Structural analysis of influenza A virus nucleoprotein and its interaction with RNA and polymerase subunit PB2. / CUHK electronic theses & dissertations collection

January 2011

The poultry-to-human transmission of the influenza virus and the recent H1Nl influenza pandemic have become major concerns worldwide. The nucleoprotein (NP) of influenza virus binds the RNA genome and plays essential role in transcription and replication during the virus life cycle. / The study leads to a better understanding towards the RNP organization of influenza virus and provides information for the future design of anti-influenza agents. / We have also shown, by RNP reconstitution assay and co-immunoprecipitation, that the interaction between NP and PB2 is crucial for the proper functioning of the RNP. The functional association of NP and PB2 requires either the PB2 host-determining residue lysine-627 or arginine-630 with the latter involving NP arginine-150 also. Using SPR, we have demonstrated that both residues take part in the direct protein-protein interaction, without the involvement of RNA. These results suggest a dual interaction mechanism between NP and PB2. This may confer replication advantages to the virus, as either one can give an active RNP and explains the increased virulence of avian influenza viruses carrying the E627K mutation in mammalian cells. In addition, our findings identify the NP-PB2 interacting surface, with the PB2 627/630 region facing the RNA binding groove of NP. / We have determined the 3.3 A crystal structure of H5N1 NP, which is composed of head and body domains and a tail loop. Using surface plasmon resonance (SPR), we found the basic loop (residues 73-91) and arginine-rich groove, but mostly a protruding element centering at R174 and R175, to be important in RNA binding. Ribonucleoprotein (RNP) reconstitution assay with these multiple-point and deletion mutants indicate their functional importance towards the transcription-replication activities of the virus polymerase. Single-point mutations at these concerned regions do not have a significant effect on their RNP activities, suggesting that NP mediates RNA-binding through multiple residues. / Ng, Ka Leung. / Adviser: Pang Chui Shaw. / Source: Dissertation Abstracts International, Volume: 73-06, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2011. / Includes bibliographical references (leaves 121-136). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [201-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.

Influenza A virus

Nucleoproteins

RNA polymerases

DNA-Directed RNA Polymerases

Nucleoproteins--genetics

Viral Proteins

Structure-Function Studies of the Trypanosome Mitochondrial Replication Protein POLIB

Armstrong, Raveen

20 October 2021

Trypanosoma brucei and related protists are distinguished from all other eukaryotes by an unusual mitochondrial genome known as kinetoplast DNA (kDNA) that is a catenated network composed of minicircles and maxicircles. Replication of this single nucleoid involves a release, replicate, and reattach mechanism for the thousands of catenated minicircles and requires at least three DNA polymerase (POLIB, POLIC and POLID) with similarity to E. coli DNA polymerase I. Like other proofreading replicative DNA polymerases, POLIB has both an annotated polymerase domain and an exonuclease domain. Predictive modelling of POLIB indicates that it has the canonical right hand polymerase structure with a unique and large 369 amino acid insertion within the polymerase domain (thumb region) homologous to E. coli RNase T. The goal of this study was to evaluate whether the polymerase domain is necessary for the essential replicative role of POLIB. To study the structure-function relationship, an RNAi-complementation system was designed to ectopically express POLIB variants in T. brucei that has endogenous POLIB silenced by RNAi.Control experiments expressing an ectopic copy of POLIB wildtype (IBWTPTP) or polymerase domain mutant (IBPol-PTP) in the absence of RNAi did not impact fitness in procyclic cells despite protein levels being 5 - 8.5 fold higher than endogenous POLIB levels. Immunofluorescence detection of the tagged variants indicated homogenous expression of the variants in a population of cells and negligible changes in kDNA morphology. Lastly, Southern blot analyses of cells expressing the IBWTPTP or IBPol-PTP variants indicated no changes in free minicircle species. A dually inducible RNAi complementation system was designed and tested with the IBWTPTP and IBPol-PTP variants. Inductions of POLIB RNAi accompanied by ectopic expression of either variant using the standard 1 mg/ml tetracycline resulted in low protein levels of both variants while knockdown of the endogenous POLIB mRNA was greater than 85%. Increasing the tetracycline concentration to 4 mg/ml improved expression levels of both variants. However, levels of the ectopically expressed variants never exceeded that of endogenous POLIB. Using the 4 mg/ml induction conditions, complementation with IBWTPTP resulted in a partial rescue of the POLIB RNAi phenotype based on fitness curves, quantification of kDNA content and Southern blot analysis of free minicircles. IBWTPTP complementation resulted in gradual increase of IBWTPTP protein levels over the 10 day induction, and a small kDNA phenotype instead of the progressive loss of kDNA normally associated with POLIB RNAi. Additionally, the loss of free minicircles was delayed. Complementation with the IBPol-PTP variant produced more consistent levels of IBPol-PTP protein although still below endogenous POLIB levels. Loss of fitness was similar to POLIB RNAi alone. However, a small kDNA phenotype emerged early after just four days of complementation and persisted for the remainder of the induction. The majority of the IBRNAi + IBPol-PTP population (70%) contained small kDNA compared to the parental POLIB RNAi or IBWTPTP complementation that had only 45% and 50% small kDNA, respectively. Lastly, the pattern of free minicircle loss closely resembled POLIB RNAi alone. Together, these data suggest that the dually inducible system results in a partial rescue with the IBWTPTP variant. Rescue with IBPol-PTP variant results in a noticeably different phenotype from either POLIB RNAi alone or IBWTPTP complementation indicating that the POLIB polymerase domain is likely essential for the in vivo role of POLIB during kDNA replication.

