• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 26
  • 18
  • 4
  • 3
  • 2
  • 1
  • 1
  • Tagged with
  • 60
  • 60
  • 13
  • 9
  • 8
  • 7
  • 6
  • 6
  • 5
  • 5
  • 5
  • 5
  • 5
  • 5
  • 5
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
51

Mechanism of MDA5 Recognition of Short RNA Ligands and Crystal Structure of PepQ

Watts, Tylan Aubrey 16 December 2013 (has links)
The innate immune pathways that stimulate the expression of cytokines and proapoptotic factors in response to infection are triggered by the activation of the cytosolic receptors retinoic acid-inducible gene I (RIG-I) and melanoma differentiationassociated gene 5 (MDA5). Activation of both receptors occurs as a result of binding to RNA. MDA5 only recognizes double stranded forms of RNA, whereas RIG-I is capable of recognizing both single and double stranded RNA. In vivo, MDA5 is known to be stimulated by long (>1 kb) strands of RNA, forming filaments along the phosphate backbone. However, the manner in which MDA5 can recognize the terminal end of its RNA ligand is uncertain. I have examined the mechanism of binding of the MDA5 protein by comparing MDA5 binding to short (<18 bp) blunt RNA, 5’ triphosphate RNA, and RNA with a 3’ or 5’ overhang. It is shown that while the MDA5 protein regulatory domain (RD) is essential for RNA recognition, the MDA5 RD only weakly recognizes short double stranded RNA ligands with overhangs or a 5’ triphosphate group. The Cys951 residue was shown to disrupt stability of the MDA5 RD-RNA complex. Binding analyses were performed using a combination of SDS-PAGE, gel filtration analysis, and nondenaturing gel electrophoresis. In addition, structural data was gathered by crystallization of the MDA5 RD-RNA complex using X-ray crystallography. These results help to establish the manner in which MDA5 is regulated predominantly to the binding of long RNA ligands. Also included in this document is structural data on the dimer form of the PepQ protein from E. coli. PepQ is a highly conserved proline peptidase that has a secondary activity of hydrolyzing organophosphorus triesters, toxic compounds found in many pesticides. The PepQ protein was crystallized and analyzed by X-ray diffraction. The dimer interface was clearly defined within the structure and provides insight into how the active dimer forms from the PepQ monomer.
52

Regulation of Transcription of Mouse Immunoglobulin Germ-Line γ1 RNA: Structural Characterization of Germ-Line γ1 RNA and Molecular Analysis of the Promoter: A Dissertation

