Computational characterisation of DNA methylomes in mycobacterium tuberculosis Beijing hyper- and hypo-virulent strains

Naidu, Alecia Geraldine

January 2014

Philosophiae Doctor - PhD / Mycobacterium tuberculosis, the causative agent of tuberculosis, is estimated to infect approximately one-third of the world’s population and is responsible for around 2 million deaths per year. The disease is endemic in South Africa which has one of the world’s highest tuberculosis incidence and death rates. The M. tuberculosis Beijing genotype are characterised by having an enhanced virulence capability over other M. tuberculosis strains and are the predominant strain observed in the Western Cape of South Africa. DNA methylation is a largely untapped area of research in M.tuberculosis and has been poorly described in the literature especially given its connection to virulence despite it being well characterised along with its role in virulence in other pathogenic bacteria such as E.coli. The overall aim was to characterise a global DNA methylation profile for two M. tuberculosis Beijing strains, hyper-virulent and hypo-virulent, using single molecule real time sequencing data technology. Moreover, to determine if adenine methylation in promoter regions has a possible functional role. This study identified and characterised the DNA methylation profile at the single nucleotide resolution in these strains using Pacific Biosciences single molecule real time sequencing data. A computational approach was used to discern DNA methylation patterns between the hyper and hypo-virulent strains with a view of understanding virulence in the hyper-virulent strain. Methylated motifs, which belong to known Restriction Modification (RM) systems of the H37Rv referencegenome were also identified. N6-methyladenine (m6A) and N4-methlycytosine (m4C) loci were identified in both strains. m6A were idenitified in both strains occuring within the following sequence motifs CACGCAG (Type II RM system), GATNNNNRTAC/GTAYNNNNATC (Type I RM system), while the CTGGAGGA motif was found to be uniquley methylated in the hyper-virulentstrain.Interestingly, the CACGCAG motif was significantly methylated (p = 9.9 x10 -63) at a higher proportion in intergenic regions (~70%) as opposed to genic regions in both the hyper-virulent and hypo-virulent strains suggesting a role in gene regulation. There appeared to be a higher proportion of m6A occuring in intergenic regions compared to within genes for hyper-virulent (61%) and hypo-virulent (62%) strains. The genic proportion revealed that 35% of total m6A occurred uniquely within genes for the hyper-virulent strain while 27.9% for uniquely methylated genes in hypo-virulent strain.

DNA methylation

Methyltransferase

Hyper-virulent strain

Next generation sequencing

Mycobacterium tuberculosis

Structure-Function And Mechanistic Studies On KpnI DNA Methyltransferase

Shivakumara, B

01 1900

No description available.

DNA - Biochemistry

DNA Methyltransferases

DNA Methylation

KpnI DNA Methyltransferase

KpnI MTase

Cell Biology

Helicobacter Pylori Restriction-Modification Systems : Possible Roles Beyond Genome Protection

