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91.
Stapanian Martin A. Sundberg Scott D. Baumgardner Greg A. Liston Aaron 《Plant Ecology》1998,139(1):49-62
A probability-based sampling scheme was used to survey plant species composition in forests of 16 states in seven geopolitical regions of the United States (California, Colorado, Minnesota, and parts of the Pacific Northwest, Southeast, Mid-Atlantic, and Northeast) in 1994. The proportion of alien species relative to the total species number and to canopy cover in the ground stratum (0–0.6 m height) was evaluated in 279 plots. Visually evident anthropogenic disturbances (e.g., artificial regeneration, logging, prescribed burning, and grazing by livestock), if any, were recorded on each plot. In each of the seven regions we quantified (1) the percentage of the number of species and total cover comprised of alien species, (2) the difference in these percentages for disturbed and undisturbed plots, and (3) the origin or native range for the alien species.The percentage of alien species ranged from approximately 4.5% (Colorado) to approximately 13.2% (California). The percentage of alien species cover ranged from approximately 1.5% in Colorado to 25% in California. In five regions, species introduced from temperate Eurasia comprised the largest proportion of alien species and cover. In the Southeast, species introduced from far eastern and subtropical Asia dominated the alien flora. In the Mid-Atlantic, the majority of alien species was Eurasian and the majority of alien species cover consisted of far eastern and subtropical Asian species.The proportion of plots in which at least one alien species was recorded was significantly higher in disturbed than undisturbed plots in the Southeast and marginally significantly higher ($p=0.053$) in the Northeast. These results are consistent with other published studies that indicate that anthropogenic disturbance affects the structure and composition of both the ground stratum and upper canopy of forest habitats. In other regions, however, no significant differences were found. 相似文献
92.
93.
Sura Shayna A. Delgadillo Aaron Franco Nancy Gu Kelly Turba Rachel Fong Peggy 《Coral reefs (Online)》2019,38(3):425-429
Coral Reefs - Closely cropped algal turfs are characteristic of healthy coral reefs, but unchecked growth can cause transitions into long sediment-laden turfs, which may be an alternative degraded... 相似文献
94.
Kelsey J. Markham Elena B. Tikhonova Aaron C. Scarpa Parameswaran Hariharan Satoshi Katsube Lan Guan 《The Journal of biological chemistry》2021,297(3)
The melibiose permease of Salmonella typhimurium (MelBSt) catalyzes the stoichiometric symport of galactopyranoside with a cation (H+, Li+, or Na+) and is a prototype for Na+-coupled major facilitator superfamily (MFS) transporters presenting from bacteria to mammals. X-ray crystal structures of MelBSt have revealed the molecular recognition mechanism for sugar binding; however, understanding of the cation site and symport mechanism is still vague. To further investigate the transport mechanism and conformational dynamics of MelBSt, we generated a complete single-Cys library containing 476 unique mutants by placing a Cys at each position on a functional Cys-less background. Surprisingly, 105 mutants (22%) exhibit poor transport activities (<15% of Cys-less transport), although the expression levels of most mutants were comparable to that of the control. The affected positions are distributed throughout the protein. Helices I and X and transmembrane residues Asp and Tyr are most affected by cysteine replacement, while helix IX, the cytoplasmic middle-loop, and C-terminal tail are least affected. Single-Cys replacements at the major sugar-binding positions (K18, D19, D124, W128, R149, and W342) or at positions important for cation binding (D55, N58, D59, and T121) abolished the Na+-coupled active transport, as expected. We mapped 50 loss-of-function mutants outside of these substrate-binding sites that suffered from defects in protein expression/stability or conformational dynamics. This complete Cys-scanning mutagenesis study indicates that MelBSt is highly susceptible to single-Cys mutations, and this library will be a useful tool for further structural and functional studies to gain insights into the cation-coupled symport mechanism for Na+-coupled MFS transporters. 相似文献
95.
96.