Xu, Minzhen 01 May 1991 (has links)
The antibody class switch is achieved by DNA recombination between the sequences called switch (S) regions located 5' to immunoglobulin (Ig) heavy chain constant (CH) region genes. This process can be induced in cultured B cells by polyclonal stimulation and switching can be directed to specific antibody classes by certain lymphokines. These stimuli may regulate the accessibility of CH genes and their S regions to a recombinase as indicated by hypomethylation and transcriptional activity. For example, RNAs transcribed from specific unrearranged (germ-line) CH genes are induced prior to switching under conditions that promote subsequent switching to these same CH genes. The function of transcription of these germ-line CH genes is unknown. How stimuli regulate the accessibility of CHgenes is also unclear. I report in this dissertation the structure of the RNA transcribed from the unrearranged Cγ1 gene in mouse spleen cells treated with LPS plus a HeLa cell supernatant containing recombinant interleukin 4 (rIL-4). I will also show that an 150-bp region upstream of the first initiation site of germ-line γ1 RNA contains promoter and enhancer elements responsible for basal level expression and inducibility by phorbol 12-myristate 13-acetate (PMA) and synergy with IL-4 in an IgM+ B cell line, L10A6.2, and an IgG2a+B cell line, A20.3. The germ-line γ1 RNA is initiated at multiple start sites 5' to the tandem repeats of the γ1 switch (Sγ1) region. As is true for analogous RNAs transcribed from other unrearranged genes, the germ-line γ1 RNA has an I exon transcribed from the region 5' to the Sγ1 region.. The Iγ1 exon is spliced at a unique site to the Cγ1 gene. The germ-line γ1 RNA has an open-reading frame (ORF) that potentially encodes a small protein 48 amino acids in length. Elements located within the 150 bp region 5' to the first initiation site of germ-line γ1 RNA are necessary and sufficient to confer inducibility by PMA and synergy with IL-4 to a minimal thymidine kinase (TK) promoter in L10A6.2 cells but are not sufficient to confer this inducibility in A20.3 cells. Linker-scanning mutations demonstrated that these multiple elements function in a mutually dependent manner as indicated by the fact that mutation of any single element will decrease constitutive expression and inducibility by PMA and PMA plus IL-4. This 150-bp region contains several consensus sequences that bind to known or putative transcription factors, including a C/EBP binding site/IL-4 response element (in the promoter for Ia Aαkgene), four CACCC boxes, a PU box, a TGFβ inhibitory element (TIE), an interferon-αβ response element (αβIRE), and an AP-3 site. My results begin to provide a description of the mechanism of regulation of the accessibility of unrearranged germ-line Sγ1-Cγ1 gene. By activating the germ-line γ1 promoter, IL-4 induces transcription of germ-line γ1 RNA, thereby inducing accessibility of the Sγ1-Cγ1 gene. By inhibiting expression of the germ-line γ1 promoter, IFNγ and TGFβ down-regulate transcription of germ-line γ1 RNA, thus reducing the accessibility of the Sγ1-Cγ1 gene. My results also suggest that signaling via the antigen receptor on B cells may be involved in induction of switch to IgG1. Furthermore, this is the first case reported in which multiple functionally interdependent elements are needed to respond to PMA.
53

