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901.
Thomas Nietzel Natalya V. Dudkina Christin Haase Peter Denolf Dmitry A. Semchonok Egbert J. Boekema Hans-Peter Braun Stephanie Sunderhaus 《The Journal of biological chemistry》2013,288(4):2238-2245
Globulins are an important group of seed storage proteins in dicotyledonous plants. They are synthesized during seed development, assembled into very compact protein complexes, and finally stored in protein storage vacuoles (PSVs). Here, we report a proteomic investigation on the native composition and structure of cruciferin, the 12 S globulin of Brassica napus. PSVs were directly purified from mature seeds by differential centrifugations. Upon analyses by blue native (BN) PAGE, two major types of cruciferin complexes of ∼ 300–390 kDa and of ∼470 kDa are resolved. Analyses by two-dimensional BN/SDS-PAGE revealed that both types of complexes are composed of several copies of the cruciferin α and β polypeptide chains, which are present in various isoforms. Protein analyses by two-dimensional isoelectric focusing (IEF)/SDS-PAGE not only revealed different α and β isoforms but also several further versions of the two polypeptide chains that most likely differ with respect to posttranslational modifications. Overall, more than 30 distinct forms of cruciferin were identified by mass spectrometry. To obtain insights into the structure of the cruciferin holocomplex, a native PSV fraction was analyzed by single particle electron microscopy. More than 20,000 images were collected, classified, and used for the calculation of detailed projection maps of the complex. In contrast to previous reports on globulin structure in other plant species, the cruciferin complex of Brassica napus has an octameric barrel-like structure, which represents a very compact building block optimized for maximal storage of amino acids within minimal space. 相似文献
902.
903.
904.
Sergey A. Novgorodov Tatjana I. Gudz Yulia E. Kushnareva Dmitry B. Zorov Yury B. Kudrjashov 《FEBS letters》1990,270(1-2):108-110
The effect of oligomycin and cyclosporine A on the induction of non-specific permeability of the inner mitochondrial membrane by Ca2+ was under study. Both oligomycin and cyclosporine A were able to prevent the activation of non-specific permeability, but cyclosporine A was the only agent which could restore initial permeability of the inner mitochondrial membrane. The effect of cyclosporine A was shown not to be mediated through redistribution of Ca2+ between different mitochondrial subpopulations 相似文献
905.
Dmitry V. Suchkov Reagan DeFlorio Edward Draper Amber Ismael Madhushalini Sukumar Robert Arkowitz David E. Stone 《Molecular biology of the cell》2010,21(10):1737-1752
In the best understood models of eukaryotic directional sensing, chemotactic cells maintain a uniform distribution of surface receptors even when responding to chemical gradients. The yeast pheromone receptor is also uniformly distributed on the plasma membrane of vegetative cells, but pheromone induces its polarization into “crescents” that cap the future mating projection. Here, we find that in pheromone-treated cells, receptor crescents are visible before detectable polarization of actin cables and that the receptor can polarize in the absence of actin-dependent directed secretion. Receptor internalization, in contrast, seems to be essential for the generation of receptor polarity, and mutations that deregulate this process confer dramatic defects in directional sensing. We also show that pheromone induces the internalization and subsequent polarization of the mating-specific Gα and Gβ proteins and that the changes in G protein localization depend on receptor internalization and receptor–Gα coupling. Our data suggest that the polarization of the receptor and its G protein precedes actin polarization and is important for gradient sensing. We propose that the establishment of receptor/G protein polarity depends on a novel mechanism involving differential internalization and that this serves to amplify the shallow gradient of activated receptor across the cell. 相似文献
906.
Homologous recombination (HR) performs crucial functions including DNA repair, segregation of homologous chromosomes, propagation of genetic diversity, and maintenance of telomeres. HR is responsible for the repair of DNA double-strand breaks and DNA interstrand cross-links. The process of HR is initiated at the site of DNA breaks and gaps and involves a search for homologous sequences promoted by Rad51 and auxiliary proteins followed by the subsequent invasion of broken DNA ends into the homologous duplex DNA that then serves as a template for repair. The invasion produces a cross-stranded structure, known as the Holliday junction. Here, we describe the properties of Rad54, an important and versatile HR protein that is evolutionarily conserved in eukaryotes. Rad54 is a motor protein that translocates along dsDNA and performs several important functions in HR. The current review focuses on the recently identified Rad54 activities which contribute to the late phase of HR, especially the branch migration of Holliday junctions. 相似文献
907.
