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181.
Yamada K Miyata T Tsuchiya D Oyama T Fujiwara Y Ohnishi T Iwasaki H Shinagawa H Ariyoshi M Mayanagi K Morikawa K 《Molecular cell》2002,10(3):671-681
We present the X-ray structure of the RuvA-RuvB complex, which plays a crucial role in ATP-dependent branch migration. Two RuvA tetramers form the symmetric and closed octameric shell, where four RuvA domain IIIs spring out in the two opposite directions to be individually caught by a single RuvB. The binding of domain III deforms the protruding beta hairpin in the N-terminal domain of RuvB and thereby appears to induce a functional and less symmetric RuvB hexameric ring. The model of the RuvA-RuvB junction DNA ternary complex, constructed by fitting the X-ray structure into the averaged electron microscopic images of the RuvA-RuvB junction, appears to be more compatible with the branch migration mode of a fixed RuvA-RuvB interaction than with a rotational interaction mode. 相似文献
182.
Without an epidermis, we would be in a sorry state. The epidermal layer not only protects us from environmental pathogens but also acts as a 'barrier' to water loss. The identification of the molecular nature of the barrier has occupied the efforts of skin researchers over many years, with the consensus in the field being that a protein-lipid layer, located in the upper layers of the epidermis, is necessary for establishment and maintenance of a water barrier. Now, evidence has been presented that components of intercellular junctions, termed tight junctions, also play an essential role in development of barrier function in the skin. Remarkably, the data support a hypothesis that was presented more than 30 years ago. 相似文献
183.
Niwa H Tsuchiya D Makyio H Yoshida M Morikawa K 《Structure (London, England : 1993)》2002,10(10):1415-1423
FtsH is a cytoplasmic membrane-integrated, ATP-dependent metalloprotease, which processively degrades both cytoplasmic and membrane proteins in concert with unfolding. The FtsH protein is divided into the N-terminal transmembrane region and the larger C-terminal cytoplasmic region, which consists of an ATPase domain and a protease domain. We have determined the crystal structures of the Thermus thermophilus FtsH ATPase domain in the nucleotide-free and AMP-PNP- and ADP-bound states, in addition to the domain with the extra preceding segment. Combined with the mapping of the putative substrate binding region, these structures suggest that FtsH internally forms a hexameric ring structure, in which ATP binding could cause a conformational change to facilitate transport of substrates into the protease domain through the central pore. 相似文献
184.
In vitro refolding process of urea-denatured microbial transglutaminase without pro-peptide sequence 总被引:5,自引:0,他引:5
Yokoyama K Kunio O Ohtsuka T Nakamura N Seguro K Ejima D 《Protein expression and purification》2002,26(2):329-335
Efficient refolding process of denatured mature microbial transglutaminase (MTG) without pro-peptide sequence was studied in the model system using urea-denatured pure MTG. Recombinant MTG, produced and purified to homogeneity according to the protocol previously reported, was denatured with 8M urea at neutral pH and rapidly diluted using various buffers. Rapid dilution with neutral pH buffers yielded low protein recovery. Reduction of protein concentration in the refolding solution did not improve protein recovery. Rapid dilution with alkaline buffers also yielded low protein recovery. However, dilution with mildly acidic buffers showed quantitative protein recovery with partial enzymatic activity, indicating that recovered protein was still arrested in the partially refolded state. Therefore, we further investigated the efficient refolding procedures of partially refolded MTG formed in the acidic buffers at low temperature (5 degrees C). Although enzymatic activity remained constant at pH 4, its hydrodynamic properties changed drastically during the 2h after the dilution. Titration of partially refolded MTG to pH 6 after 2h of incubation at pH 4.0 improved the enzymatic activity to a level comparable with that of the native enzyme. The same pH titration with incubation shorter than 2h yielded less enzymatic activity. Refolding trials performed at room temperature led to aggregation, with almost half of the activity yield obtained at 5 degrees C. We conclude that rapid dilution of urea denatured MTG under acidic pH at low temperature results in specific conformations that can then be converted to the native state by titration to physiological pH. 相似文献
185.
186.
Tsuboi D Qadota H Kasuya K Amano M Kaibuchi K 《Biochemical and biophysical research communications》2002,292(3):697-701
To screen for important molecules that interact with a gene of interest in Caenorhabditis elegans (C. elegans), we established a novel functional screening system using the yeast two-hybrid system with the RNA interference technique. Our screening system makes it possible to identify the molecular machinery involved in the function of a gene of interest starting with the cDNA of this gene. As a model case, we examined the molecular machinery involved in the function of GEX-3, an essential factor of tissue morphogenesis. We identified many interacting molecules by yeast two-hybrid screening and could detect some functional interactions using this novel functional screening system. 相似文献
187.
188.
189.
Functional analysis of isoforms of NADPH: protochlorophyllide oxidoreductase (POR), PORB and PORC, in Arabidopsis thaliana 总被引:3,自引:0,他引:3
Masuda T Fusada N Oosawa N Takamatsu K Yamamoto YY Ohto M Nakamura K Goto K Shibata D Shirano Y Hayashi H Kato T Tabata S Shimada H Ohta H Takamiya K 《Plant & cell physiology》2003,44(10):963-974
NADPH:protochlorophyllide oxidoreductase (POR) catalyzes the light-dependent reduction of protochlorophyllide. To elucidate the physiological function of three differentially regulated POR isoforms (PORA, PORB and PORC) in Arabidopsis thaliana, we isolated T-DNA tagged null mutants of porB and porC. The mature seedlings of the mutants had normal photosynthetic competencies, showing that PORB and PORC are interchangeable and functionally redundant in developed plants. In etiolated seedlings, only porB showed a reduction in the photoactive protochlorophyllide and the size of prolamellar bodies (PLBs), indicating that PORB, as well as PORA, functioned in PLB assembly and photoactive protochlorophyllide formation in etiolated seedlings. When illuminated, the etiolated porB seedling was able to green to a similar extent as the wild type, whereas the greening was significantly reduced under low light conditions. During greening, high light irradiation increased the level of PORC protein, and the greening of porC was repressed under high light conditions. The porB, but not porC, etiolated seedling was more sensitive to the far-red block of greening than the wild type, which is caused by depletion of endogenous POR proteins resulting in photo-oxidative damage. These results suggest that, at the onset of greening, PLBs are important for efficient capture of light energy for photoconversion under various light conditions, and PORC, which is induced by high light irradiation, contributes to photoprotection during greening of the etiolated seedlings. 相似文献
190.