Translational Control Of p53 And Its Isoform By Internal Initiation

Grover, Richa 01 January 2008 (has links)
Tumor suppressor p53, the guardian of the genome, has been intensely studied molecule owing to its central role in maintaining cellular integrity. While the level of p53 protein is maintained low in unstressed conditions, there is a rapid increase in the functional p53 protein levels during stress conditions. It is now well documented in literature that p53 protein accumulates in the cells following DNA damage by posttranslational modifications leading to increased stability and half life of protein. Additionally, recent studies have also highlighted the significance of increased p53 translation during stress conditions. Interestingly, an alternative initiation codon has been shown to be present within the coding region of p53 mRNA. Translation initiation from this internal AUG results in an N-terminally truncated p53 isoform, described as ΔN-p53. However, the mechanisms underlying co-translational regulation of p53 and ΔN-p53 are still poorly understood. Studies have suggested that synthesis of both p53 and its ΔN-p53 isoform is regulated during cell cycle and also stress and cell-type specific manner. Interestingly, reports also demonstrate continued synthesis of both p53 isoforms during stress conditions. In contrast, global rates of cap-dependent translation initiation are shown to be reduced during stress conditions. This translation attenuation is observed mainly due to restricted availability of critical initiation factors. Interestingly, preferential synthesis of a vital pool of survival factors persists even during these circumstances. Studies have suggested that this selective translation is mediated via alternative mechanisms of translation initiation. One of the important mechanisms used for protein synthesis during these conditions is internal initiation. In this mechanism, the ribosomes are recruited to a complex RNA structural element known as ‘Internal Ribosome Entry Site (IRES)’, generally present in the 5’ untranslated region (UTR) of mRNA. Therefore, it is possible that the translation of p53 and ΔN-p53 could also be regulated by IRES mediated translation, especially during stress conditions. In this thesis the role of internal initiation in translational control of p53 and ΔN-p53 has been investigated. Additionally, the putative secondary structure of p53 IRES RNA has been determined. Further, it has been shown that polypyrimidine tract binding (PTB) protein acts as an important regulator of p53 IRES activities. The probable mechanism of action of PTB protein has also been investigated. The results suggest that interaction with PTB alters the p53 IRES conformation which could facilitate translation initiation. Finally, the possible physiological significance of existence of p53 IRES elements has been addressed. In the first part of the thesis, the presence of internal ribosome entry site within p53 mRNA has been investigated. As a first step, the 5’UTRs mediating the translation of both p53 and ΔN-p53 were cloned in the intercistronic regions of bicistronic constructs. Results of in vivo transfection of these bicistronic constructs suggested the presence of two IRES elements within p53 mRNA, with activities comparable to known viral and cellular IRESs. The IRES directing the translation of p53 is in the 5'-untranslated region of the mRNA, whereas the IRES mediating the translation of ΔN-p53 extends further into the protein-coding region. To further validate, stringent assays were performed to rule out the possibility of any cryptic promoter activity, re-initiation/scanning or alternative splicing in the p53 mRNA. Transfection of in vitro synthesized bicistronic RNAs confirmed the presence of IRES elements within p53 mRNA. Incidentally, this constitutes the first report on translational control of p53 by internal initiation. In the second part of the thesis, the secondary structure of p53 IRES RNA has been investigated. Structural analysis of p53 RNA was performed using structure-specific nucleases and modifying chemicals. The results obtained from chemical modification and nuclease probing experiments were used to constrain Mfold predicted structures. Based on this, a putative secondary structure model for p53 IRES RNA has been derived. Sequence alignment suggested that the p53 IRES RNA showed significant sequence conservation across mammalian species. To study the effect of mutations on the IRES structure, mutant p53 IRESs were used that harbor silent mutations at critical locations within the p53 IRES element. Incidentally, one of the mutant constructs used in the study was observed to be a naturally occurring mutation in a chronic lymphocyte leukemia patient. RNA structure analyses of these two mutant p53 IRES RNAs were performed. The nuclease mapping data suggested conformational alteration in these mutant RNAs with respect to wild type. Consistently, a comparative