In vivo magnetic and electric recordings from nerve bundles and single motor units in mammalian skeletal muscle. Correlations with muscle force 下载免费PDF全文
Recent advances in the technology of recording magnetic fields associated with electric current flow in biological tissues have provided a means of examining action currents that is more direct and possibly more accurate than conventional electrical recording. Magnetic recordings are relatively insensitive to muscle movement, and, because the recording probes are not directly connected to the tissue, distortions of the data due to changes in the electrochemical interface between the probes and the tissue are eliminated. In vivo magnetic recordings of action currents of rat common peroneal nerve and extensor digitorum longus (EDL) muscle were obtained by a new magnetic probe and amplifier system that operates within the physiological temperature range. The magnetically recorded waveforms were compared with those obtained simultaneously by conventional, extracellular recording techniques. We used the amplitude of EDL twitch force (an index of stimulus strength) generated in response to graded stimulation of the common peroneal nerve to enable us to compare the amplitudes of magnetically recorded nerve and muscle compound action currents (NCACs and MCACs, respectively) with the amplitudes of electrically recorded nerve compound action potentials (NCAPs). High, positive correlations to stimulus strength were found for NCACs (r = 0.998), MCACs (r = 0.974), and NCAPs (r = 0.998). We also computed the correlations of EDL single motor unit twitch force with magnetically recorded single motor unit compound action currents (SMUCACs) and electrically recorded single motor unit compound action potentials (SMUCAPs) obtained with both a ring electrode and a straight wire serving as a point electrode. Only the SMUCACs had a relatively strong positive correlation (r = 0.768) with EDL twitch force. Correlations for ring and wire electrode-recorded SMUCAPs were 0.565 and -0.366, respectively. This study adds a relatively direct examination of action currents to the characterization of the normal biophysical properties of peripheral nerve, muscle, and muscle single motor units. 相似文献
97.
Jung Joo Hong Matthew R. Reynolds Teresa L. Mattila Aaron Hage David I. Watkins Christopher J. Miller Pamela J. Skinner 《PloS one》2009,4(1)
CD8 T cells play an important role in controlling viral infections. We investigated the in situ localization of simian immunodeficiency virus (SIV)-specific T cells in lymph and genital tissues from SIV-infected macaques using MHC-class I tetramers. The majority of tetramer-binding cells localized in T cell zones and were CD8+. Curiously, small subpopulations of tetramer-binding cells that had little to no surface CD8 were detected in situ both early and late post-infection, and in both vaginally and rectally inoculated macaques. These tetramer+CD8low/− cells were more often localized in apparent B cell follicles relative to T cell zones and more often found near or within the genital epithelium than the submucosa. Cells analyzed by flow cytometry showed similar populations of cells. Further immunohistological characterization revealed small populations of tetramer+CD20− cells inside B cell follicles and that tetramer+ cells did not stain with γδ-TCR nor CD4 antibodies. Negative control tetramer staining indicated that tetramer+CD8low/− cells were not likely NK cells non-specifically binding to MHC tetramers. These findings have important implications for SIV-specific and other antigen-specific T cell function in these specific tissue locations, and suggest a model in which antigen-specific CD8+ T cells down modulate CD8 upon entering B cell follicles or the epithelial layer of tissues, or alternatively a model in which only antigen-specific CD8 T cells that down-modulate CD8 can enter B cell follicles or the epithelium. 相似文献
98.
