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761.
In the present study, an attempt has been made to investigate the distribution of aluminum in different regions of brain and
body organs of male albino rats, following subacute and acute aluminum exposure. Aluminum was observed to accumulate in all
regions of the brain with maximum accumulation in the hippocampus. Subcellular distribution of aluminum indicated that there
was maximum localization in the nucleus followed by cytosolic, microsomal, and mitochondrial deposition. Elution profile of
cytosolic proteins on G-75 Sephadex column revealed a substantial amount of aluminum bound to high-mol-wt protein fraction.
Aluminum was also seen to compartmentalize in almost all the tissues of the body to varying extents, and the highest accumulation
was in the spleen. 相似文献
762.
763.
Zengping Ning Libin He LáSzló Márton 《International journal of phytoremediation》2015,17(11):1097-1104
The accumulation of thallium (Tl) in brassicaceous crops is widely known, but both the uptake extents of Tl by the individual cultivars of green cabbage and the distribution of Tl in the tissues of green cabbage are not well understood. Five commonly available cultivars of green cabbage grown in the Tl-spiked pot-culture trials were studied for the uptake extent and subcellular distribution of Tl. The results showed that all the trial cultivars mainly concentrated Tl in the leaves (101~192 mg/kg, DW) rather than in the roots or stems, with no significant differences among cultivars (p = 0.455). Tl accumulation in the leaves revealed obvious subcellular fractionation: cell cytosol and vacuole >> cell wall > cell organelles. The majority (~ 88%) of leaf-Tl was found to be in the fraction of cytosol and vacuole, which also served as the major storage site for other major elements such as Ca and Mg. This specific subcellular fractionation of Tl appeared to enable green cabbage to avoid Tl damage to its vital organelles and to help green cabbage tolerate and detoxify Tl. This study demonstrated that all the five green cabbage cultivars show a good application potential in the phytoremediation of Tl-contaminated soils. 相似文献
764.
《Expert review of proteomics》2013,10(5):793-807
Plasma membrane microdomains represent subcompartments of the plasma membrane characterized by a specific lipid and protein composition. The recognition of microdomains in nearly all the eukaryotic membranes has accredited them with specialized functions in health and disease. Several proteomic studies have recently addressed the specific composition of plasma membrane microdomains, and will be reviewed in this paper. Peculiar information has been obtained, but a comprehensive view of the main protein classes required to define the microdomain proteome is still missing. The achievement of this information is slowed by the difficulties encountered in resolving and analyzing hydrophobic proteins, but it could help in understanding the overall function of plasma membrane microdomains and their involvement in human pathology. 相似文献
765.
《Channels (Austin, Tex.)》2013,7(2):110-117
Pannexins (Panxs) are a multifaceted family of ion and metabolite channels that play key roles in a number of physiological and pathophysiological settings. These single membrane large-pore channels exhibit a variety of tissue, cell type, and subcellular distributions. The lifecycles of Panxs are complex, yet must be understood to accurately target these proteins for future therapeutic use. Here we review the basics of Panx function and localization, and then analyze the recent advances in knowledge regarding Panx trafficking. We examine several intrinsic features of Panxs including specific post-translational modifications, the divergent C-termini, and oligomerization, all of which contribute to Panx anterograde transport pathways. Further, we examine the potential influence of extrinsic factors, such as protein-protein interactions, on Panx trafficking. Finally, we highlight what is currently known with respect to Panx internalization and retrograde transport, and present new data illustrating Panx1 internalization following an activating stimulus. 相似文献
766.
Sugano Sumio Dong Wan Kim Yu Yong-shen Mizushima-Sugano Junko Yoshitomo Kiyomi Watanabe Shinya Suzuki Fumio Yamaguchi Nobuo 《Gene》1992,120(2):227-233
We have combined epitope tagging with an expression cDNA library in order to isolate cDNAs encoding nuclear proteins. This system allows us to detect proteins expressed from the cDNA library by using antibodies against the epitope tag. As a tag, we used the 85-aa N-terminal peptide of the SV40 T antigen which lacks the nuclear localization signal (NLS). A strong expression vector, pEF204 [Kim et al., Gene 91 (1990) 217–223], was modified into an epitope-tagging vector, pTkim, by putting the tag-coding region and a cDNA cloning site immediately after its promoter. From cDNA libraries constructed using pTkim, we isolated eight cDNA clones whose tagged proteins were localized within the nuclei. From partial sequence analysis, two cDNAs were shown to code for the ribosomal (r-) proteins, simian L44 and human L21, and the others were shown to be new. Furthermore, six cDNAs including those encoding the r-proteins could direct a non-karyophilic T antigen [Fischer-Fantuzzi et al. Virology 153 (1986) 87–95] into nuclei, showing that they have NLSs. These results indicate that this system is useful for isolating new cDNAs which code for nuclear proteins. 相似文献
767.