Dmitry M. Sitnikov Jeffrey B. Schineller Thomas O. Baldwin 《Molecular microbiology》1995,17(5):801-812
908.
909.
Tamara Azarashvili Olga Krestinina Anastasia Galvita Dmitry Grachev Yulia Baburina Rolf Stricker Georg Reiser 《Journal of bioenergetics and biomembranes》2014,46(2):135-145
In our previous studies phosphorylation of several membrane-bound proteins in brain and liver mitochondria were found to be regulated by Ca2+ as a second messenger. One of the proteins, the 46 kDa phosphoprotein was found to be highly phosphorylated when Ca2+-induced permeability transition pore (mPTP) was opened in rat brain mitochondria (RBM). In the present study the 46 kDa phosphoprotein was identified as 2′,3′-cyclic nucleotide 3′-phosphodiesterase (CNPase) after purification by 2D diagonal electrophoresis following mass spectrometric analysis and Western blot probed with anti-CNP antibody. CNPase was discovered in immunoprecipitates of mitochondria, phosphorylated under both conditions (control and with opened mPTP). Status phosphorylation of CNPase was found to be higher in the inmmunoprecipiates of calcium-overloaded RBM. The phospohoserine and phosphotyrosine residues were detected in phosphorylated 46 kDa band (CNPase) as well as in CNPase immunoprecipitates indicating possible participation of tyrosine and serine protein kinases in phosphorylation of CNPase in mitochondria. The levels of phospo-Ser and phospho-Tyr were increased in RBM with mPTP opened. It was found that CNPase substrate, 2′,3′-cAMP (5 μM) and, a non-competitive CNPase inhibitor, atractyloside (5 μM), were able to increase the level of CNPase phosphorylation in calcium-overloaded mitochondria, while CsA (mPTP blocker) was able to strong suppress the phosphorylation of the enzyme. Collectively, our results provide evidence that Ca2+-stimulated and mPTP-associated CNPase phosphorylation might be an important stage of mPTP regulation in mitochondria, revealing a new function of CNPase outside of myelin structure. 相似文献
910.
Shay Covo Christopher M. Puccia Juan Lucas Argueso Dmitry A. Gordenin Michael A. Resnick 《Genetics》2014,196(2):373-384
Gain or loss of chromosomes resulting in aneuploidy can be important factors in cancer and adaptive evolution. Although chromosome gain is a frequent event in eukaryotes, there is limited information on its genetic control. Here we measured the rates of chromosome gain in wild-type yeast and sister chromatid cohesion (SCC) compromised strains. SCC tethers the newly replicated chromatids until anaphase via the cohesin complex. Chromosome gain was measured by selecting and characterizing copper-resistant colonies that emerged due to increased copies of the metallothionein gene CUP1. Although all defective SCC diploid strains exhibited increased rates of chromosome gain, there were 15-fold differences between them. Of all mutants examined, a hypomorphic mutation at the cohesin complex caused the highest rate of chromosome gain while disruption of WPL1, an important regulator of SCC and chromosome condensation, resulted in the smallest increase in chromosome gain. In addition to defects in SCC, yeast cell type contributed significantly to chromosome gain, with the greatest rates observed for homozygous mating-type diploids, followed by heterozygous mating type, and smallest in haploids. In fact, wpl1-deficient haploids did not show any difference in chromosome gain rates compared to wild-type haploids. Genomic analysis of copper-resistant colonies revealed that the “driver” chromosome for which selection was applied could be amplified to over five copies per diploid cell. In addition, an increase in the expected driver chromosome was often accompanied by a gain of a small number of other chromosomes. We suggest that while chromosome gain due to SCC malfunction can have negative effects through gene imbalance, it could also facilitate opportunities for adaptive changes. In multicellular organisms, both factors could lead to somatic diseases including cancer. 相似文献