Circular-Dichroism spectroscopy of the Wt and mutant RNAs also validated the conformational alteration of the mutant RNAs. This also suggested that the presence of mutations in p53 IRES might result in decreased induction of p53 protein following DNA damage due to altered RNA structure. This might constitute as one of the mechanisms leading to tumor development in some types of cancers. In the third part of the thesis, the role of important cellular proteins that might modulate p53 IRES mediated translation has been studied. These cellular proteins act as IRES interacting trans-acting factors (ITAFs). Polypyrimidine tract binding (PTB) protein is an important ITAF implicated in regulating IRES mediated gene expression during apoptosis. It was observed that PTB protein specifically interacts with both the IRES elements within p53 mRNA. Interestingly, the affinity of interaction of PTB protein with both p53 IRES RNAs was observed to be significantly different. In order to determine the contact points of PTB on p53 IRES, a foot-printing assay using structure specific nuclease and recombinant-PTB protein was performed on p53 RNA. The data from foot-printing as well as primer extension inhibition assay (toe-printing analysis) suggested the presence of multiple PTB binding sites on p53 IRES RNA. Based on these results, a deletion mutant was generated that showed reduced PTB binding and also reduced IRES activity as compared to wild type. Further, to study the role of PTB in mediating p53 translation, the expression of PTB gene was partially silenced by using PTB specific siRNA. Partial depletion of endogenous PTB protein showed a significant decrease in the p53 IRES activities. These results suggest that PTB protein is essential for the p53 IRES activities. To understand the probable mechanism by which PTB regulates p53 IRES mediated translation, CD spectroscopy analysis of p53 IRES RNA was performed in the absence and presence of PTB protein. Interestingly, CD spectra analysis of the p53 RNA in the presence of PTB suggested a specific conformational change in p53 IRES, which might probably facilitate ribosome loading during internal initiation. This also suggests that abnormal expression of p53 ITAFs might lead to reduced p53 induction following DNA damage conditions. It could also be another event leading to malignant transformation of cells bearing wild type p53. It is highly tempting to speculate that the levels of p53 ITAFs could also be used as tumor biomarkers. In the fourth part of the thesis, the physiological relevance of existence of IRES elements within p53 mRNA has been investigated. The levels of p53 and ΔN-p53 proteins are known to be regulated in a cell cycle phase-dependent manner. The IRES activities of both p53 IRES elements were investigated at different phases of cell cycle. The activity of the IRES responsible for translation of p53 protein was found to be highest at G2-M transition and the maximum IRES activity corresponding to ΔN-p53 synthesis was observed at G1-S transition. These results suggested that the p53 IRES activities are regulated in a cell-cycle phase-dependent manner. Next, the regulation of p53 IRES mediated translation during stress conditions was studied. Human lung carcinoma cell line, A549 cells (that endogenously express both the p53 isoforms), were exposed to DNA damaging drug, doxorubicin. The level of p53 protein was observed to increase in a time-dependent manner. Interestingly, PTB protein, which is predominantly nuclear, was found to translocate to the cytoplasm during stress condition in a time-dependent manner. Under similar conditions, p53 protein was observed to reverse translocate from the cytoplasm to nucleus, probably to function as a transcription factor. Next, the influence of partial PTB silencing on p53 isoforms in the presence of cell stress (mediated by doxorubicin) was investigated. The data indicated reduced levels of both p53 and ΔN-p53 when PTB gene expression was partially silenced. These observations constitute “the proof of concept” that relative abundance of an ITAF, such as PTB protein, might contribute to regulating the coordinated expression of the p53 isoforms. The thesis reveals the presence as well as the physiological relevance of existence of IRES elements within p53 mRNA. The novel discovery of p53 IRES elements may provide new insights into the underlying mechanism of translational regulation. The modulation of the p53 IRES activities by PTB protein suggests that the regulated expression of p53 isoforms depends on the integrity of IRES elements and availability of cellular proteins that can serve as p53 ITAFs. Thus, studies pertaining to the identification of mutations within p53 IRES region as well as abnormal expression of p53 ITAFs such as PTB in cancer cells may have far reaching implications. These studies might lead to further advances in the field of cancer detection, prognosis and design of novel therapeutic strategies.
54

