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排序方式: 共有360条查询结果,搜索用时 437 毫秒
61.
Changsoo Chang Penny Coggill Alex Bateman Robert D Finn Marcin Cymborowski Zbyszek Otwinowski Wladek Minor Lour Volkart Andrzej Joachimiak 《BMC structural biology》2009,9(1):75
Background
Many Gram-positive lactic acid bacteria (LAB) produce anti-bacterial peptides and small proteins called bacteriocins, which enable them to compete against other bacteria in the environment. These peptides fall structurally into three different classes, I, II, III, with class IIa being pediocin-like single entities and class IIb being two-peptide bacteriocins. Self-protective cognate immunity proteins are usually co-transcribed with these toxins. Several examples of cognates for IIa have already been solved structurally. Streptococcus pyogenes, closely related to LAB, is one of the most common human pathogens, so knowledge of how it competes against other LAB species is likely to prove invaluable. 相似文献62.
63.
Maryam Gharehaghaji Emily S. Minor Mary V. Ashley Saji T. Abraham Walter D. Koenig 《Plant Ecology》2017,218(4):487-499
Landscape features affect habitat connectivity and patterns of gene flow and hence influence genetic structure among populations. We studied valley oak (Quercus lobata), a threatened species of California (USA) savannas and oak woodlands, with a distribution forming a ring around the Central Valley grasslands. Our main goal was to determine the role of topography and land cover on patterns of gene flow and to test whether elevation or land cover forms stronger barriers to gene flow among valley oak populations. We sampled valley oaks in 12 populations across the range of this species, genotyped each tree at eight nuclear microsatellite loci, and created a series of resistance surfaces by assigning different resistance values to land cover type and elevation. We also estimated recent migration rates and evaluated them with regard to landscape features. There was a significant but weak relationship between Euclidian distance and genetic distance. There was no relationship between genetic distances and land cover, but a significant relationship between genetic distances and elevation resistance. We conclude that gene flow is restricted by high elevations in the northern part of the valley oak range and by high elevations and the Central Valley further south. Migration rate analysis indicated some gene flow occurring east–west but we suggest that the high connectivity in the northern Central Valley is facilitating the formation of these links. We predict that southern populations may become more differentiated in the future through genetic isolation and local adaptation taking place in the face of climate change. 相似文献
64.
Sviatoslav N Bagriantsev R��mi Peyronnet Kimberly A Clark Eric Honor�� Daniel L Minor Jr 《The EMBO journal》2011,30(17):3594-3606
Members of the K2P potassium channel family regulate neuronal excitability and are implicated in pain, anaesthetic responses, thermosensation, neuroprotection, and mood. Unlike other potassium channels, K2Ps are gated by remarkably diverse stimuli that include chemical, thermal, and mechanical modalities. It has remained unclear whether the various gating inputs act through separate or common channel elements. Here, we show that protons, heat, and pressure affect activity of the prototypical, polymodal K2P, K2P2.1 (KCNK2/TREK‐1), at a common molecular gate that comprises elements of the pore‐forming segments and the N‐terminal end of the M4 transmembrane segment. We further demonstrate that the M4 gating element is conserved among K2Ps and is employed regardless of whether the gating stimuli are inhibitory or activating. Our results define a unique gating mechanism shared by K2P family members and suggest that their diverse sensory properties are achieved by coupling different molecular sensors to a conserved core gating apparatus. 相似文献
65.
Minor DL 《Current opinion in structural biology》2001,11(4):408-414
More than three years have passed since the first structure of a potassium channel protein revealed fundamental molecular details of a platform for ion-selective conduction. Recent efforts have turned to understanding what this structure tells us about potassium channel structure and function in general and, most importantly, which questions remain unanswered. Successes in solving membrane protein structures are still hard won and slow. High-resolution studies of cytoplasmic channel domains and channel-associated proteins, the most tractable entry points for dissecting large, complex eukaryotic channels, are revealing a modularity of function commonly seen in many other biological systems. Studies of these domains bring into sharp focus issues of channel regulation, how these domains and associated proteins are coupled to the transmembrane domains to influence channel function, and how ion channels are integrated into cellular signaling pathways. 相似文献
66.
Karolina A Majorek Misty L Kuhn Maksymilian Chruszcz Wayne F Anderson Wladek Minor 《Protein science : a publication of the Protein Society》2014,23(10):1359-1368
The availability of purified and active protein is the starting point for the majority of in vitro biomedical, biochemical, and drug discovery experiments. The use of polyhistidine affinity tags has resulted in great increases of the efficiency of the protein purification process, but can negatively affect structure and/or activity measurements. Similarly, buffer molecules may perturb the conformational stability of a protein or its activity. During the determination of the structure of a Gcn5-related N-acetyltransferase (GNAT) from Pseudomonas aeruginosa (PA4794), we found that both HEPES and the polyhistidine affinity tag bind (separately) in the substrate-binding site. In the case of HEPES, the molecule induces conformational changes in the active site, but does not significantly affect enzyme activity. In contrast, the uncleaved His-tag does not induce major conformational changes but acts as a weak competitive inhibitor of peptide substrate. In two other GNAT enzymes, we observed that the presence of the His-tag had a strong influence on the activity of these proteins. The influence of protein preparation on functional studies may affect the reproducibility of experiments in other laboratories, even when changes between protocols seem at first glance to be insignificant. Moreover, the results presented here show how critical it is to adjust the experimental conditions for each protein or family of proteins, and investigate the influence of these factors on protein activity and structure, as they may significantly alter the effectiveness of functional characterization and screening methods. Thus, we show that a polyhistidine tag and the buffer molecule HEPES bind in the substrate-binding site and influence the conformation of the active site and the activity of GNAT acetyltransferases. We believe that such discrepancies can influence the reproducibility of some experiments and therefore could have a significant “ripple effect” on subsequent studies. 相似文献
67.