Kumar, Ritesh

05 1900

Helicobacter pylori is one of the most potential and successful human pathogen which colonizes atleast 50% of world population. One of the important characteristics of this pathogen is the degree of allelic diversity and genetic variability which helps it to adapt and colonize. Phase variation is one of the mechanisms used by Helicobacter pylori to generate variation, where presence of homopolymeric nucleotide or dinucleotide repeats in an ORF make it prone to frequent length changes as a consequence of slipped strand mispairing mediated mutagenesis. An important feature of H. pylori biology is the presence of a large number of Restriction-Modification (R-M) systems in its genome. Till date, seven strains have been completely sequenced and each have more than 20 R-M systems. The presence of homopolymeric nucleotide or dinucleotide repeats in many of R-M systems make them an interesting subject for investigation. Here, we show that hp0051 which codes for a C5 cytosine methyltransferase from H. pylori is a hypermutable gene, which undergoes random mutations. In addition it exhibits phase variation due to presence of a dinucleotide (AG) repeat which results in a truncated protein. hp0051 homologs were amplified and sequenced from different clinical isolates of H. pylori. Sequence analysis showed that hp0051 homologs from 23 clinical isolates are different from each other suggesting a hypervariable nature of the sequence. It was observed that when over expressed in E. coli hp0051 undergoes random mutations. These mutations give rise to different variants of HP0051 with different biochemical properties. Different variants of HP0051 were biochemically characterized. All variants recognize 5´-CCTC-3´ and methylate the first cytosine. A few of the isoforms exhibit degeneracy in the recognition site as they recognize 5´- CNCC-3´ (N being any nucleotide) and methylates third cytosine. Molecular modelling studies suggest that HP0051 has two domains, one large domain having catalytic and AdoMet binding motifs and small domain having target recognition domain. DNA sequencing, peptide finger mapping, MALDI MS-MS and CD have been used to establish the differences between the different isoforms of HP0051. Interestingly when a mutant protein which lacks methylation activity was expressed in E.coli random mutations were not observed. To understand the role of methylation in the occurrence of random mutations, microarray analysis was done. Microarray analysis have shown that the overexpression of HP0051 results in the down regulation of deoxyadenine methyltransferase (dam) in E.coli. Microarray data were further authenticated by RT PCR analysis. dam plays a vital role in mismatch repair pathway and down regulation of dam results in enhanced mutation rates. A large number of clinical isolates were analysed for the presence of hp0051 and hp0051 was found to be present in 83% of strains obtained from patients compared to 25 % of strains from healthy volunteers. Single colonies obtained from the same patient were analysed and it was found that variation in hp0051 exists within a patient also. Deletion of an orphan C5 cytosine methyltransferase, hp0051 in H. pylori strains 26695, SS1 and 98.4 has a significant effect on the expression of number of genes belonging to motility, adhesion and virulence. 98.4∆hp0051 mutant strain has a different LPS profile and is able to induce high IL-8 production compared to wild-type. H. pylori strain 26695∆hp0051 is more motile than the wild- type. hp0051 from strain 26695 is able to complement mutant SS1 and 98.4 strains. This study highlights the possible significance of cytosine methylation in the physiology of H. pylori. hp0050 is a N6 DNA adenine methyltransferase which overlaps with the hp0051 ORF .hp0050 was cloned, over expressed and purified to near homogeneity. It recognizes the sequence 5´GRRG 3´ (where R is A or G) and most intriguingly methylates both adenines when R is A (5´GAAG 3´). Kinetic analysis suggest a non processive (repeated hit) mechanism of methylation in which HP0050 methyltransferase methylates one adenine at a time in sequence 5´GAAG 3´. Interestingly, HP0050 homologs from two clinical strains PG227 and 128 methylate only 5´GAGG 3´ compared to 5´GRRG 3´ in strain 26695. HP0050 MTase is highly conserved as it is present in more than 90% of strains. Inactivation of hp0050 in strain PG227 resulted in poor growth suggesting its important role in the physiology of Helicobacter pylori. Collectively, these findings provide impetus for exploring the role(s) of this conserved DNA methyltransferase in the cellular processes of Helicobacter pylori. In one of the clinical isolate it was found that hp0051 and hp0050 can code for a single polypeptide due to an insertion mutation. This mutant ( hp0050 and hp0051 fusion ) was cloned, overexpressed and purified. It was found that fusion protein is able to methylate both adenine and cytosine in the cognate sequence. Similarly, hp1369 - hp1370 is a phase variable type III MTase and it belongs to ɛ group of MTases based on the arrangement of motifs. It has a poly G repeat in its ORF and any change in the number of repeats can result in a functional (full length) or non functional (truncated) protein. Within strain 26695, it has 10 G repeat which results in a truncated protein. Addition of a single nucleotide by site directed mutagenesis in the repeat results in a full length functional protein. HP1369_HP1370 fusion protein recognizes and methylates 5´ TCAGC 3´. DNA methyltransferases are known to play a critical role in gene regulation, cell cycle regulation and pathogenesity in a number of pathogens. H. pylori genome is rich in DNA methyltransferases and this study shows that these methyltransferases exhibit unique features like phase - variation and polymorphism .We propose that high degree of variation that exists in these methyltransferases could play a vital role in enhancing the ability of H. pylori to adapt its host.