Stabilité de l’acide ribonucléique pour la datation des fluides corporels en biologie judiciaire

Simard, Anne-Marie 09 1900 (has links)
Des recherches en sciences judiciaires ont montré récemment une possible corrélation entre le temps d’entreposage d’échantillons de fluides corporels et la dégradation de l’ARN dans ceux-ci. Le moment où une tache a été déposée sur une scène de crime peut être important pour déterminer la pertinence d’un échantillon dans une enquête. Dans ce mémoire, nous rapportons les profils de dégradation de quatre ARN différents mesurés par RT-qPCR, soit l’ARN ribosomique 18S et les ARNm de la β-actine, de la glyceraldehyde-3-phosphate déhydrogénase et de la cyclophiline A, obtenus de taches de sang, de salive et de sperme, entreposés à la température de la pièce ou au congélateur à -80°C sur une période de 6 mois. Nos résultats montrent une faible variation interindividuelle pour le sang et le sperme, mais une différence importante entre les donneurs pour la salive. De plus, le profil de dégradation est semblable pour tous les transcrits, mais diffère entre les fluides. La congélation des échantillons stabilise les ARN avant leur analyse. Finalement, la quantité d’ARN détecté est en relation avec le temps d’entreposage et pourrait être utilisée afin d’estimer l’âge des échantillons lorsque l’impact des conditions d’entreposage sur la dégradation de l’ARN sera mieux connu. / Recent studies in forensic science have shown a possible correlation between the degradation rate of some RNA transcripts and the age of bloodstains. The time of deposition of a stain can be of major importance to determine the relevance of a sample in a forensic investigation. In this thesis, we describe the degradation profiles of the 18S ribosomal RNA and the β-actin, glyceraldehyde-3-phosphate dehydrogenase and cyclophilin A mRNAs, measured by RT-qPCR and obtained from dried blood, semen and saliva stains stored at room temperature or frozen at -80°C up to 6 months. Our results showed low inter-individual variation for blood and semen stains, but a high variation was observed between donors for saliva. Moreover, degradation profile of each transcripts was similar, but differed between fluids. Freezing samples prevented RNA degradation over time. Finally, RNA quantity was in relation with the time of storage and could be used to estimate the time since deposition of a stain when the effects of various storage conditions on RNA degradation profiles will be better documented. / Projet de recherche réalisé en collaboration avec la section Biologie/ADN du Laboratoire de sciences judiciaires et de médecine légale (LSJML) de Montréal.
55

