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81.
Nuclear assembly of UGA decoding complexes on selenoprotein mRNAs: a mechanism for eluding nonsense-mediated decay? 下载免费PDF全文
de Jesus LA Hoffmann PR Michaud T Forry EP Small-Howard A Stillwell RJ Morozova N Harney JW Berry MJ 《Molecular and cellular biology》2006,26(5):1795-1805
Recoding of UGA from a stop codon to selenocysteine poses a dilemma for the protein translation machinery. In eukaryotes, two factors that are crucial to this recoding process are the mRNA binding protein of the Sec insertion sequence, SBP2, and the specialized elongation factor, EFsec. We sought to determine the subcellular localization of these selenoprotein synthesis factors in mammalian cells and thus gain insight into how selenoprotein mRNAs might circumvent nonsense-mediated decay. Intriguingly, both EFsec and SBP2 localization differed depending on the cell line but significant colocalization of the two proteins was observed in cells where SBP2 levels were detectable. We identify functional nuclear localization and export signals in both proteins, demonstrate that SBP2 undergoes nucleocytoplasmic shuttling, and provide evidence that SBP2 levels and localization may influence EFsec localization. Our results suggest a mechanism for the nuclear assembly of the selenocysteine incorporation machinery that could allow selenoprotein mRNAs to circumvent nonsense-mediated decay, thus providing new insights into the mechanism of selenoprotein translation. 相似文献
82.
Roel GW Verhaak Frank JT Staal Peter JM Valk Bob Lowenberg Marcel JT Reinders Dick de Ridder 《BMC bioinformatics》2006,7(1):105-15
Background
Intensity values measured by Affymetrix microarrays have to be both normalized, to be able to compare different microarrays by removing non-biological variation, and summarized, generating the final probe set expression values. Various pre-processing techniques, such as dChip, GCRMA, RMA and MAS have been developed for this purpose. This study assesses the effect of applying different pre-processing methods on the results of analyses of large Affymetrix datasets. By focusing on practical applications of microarray-based research, this study provides insight into the relevance of pre-processing procedures to biology-oriented researchers. 相似文献83.
Berry MJ Tujebajeva RM Copeland PR Xu XM Carlson BA Martin GW Low SC Mansell JB Grundner-Culemann E Harney JW Driscoll DM Hatfield DL 《BioFactors (Oxford, England)》2001,14(1-4):17-24
The mechanism of selenocysteine incorporation in eukaryotes has been assumed for almost a decade to be inherently different from that in prokaryotes, due to differences in the architecture of selenoprotein mRNAs in the two kingdoms. After extensive efforts in a number of laboratories spanning the same time frame, some of the essential differences between these mechanisms are finally being revealed, through identification of the factors catalyzing cotranslational selenocysteine insertion in eukaryotes. A single factor in prokaryotes recognizes both the selenoprotein mRNA, via sequences in the coding region, and the unique selenocysteyl-tRNA, via both its secondary structure and amino acid. The corresponding functions in eukaryotes are conferred by two distinct but interacting factors, one recognizing the mRNA, via structures in the 3' untranslated region, and the second recognizing the tRNA. Now, with these factors in hand, crucial questions about the mechanistic details and efficiency of this intriguing process can begin to be addressed. 相似文献
84.
Most selenoproteins contain a single selenocysteine residue per polypeptide chain, encoded by an in-frame UGA codon. Selenoprotein P is unique in that its mRNA encodes 10-12 selenocysteine residues, depending on species. In addition to the high number of selenocysteines, the protein is cysteine- and histidine-rich. The function of selenoprotein P has remained elusive, in part due to the inability to express the recombinant protein. This has been attributed to presumed inefficient translation through the selenocysteine/stop codons. Herein, we report for the first time the expression of recombinant rat selenoprotein P in a transiently transfected human epithelial kidney cell line, as well as the endogenously expressed protein from HepG2 and Chinese hamster ovary cells. The majority of the expressed protein migrates with the predicted 57-kDa size of full-length glycosylated selenoprotein P. Based on the histidine-rich nature of selenoprotein P, we have purified the recombinant and endogenously expressed proteins using nickel-agarose affinity chromatography. We show that the recombinant rat and endogenous human proteins react in Western blotting and immunoprecipitation assays with commercial anti-histidine antibodies. The ability to express, purify, and immunochemically detect the recombinant protein provides a foundation for investigating the functions and efficiency of expression of this intriguing protein. 相似文献
85.
86.
Previously it has been shown that insulin-mediated tyrosine phosphorylation of myosin heavy chain is concomitant with enhanced association of C-terminal SRC kinase during skeletal muscle differentiation. We sought to identify putative site(s) for this phosphorylation event. A combined bioinformatics approach of motif prediction and evolutionary and structural analyses identified tyrosines163 and 1856 of the skeletal muscle heavy chain as the leading candidate for the sites of insulin-mediated tyrosine phosphorylation. Our work is suggestive that tyrosine phosphorylation of myosin heavy chain, whether in skeletal muscle or in platelets, is a significant event that may initiate cytoskeletal reorganization of muscle cells and platelets. Our studies provide a good starting point for further functional analysis of MHC phosphor-signalling events within different cells. 相似文献
87.