Helicobacter pylori

Genomes

Biochemical Genetics

DNA Methyltransferase

Adenine Methyltansferase

HP0051

H. pylori

Bacteriology

Chondrosarcome : mécanismes de résistance aux traitements conventionnels et thérapies innovantes / Chondrosarcoma : resistance mechanisms to conventional treatments and innovative therapies

Lhuissier, Eva

28 September 2017

Les chondrosarcomes sont des tumeurs malignes osseuses, considérés comme radio- et chimio-résistants, du fait de leur environnement hypoxique. Dans ce contexte, cette étude vise à mieux comprendre le rôle de l’hypoxie dans la résistance de ces tumeurs à la chimiothérapie (cisplatine) et à la radiothérapie (rayons X) et à identifier de nouvelles stratégies thérapeutiques permettant de sensibiliser les chondrosarcomes aux traitements, par un ciblage épigénétique de la méthylation de la lysine 27 de l’histone H3 (H3K27).Dans un premier temps, nous avons montré que, contrairement à ce qui est communément admis, l’hypoxie n’a pas d’effet sur la sensibilité au cisplatine ou aux rayons X dans certains chondrosarcomes alors qu’il augmente la résistance au cisplatine et la sensibilité aux rayons X uniquement dans une lignée de chondrosarcome. Dans un second temps, nous avons montré que le 3-deazaneplanocine A (DZNep) induit l’apoptose dans ces tumeurs, par un mécanisme indépendant de la méthylation de H3K27 et de sa méthylase EZH2 et semblerait agir par la voie Rhoβ/EGFR. Cependant, il provoque des effets secondaires sur la fertilité masculine. Par ailleurs, son association avec le cisplatine potentialise ses effets toxiques sur les chondrosarcomes. Le GSK-J4, quant à lui ralentit la croissance cellulaire des chondrosarcomes et son association avec le cisplatine augmente cet effet. Cette étude souligne que les chondrosarcomes possèdent des mécanismes de régulation cellulaires différents, d’où l’importance de mener des études sur plusieurs lignées cellulaires afin de mieux prédire la réponse aux traitements. De plus, ces travaux démontrent les propriétés anti-tumorales du DZNep et du GSK-J4 dans le traitement de ces tumeurs. / Chondrosarcomas are bone malignant tumors, considered as radio- and chemo-resistant, due to their hypoxic environment. In this context, this study aimed to better understand the role of hypoxia in the resistance of these tumors to chemotherapy (cisplatin) and radiotherapy (X-rays) and to identify new therapeutic strategies to re-sensitize chondrosarcomas by epigenetic targeting of H3K27 methylation. First, we showed that, contrary to what is commonly accepted, hypoxia has differential effect on cisplatin or X-ray sensitivity in chondrosarcomas, while it increases cisplatin resistance and X-ray sensitivity only in one cell line. Secondly, 3-deazaneplanocin A (DZNep) induces apoptosis in these tumors by a mechanism independent of H3K27 methylation and its methylase EZH2 and seems to act through the Rhoβ / EGFR pathway. However, it causes side effects on male fertility. In addition, its association with cisplatin potentiates its toxic effects on chondrosarcomas. The GSK-J4, on the other hand, decreases cell growth and its association with cisplatin increases this effect.This study highlights that chondrosarcomas use different cellular regulation mechanisms, showing the importance of conducting studies on several cell lines in order to better predict the response to treatments. In addition, these studies demonstrate the anti-tumoral properties of DZNep and GSK-J4 in the treatment of these tumors.

Hypoxie

Résistance

Histone déméthylase

Histone méthyltransférase

Chondrosarcoma

Chemotherapy

Radiotherapy

Hypoxia

Resistance

Epigenetics

Histone demethylase

Histone methyltransferase

Studies on lignocellulose supramolecular structures and deconstruction properties in lignin-altered rice mutants / リグニンを改変したイネ変異体におけるリグノセルロースの超分子構造と分解特性に関する研究

Andri, Fadillah Martin

23 March 2020

京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第22502号 / 農博第2406号 / 新制||農||1077(附属図書館) / 学位論文||R2||N5282(農学部図書室) / 京都大学大学院農学研究科応用生命科学専攻 / (主査)教授 梅澤 俊明, 教授 矢﨑 一史, 教授 渡邊 隆司 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DGAM

Lignin

Oryza sativa

Cinnamyl alcohol dehydrogenase

Supramolecular structure

610

BUD23-TRMT112 mediates the chromosomal tethering of Borna disease virus and catalyzes the internal m7G methylation in viral RNA / BUD23-TRMT112はボルナ病ウイルスの染色体上での結合を媒介し、ウイルスRNAの内部m7Gメチル化を触媒する

Garcia, Bea Clarise Baluyot

24 September 2021

京都大学 / 新制・課程博士 / 博士(生命科学) / 甲第23555号 / 生博第466号 / 新制||生||62(附属図書館) / 京都大学大学院生命科学研究科高次生命科学専攻 / (主査)教授 朝長 啓造, 教授 野田 岳志, 教授 千坂 修 / 学位規則第4条第1項該当 / Doctor of Philosophy in Life Sciences / Kyoto University / DFAM

bornavirus

BUD23

chromosome

host-pathogen interaction

m7G

proximity-dependent biotinylation

RNA methyltransferase

460

Charakterizace N-demetyllinkomycin-metyltransferázy. / Characterization of N-demethyllincomycin-methyltransferase.

