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51.
Sabrina R. Heiny Sabine Pautz Mario Recker Jude M. Przyborski 《Traffic (Copenhagen, Denmark)》2014,15(12):1290-1304
Plasmodium falciparum, similar to many other apicomplexan parasites, contains an apicoplast, a plastid organelle of secondary endosymbiotic origin. Nuclear‐encoded proteins are targeted to the apicoplast by a bipartite topogenic signal consisting of (i) an endoplasmic reticulum (ER)‐type N‐terminal secretory signal peptide, followed by (ii) a plant‐like transit peptide. Although the signals responsible for transport of most proteins to the apicoplast are well described, the route of trafficking from the ER to the outermost apicoplast membrane is still a matter of debate. Current models of trafficking to the apicoplast suggest that proteins destined for this organelle are, on entry into the lumen of the ER, diverted from the default secretory pathway to a specialized vesicular system which carries proteins directly from the ER to the outer apicoplast membrane. Here, we have re‐examined this trafficking pathway. By titrating wild‐type and mutant apicoplast transit peptides against different ER retrieval sequences and studying protein transport in a brefeldin A‐resistant parasite line, we generated data which suggest a direct involvement of the Golgi in traffic of soluble proteins to the P. falciparum apicoplast. 相似文献
52.
Violetta V. Kravtsova Alexey M. Petrov Vladimir V. Matchkov Elena V. Bouzinova Alexander N. Vasiliev Boubacar Benziane Andrey L. Zefirov Alexander V. Chibalin Judith A. Heiny Igor I. Krivoi 《The Journal of general physiology》2016,147(2):175-188
The Na,K-ATPase is essential for the contractile function of skeletal muscle, which expresses the α1 and α2 subunit isoforms of Na,K-ATPase. The α2 isozyme is predominant in adult skeletal muscles and makes a greater contribution in working compared with noncontracting muscles. Hindlimb suspension (HS) is a widely used model of muscle disuse that leads to progressive atrophy of postural skeletal muscles. This study examines the consequences of acute (6–12 h) HS on the functioning of the Na,K-ATPase α1 and α2 isozymes in rat soleus (disused) and diaphragm (contracting) muscles. Acute disuse dynamically and isoform-specifically regulates the electrogenic activity, protein, and mRNA content of Na,K-ATPase α2 isozyme in rat soleus muscle. Earlier disuse-induced remodeling events also include phospholemman phosphorylation as well as its increased abundance and association with α2 Na,K-ATPase. The loss of α2 Na,K-ATPase activity results in reduced electrogenic pump transport and depolarized resting membrane potential. The decreased α2 Na,K-ATPase activity is caused by a decrease in enzyme activity rather than by altered protein and mRNA content, localization in the sarcolemma, or functional interaction with the nicotinic acetylcholine receptors. The loss of extrajunctional α2 Na,K-ATPase activity depends strongly on muscle use, and even the increased protein and mRNA content as well as enhanced α2 Na,K-ATPase abundance at this membrane region after 12 h of HS cannot counteract this sustained inhibition. In contrast, additional factors may regulate the subset of junctional α2 Na,K-ATPase pool that is able to recover during HS. Notably, acute, low-intensity muscle workload restores functioning of both α2 Na,K-ATPase pools. These results demonstrate that the α2 Na,K-ATPase in rat skeletal muscle is dynamically and acutely regulated by muscle use and provide the first evidence that the junctional and extrajunctional pools of the α2 Na,K-ATPase are regulated differently. 相似文献
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54.
Dichroic behavior of the absorbance signals from dyes NK2367 and WW375 in skeletal muscle fibers 总被引:3,自引:1,他引:2
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Absorbance signals were recorded from voltage-clamped single muscle fibers stained with the nonpenetrating potentiometric dyes NK2367 and WW375 and illuminated with quasimonochromatic light from 560 to 800 nm, linearly polarized either parallel (0 degree) or perpendicular (90 degrees) to the fiber long axis. The signals from both dyes depend strongly on the incident polarization. At any wavelength and/or polarization condition, the total absorbance signal is a superposition of the same two signal components previously identified with unpolarized light (Heiny, J. A., and J. Vergara, 1982, J. Gen. Physiol., 80:203)--namely, a fast step signal from the voltage-clamped surface membrane and a signal reflecting the slower T-system potential changes. The 0 degree and 90 degrees spectra of both membranes have similar positive and negative absorbance peaks (720 and 670 nm, respectively, for dye NK2367; 740 and 700 nm for dye WW375); in addition, they have the same dichroic maxima (670 for NK2367; 700 for WW375). However, for the surface membrane, the 0 degrees spectra are everywhere more positive than the 90 degrees spectra, whereas the reverse is true for the T-system, which results in a dichroism of opposite sign for the two membranes. These spectral characteristics were analyzed using a general model for the potential-dependent response of an absorbing dye (Tasaki, I., and A. Warashina, 1976, Photochem. Photobiol., 24:191), which takes into account both the dye response and the membrane geometries. They are consistent with the proposal that the dye responds via a common mechanism in both membranes that consists of a dye reorientation and a change in the absorption maxima. 相似文献