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921.
922.
Microspike-mediated particle transport towards the cell body during early spreading of 3T3 cells 总被引:2,自引:0,他引:2
Freshly trypsinized 3T3 cells send out microspikes of 0.2 μm diameter and up to 10 μm length within 20 min after attachment to a glass substratum. The microspikes move actively and eventually attach to the substratum. Subsequently, lamellae flow out between lines of attached microspikes. If, however, colloidal gold particles of 0.2–0.4 μm diameter and clusters of gold particles up to 4 μm in diameter are placed on the substratum and a microspike attaches to them, we observed two reactions of the microspikes to this contact. They either retract upon contact, transporting the attached particles to the cell surface at a speed of 0.2 μm/sec, or the particles flow toward the cell body while the microspike stays in place. This action results in the clearing of a circular area around each spreading cell before lamellae flow out. “Clearing” proceeds at serum concentrations between 1 and 20% and in concentrations of colchicine up to 20 μm/ml. In concentrations of cytochalasin B higher than 5 μg/ml, however, particle removal is completely inhibited, although the microspikes are still produced by the cell. Transmission electron microscopy shows that the microspikes contain mostly longitudinally oriented microfilaments and only a few microtubules, if any. 相似文献
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Xylella fastidiosa is a fastidious, xylem-limited bacterium that causes several economically important plant diseases, including citrus variegated chlorosis (CVC). X. fastidiosa is the first plant pathogen to have its genome completely sequenced. In addition, it is probably the least previously studied of any organism for which the complete genome sequence is available. Several pathogenicity-related genes have been identified in the X. fastidiosa genome by similarity with other bacterial genes involved in pathogenesis in plants, as well as in animals. The X. fastidiosa genome encodes different classes of proteins directly or indirectly involved in cell-cell interactions, degradation of plant cell walls, iron homeostasis, anti-oxidant responses, synthesis of toxins, and regulation of pathogenicity. Neither genes encoding members of the type III protein secretion system nor avirulence-like genes have been identified in X. fastidiosa. 相似文献
926.
Sariqa Wagley Claudia Hemsley Rachael Thomas Madeleine G. Moule Muthita Vanaporn Clio Andreae Matthew Robinson Stan Goldman Brendan W. Wren Clive S. Butler Richard W. Titball 《Journal of bacteriology》2014,196(2):407-416
The twin arginine translocation (Tat) system in bacteria is responsible for transporting folded proteins across the cytoplasmic membrane, and in some bacteria, Tat-exported substrates have been linked to virulence. We report here that the Tat machinery is present in Burkholderia pseudomallei, B. mallei, and B. thailandensis, and we show that the system is essential for aerobic but not anaerobic growth. Switching off of the Tat system in B. thailandensis grown anaerobically resulted in filamentous bacteria, and bacteria showed increased sensitivity to some β-lactam antibiotics. In Galleria mellonella and zebrafish infection models, the Tat conditional mutant was attenuated. The aerobic growth-restricted phenotype indicates that Tat substrates may play a functional role in oxygen-dependent energy conservation. In other bacteria, aerobic growth restriction in Tat mutants has been attributed to the inability to translocate PetA, the Rieske iron-sulfur protein which forms part of the quinol-cytochrome c oxidoreductase complex. Here, we show that PetA is not responsible for aerobic growth restriction in B. thailandensis. However, we have identified an operon encoding 2 proteins of unknown function (BTH_I2176 and BTH_I2175) that play a role in aerobic growth restriction, and we present evidence that BTH_I2176 is Tat translocated. 相似文献
927.
Heidi Repo Elina Kuokkanen Esko Oksanen Adrian Goldman Pirkko Heikinheimo 《Proteins》2014,82(2):300-311
The main function of lysosomal proteins is to degrade cellular macromolecules. We purified a novel lysosomal protein to homogeneity from bovine kidneys. By gene annotation, this protein is defined as a bovine phospholipase B‐like protein 1 (bPLBD1) and, to better understand its biological function, we solved its structure at 1.9 Å resolution. We showed that bPLBD1 has uniform noncomplex‐type N‐glycosylation and that it localized to the lysosome. The first step in lysosomal protein transport, the initiation of mannose‐6‐phosphorylation by a N‐acetylglucosamine‐1‐phosphotransferase, requires recognition of at least two distinct lysines on the protein surface. We identified candidate lysines by analyzing the structural and sequentially conserved N‐glycosylation sites and lysines in bPLBD1 and in the homologous mouse PLBD2. Our model suggests that N408 is the primarily phosphorylated glycan, and K358 a key residue for N‐acetylglucosamine‐1‐phosphotransferase recognition. Two other lysines, K334 and K342, provide the required second site for N‐acetylglucosamine‐1‐phosphotransferase recognition. bPLBD1 is an N‐terminal nucleophile (Ntn) hydrolase. By comparison with other Ntn‐hydrolases, we conclude that the acyl moiety of PLBD1 substrate must be small to fit the putative binding pocket, whereas the space for the rest of the substrate is a large open cleft. Finally, as all the known substrates of Ntn‐hydrolases have amide bonds, we suggest that bPLBD1 may be an amidase or peptidase instead of lipase, explaining the difficulty in finding a good substrate for any members of the PLBD family. Proteins 2014; 82:300–311. © 2013 Wiley Periodicals, Inc. 相似文献
928.
Scott A. Walper Shawna R. Battle P. Audrey Brozozog Lee Dan Zabetakis Kendrick B. Turner Patricia E. Buckley Alena M. Calm Heather S. Welsh Candice R. Warner Melody A. Zacharko Ellen R. Goldman George P. Anderson 《Analytical biochemistry》2014
We constructed a genetic fusion of a single domain antibody (sdAb) with the thermal stable maltose binding protein from the thermophile Pyrococcus furiosus (PfuMBP). Produced in the Escherichia coli cytoplasm with high yield, it proved to be a rugged and effective immunoreagent. The sdAb–A5 binds BclA, a Bacillus anthracis spore protein, with high affinity (KD ∼ 50 pM). MBPs, including the thermostable PfuMBP, have been demonstrated to be excellent folding chaperones, improving production of many recombinant proteins. A three-step purification of E. coli shake flask cultures of PfuMBP–sdAb gave a yield of approximately 100 mg/L highly purified product. The PfuMBP remained stable up to 120 °C, whereas the sdAb–A5 portion unfolded at approximately 68 to 70 °C but could refold to regain activity. This fusion construct was stable to heating at 1 mg/ml for 1 h at 70 °C, retaining nearly 100% of its binding activity; nearly one-quarter (24%) activity remained after 1 h at 90 °C. The PfuMBP–sdAb construct also provides a stable and effective method to coat gold nanoparticles. Most important, the construct was found to provide enhanced detection of B. anthracis Sterne strain (34F2) spores relative to the sdAb–A5 both as a capture reagent and as a detection reagent. 相似文献
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