6, Dlx5, and Runx2. The timing of PP activation of Smad1 implies this is a direct effect; however, we also investigated the possible involvement of bone morphogenetic proteins in PP stimulation of the Smad pathway. PP was shown to up-regulate Bmp-2 gene expression 12 h post-treatment with PP, which is much later than initial detection of Smad1 phosphorylation at 30 min. Furthermore, addition of Noggin did not block Smad1 phosphorylation by PP. We propose that PP could signal via the Smad pathway by either directly stimulating the phosphorylation of Smad1 via integrins or other mechanisms. These might include integrin/bone morphogenetic protein receptor interactions or involvement of PP with other growth factors leading to the modulation of intracellular signaling. It is noteworthy that a non-transforming growth factor-beta family member activates the Smad pathway. The role of PP in regulating the Smad pathway raises very interesting questions regarding the role of PP during bone and tooth development. 相似文献
190.