Gereben B Goncalves C Harney JW Larsen PR Bianco AC 《Molecular endocrinology (Baltimore, Md.)》2000,14(11):1697-1708
We investigated the mechanism by which T4 regulates its activation to T3 by the type 2 iodothyronine deiodinase (D2). D2 is a short- lived (t1/2 50 min), 31-kDa endoplasmic reticulum (ER) integral membrane selenoenzyme that generates intracellular T3. Inhibition of the ubiquitin (Ub) activating enzyme, E1, or MG132, a proteasome blocker, inhibits both the basal and substrate-induced acceleration of D2 degradation. Using a catalytically active transiently expressed FLAG-tagged-NH2-D2, we found rapid synthesis of high molecular mass (100-300 kDa) Ub-D2 conjugates that are catalytically inactive. Ub-D2 increases when cells are exposed to D2 substrate or MG132 and disappears rapidly after E1 inactivation. Fusion of FLAG epitope to the COOH terminus of D2 prolongs its half-life approximately 2.5-fold and increases the levels of active and, especially, Ub-D2. This indicates that COOH-terminal modification interferes with proteasomal uptake of Ub-D2 that can then be deubiquitinated. Interestingly, the type 1 deiodinase, a related selenoenzyme that also converts T4 to T3 but with a half-life of >12 h, is inactivated but not ubiquitinated or degraded after exposure to substrate. Thus, ubiquitination of the ER-resident enzyme D2 constitutes a specific posttranslational mechanism for T4 regulation of its own activation in the central nervous system and pituitary tissues in which D2-catalyzed T4 to T3 conversion is the major source of intracellular T3. 相似文献
88.
DNA-protein cross-links are generated by both endogenous and exogenous DNA damaging agents, as intermediates during normal DNA metabolism, and during abortive base excision repair. Cross-links are relatively common lesions that are lethal when they block progression of DNA polymerases. DNA-protein cross-links may be broadly categorized into four groups by the DNA and protein chemistries near the cross-link and by the source of the cross-link: DNA-protein cross-links may be found (1) in nicked DNA at the 3' end of one strand (topo I), (2) in nicked DNA at the 5' end of one strand (pol beta), (3) at the 5' ends of both strands adjacent to nicks in close proximity (topo II; Spo 11), and (4) in one strand of duplex DNA (UV irradiation; bifunctional carcinogens and chemotherapeutic agents). Repair mechanisms are reasonably well-defined for groups 1 and 3, and suggested for groups 2 and 4. Our work is focused on the recognition and removal of DNA-protein cross-links in duplex DNA (group 4). 相似文献
89.
Effects of nucleotide sequence alignment on phylogeny estimation: a case study of 18S rDNAs of apicomplexa 总被引:13,自引:5,他引:8
The reconstruction of phylogenetic history is predicated on being able to
accurately establish hypotheses of character homology, which involves
sequence alignment for studies based on molecular sequence data. In an
empirical study investigating nucleotide sequence alignment, we inferred
phylogenetic trees for 43 species of the Apicomplexa and 3 of Dinozoa based
on complete small-subunit rDNA sequences, using six different
multiple-alignment procedures: manual alignment based on the secondary
structure of the 18S rRNA molecule, and automated similarity-based
alignment algorithms using the PileUp, ClustalW, TreeAlign, MALIGN, and SAM
computer programs. Trees were constructed using neighboring-joining,
weighted-parsimony, and maximum- likelihood methods. All of the multiple
sequence alignment procedures yielded the same basic structure for the
estimate of the phylogenetic relationship among the taxa, which presumably
represents the underlying phylogenetic signal. However, the placement of
many of the taxa was sensitive to the alignment procedure used; and the
different alignments produced trees that were on average more dissimilar
from each other than did the different tree-building methods used. The
multiple alignments from the different procedures varied greatly in length,
but aligned sequence length was not a good predictor of the similarity of
the resulting phylogenetic trees. We also systematically varied the gap
weights (the relative cost of inserting a new gap into a sequence or
extending an already-existing gap) for the ClustalW program, and this
produced alignments that were at least as different from each other as
those produced by the different alignment algorithms. Furthermore, there
was no combination of gap weights that produced the same tree as that from
the structure alignment, in spite of the fact that many of the alignments
were similar in length to the structure alignment. We also investigated the
phylogenetic information content of the helical and nonhelical regions of
the rDNA, and conclude that the helical regions are the most informative.
We therefore conclude that many of the literature disagreements concerning
the phylogeny of the Apicomplexa are probably based on differences in
sequence alignment strategies rather than differences in data or
tree-building methods.
相似文献
90.
Sequences required for cell-type specific thyroid hormone regulation of rat growth hormone promoter activity 总被引:8,自引:0,他引:8
We have located sequences within the rat growth hormone (rGH) promoter region which are required for pituitary cell-type specific responsiveness to T3 (thyroid hormone, 3,5,3'-L-triiodothyronine). Transient transfections with a series of plasmids containing as few as 202 nucleotides upstream of the start site of the rat growth hormone mRNA showed specific induction by T3 in rat pituitary cell lines. Both the magnitude and the kinetics of this response were similar to those of the endogenous rGH gene, showing a strong early induction followed by a decline in T3 effect. Deletion of an additional 19 base pairs (to -183 relative to the start site) eliminated this induction. Plasmids containing sequences up to -237 or -202 showed significant promoter activity but no T3 responsiveness in transfections of mouse fibroblasts or monkey kidney cells. The presence of high affinity nuclear T3 binding proteins was demonstrated in both cell types. These results show that sequences between -183 and -202 are required for pituitary cell specific T3 regulation of the rGH promoter. The lack of T3 responsiveness in non-pituitary cells suggests that such regulation may be mediated by factors present in pituitary cells and absent in other cells. 相似文献