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131.
Candice A. Stafford‐Banks Louie H. Yang Marshall S. McMunn Diane E. Ullman 《Oikos》2014,123(11):1384-1390
The interactions between parasites and their hosts can cause profound changes in host behavior, including changes that can alter other trophic interactions. The western flower thrips Frankliniella occidentalis is an important omnivorous insect vector of Tomato spotted wilt virus (TSWV), which infects crops worldwide and also infects its thrips vector. Here, we show that tospovirus‐infected female thrips become more predaceous, illustrating how the functional role of omnivores may change in response to pathogen infection. Our findings support the hypothesis that increased predation among virus‐infected female thrips compensates for the detrimental effects of virus infection. Because predatory behavior is unlikely to increase virus transmission to plants, it is doubtful that this shift in feeding behavior is due to an adaptive parasite manipulation of vector behavior. In this study, increases in predatory behavior were observed in female thrips, but not in male thrips. This sexually dimorphic compensatory response indicates that male and female thrips utilize different feeding strategies to compensate for parasite infection, the expression of which is constrained by resource availability. Our findings demonstrate a novel, but potentially common pathway by which viruses can influence the structure of trophic interactions in food webs. 相似文献
132.
Kin-Hoe Chow Suzanne Elgort Mary Dasso Maureen A. Powers Katharine S. Ullman 《Molecular biology of the cell》2014,25(1):160-168
Nuclear pore complexes are composed of ∼30 different proteins, each present at the pore in multiple copies. Together these proteins create specialized channels that convey cargo between the cytoplasm and the nuclear interior. With the building blocks of nuclear pores identified, one challenge is to decipher how these proteins are coordinately produced and assembled into macromolecular pore structures with each cell division. Specific individual pore proteins and protein cofactors have been probed for their role in the assembly process, as well as certain kinases that add a layer of regulation via the phosphorylation status of nucleoporins. Other posttranslational modifications are candidates for coordinating events of pore assembly as well. In this study of two pore-associated small ubiquitin-like modifier (SUMO) proteases, sentrin/SUMO-specific protease 1 (SENP1) and SENP2, we observe that many nucleoporins are mislocalized and, in some cases, reduced in level when SENP1 and SENP2 are codepleted. The pore complexes present under these conditions are still capable of transport, although the kinetics of specific cargo is altered. These results reveal a new role for the pore-associated SENPs in nucleoporin homeostasis and in achieving proper configuration of the nuclear pore complex. 相似文献
133.
Douglas R. Mackay Katharine S. Ullman Christopher K. Rodesch 《Journal of visualized experiments : JoVE》2010,(40)
Changes in cellular organization and chromosome dynamics that occur during mitosis are tightly coordinated to ensure accurate inheritance of genomic and cellular content. Hallmark events of mitosis, such as chromosome movement, can be readily tracked on an individual cell basis using time-lapse fluorescence microscopy of mammalian cell lines expressing specific GFP-tagged proteins. In combination with RNAi-based depletion, this can be a powerful method for pinpointing the stage(s) of mitosis where defects occur after levels of a particular protein have been lowered. In this protocol, we present a basic method for assessing the effect of depleting a potential mitotic regulatory protein on the timing of mitosis. Cells are transfected with siRNA, placed in a stage-top incubation chamber, and imaged using an automated fluorescence microscope. We describe how to use software to set up a time-lapse experiment, how to process the image sequences to make either still-image montages or movies, and how to quantify and analyze the timing of mitotic stages using a cell-line expressing mCherry-tagged histone H2B. Finally, we discuss important considerations for designing a time-lapse experiment. This strategy is complementary to other approaches and offers the advantages of 1) sensitivity to changes in kinetics that might not be observed when looking at cells as a population and 2) analysis of mitosis without the need to synchronize the cell cycle using drug treatments. The visual information from such imaging experiments not only allows the sub-stages of mitosis to be assessed, but can also provide unexpected insight that would not be apparent from cell cycle analysis by FACS. 相似文献
134.
Galazka J Carter NS Bekhouche S Arastu-Kapur S Ullman B 《The international journal of biochemistry & cell biology》2006,38(7):1221-1229
Leishmania donovani, a protozoan parasite, expresses an unusual inosine/guanosine-specific transporter, LdNT2, the gene for which was cloned by functional rescue of a drug-resistant, LdNT2-deficient (FBD5) strain. In this investigation, we have uncovered and characterized the mutations within the LdNT2 open reading frame that are the basis for the drug-resistance and transport-incompetent phenotype of the FBD5 line. The FBD5 cells were shown to be compound heterozygotes in which both mutant ldnt2 alleles harbor discrete point mutations, each of which impaired transport function and conferred resistance to formycin B, the drug to which the clonal FBD5 line was selected. One of the mutant ldnt2 alleles encoded an S189L alteration in predicted transmembrane domain 5, while the second allele accommodated a null mutation at codon 376, which truncated the transporter just prior to transmembrane domain 8. In addition to the null transport phenotype, very little S189L ldnt2 mutant transporter targeted to the surface of the parasite. The bulk of the truncated ldnt2 appeared to be sequestered internally, possibly within the endoplasmic reticulum, but some of the truncated transporter seemed to be cell surface exposed. The ability to dissect mutations within a viable parasite offers LdNT2 as an attractive model for implementing a thorough forward genetic dissection of transporter function in a eukaryotic cell. 相似文献
135.