In this study we examined whether human immunodeficiency virus type 1 (HIV-1) is equally susceptible to neutralization by a given antibody when the epitope of this antibody is introduced at different positions within the viral envelope glycoprotein (Env). To this end, we introduced two exogenous “epitope tags” at different locations within three major Env regions in two distinct HIV-1 isolates. We examined how the introduction of the exogenous epitopes affects Env expression, Env incorporation into virions, Env fusogenic potential, and viral susceptibility to neutralization. Our data indicate that even within the same Env region, the exact positioning of the epitope impacts the susceptibility of the virus to neutralization by the antibody that binds to that epitope. Our data also indicate that even if the same epitope is introduced in the exact same position on two different Envs, its exposure and, as a result, the neutralization susceptibility of the virus, can be very different. In contrast to the findings of previous studies conducted with HIV-1 isolates other than those used here, but in agreement with results obtained with simian immunodeficiency virus, we observed that tagging of the fourth variable region of Env (V4) did not result in neutralization by the anti-tag antibodies. Our data indicate that epitopes in V4 are not properly exposed within the functional HIV-1 trimeric Env spike, suggesting that V4 may not be a good target for vaccine-elicited neutralizing antibodies.The human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein (Env) is expressed as a heavily glycosylated peptide of approximately 160 kDa (gp160), which is cleaved intracellularly into two noncovalently associated subunits: an extracellular subunit (gp120), responsible for CD4 and coreceptor (primarily CCR5 and/or CXCR4) binding, and a transmembrane subunit (gp41) that mediates fusion between viral and host cell membranes. Based on amino acid sequence homology analysis of gp120s derived from diverse HIV-1 isolates, gp120 is divided into five “constant” regions (C1 to C5) and five “variable” regions (also called “loops,” because most of them have cysteines in the N and C termini that form disulfide bonds). Despite their extensive amino acid variability, the variable loops of gp120 play central roles during the entry of the virus into the cell, for instance, by directly or indirectly modulating the interaction of Env with coreceptor molecules on the target surfaces during virus-cell fusion. They also offer protection from neutralizing antibodies (NAbs) by various mechanisms. The variable loops themselves are targets of NAbs, and during infection, the replicating virus accumulates mutations in the variable regions that allow it to escape the action of anti-variable loop-directed NAbs, while at the same time the variable loops are positioned within the Env trimer so that they prevent, or minimize, the binding of NAbs to more-conserved epitopes, such as the receptor and coreceptor binding sites (4, 5, 12, 15, 20, 23, 25, 27, 31).HIV-1 strains display distinct neutralization phenotypes. Some isolates, such as SF162, are generally susceptible to NAbs that bind to many distinct regions of Env, including the variable regions, while other isolates, such as YU2 or JRFL, are generally resistant to neutralization by the same NAbs (1). It has been proposed that irrespective of the overall neutralizing phenotype of HIV-1 isolates, the binding of only a single antibody per Env trimer on the virion surface can lead to neutralization, when all Env trimers present on the virion surface are bound by at least one antibody (32). This important observation also implies that the epitope specificity of an antibody may not be as important for neutralization as its ability to bind to its target within the trimeric Env structure. In fact, antibodies to diverse regions of Env, such as V1, V2, V3, and the receptor and coreceptor binding sites, can all neutralize HIV-1 (1, 3, 6, 8, 10, 18, 20, 23, 25, 27, 29, 30).In many cases, a given isolate will not be equally susceptible to neutralization by NAbs that bind to different Env regions, for example, the V3 loop and the CD4-binding site (CD4-BS). Whether differences in the neutralizing potentials of two antibodies that bind to distinct epitopes on HIV-1 Env are due to differences in the binding affinities of the two antibodies or whether they occur because the viruses are intrinsically more susceptible to NAbs that bind certain epitopes and not others (i.e., the relative importance of the various regions of Env in Env function and virus neutralization sensitivity differs) is not yet fully understood. One way to address these issues is to introduce small non-HIV Env amino acid sequences (tags) that are targets of known monoclonal antibodies (MAbs) at various positions within the viral Env and to examine how the placement of the same epitope at different positions within Env affects the neutralization phenotype of the virus.Foreign epitopes have been introduced into