Joseph Lucas Holly K. Dressman Sunil Suchindran Mai Nakamura Nelson J. Chao Heather Himburg Kerry Minor Gary Phillips Joel Ross Majid Abedi Robert Terbrueggen John P. Chute 《PloS one》2014,9(9)
Terrorism using radiological dirty bombs or improvised nuclear devices is recognized as a major threat to both public health and national security. In the event of a radiological or nuclear disaster, rapid and accurate biodosimetry of thousands of potentially affected individuals will be essential for effective medical management to occur. Currently, health care providers lack an accurate, high-throughput biodosimetric assay which is suitable for the triage of large numbers of radiation injury victims. Here, we describe the development of a biodosimetric assay based on the analysis of irradiated mice, ex vivo-irradiated human peripheral blood (PB) and humans treated with total body irradiation (TBI). Interestingly, a gene expression profile developed via analysis of murine PB radiation response alone was inaccurate in predicting human radiation injury. In contrast, generation of a gene expression profile which incorporated data from ex vivo irradiated human PB and human TBI patients yielded an 18-gene radiation classifier which was highly accurate at predicting human radiation status and discriminating medically relevant radiation dose levels in human samples. Although the patient population was relatively small, the accuracy of this classifier in discriminating radiation dose levels in human TBI patients was not substantially confounded by gender, diagnosis or prior exposure to chemotherapy. We have further incorporated genes from this human radiation signature into a rapid and high-throughput chemical ligation-dependent probe amplification assay (CLPA) which was able to discriminate radiation dose levels in a pilot study of ex vivo irradiated human blood and samples from human TBI patients. Our results illustrate the potential for translation of a human genetic signature for the diagnosis of human radiation exposure and suggest the basis for further testing of CLPA as a candidate biodosimetric assay. 相似文献
68.
Jacek Bajor Karolina L. Tkaczuk Maksymilian Chruszcz Hutton Chapman Olga Kagan Alexei Savchenko Wladek Minor 《Journal of structural and functional genomics》2014,15(2):73-81
We report a 2.0 Å structure of the CAE31940 protein, a proteobacterial NMT1/THI5-like domain-containing protein. We also discuss the primary and tertiary structure similarity with its homologs. The highly conserved FGGXMP motif was identified in CAE31940, which corresponds to the GCCCX motif located in the vicinity of the active center characteristic for THi5-like proteins found in yeast. This suggests that the FGGXMP motif may be a unique hallmark of proteobacterial NMT1/THI5-like proteins. 相似文献
69.
70.
Degradation of monomeric and fibrillar type III collagens by human skin collagenase. Kinetic constants using different animal substrates 总被引:2,自引:0,他引:2
H G Welgus R E Burgeson J A Wootton R R Minor C Fliszar J J Jeffrey 《The Journal of biological chemistry》1985,260(2):1052-1059
Human skin collagenase activity was examined against type III collagens, in both soluble and fibrillar form, from different animal species. In either form, human, dog, and cat type III were degraded 10- to 30-fold faster than was that from guinea pig and nearly 100-fold more readily than chick type III. These differences in susceptibility were mirrored by essentially identical differences in the rate of trypsin cleavage of the same substrates. Human, dog, and cat type III were cleaved most rapidly by trypsin, guinea pig III more slowly, and chick III was completely resistant to the serine protease. Arrhenius plots, relating enzyme activity to temperature, revealed differences in the various type III substrates consistent with their collagenase and trypsin susceptibilities. Human, dog, and cat type III collagens yielded nonlinear plots, with accompanying activation energies which decreased at temperatures above 26 degrees C; guinea pig type III displayed a plot which deviated only slightly from linearity while the plot for chick type III was completely linear. These data strongly suggest that type III collagens display substantial variability in the stability of the helix at or near the collagenase cleavage site. The susceptibility of these type III substrates as reconstituted fibrils was also examined. The relative rates of degradation of these substrates by collagenase, and by trypsin, were the same as those observed in solution. The absolute rates of degradation of collagen in fibrillar form, however, were massively lower than predicted by extrapolation from solution values. This reduction in rate is even greater for type III than for type I collagens. Thus, whereas in solution type III substrates are cleaved much faster than type I collagens, in fibrillar form these differences are less than 2-fold. These data, together with values for activation energies and deuterium isotope effects on type III fibrillar substrates, reinforce the concept that helical integrity near the collagenase cleavage site is a major specifier of the rate of collagenase activity. Furthermore, the data suggest that the exclusion of water accompanying the tight packing of monomers into fibrils presents a major energy barrier to collagenase activity, which is particularly large for type III collagen. 相似文献