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101.
Trf1 Is Not Required for Proliferation or Functional Telomere Maintenance in Chicken DT40 Cells 总被引:1,自引:0,他引:1
Carol Cooley Katie M. Baird Virginie Faure Thomas Wenner Jillian L. Stewart Sonie Modino Predrag Slijepcevic Christine J. Farr Ciaran G. Morrison 《Molecular biology of the cell》2009,20(10):2563-2571
The telomere end-protection complex prevents the ends of linear eukaryotic chromosomes from degradation or inappropriate DNA repair. The homodimeric double-stranded DNA-binding protein, Trf1, is a component of this complex and is essential for mouse embryonic development. To define the requirement for Trf1 in somatic cells, we deleted Trf1 in chicken DT40 cells by gene targeting. Trf1-deficient cells proliferated as rapidly as control cells and showed telomeric localization of Trf2, Rap1, and Pot1. Telomeric G-strand overhang lengths were increased in late-passage Trf1-deficient cells, although telomere lengths were unaffected by Trf1 deficiency, as determined by denaturing Southern and quantitative FISH analysis. Although we observed some clonal variation in terminal telomere fragment lengths, this did not correlate with cellular Trf1 levels. Trf1 was not required for telomere seeding, indicating that de novo telomere formation can proceed without Trf1. The Pin2 isoform and a novel exon 4, 5–deleted isoform localized to telomeres in Trf1-deficient cells. Trf1-deficient cells were sensitive to DNA damage induced by ionizing radiation. Our data demonstrate that chicken DT40 B cells do not require Trf1 for functional telomere structure and suggest that Trf1 may have additional, nontelomeric roles involved in maintaining genome stability. 相似文献
102.
Keith J. Murphy Judith P. F. Ter Horst Andrew W. Cassidy Ian E. J. DeSouza Marina Morgunova Christine Li Laura M. Connole Niamh C. O’Sullivan Jennifer S. Loscher Angela T. Brady Nanette Rombach Joanna Connellan Paul A. McGettigan Darren Scully Rocio Fedriani Bartlomiej Lukasz Mary P. Moran Olive M. McCabe Caitlin M. Wantuch Zoe A. Hughes Sean K. Mulvany Desmond G. Higgins Menelas N. Pangalos Karen L. Marquis William T. O’Connor Robert H. Ring David Von Schack Ciaran M. Regan 《Journal of neurochemistry》2010,113(3):601-614
103.
Alex G. McKee Jennifer S. Loscher Niamh C. O’Sullivan Naomi Chadderton Arpad Palfi Laura Batti Graham K. Sheridan Sean O’Shea Mary Moran Olive McCabe Alfonso Blanco Fernández Menelas N. Pangalos John J. O’Connor Ciaran M. Regan William T. O’Connor Peter Humphries G. Jane Farrar Keith J. Murphy 《Journal of neurochemistry》2010,112(4):991-1004
104.
Matthew G. LaPorte Tandy L. Draper Lori E. Miller Charles W. Blackledge Lara K. Leister Eugene Amparo Alison R. Hussey Dorothy C. Young Srinivas K. Chunduru Christopher A. Benetatos Gerry Rhodes Ariamala Gopalsamy Torsten Herbertz Christopher J. Burns Stephen M. Condon 《Bioorganic & medicinal chemistry letters》2010,20(9):2968-2973
We describe the structure–activity relationship of the C1-group of pyrano[3,4-b]indole based inhibitors of HCV NS5B polymerase. Further exploration of the allosteric binding site led to the discovery of the significantly more potent compound 12. 相似文献
105.
Methods for efficient and accurate prediction of RNA structure are increasingly valuable, given the current rapid advances in understanding the diverse functions of RNA molecules in the cell. To enhance the accuracy of secondary structure predictions, we developed and refined optimization techniques for the estimation of energy parameters. We build on two previous approaches to RNA free-energy parameter estimation: (1) the Constraint Generation (CG) method, which iteratively generates constraints that enforce known structures to have energies lower than other structures for the same molecule; and (2) the Boltzmann Likelihood (BL) method, which infers a set of RNA free-energy parameters that maximize the conditional likelihood of a set of reference RNA structures. Here, we extend these approaches in two main ways: We propose (1) a max-margin extension of CG, and (2) a novel linear Gaussian Bayesian network that models feature relationships, which effectively makes use of sparse data by sharing statistical strength between parameters. We obtain significant improvements in the accuracy of RNA minimum free-energy pseudoknot-free secondary structure prediction when measured on a comprehensive set of 2518 RNA molecules with reference structures. Our parameters can be used in conjunction with software that predicts RNA secondary structures, RNA hybridization, or ensembles of structures. Our data, software, results, and parameter sets in various formats are freely available at http://www.cs.ubc.ca/labs/beta/Projects/RNA-Params. 相似文献
106.
