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101.
Replication of poliovirus RNA takes place on the cytoplasmic surface of membranous vesicles that form after infection of the host cell. It is generally accepted that RNA polymerase 3D(pol) interacts with membranes in a complex with viral protein 3AB, which binds to membranes by means of a hydrophobic anchor sequence that is located near the C-terminus of the 3A domain. In this study, we used fluorescence and fluorescence quenching methods to define the topography of the anchor sequence in the context of 3A and 3AB proteins inserted in model membranes. Mutants with a single tryptophan near the center of the anchor sequence but lacking Trp elsewhere in 3A/3AB were constructed which, after the emergence of suppressor mutations, replicated well in HeLa cells. When a peptide containing the mutant anchor sequence was incorporated in model membrane vesicles, measurements of Trp depth within the lipid bilayer indicated formation of a transmembrane topography. However, rather than the 22-residue length predicted from hydrophobicity considerations, the transmembrane segment had an effective length of 16 residues, such that Gln64 likely formed the N-terminal boundary. Analogous experiments using full-length proteins bound to preformed model membrane vesicles showed that the anchor sequence formed a mixture of transmembrane and nontransmembrane topographies in the 3A protein but adopted only the nontransmembrane configuration in the context of 3AB protein. Studies of the function of 3A/3AB inserted into model membrane vesicles showed that membrane-bound 3AB is highly efficient in stimulating the activity of 3D(pol) in vitro while membrane-bound 3A totally lacks this activity. Moreover, in vitro uridylylation reactions showed that membrane-bound 3AB is not a substrate for 3D(pol), but free VPg released by cleavage of 3AB with proteinase 3CD(pro) could be uridylylated. 相似文献
102.
Dual Stem Loops within the Poliovirus Internal Ribosomal Entry Site Control Neurovirulence 总被引:9,自引:5,他引:4 下载免费PDF全文
Matthias Gromeier Birgit Bossert Mineo Arita Akio Nomoto Eckard Wimmer 《Journal of virology》1999,73(2):958-964
In the human central nervous system, susceptibility to poliovirus (PV) infection is largely confined to a specific subpopulation of neuronal cells. PV tropism is likely to be determined by cell-external components such as the PV receptor CD155, as well as cell-internal constraints such as the availability of a suitable microenvironment for virus propagation. We reported previously that the exchange of the cognate internal ribosomal entry site (IRES) within the 5′ nontranslated region of PV with its counterpart from human rhinovirus type 2 (HRV2) can eliminate the neuropathogenic phenotype in a transgenic mouse model for poliomyelitis without diminishing the growth properties in HeLa cells. We now show that attenuation of neurovirulence of PV/HRV2 chimeras is not confined to CD155 transgenic mice but is evident also after intraspinal inoculation into Cynomolgus monkeys. We have dissected the PV and HRV2 IRES elements to determine those structures responsible for neurovirulence (or attenuation) of these chimeric viruses. We report that two adjacent stem loop structures within the IRES cooperatively determine neuropathogenicity. 相似文献
103.
Evaluation of water stress control with polyethylene glycols by analysis of guttation 总被引:8,自引:6,他引:8 下载免费PDF全文
The water relations of pepper plants (Capsicum frutescens L.) under conditions conducive to guttation were studied to evaluate the control of plant water stress with polyethylene glycols. The addition of polyethylene glycol 6000 to the nutrient solution resulted in water relations similar to those expected in soil at the same water potentials. Specifically, xylem pressure potential in the root and leaf became more negative during a 24-hour treatment period, while osmotic potential of the root xylem sap remained constant. The decrease in pressure potential was closely correlated with the decrease in osmotic potential of the nutrient solution. In contrast, the addition of polyethylene glycol 400 to the nutrient medium resulted in a reduction of osmotic potential in the root xylem sap; this osmotic adjustment in the xylem was large enough to establish an osmotic gradient for entry of water and cause guttation at a nutrient solution osmotic potential of −4.8 bars. Pressure potential in the root and leaf xylem became negative only at nutrient solution osmotic potentials lower than −4.8 bars. About half of the xylem osmotic adjustment in the presence of polyethylene glycol 400 was caused by increased accumulation of K+, Na+, Ca2+, and Mg2+ in the root xylem. These studies indicate that larger polyethylene glycol molecules such as polyethylene glycol 6000 are more useful for simulating soil water stress than smaller molecules such as polyethylene glycol 400. 相似文献
104.
