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SCHIZOCOTYLY AND GENETIC VARIATION IN ACER 总被引:1,自引:0,他引:1
88.
Herpes Simplex Virus Processivity Factor UL42 Imparts Increased DNA-Binding Specificity to the Viral DNA Polymerase and Decreased Dissociation from Primer-Template without Reducing the Elongation Rate 总被引:5,自引:2,他引:3 下载免费PDF全文
Herpes simplex virus DNA polymerase consists of a catalytic subunit, Pol, and a processivity subunit, UL42, that, unlike other established processivity factors, binds DNA directly. We used gel retardation and filter-binding assays to investigate how UL42 affects the polymerase-DNA interaction. The Pol/UL42 heterodimer bound more tightly to DNA in a primer-template configuration than to single-stranded DNA (ssDNA), while Pol alone bound more tightly to ssDNA than to DNA in a primer-template configuration. The affinity of Pol/UL42 for ssDNA was reduced severalfold relative to that of Pol, while the affinity of Pol/UL42 for primer-template DNA was increased ~15-fold relative to that of Pol. The affinity of Pol/UL42 for circular double-stranded DNA (dsDNA) was reduced drastically relative to that of UL42, but the affinity of Pol/UL42 for short primer-templates was increased modestly relative to that of UL42. Pol/UL42 associated with primer-template DNA ~2-fold faster than did Pol and dissociated ~10-fold more slowly, resulting in a half-life of 2 h and a subnanomolar Kd. Despite such stable binding, rapid-quench analysis revealed that the rates of elongation of Pol/UL42 and Pol were essentially the same, ~30 nucleotides/s. Taken together, these studies indicate that (i) Pol/UL42 is more likely than its subunits to associate with DNA in a primer-template configuration rather than nonspecifically to either ssDNA or dsDNA, and (ii) UL42 reduces the rate of dissociation from primer-template DNA but not the rate of elongation. Two models of polymerase-DNA interactions during replication that may explain these findings are presented. 相似文献
89.
A Recombinant Human Cytomegalovirus with a Large Deletion in UL97 Has a Severe Replication Deficiency 总被引:9,自引:0,他引:9 下载免费PDF全文
Mark N. Prichard Ning Gao Sanju Jairath Gilbert Mulamba Paula Krosky Donald M. Coen Breck O. Parker Gregory S. Pari 《Journal of virology》1999,73(7):5663-5670
Human cytomegalovirus encodes a protein kinase (UL97) that confers sensitivity to ganciclovir by phosphorylating it to the monophosphate. The function of this unusual kinase in viral replication is unknown. We constructed two independent isolates of a recombinant virus, RCDelta97, that contain large deletions in this gene and carry a 4.8-kb insertion containing a selectable genetic marker. These mutant viruses were isolated by using a population of primary cells (HEL97) that express this gene from integrated copies of a defective retroviral vector. The recombinant viruses were severely impaired in their ability to replicate in primary fibroblasts, attaining virus titers that were 2 to 3 orders of magnitude lower than those produced by the parent virus. Despite the severe replication deficit, both of these viruses retained the ability to form small, slowly growing plaques in primary fibroblasts, demonstrating that UL97 is not absolutely essential for replication in cell culture. The replication deficit was relieved when UL97 was provided in trans in the complementing cell line, showing that the phenotype was due to a deficiency in UL97. Thus, the UL97 gene product plays a very important role in viral replication in tissue culture and may be a good target for antiviral chemotherapy. 相似文献
90.
Inspiratory muscle weakness in patients with COPD is of major clinical relevance. For instance, maximum inspiratory pressure generation is an independent determinant of survival in severe COPD. Traditionally, inspiratory muscle weakness has been ascribed to hyperinflation-induced diaphragm shortening. However, more recently, invasive evaluation of diaphragm contractile function, structure, and biochemistry demonstrated that cellular and molecular alterations occur, of which several can be considered pathologic of nature. Whereas the fiber type shift towards oxidative type I fibers in COPD diaphragm is regarded beneficial, rendering the overloaded diaphragm more resistant to fatigue, the reduction of diaphragm fiber force generation in vitro likely contributes to diaphragm weakness. The reduced diaphragm force generation at single fiber level is associated with loss of myosin content in these fibers. Moreover, the diaphragm in COPD is exposed to oxidative stress and sarcomeric injury. This review postulates that the oxidative stress and sarcomeric injury activate proteolytic machinery, leading to contractile protein wasting and, consequently, loss of force generating capacity of diaphragm fibers in patients with COPD. Interestingly, several of these presumed pathologic alterations are already present early in the course of the disease (GOLD I/II), although these patients appear not limited in their daily life activities. Treatment of diaphragm dysfunction in COPD is complex since its etiology is unclear, but recent findings indicate the ubiquitin-proteasome pathway as a prime target to attenuate diaphragm wasting in COPD. 相似文献