A Centrosome-autonomous Signal That Involves Centriole Disengagement Permits Centrosome Duplication in G2 Phase after DNA Damage 总被引:1,自引:0,他引:1
DNA damage can induce centrosome overduplication in a manner that requires G2-to-M checkpoint function, suggesting that genotoxic stress can decouple the centrosome and chromosome cycles. How this happens is unclear. Using live-cell imaging of cells that express fluorescently tagged NEDD1/GCP-WD and proliferating cell nuclear antigen, we found that ionizing radiation (IR)-induced centrosome amplification can occur outside S phase. Analysis of synchronized populations showed that significantly more centrosome amplification occurred after irradiation of G2-enriched populations compared with G1-enriched or asynchronous cells, consistent with G2 phase centrosome amplification. Irradiated and control populations of G2 cells were then fused to test whether centrosome overduplication is allowed through a diffusible stimulatory signal, or the loss of a duplication-inhibiting signal. Irradiated G2/irradiated G2 cell fusions showed significantly higher centrosome amplification levels than irradiated G2/unirradiated G2 fusions. Chicken–human cell fusions demonstrated that centrosome amplification was limited to the irradiated partner. Our finding that only the irradiated centrosome can duplicate supports a model where a centrosome-autonomous inhibitory signal is lost upon irradiation of G2 cells. We observed centriole disengagement after irradiation. Although overexpression of dominant-negative securin did not affect IR-induced centrosome amplification, Plk1 inhibition reduced radiation-induced amplification. Together, our data support centriole disengagement as a licensing signal for DNA damage-induced centrosome amplification. 相似文献
107.
This study sought to determine if antisense oligodeoxynucleotides would inhibit E-selectin expression, which mediates leukocyte adhesion on endothelial cells, otherwise induced by in vivo endotoxin challenge. Six antisense phosphorothioate oligodeoxynucleotides calculated to bind porcine E-selectin mRNA were tested in porcine aortic endothelial cells. One, ISIS9481, exerted significant inhibition of E-selectin expression induced by tumor necrosis factor-α?+?endotoxin [lipopolysaccharide (LPS)]. Pigs were challenged with LPS (10?μg/kg) and treated with ISIS9481 (10?mg/kg) (n?=?6). Two control groups were used, an antisense inactive in porcine aortic endothelial cells (n?=?6) and saline (n?=?5), and were combined as control (C?=?11). Control pigs challenged with LPS expressed E-selectin in heart, lung, kidneys, and liver, whereas antisense-treated pigs expressed little E-selectin in these tissues. Cardiovascular data indicated that antisense treatment attenuated pathophysiological alterations induced by LPS. Specifically, in control pigs, LPS reduced cardiac output 32% from baseline, increased pulmonary (+116%) and systemic vascular resistances (+16%), and generated neutropenia (from 51,000 at basal to 18,000 polymorphonuclear neutrophils (PMN)/μL after LPS). In antisense-treated pigs, cardiac output decreased only 18%, pulmonary vascular resistance remained unchanged, whereas systemic vascular resistance decreased compared with basal values (-37%). PMN counts remained at 45,000-54,000/μL at 3-4 hours after LPS. These data demonstrate that antisense oligodeoxynucleotides, designed and tested in vitro to interact with 1 gene product, can be developed as either therapeutics or experimental tools in vivo. 相似文献
108.
Relative vulnerability of female turtles to road mortality 总被引:1,自引:0,他引:1
D. A. Steen M. J. Aresco S. G. Beilke B. W. Compton E. P. Condon C. Kenneth Dodd Jr. H. Forrester J. W. Gibbons J. L. Greene G. Johnson T. A. Langen M. J. Oldham D. N. Oxier R. A. Saumure F. W. Schueler J. M. Sleeman L. L. Smith J. K. Tucker & J. P. Gibbs 《Animal Conservation》2006,9(3):269-273
Recent studies suggest that freshwater turtle populations are becoming increasingly male-biased. A hypothesized cause is a greater vulnerability of female turtles to road mortality. We evaluated this hypothesis by comparing sex ratios from published and unpublished population surveys of turtles conducted on- versus off-roads. Among 38 166 turtles from 157 studies reporting sex ratios, we found a consistently larger female fraction in samples from on-roads (61%) than off-roads (41%). We conclude that female turtles are indeed more likely to cross roadways than are males, which may explain recently reported skewed sex ratios near roadways and signify eventual population declines as females are differentially eliminated. 相似文献
109.
110.
Development of a Chinese hamster ovary cell line for recombinant adenovirus-mediated gene expression
Condon RG Schaefer EJ Santoro M Longley R Tsao YS Zurawski SM Liu Z 《Biotechnology progress》2003,19(1):137-143
Recombinant human adenovirus (rhAd) has been used extensively for functional protein expression in mammalian cells including those of human and nonhuman origin. High-level protein production by rhAd vectors is expected in their permissive host cells, such as the human embryonic kidney 293 (HEK293) cell line. This is attributed primarily to the permissiveness of HEK293 to rhAd infection and their ability to support viral DNA replication by providing the missing El proteins. However, the HEK293 cells tend to suffer from cytopathic effect (CPE) as a result of virus replication. Under these circumstances, the host cell function is compromised and the culture viability will be reduced. Consequently, newly synthesized polypeptides may not be processed properly at posttranslational levels. Therefore, the usefulness of HEK293 cells for the expression of complex targets such as secreted proteins could be limited. In the search for a more robust cell line as a production host for rhAd expression vectors, a series of screening experiments was performed to isolate clones from Chinese hamster ovary-K1 (CHO-K1) cells. First, multiple rounds of infection of CHO-K1 cells were performed utilizing an rhAd expressing GFP. After each cycle of infection, a small population of CHO cells with high GFP levels was enriched by FACS. Second, individual clones more permissive to human adenovirus infection were isolated from the highly enriched subpopulation by serial dilution. A single clone, designated CHO-K1-C5, was found to be particularly permissive to rhAd infection than the parental pool and has served as a production host in the successful expression of several secreted proteins. 相似文献