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101.
Eliot L. Osher Francisco Castillo Nagarajan Elumalai Michael J. Waring Garry Pairaudeau Ali Tavassoli 《Bioorganic & medicinal chemistry》2018,26(11):3034-3038
We report an inhibitor of the homodimeric protein-protein interaction of the BCL6 oncoprotein, identified from a genetically encoded SICLOPPS library of 3.2 million cyclic hexapeptides in combination with a bacterial reverse two-hybrid system. This cyclic peptide is shown to bind the BTB domain of BCL6, disrupts its homodimerization, and subsequent binding of the SMRT2 corepressor peptide. 相似文献
102.
Footprinting of echinomycin and actinomycin D on DNA molecules asymmetrically substituted with inosine and/or 2,6-diaminopurine. 总被引:2,自引:2,他引:0 下载免费PDF全文
In order to clarify the role of the purine 2-amino group in the recognition of DNA by small molecules we have examined the binding of actinomycin D and echinomycin to artificial DNA molecules asymmetrically substituted with inosine and/or 2,6-diaminopurine (DAP) in one of the complementary strands. These DNAs, prepared by a method based upon PCR, present various potential sites for antibiotic binding, including several containing only a single purine 2-amino group in different configurations. The results show unambiguously that the presence of two 2-amino groups is mandatory for binding of actinomycin D to double-stranded DNA. In the case of echinomycin only one purine 2-amino group is required for remarkably strong binding to the asymmetric TpDAP.TpA dinucleotide step, but the CpDAP.TpI step (which also contains only a single purine-2 amino group) does not afford a binding site. Evidently, removing a 2-amino group (G-->I substitution) is dominant over adding one (A-->DAP substitution). No sequences containing just a single guanine residue are acceptable. The possibility is raised that replacing guanosine with inosine may do more than remove a group endowed with hydrogen bonding capability and interfere with ligand binding in other ways. The new methodology developed to construct asymmetrically substituted DNA substrates for this work provides a novel strategy that should be generally applicable for studying ligand-DNA interactions, beyond the specific interest in drug binding to DNA, and may help to elucidate how proteins and oligonucleotides recognize their target sites. 相似文献
103.
Net ecosystem productivity (NEP), net primary productivity (NPP), and water vapour exchange of a mature Pinus ponderosa forest (44°30′ N, 121°37′ W) growing in a region subject to summer drought were investigated along with canopy assimilation and respiratory fluxes. This paper describes seasonal and annual variation in these factors, and the evaluation of two generalized models of carbon and water balance (PnET‐II and 3‐PG) with a combination of traditional measurements of NPP, respiration and water stress, and eddy covariance measurements of above‐and below‐canopy CO2 and water vapour exchange. The objective was to evaluate the models using two years of traditional and eddy covariance measurements, and to use the models to help interpret the relative importance of processes controlling carbon and water vapour exchange in a water‐limited pine ecosystem throughout the year. PnET‐II is a monthly time‐step model that is driven by nitrogen availability through foliar N concentration, and 3‐PG is a monthly time‐step quantum‐efficiency model constrained by extreme temperatures, drought, and vapour pressure deficits. Both models require few parameters and have the potential to be applied at the watershed to regional scale. There was 2/3 less rainfall in 1997 than in 1996, providing a challenge to modelling the water balance, and consequently the carbon balance, when driving the models with the two years of climate data, sequentially. Soil fertility was not a key factor in modelling processes at this site because other environmental factors limited photosynthesis and restricted projected leaf area index to ~1.6. Seasonally, GEP and LE were overestimated in early summer and underestimated through the rest of the year. The model predictions of annual GEP, NEP and water vapour exchange were within 1–39% of flux measurements, with greater disparity in 1997 because soil water never fully recharged. The results suggest that generalized models can provide insights to constraints on productivity on an annual basis, using a minimum of site data. 相似文献
104.
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106.
Samuel Gee John Langton Dyce Duckworth Harrison Cripps T. Lauder Brunton W. Bruce Clarke Norman Moore Anthony Bowlby Samuel West C. B. Lockwood J. A. Ormerod D'Arcy Power W. P. Herringham H. J. Waring H. H. Tooth W. McAdam Eccles A. E. Garrod R. C. Bailey James Calvert W. H. H. Jessop F. H. Champneys T. Holmes Spicer W. S. A. Griffith A. E. Cumberbatch 《BMJ (Clinical research ed.)》1903,2(2242):1622-1623
107.