Functional Characterization Of The Internal Ribosome Entry Site Of Coxsackievirus B3 RNA

Verma, Bhupendra Kumar 04 1900 (has links) (PDF)
CoxsackievirusB3 (CVB3), a member of the Picornaviridae family is the causative agent of Virus-induced Myocarditis and Dilated Cardiomyopathy. The 5’UTR contains an Internal Ribosome Entry Site or IRES element that recruits ribosomes in a cap-independent manner. The ribosomes are recruited upstream of the AUG triplet at 591 (AUG591), also called as the cryptic AUG, after which they scan downstream for about 150 nucleotide, before initiating at the initiator AUG or AUG741. The 3’UTR of CVB3 is 99 nts long, highly structured RNA containing conserved domains, and is followed by a poly (A) tail of variable lengths. We have investigated possible involvement of host proteins which may interact with CVB3 IRES and influence its activity. We have demonstrated the role of Poly-pyrimidine tract binding protein (PTB) and established PTB as a bona-fide ITAF for CVB3, by characterizing the effect of partial silencing of PTB ex-vivo in HeLa cells. The IRES activity in BSC-1 cells, reported to have very low level of endogenous PTB, is found to be significantly low compared to that in HeLa cells. PTB is observed to interact with both the 5’ and 3’ UTR of CVB3, although with different affinities. Finer mapping of the interaction between PTB and the UTRs showed that the protein interacts with multiple regions of both UTRs. We have also shown the cis-acting effect of the CVB3-3’UTR on IRES mediated translation. The PTB contact points on the 3’UTRwas found to map to conserved regions, the deletion of which abrogates the 3’UTR mediated enhancement of the IRES activity. The possible role played by PTB in enhancing IRES activity by CVB3 3’UTR suggests that PTB protein might help in circularization of the CVB3 RNA by bridging the ends necessary for efficient translation of the viral RNA. In the second part, we have investigated possible role of some of the cis-acting element present in the CVB3 5’UTR RNA particularly the cryptic AUG. We have shown that mutation in cryptic AUG reduces the efficiency of translation mediated by the CVB3 IRES. Mutation in cryptic AUG moiety also reduces the interaction of mutant RNA with La protein. We have demonstrated that binding of 48S ribosomal complex with mutant IRES RNA was weaker compared to wt IRES RNA. We have investigated the possible alteration in secondary structure in the mutant RNA by chemical and enzymatic modification, which suggests that there is marginal alteration in the local structure due to mutation. It appears that integrity of cryptic AUG is important for efficient translation initiation by the CVB3 IRES. Results suggest that cryptic AUG plays a significant role in mediating internal initiation of translation of CVB3 RNA by mediating precise La binding and correct positioning of the 48S ribosomal complex. Finally, we have investigated the importance of a conserved hexa-nucleotide stretch in the apical loop within stem loop C (SLC, nt104-180), upstream of the ribosome landing site, on CVB3 IRES function. It has been already shown from our laboratory that the deletion at this apical loop resulted in significant decrease in IRES activity. This deletion mutant was shown to alter the secondary structure of the CVB3 5’UTR RNA. Here we have investigated the effect of point mutation in the apical loop SLC/c on CVB3 IRES activity by generating substitution mutation in the apical loop SLC/c in order to avoid possible alteration in secondary structure. Both the deletion or substitution mutation at this apical loop resulted in significant decrease in IRES activity. Both the mutant IRES RNAs (deletion and substitution mutant) failed to interact with certain trans-acting factors. Furthermore, expression of CVB3 2A protease significantly enhanced IRES activity of the wild type, but the effect was not so pronounced on the mutant IRESs. It is possible that the mutant RNAs were unable to interact with some trans-acting factors critical for enhanced IRES function. We have short-listed three proteins of approximate molecular mass of 56, 64 and 90 kDa, which showed reduced binding with mutant IRESs. By using RNA affinity column with biotinylated UTP labeled RNA we have purified couple of proteins and identified p64 as Cyto Keratin 1 protein by performing in-gel trypsin digestion followed by MALDI analysis. Overall, the results characterize the CVB3 IRES structurally and functionally, which could be useful in targeting critical RNA-protein interactions to develop candidate antiviral agent against Coxsackievirus infection.
56