Poľan, Marek

January 2010

Lincomycin is a naturally occurring member of a lincosamide group of antibiotics. The cluster of lincomycin biosynthetic gene was already decribed and the function of many of genes has been clarified. This work, "Characterization of N-demethyllincomycin-methyltransferase", is focused on the study of the final step of lincomycin biosynthetic pathway - the methylation of nitrogen atom from the pyrollo ring of the propylproline unit of the N-demethyllicomycin (NDL). The aim of this work was the characterization of the protein LmbJ, catalysing this final biosynthetic step. All the experiments were provided for the enzyme LmbJ with N-terminal histidine tag, which had been prepared by the heterologous expression in E.coli cells. The pH and temperature optimum was determined as well as the Michaelis constants for both substrates of the reaction - N-demethyllincomycin and S-adenosyl methionine (SAM - a methyl group donor). With the exception of the pH optimum, all specified parameters have markedly differed from the data published for the enzyme isolated from the natural source. Based on the comparison of electron microscopy, blue native gel electrophoresis and gel filtration results, the hypothetical model of the LmbJ quarternary structure was created. Majority of methyltranserases, so far described occure in...

Cocaine- and Amphetamine-Regulated Transcript Peptide-Immunoreactivity in Adrenergic C1 Neurons Projecting to the Intermediolateral Cell Column of the Rat

Dun, Siok L., Ng, Yee Kong, Brailoiu, G. Cristina, Ling, Eng Ang, Dun, Nae J.

28 February 2002

Cocaine- and amphetamine-regulated transcript (CART) peptide-immunoreactivity was detected in neurons of the rostral ventrolateral medulla (RVLM), but few in the caudal ventrolateral medulla (CVLM). Double-labeling the medullary sections with sheep polyclonal phenylethanolamine N-methyltransferase-antiserum (PNMT) or monoclonal tyrosine hydroxylase-antibody and rabbit polyclonal CART peptide-antiserum revealed that nearly all adrenergic cells in the C1 area were CART peptide-positive and vice versa; tyrosine hydroxylase-positive cells in the A1 area were not. In the thoracolumbar spinal cord, neurons in the intermediolateral cell column (IML) and other sympathetic autonomic nuclei were CART peptide-positive; some of these were contacted by immunoreactive fibers arising from the lateral funiculus. By immuno-electron microscopy, axon terminals containing closely packed agranular CART peptide-immunoreactive vesicles appeared to make synaptic contacts with immunoreactive dendrites and soma in the IML, albeit the incidence of such contacts was low. Microinjection of the retrograde tracer Fluorogold into the lateral horn area of the T1-T3 spinal segments labeled a population of neurons in the C1 area, many of which were also CART peptide-positive. The results indicate that CART peptide-immunoreactivity is expressed in C1 adrenergic neurons, some of which project to the thoracolumbar spinal cord. The presence of this novel peptide in C1 adrenergic neurons underscores the multiplicity of putative transmitters that may be involved in signaling between putative cardiovascular neurons in the medulla oblongata and sympathetic preganglionic neurons (SPNs) in the spinal cord.

caudal ventrolateral medulla

phenylethanolamine-n-methyltransferase

prolactin-releasing peptide

spinal cord

sympathetic preganglionic neurons

tyrosine hydroxylase

The Approach to Characterizing Three <i>S</i>-Adenosyl-L-Methionine-Dependent Methyltransferases from <i>Mycobacterium tuberculosis</i>

Loarer, Gwendal

January 2018

No description available.

Biochemistry

Chemistry

The impact of genetic and nutritional disturbances of folate metabolism on tumourigenesis in a mouse model of colorectal cancer /

Lawrance, Andrea Karin.

January 2007

No description available.

Colorectal Neoplasms -- genetics.

Folic Acid -- metabolism.