Whole-leaf extracts of etiolated or light-grown barley shoots contain the C-glycosylflavones saponarin, lutonarin and lutonarin 3′-methyl ether. Plastids isolated by aqueous techniques contain only saponarin. Contamination experiments using foreign flavonoids indicate that saponarin recovered from plastids is not a contaminant from other cellular fractions. In response to brief red light treatment 24 hr before harvest, saponarin levels are approximately doubled in whole-shoot extracts, but increased about 3.5 fold in plastids. This photocontrolled increase is far-red reversible. Thus saponarin is selectively accumulated in barley plastids and this accumulation is controlled by phytochrome. 相似文献
768.
Longin and GAF Domains: Structural Evolution and Adaptation to the Subcellular Trafficking Machinery
Nicola De Franceschi Klemens Wild Alexander Schlacht Joel B. Dacks Irmgard Sinning Francesco Filippini 《Traffic (Copenhagen, Denmark)》2014,15(1):104-121
Endomembrane trafficking is one of the most prominent cytological features of eukaryotes. Given their widespread distribution and specialization, coiled‐coil domains, coatomer domains, small GTPases and Longin domains are considered primordial ‘building blocks’ of the membrane trafficking machineries. Longin domains are conserved across eukaryotes and were likely to be present in the Last Eukaryotic Common Ancestor. The Longin fold is based on the α‐β‐α sandwich architecture and a unique topology, possibly accounting for the special adaptation to the eukaryotic trafficking machinery. The ancient P er A RNT S im (PAS) and cG MP‐specific phosphodiesterases, A denylyl cyclases and F hlA (GAF) family domains show a similar architecture, and the identification of prokaryotic counterparts of GAF domains involved in trafficking provides an additional connection for the endomembrane system back into the pre‐eukaryotic world. Proteome‐wide, comparative bioinformatic analyses of the domains reveal three binding regions (A, B and C) mediating either specific or conserved protein–protein interactions. While the A region mediates intra‐ and inter‐molecular interactions, the B region is involved in binding small GTPases, thus providing an evolutionary connection among major building blocks in the endomembrane system. Finally, we propose that the peculiar interaction surface of the C region of the Longin domain allowed it to extensively integrate into the endomembrane trafficking machinery in the earliest stages of building the eukaryotic cell. 相似文献
769.
G Barrera M Parola L Paradisi L Albin M U Dianzani 《Cell biochemistry and function》1987,5(2):129-133
Disturbed cellular calcium homeostasis has been observed during CCl4 poisoning, with an increase in calcium content 1 h after administration. Intracellular increase of calcium may be expected to alter membrane/cytosol distribution of calmodulin (CaM). This paper investigates changes in rat liver subcellular CaM distribution 30 min, 1 h and 2 h after CCl4 intoxication. The whole liver value remained unchanged, whereas the nuclear fraction increased and the microsomal and cytosolic fraction decreased. This may suggest that CaM is involved in the several liver cell alterations caused by CCl4 poisoning. 相似文献
770.
In Saccharomyces cerevisiae, ribosomal protein L7, one of the ∼46 ribosomal proteins of the 60S subunit, is encoded by paralogous RPL7A and RPL7B genes. The amino acid sequence identity between Rpl7a and Rpl7b is 97 percent; they differ by only 5 amino acid residues.
Interestingly, despite the high sequence homology, Rpl7b is detected in both the cytoplasm and the nucleolus, whereas Rpl7a
is detected exclusively in the cytoplasm. A site-directed mutagenesis experiment revealed that the change in the amino acid
sequence of Rpl7b does not influence its sub-cellular localization. In addition, introns of RPL7A and RPL7B did not affect the subcellular localization of Rpl7a and Rpl7b. Remarkably, Rpl7b was detected exclusively in the cytoplasm
in rpl7a knockout mutant, and overexpression of Rpl7a resulted in its accumulation in the nucleolus, indicating that the subcellular
localization of Rpl7a and Rpl7b is influenced by the intracellular level of Rpl7a. Rpl7b showed a wide range of localization
patterns, from exclusively cytoplasmic to exclusively nucleolar, in knock-out mutants for some rRNA-processing factors, nuclear
pore proteins, and large ribosomal subunit assembly factors. Rpl7a, however, was detected exclusively in the cytoplasm in
these mutants. Taken together, these results suggest that although Rpl7a and Rpl7b are paralogous and functionally replaceable
with each other, their precise physiological roles may not be identical. 相似文献