The Effect of Regulatory Sequence Elements upon the Initiation of DNA Replication of the Minute Virus of Mice

AbstractThe minute virus of mice (MVM) genome is a linear single-stranded length of approximately 5000 nucleotides of DNA with unique terminal palindromic sequences at both ends. The left (3′) hairpin is used to prime the initiation of DNA synthesis on parental single-strand DNA while the right (5′) hairpin or stem-plus-arms structure can also prime the initiation of DNA synthesis during synthesis of dimer and higher oligomers as well as synthesis of progeny single strands. Previous studies have shown that if viral duplex DNA was input into anin vitroDNA replication system using extracts from uninfected HeLa cells, the 5′ end of the molecule was able to form a hairpin and initiate DNA synthesis by DNA polymerase δ (Cossonset al.(1996),Virology216, 258–264). In this study, the effect of the deletion of knowncis-acting genetic elements upon the initiation of DNA replication was studied using a series of MVM mutants with deletions within the 5′ terminal region. Mutants containing deletions of elements A (nucleotides 4489–4636), B (nucleotides 4636–4695), and either one or both of the 65-bp repeats (nucleotides 4720–4785 and 4785–4849) were used as template in thein vitroDNA replication system. When element A was deleted, the efficiency of initiation decreased significantly. Subsequent removal of element B, leaving just the two 65-bp repeats, restored levels of initiation back to those seen in the wild-type genome. In the absence of either A or B both 65-bp repeats were necessary for efficient initiation, and removal of one of these repeats caused a decrease in efficiency. Thus, element B appeared to have a negative regulatory effect (in the absence of element A), and element A appeared to have a positive regulatory effect, at least in the presence of element B. These data demonstrate, for the first time, a complex interaction between thesecis-acting regulatory elements which can function as both positive or negative regulators in the initiation of MVM DNA replication

Damage function for historic paper. Part I: Fitness for use

Background In heritage science literature and in preventive conservation practice, damage functions are used to model material behaviour and specifically damage (unacceptable change), as a result of the presence of a stressor over time. For such functions to be of use in the context of collection management, it is important to define a range of parameters, such as who the stakeholders are (e.g. the public, curators, researchers), the mode of use (e.g. display, storage, manual handling), the long-term planning horizon (i.e. when in the future it is deemed acceptable for an item to become damaged or unfit for use), and what the threshold of damage is, i.e. extent of physical change assessed as damage. Results In this paper, we explore the threshold of fitness for use for archival and library paper documents used for display or reading in the context of access in reading rooms by the general public. Change is considered in the context of discolouration and mechanical deterioration such as tears and missing pieces: forms of physical deterioration that accumulate with time in libraries and archives. We also explore whether the threshold fitness for use is defined differently for objects perceived to be of different value, and for different modes of use. The data were collected in a series of fitness-for-use workshops carried out with readers/visitors in heritage institutions using principles of Design of Experiments. Conclusions The results show that when no particular value is pre-assigned to an archival or library document, missing pieces influenced readers/visitors’ subjective judgements of fitness-for-use to a greater extent than did discolouration and tears (which had little or no influence). This finding was most apparent in the display context in comparison to the reading room context. The finding also best applied when readers/visitors were not given a value scenario (in comparison to when they were asked to think about the document having personal or historic value). It can be estimated that, in general, items become unfit when text is evidently missing. However, if the visitor/reader is prompted to think of a document in terms of its historic value, then change in a document has little impact on fitness for use

A phase 1b/2 study of PF-06747775 as monotherapy or in combination with Palbociclib in patients with epidermal growth factor receptor mutant advanced non-small cell lung cancer

Introduction This Phase 1/2 study (NCT02349633) explored the safety and antitumor activity of PF-06747775 (oral, third-generation epidermal growth factor receptor [EGFR] tyrosine kinase inhibitor) in patients with advanced non-small cell lung cancer after progression on an EGFR inhibitor. Methods Phase 1 was a dose-escalation study of PF-06747775 monotherapy (starting dose: 25 mg once daily [QD]). Phase 1b/2 evaluated PF-06747775 monotherapy at recommended Phase 2 dose (RP2D; Cohort 1); PF-06747775 200 mg QD plus palbociclib (starting dose: 100 mg QD orally; Cohort 2A); and PF-06747775 monotherapy at RP2D in a Japanese lead-in cohort. Results Sixty-five patients were treated. Median treatment duration was 40.1 weeks. Monotherapy maximum tolerated dose was not determined. Two patients in Cohort 2A had dose-limiting toxicities. The monotherapy RP2D was estimated to be 200 mg QD. Most frequently reported adverse events (AEs) were diarrhea (69.2%), paronychia (69.2%), and rash (60.0%). Most AEs were grades 1-3. Overall, objective response rate (90% confidence interval [CI]) was 41.5% (31.2-52.5%). Median (range) duration of response was 11.09 (2.70-34.57) months. Median progression-free survival (90% CI) was 8.1 (5.4-23.3) months. Conclusions PF-06747775 had a manageable safety profile and the study design highlights important considerations for future anti-EGFR agent development.Y

Cloning and Sequencing of Defective Particles Derived from the Autonomous Parvovirus Minute Virus of Mice for the Construction of Vectors with Minimal cis-Acting Sequences

The production of wild-type-free stocks of recombinant parvovirus minute virus of mice [MVM(p)] is difficult due to the presence of homologous sequences in vector and helper genomes that cannot easily be eliminated from the overlapping coding sequences. We have therefore cloned and sequenced spontaneously occurring defective particles of MVM(p) with very small genomes to identify the minimal cis-acting sequences required for DNA amplification and virus production. One of them has lost all capsid-coding sequences but is still able to replicate in permissive cells when nonstructural proteins are provided in trans by a helper plasmid. Vectors derived from this particle produce stocks with no detectable wild-type MVM after cotransfection with new, matched, helper plasmids that present no homology downstream from the transgene

Construction and production of oncotropic vectors, derived from MVM(p), that share reduced sequence homology with helper plasmids

SCOPUS: ar.jinfo:eu-repo/semantics/publishe