KJ Aufderheide 《Biotechnic & histochemistry》2016,91(5):352-356
The original ammoniacal silver carbonate staining technique and subsequent modification developed by Fernández-Galiano are useful for investigating ciliate protozoan systematics and/or ciliate cortical structure and morphogenesis. The technique is complicated, however, by both uncertainties arising from the need to count drops of reagents and subjective control of the staining intensity. I have resolved these complications by defining volumes of reagents rather than using drops and by defining a range of staining times. I also comment on various steps of the techniques. My techniques are simplified and refined to produce consistent, high quality staining results. 相似文献
105.
Hendrik Jan Thibaut Lonneke van der Linden Ping Jiang Bert Thys María-Dolores Canela Leire Aguado Bart Rombaut Eckard Wimmer Aniko Paul María-Jesús Pérez-Pérez Frank J. M. van Kuppeveld Johan Neyts 《PLoS pathogens》2014,10(4)
Enteroviruses (family of the Picornaviridae) cover a large group of medically important human pathogens for which no antiviral treatment is approved. Although these viruses have been extensively studied, some aspects of the viral life cycle, in particular morphogenesis, are yet poorly understood. We report the discovery of TP219 as a novel inhibitor of the replication of several enteroviruses, including coxsackievirus and poliovirus. We show that TP219 binds directly glutathione (GSH), thereby rapidly depleting intracellular GSH levels and that this interferes with virus morphogenesis without affecting viral RNA replication. The inhibitory effect on assembly was shown not to depend on an altered reducing environment. Using TP219, we show that GSH is an essential stabilizing cofactor during the transition of protomeric particles into pentameric particles. Sequential passaging of coxsackievirus B3 in the presence of low GSH-levels selected for GSH-independent mutants that harbored a surface-exposed methionine in VP1 at the interface between two protomers. In line with this observation, enteroviruses that already contained this surface-exposed methionine, such as EV71, did not rely on GSH for virus morphogenesis. Biochemical and microscopical analysis provided strong evidence for a direct interaction between GSH and wildtype VP1 and a role for this interaction in localizing assembly intermediates to replication sites. Consistently, the interaction between GSH and mutant VP1 was abolished resulting in a relocalization of the assembly intermediates to replication sites independent from GSH. This study thus reveals GSH as a novel stabilizing host factor essential for the production of infectious enterovirus progeny and provides new insights into the poorly understood process of morphogenesis. 相似文献
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110.
Daniele Catalucci Deng-Hong Zhang Jaime DeSantiago Franck Aimond Guillaume Barbara Jean Chemin Désiré Bonci Eckard Picht Francesca Rusconi Nancy D. Dalton Kirk L. Peterson Sylvain Richard Donald M. Bers Joan Heller Brown Gianluigi Condorelli 《The Journal of cell biology》2009,184(6):923-933
The insulin IGF-1–PI3K–Akt signaling pathway has been suggested to
improve cardiac inotropism and increase Ca2+ handling through
the effects of the protein kinase Akt. However, the underlying molecular
mechanisms remain largely unknown. In this study, we provide evidence for an
unanticipated regulatory function of Akt controlling L-type Ca2+
channel (LTCC) protein density. The pore-forming channel subunit
Cavα1 contains highly conserved PEST sequences (signals for
rapid protein degradation), and in-frame deletion of these PEST sequences
results in increased Cavα1 protein levels. Our findings show
that Akt-dependent phosphorylation of Cavβ2, the LTCC chaperone
for Cavα1, antagonizes Cavα1 protein
degradation by preventing Cavα1 PEST sequence recognition,
leading to increased LTCC density and the consequent modulation of
Ca2+ channel function. This novel mechanism by which Akt
modulates LTCC stability could profoundly influence cardiac myocyte
Ca2+ entry, Ca2+ handling, and
contractility. 相似文献