the variable regions of HIV and simian immunodeficiency virus (SIV) Envs, and their effects on viral neutralization potential have been examined (14, 19, 22, 33). Yang and colleagues (33) introduced the FLAG epitope into the V4 regions of three HIV-1 isolates (YU2, JRFL, and HxB2) displaying distinct neutralization phenotypes in response to anti-HIV NAbs; they found that all three pseudotyped viruses were equivalently neutralized by an anti-FLAG MAb. One important implication of that study is that neutralization-resistant isolates, such as YU2 or JRFL, are not intrinsically more resistant to neutralization than more-susceptible isolates, such as HxB2, so long as the antibody binds to its epitope on the functional virion-associated Env spike. A second implication is that since the FLAG epitope was exposed in the V4 loops of all three isolates, the V4 loop could theoretically be a good target for vaccine-elicited antibodies. In contrast, Pantophlet et al. (19) introduced the HA tag into various regions of the JRCSF (neutralization-resistant) and HxB2 (neutralization-sensitive) isolates and reported that JRCSF was intrinsically more resistant than HxB2 to anti-HA antibodies. This observation implies, therefore, that some HIV-1 strains (primary, neutralization-resistant strains) have developed mechanisms that limit the accessibility of multiple Env regions, including variable regions, to antibodies developed during infection. Laird and Desrosiers (14) introduced the FLAG epitope into two positions within each of the V1, V2, and V4 loops of SIV239 and SIV316. They reported that the functionality of Env was differentially affected by the precise location of the exogenous tag sequence within the variable loops examined. Importantly, and in contrast to what was reported for the HIV-1 isolates mentioned above, the SIV239 variants containing a V4 FLAG epitope were not neutralized by an anti-FLAG MAb. It appeared, however, that the FLAG epitope was not well exposed on the trimeric Env when introduced into the V4 loop of SIV but was exposed when introduced into the V1 loop of the same virus. Potentially, this means that the V4 loop is differentially exposed in the context of the HIV-1 and SIV Envs.The FLAG epitope (DYKDDDDK) is highly charged. Therefore, it is possible that the effect on Env function and epitope exposure could differ if a different exogenous epitope were inserted instead of FLAG. Here we examined the effect of variable loop tagging on the Env functions and viral neutralization phenotypes of two primary HIV-1 clade B isolates, SF162 (CCR5 tropic) and SF33 (CXCR4 tropic), using two exogenous epitopes (FLAG and hemagglutinin [HA] tags) positioned at multiple locations within the V1, V2, and V4 loops. By placing the same tag in several regions within each loop, we investigated the accessibilities of various parts of the same loop to a given NAb. By using two tags that differ significantly in amino acid composition (FLAG tag, DYKDDDDK; HA tag, YPYDVPDYA), we aimed at distinguishing between the effects of amino acid composition and the positioning of the tag on Env function and overall epitope exposure. Finally, identical evaluations of R5 and X4 Envs may provide information about the relative roles played in neutralization by variable loops in Envs displaying distinct coreceptor usage. We report that both the amino acid sequence and the position of the tag within and among the variable loops greatly affected the functionality of Env. In contrast to previous observations made with other HIV-1 Envs (33) but in agreement with what was reported for the SIV239 Env (14), we observed that tagging of the V4 loops of SF162 and SF33 did not render these isolates susceptible to neutralization by the corresponding anti-tag MAbs. 相似文献
99.
Manuel Garber Michael C Zody Harindra M Arachchi Aaron Berlin Sante Gnerre Lisa M Green Niall Lennon Chad Nusbaum 《Genome biology》2009,10(6):R60-6
The most recent release of the finished human genome contains 260 euchromatic gaps (excluding chromosome Y). Recent work has
helped explain a large number of these unresolved regions as 'structural' in nature. Another class of gaps is likely to be
refractory to clone-based approaches, and cannot be approached in ways previously described. We present an approach for closing
these gaps using 454 sequencing. As a proof of principle, we closed all three remaining non-structural gaps in chromosome
15. 相似文献
100.
Anisotropic atomic motions in high-resolution protein crystallography molecular dynamics simulations
Molecular dynamics (MD) simulations using empirical force fields are popular for the study of proteins. In this work, we compare anisotropic atomic fluctuations in nanosecond-timescale MD simulations with those observed in an ultra-high-resolution crystal structure of crambin. In order to make our comparisons, we have developed a compact graphical technique for assessing agreement between spatial atomic distributions determined by MD simulations and observed anisotropic temperature factors. 相似文献