Mitochondrial DNA Replication

DNA Polymerases

Trypanosoma brucei

Kinetoplast DNA

Family A DNA polymerases

RNAi complementation

Molecular Biology

Molecular Genetics

Other Microbiology

Improvement of thermostability of a fungal xylanase using error-prone polymerase chain reaction (EpPCR)

Pillay, Sarveshni

January 2007

Thesis (M.Tech.: Biotechnology)-Dept. of Biotechnology, Durban University of Technology, 2007 vi, 92 leaves / Interest in xylanases from different microbial sources has increased markedly in the past decade, in part because of the application of these enzymes in a number of industries, the main area being the pulp and paper industry. While conventional methods will continue to be applied to enzyme production from micro-organisms, the application of recombinant DNA techniques is beginning to reveal important information on the molecular basis and this knowledge is now being applied both in the laboratory and commercially. In this study, a directed evolution strategy was used to select an enzyme variant with high thermostability. This study describes the use of error-prone PCR to modify the xylanase gene from Thermomyces lanuginosus DSM 5826, rendering it tolerant to temperatures in excess of 80°C. Mutagenesis comprised of different concentrations of nucleotides and manganese ions. The variants were generated in iterative steps and subsequent screening for the best mutant was evaluated using RBB-xylan agar plates. The optimum temperature for the activity of xylanases amongst all the enzyme variants was 72°C whilst the temperature optimum for the wild type enzyme was 70°C. Long term thermostability screening was therefore carried out at 80°C and 90°C. The screen yielded a variant which had a 38% improvement in thermostability compared to the wild type xylanase from pX3 (the unmutated gene). Successive rounds of error-prone PCR were carried out and in each round the progeny mutant displayed better thermostability than the parent. The most stable variant exhibited 71% residual activity after 90 minutes at 80˚C. Sequence analysis revealed four single amino acid residue changes that possibly enhanced their thermostabilities. This in vitro enzyme evolution technique therefore served as an effective tool in improving the thermostable property of this xylanase which is an important requirement in industry and has considerable potential for many industrial applications.

Biotechnology

Xylanases--Biotechnology

Enzymes--Industrial applications

Protein engineering

Polymerase chain reaction

DNA polymerases

Biotechnology--Dissertations, Academic

Influenza polymerase subunit compatibility between human H1 and H5 viruses

Li, Tin-wai, Olive, 李天慧

January 2009

published_or_final_version / Microbiology / Doctoral / Doctor of Philosophy

Influenza A virus - Reproduction.

RNA polymerases.

RNA - Synthesis.

RNA viruses.

Host-virus relationships.

O papel das DNA polimerases propensas a erro e da atividade das uracila DNA glicosilases na mutagênese espontânea em Caulobacter crescentus. / The role of error-prone DNA polymerases and the activity of uracil DNA glycosylases on spontaneous mutagenesis in Caulobacter crescentus.

Valencia, Alexy Orozco

27 January 2017

Neste trabalho desvendamos o papel das DNA polimerases dinB e dnaE2 em C. crescentus na mutagênese espontânea usando dois marcadores moleculares xylbla e CItet. Observamos que as taxas de mutação dos marcadores não variam significativamente entre dinB, dnaE2 e parental, coincidindo com os resultados prévios com o gene rpoB. As trocas de bases, tanto no gene cI, como em xylR, há um predomínio de mutações ATCG, como observado em rpoB, e diferente da região PxylX em xylbla. O gene xylR apresenta um hotspot que promove a inserção de uma citosina após a base 230. Neste marcador observamos que a presença de pequenas deleções (frameshifts-1) de uma base na cepa selvagem e dnaE2. Esse tipo de mutação não está presente na linhagem dinB. Esses resultados sugerem um papel importante de dinB na formação de deleções (frameshifts-1) in vivo em C. crescentus. Também observou-se que o agente 4-NQO não induz mutagênese em C. crescentus, ao contrário de E. coli. Também observamos pouca eficiência da atividade de uracila glicosilase em C. crescentus quando comparada com E. coli. / In this work we analyzed the role of DNA polymerases dinB and dnaE2 in spontaneous mutagenesis in C. crescentus, using two molecular markers: xylbla and Cltet. Our studies show that there is no significant difference in mutation rates in both markers between dinB, dnaE2 and wild type; this agrees with previous results using rpoB gene. Here, we report that there is a predominance of ATGC transitions in either cl gene or xylR, which was also shown in rpoB; however, this differs in PxylX region of xylbla. We also observed that xylR presents a mutation hotspot that promotes cytosine insertion after base 230.The presence of small one-base deletions (frameshifts-1) in wild typecbut ells, this type of mutation does not occur in the dinB strain. These results suggest an important role for dinB in the formation of deletions (frameshifts-1) in vivo in C. crescentus. We also saw that 4-NQO agent does not induce mutagenesis in C. crescentus, as it does in E. coli. Finally, the results demonstrate a poor efficiency in UDG activity in C. crescentus, when compared to E. coli.