Correct assembly of nuclear pore complexes (NPCs), which directly and indirectly control nuclear environment and architecture, is vital to genomic regulation. We previously found that nucleoporin 153 (Nup 153) is required for timely progression through late mitosis. In this study, we report that disruption of Nup 153 function by either small interfering RNA-mediated depletion or expression of a dominant-interfering Nup 153 fragment results in dramatic mistargeting of the pore basket components Tpr and Nup 50 in midbody-stage cells. We find a concomitant appearance of aberrantly localized active Aurora B and an Aurora B-dependent delay in abscission. Depletion of Nup 50 is also sufficient to increase the number of midbody-stage cells and, likewise, triggers distinctive mislocalization of Aurora B. Together, our results suggest that defects in nuclear pore assembly, and specifically the basket structure, at this time of the cell cycle activate an Aurora B-mediated abscission checkpoint, thereby ensuring that daughter cells are generated only when fully formed NPCs are present. 相似文献
136.
Equilibrative nucleoside transporters play essential roles in nutrient uptake, cardiovascular and renal function, and purine analog drug chemotherapies. Limited structural information is available for this family of transporters; however, residues in transmembrane domains 1, 2, 4, and 5 appear to be important for ligand and inhibitor binding. In order to identify regions of the transporter that are important for ligand specificity, a genetic selection for mutants of the inosine-guanosine-specific Crithidia fasciculata nucleoside transporter 2 (CfNT2) that had gained the ability to transport adenosine was carried out in the yeast Saccharomyces cerevisiae. Nearly all positive clones from the genetic selection carried mutations at lysine 155 in transmembrane domain 4, highlighting lysine 155 as a pivotal residue governing the ligand specificity of CfNT2. Mutation of lysine 155 to asparagine conferred affinity for adenosine on the mutant transporter at the expense of inosine and guanosine affinity due to weakened contacts to the purine ring of the ligand. Following systematic cysteine-scanning mutagenesis, thiol-specific modification of several positions within transmembrane domain 4 was found to interfere with inosine transport capability, indicating that this helix lines the water-filled ligand translocation channel. Additionally, the pattern of modification of transmembrane domain 4 suggested that it may deviate from helicity in the vicinity of residue 155. Position 155 was also protected from modification in the presence of ligand, suggesting that lysine 155 is in or near the ligand binding site. Transmembrane domain 4 and particularly lysine 155 appear to play key roles in ligand discrimination and translocation by CfNT2. 相似文献
137.
138.
Subbiah M Mitchell SM Ullman JL Call DR 《Applied and environmental microbiology》2011,77(20):7255-7260
It is generally assumed that antibiotic residues in soils select for antibiotic-resistant bacteria. This assumption was tested by separately adding 10 different antibiotics (≥200 ppm) to three soil-water slurries (silt-loam, sand-loam, and sand; 20% soil [wt/vol]) and incubating mixtures for 24 h at room temperature. The antibiotic activity of the resultant supernatant was assessed by culturing a sensitive Escherichia coli strain in the filter-sterilized supernatant augmented with Luria-Bertani broth. We found striking differences in the abilities of supernatants to suppress growth of the indicator E. coli. Ampicillin, cephalothin, cefoxitin, ceftiofur, and florfenicol supernatants completely inhibited growth while bacterial growth was uninhibited in the presence of neomycin, tetracycline, and ciprofloxacin supernatants. High-performance liquid chromatography (HPLC) analysis demonstrated that cefoxitin and florfenicol were almost completely retained in the supernatants, whereas tetracycline and ciprofloxacin were mostly removed. Antibiotic dissipation in soil, presumably dominated by adsorption mechanisms, was sufficient to neutralize 200 ppm of tetracycline; this concentration is considerably higher than reported contamination levels. Soil pellets from the tetracycline slurries were resuspended in a minimal volume of medium to maximize the interaction between bacteria and soil particles, but sensitive bacteria were still unaffected by tetracycline (P = 0.6). Thus, residual antibiotics in soil do not necessarily exert a selective pressure, and the degree to which the pharmaceutical remains bioactive depends on the antibiotic. Efforts to control antibiotic contamination would be better directed toward compounds that retain biological activity in soils (e.g., cephalosporins and florfenicol) because these are the antibiotics that could exert a selective pressure in the environment. 相似文献
139.
M Bomba D Ciavardelli E Silvestri L MT Canzoniero R Lattanzio P Chiappini M Piantelli C Di Ilio A Consoli S L Sensi 《Cell death & disease》2013,4(5):e612
Recent studies have shown that type 2 diabetes mellitus (T2DM) is a risk factor for cognitive dysfunction or dementia. Insulin resistance is often associated with T2DM and can induce defective insulin signaling in the central nervous system as well as increase the risk of cognitive impairment in the elderly. Glucagone like peptide-1 (GLP-1) is an incretin hormone and, like GLP-1 analogs, stimulates insulin secretion and has been employed in the treatment of T2DM. GLP-1 and GLP-1 analogs also enhance synaptic plasticity and counteract cognitive deficits in mouse models of neuronal dysfunction and/or degeneration. In this study, we investigated the potential neuroprotective effects of long-term treatment with exenatide, a GLP-1 analog, in two animal models of neuronal dysfunction: the PS1-KI and 3xTg-AD mice. We found that exenatide promoted beneficial effects on short- and long-term memory performances in PS1-KI but not in 3xTg-AD animals. In PS1-KI mice, the drug increased brain lactate dehydrogenase activity leading to a net increase in lactate levels, while no effects were observed on mitochondrial respiration. On the contrary, exenatide had no effects on brain metabolism of 3xTg-AD mice. In summary, our data indicate that exenatide improves cognition in PS1-KI mice, an effect likely driven by increasing the brain anaerobic glycolysis rate. 相似文献
140.