Myungwoon Lee Hongwei Yao Byungsu Kwon Alan J. Waring Peter Ruchala Chandan Singh Mei Hong 《Journal of molecular biology》2018,430(5):695-709
Enveloped viruses enter cells by using their fusion proteins to merge the virus lipid envelope and the cell membrane. While crystal structures of the water-soluble ectodomains of many viral fusion proteins have been determined, the structure and assembly of the C-terminal transmembrane domain (TMD) remains poorly understood. Here we use solid-state NMR to determine the backbone conformation and oligomeric structure of the TMD of the parainfluenza virus 5 fusion protein. 13C chemical shifts indicate that the central leucine-rich segment of the TMD is α-helical in POPC/cholesterol membranes and POPE membranes, while the Ile- and Val-rich termini shift to the β-strand conformation in the POPE membrane. Importantly, lipid mixing assays indicate that the TMD is more fusogenic in the POPE membrane than in the POPC/cholesterol membrane, indicating that the β-strand conformation is important for fusion by inducing membrane curvature. Incorporation of para-fluorinated Phe at three positions of the α-helical core allowed us to measure interhelical distances using 19F spin diffusion NMR. The data indicate that, at peptide:lipid molar ratios of ~ 1:15, the TMD forms a trimeric helical bundle with inter-helical distances of 8.2–8.4 Å for L493F and L504F and 10.5 Å for L500F. These data provide high-resolution evidence of trimer formation of a viral fusion protein TMD in phospholipid bilayers, and indicate that the parainfluenza virus 5 fusion protein TMD harbors two functions: the central α-helical core is the trimerization unit of the protein, while the two termini are responsible for inducing membrane curvature by transitioning to a β-sheet conformation. 相似文献
108.
Historical precipitation predictably alters the shape and magnitude of microbial functional response to soil moisture 总被引:1,自引:0,他引:1 下载免费PDF全文
Soil moisture constrains the activity of decomposer soil microorganisms, and in turn the rate at which soil carbon returns to the atmosphere. While increases in soil moisture are generally associated with increased microbial activity, historical climate may constrain current microbial responses to moisture. However, it is not known if variation in the shape and magnitude of microbial functional responses to soil moisture can be predicted from historical climate at regional scales. To address this problem, we measured soil enzyme activity at 12 sites across a broad climate gradient spanning 442–887 mm mean annual precipitation. Measurements were made eight times over 21 months to maximize sampling during different moisture conditions. We then fit saturating functions of enzyme activity to soil moisture and extracted half saturation and maximum activity parameter values from model fits. We found that 50% of the variation in maximum activity parameters across sites could be predicted by 30‐year mean annual precipitation, an indicator of historical climate, and that the effect is independent of variation in temperature, soil texture, or soil carbon concentration. Based on this finding, we suggest that variation in the shape and magnitude of soil microbial response to soil moisture due to historical climate may be remarkably predictable at regional scales, and this approach may extend to other systems. If historical contingencies on microbial activities prove to be persistent in the face of environmental change, this approach also provides a framework for incorporating historical climate effects into biogeochemical models simulating future global change scenarios. 相似文献
109.
Daly NL Chen YK Rosengren KJ Marx UC Phillips ML Waring AJ Wang W Lehrer RI Craik DJ 《Biochemistry》2007,46(35):9920-9928
Retrocyclins are circular mini-defensins with significant potential as agents against human immunodeficiency virus, influenza A, and herpes simplex virus. Retrocyclins bind carbohydrate-containing surface molecules such as gp120 and CD4 with high affinity (Kd, 10-100 nM), promoting their localization on cell membranes. The structural features important for activity have yet to be fully elucidated, but here, we have determined the first three-dimensional structure of a retrocyclin, namely, one of the most potent forms, retrocyclin-2. In the presence of SDS micelles, a well-defined beta-hairpin braced by three disulfide bonds that defines the cystine ladder motif is present. By contrast, a well-defined structure could not be determined in aqueous solution, suggesting that the presence of SDS micelles stabilizes the extended conformation of retrocyclin-2. Translational diffusion measurements indicate that retrocyclin-2 interacts with the SDS micelles, and such a membrane-like interaction may be an important feature in the mechanism of action of these antimicrobial peptides. Analytical ultracentrifugation and the NMR data indicated that retrocyclin-2 self-associates to form a trimer in a concentration-dependent manner. The ability to self-associate may contribute to the high-affinity binding of retrocyclins for glycoproteins by increasing the valency and enhancing the ability of retrocyclins to cross-link cell surface glycoproteins. 相似文献
110.
Nannette Y. Yount Alan J. Waring Kimberly D. Gank William H. Welch Michael R. Yeaman 《生物化学与生物物理学报:生物膜》2007,1768(3):598-608
Chemokines are small (8-12 kDa) effector proteins that potentiate leukocyte chemonavigation. Beyond this role, certain chemokines have direct antimicrobial activity against human pathogenic organisms; such molecules are termed kinocidins. The current investigation was designed to explore the structure-activity basis for direct microbicidal activity of kinocidins. Amino acid sequence and 3-dimensional analyses demonstrated these molecules to contain iterations of the conserved γ-core motif found in broad classes of classical antimicrobial peptides. Representative CXC, CC and C cysteine-motif-group kinocidins were tested for antimicrobial activity versus human pathogenic bacteria and fungi. Results demonstrate that these molecules exert direct antimicrobial activity in vitro, including antibacterial activity of native IL-8 and MCP-1, and microbicidal activity of native IL-8. To define molecular determinants governing its antimicrobial activities, the IL-8 γ-core (IL-8γ) and α-helical (IL-8α) motifs were compared to native IL-8 for antimicrobial efficacy in vitro. Microbicidal activity recapitulating that of native IL-8 localized to the autonomous IL-8α motif in vitro, and demonstrated durable microbicidal activity in human blood and blood matrices ex vivo. These results offer new insights into the modular architecture, context-related deployment and function, and evolution of host defense molecules containing γ-core motifs and microbicidal helices associated with antimicrobial activity. 相似文献