C. crescentus

C. crescentus

DNA polimerases

DNA polymerases

Mutagênese espontânea

Spontaneous mutagenesis

In-vivo Directed Evolution Of Galactose Oxidase By Stationary Phase Adaptive Mutations And Phylogenetic Analysis Of Error-prone Polymerases

Oreroglu, Ayla

01 November 2008

In this study, the novel idea of in-vivo directed evolution was applied in order to achieve variants of the enzyme galactose oxidase with increased activity. This procedure was done under starvation conditions in Escherichia coli BL21 Star (DE3). Previous studies have been carried out in order to improve the activity of this enzyme using directed evolution methods. In this study, the same idea was used in-vivo, during stationary phase adaptive mutations inside the host organism, hence called in-vivo directed evolution. This method gave variants with improved enzyme activity as compared with the wild-type enzyme, and some variants showed activities that were even higher than the variants of previous directed evolution studies, hence making this method a promising approach for the random mutagenesis of genes of interest. The above mentioned mutations are carried out by a special group of polymerases, the error-prone polymerases. Phylogenetic analysis of these error-prone polymerases was also carried out in order to investigate the relationship between the number of error-prone polymerases and the level of complexity of organisms, and both the number of error-prone polymerases and the ratio of error-prone polymerases to total DNA polymerases of six organisms were studied. It was found that as the organism gets more complex, the number of error-prone polymerases and their ratio to the total polymerases increase.

QR General 1-74.5

Improvement of thermostability of a fungal xylanase using error-prone polymerase chain reaction (EpPCR)

Pillay, Sarveshni

January 2007

Thesis (M.Tech.: Biotechnology)-Dept. of Biotechnology, Durban University of Technology, 2007 vi, 92 leaves / Interest in xylanases from different microbial sources has increased markedly in the past decade, in part because of the application of these enzymes in a number of industries, the main area being the pulp and paper industry. While conventional methods will continue to be applied to enzyme production from micro-organisms, the application of recombinant DNA techniques is beginning to reveal important information on the molecular basis and this knowledge is now being applied both in the laboratory and commercially. In this study, a directed evolution strategy was used to select an enzyme variant with high thermostability. This study describes the use of error-prone PCR to modify the xylanase gene from Thermomyces lanuginosus DSM 5826, rendering it tolerant to temperatures in excess of 80°C. Mutagenesis comprised of different concentrations of nucleotides and manganese ions. The variants were generated in iterative steps and subsequent screening for the best mutant was evaluated using RBB-xylan agar plates. The optimum temperature for the activity of xylanases amongst all the enzyme variants was 72°C whilst the temperature optimum for the wild type enzyme was 70°C. Long term thermostability screening was therefore carried out at 80°C and 90°C. The screen yielded a variant which had a 38% improvement in thermostability compared to the wild type xylanase from pX3 (the unmutated gene). Successive rounds of error-prone PCR were carried out and in each round the progeny mutant displayed better thermostability than the parent. The most stable variant exhibited 71% residual activity after 90 minutes at 80˚C. Sequence analysis revealed four single amino acid residue changes that possibly enhanced their thermostabilities. This in vitro enzyme evolution technique therefore served as an effective tool in improving the thermostable property of this xylanase which is an important requirement in industry and has considerable potential for many industrial applications.

Biotechnology

Xylanases--Biotechnology

Enzymes--Industrial applications

Protein engineering

Polymerase chain reaction

DNA polymerases

Biotechnology--Dissertations, Academic

Dilantin affects the rate of DNA synthesis via cyclin A and decreased concentrations of DNA polymerase [delta] in preimplantation mouse embryos

Tolliver, Autumn R.

14 December 2014

Access to abstract restricted until 12/14/2014. / Access to thesis restricted until 12/14/2014. / Department of Biology

Phenytoin -- Side effects

DNA -- Synthesis -- Regulation

Cyclins

DNA polymerases

Mice -- Embryology

N-(2'-deoxyguanosine-8-YL)-N-acetyl-2-aminofluorene induced translesion synthesis events in E. Coli: role of Y-family error-prone polymerases and the DNA sequence context /

Nokhbeh, M. Reza

January 1900

Thesis (Ph. D.)--Carleton University, 2004. / Includes bibliographical references (p. 193-221). Also available in electronic format on the Internet.

Regulation of the flagellar specific sigma factor, sigma28, of Salmonella typhimurium by the anti-sigma factor FlgM /

Chadsey, Meggen Shepherd.

January 1998

Thesis (Ph. D.)--University of Washington, 1998. / Vita. Includes bibliographical references (leaves [176]-190).