Structural and Conformational Feature of RNA Duplexes

Senthil Kuma, DK January 2014 (has links) (PDF)
In recent years, several interesting biological roles played by RNA have come to light. Apart from their known role in translation of genetic information from DNA to protein, they have been shown to act as enzymes as well as regulators of gene expression. Protein-RNA complexes are involved in regulating cellular processes like cell division, differentiation, growth, cell aging and death. A number of clinically important viruses have RNA as their genetic material. Defective RNA molecules have been linked to a number of human diseases. The ability of RNA to adopt stunningly complex three-dimensional structures aids in diverse functions like catalysis, metabolite sensing and transcriptional control. Several secondary structure motifs are observed in RNA, of which the double-helical RNA motif is ubiquitous and well characterized. Though DNA duplexes have been shown to be present in many polymorphic states, RNA duplexes are believed to exhibit conservatism. Early fibre diffraction analysis on molecular structures of natural and synthetically available oligo- and polynucleotides suggested that the double-helical structures of RNA might exist in two forms: A-form and A′-form. New improved crystallographic methods have contributed to the increased availability of atomic resolution structures of many biologically significant RNA molecules. With the available structural information, it is feasible to try and understand the contribution of the variations at the base pair, base-pair step and backbone torsion angle level to the overall structure of the RNA duplex. Further, the effect of protein binding on RNA structure has not been extensively analysed. These studies have not been investigated in greater detail due to the focus of the research community on understanding conformational changes in proteins when bound to RNA, and due to the lack of a significant number of solved RNA structures in both free and protein-bound state. While studies on the conformation of the DNA double-helical stem have moved beyond the dinucleotide step into tri-, tetra-, hexa- and octanucleotide levels, similar knowledge for RNA even at the dinucleotide step level is lacking. In this thesis, the results of detailed analyses to understand the contribution of the base sequence towards RNA conformational variability as well as the structural changes incurred upon protein binding are reported. Objectives The primary objective of this thesis is to understand the following through detailed analyses of all available high-resolution crystal structures of RNA. 1 Exploring sequence-dependent variations exhibited by dinucleotide steps formed by Watson-Crick (WC) base pairs in RNA duplexes. 2 Identifying sequence-dependent variations exhibited by dinucleotide steps containing non-Watson-Crick (NWC) base pairs in RNA duplexes. 3 Developing a web application for the generation of sequence-dependent non-uniform nucleic acid structures. 4 Investigating the relationship between base sequence and backbone torsion-angle preferences in RNA double helices followed by molecular dynamics simulation using various force fields, to check their ability to reproduce the above experimental findings. Chapter 1 gives an overview of the structural features and polymorphic states of RNA duplexes and the present understanding of the structural architecture of RNA, thereby laying the background to the studies carried out subsequently. The chapter also gives a brief description on the methodologies applied. Relevant methodologies and protocols are dealt with in detail in the respective chapters. Sequence-dependent base-pair step geometries in RNA duplexes A complete understanding of the conformational variability seen in duplex RNA molecules at the dinucleotide step level can aid in the understanding of their function. This work was carried out to derive geometric information using a non-redundant RNA crystal structure dataset and to understand the conformational features (base pair and base-pair step parameters) involving all Watson-Crick (WC) (Chapter 2) and non-Watson-Crick (NWC) base pairs (Chapter 3). The sequence-dependent variations exhibited by the base-pair steps in RNA duplexes are elaborated. Further, potential non-canonical hydrogen bond interactions in the steps are identified and their relationship with dinucleotide step geometry is discussed. Comparison of the features of dinucleotide steps between free and protein-bound RNA datasets suggest variations at the base-pair step level on protein binding, which are more pronounced in non-Watson-Crick base pair containing steps. Chapter 4 describes a web-server NUCGEN-Plus, developed for building and regeneration of curved and non-uniform DNA and RNA duplexes. The main algorithm is a modification of our earlier program NUCGEN that worked mainly for DNA. The WC step parameters and intra-base parameters for RNA were obtained from the work detailed in Chapter 2. The FORTRAN code and input sequence file format was modified. The program has two modules: a) Using the model-building module, the program can build duplex structures for a given input DNA/RNA sequence. Options are available for selecting various derived or user specified base-pair step parameters, and fibre diffraction parameters that can be used in the building process. The program can generate double-helical structures up to 2000 nucleotides in length. In addition, the program can calculate the curvature of the generated duplex at defined length scale. b) Using the regeneration module, double-helical structures of nucleic acids can be rebuilt from the existing solved structures. Further, variants of an existing structure can be generated by varying the input geometric parameters. The web-server has a user-friendly interface and is freely available in the public domain at: http://nucleix.mbu.iisc.ernet.in/nucgenplus/index.html Sequence dependence of backbone torsion angle conformers in RNA duplexes RNA molecules consist of covalently linked nucleotide units. Each of these units has six rigid torsional degrees of freedom (α, β, γ, δ, ε, and ζ) for the backbone and one (χ) around the glycosidic bond connecting the base to the ribose, thereby providing conformational flexibility. An understanding of the relationship between base sequence and structural variations along the backbone can help deduce the rationale for sequence conservation and also their functional importance. Chapter 5 describes in detail the torsion angle-dependent variations seen in dinucleotide steps of RNA duplex. A non-redundant, high resolution (≤2.5Å) crystal structure dataset was created. Base-specific preferences for the backbone and glycosidic torsion angles were observed. Non-A-form torsion angle conformers were found to have a greater prevalence in protein-bound duplexes. Further validation of the above observation was performed by analysing the RNA backbone conformers and the effect of protein binding, in the crystal structure of E. coli 70S ribosome. Chapter 5 further describes the molecular dynamics simulation studies carried out to understand the effect of force fields on the RNA backbone conformer preferences. A 33mer long duplex was simulated using seven different force fields available in AMBER and CHARMM program, each for 100 ns. Trajectory analyses suggest the presence of sequence-dependent torsion angle preferences. Torsion angle conformer distribution closer to that of crystal structures was observed in the system simulated using parmbsc0 force field. Molecular dynamics simulation studies of AU/AU base-pair step A unique geometric feature, unlike that in other purine-pyrimidine (RY) steps in the crystal dataset analysis, was reported for AU/AU step (see Chapter 2). Appendix 1 describes the work carried out to validate these features observed in the crystal structures using simulation studies. Additionally, the effect of nearest-neighbor base pairs on the AU/AU step geometry were examined. General Conclusion Overall, the findings of this thesis work suggest that RNA duplexes exhibit sequence-dependent structural variations and sample a large volume of the double-helical conformational space. Further, protein binding affects the local base-pair step geometry and backbone conformation.
57

Stabilité de l’acide ribonucléique pour la datation des fluides corporels en biologie judiciaire

Simard, Anne-Marie 09 1900 (has links)
Des recherches en sciences judiciaires ont montré récemment une possible corrélation entre le temps d’entreposage d’échantillons de fluides corporels et la dégradation de l’ARN dans ceux-ci. Le moment où une tache a été déposée sur une scène de crime peut être important pour déterminer la pertinence d’un échantillon dans une enquête. Dans ce mémoire, nous rapportons les profils de dégradation de quatre ARN différents mesurés par RT-qPCR, soit l’ARN ribosomique 18S et les ARNm de la β-actine, de la glyceraldehyde-3-phosphate déhydrogénase et de la cyclophiline A, obtenus de taches de sang, de salive et de sperme, entreposés à la température de la pièce ou au congélateur à -80°C sur une période de 6 mois. Nos résultats montrent une faible variation interindividuelle pour le sang et le sperme, mais une différence importante entre les donneurs pour la salive. De plus, le profil de dégradation est semblable pour tous les transcrits, mais diffère entre les fluides. La congélation des échantillons stabilise les ARN avant leur analyse. Finalement, la quantité d’ARN détecté est en relation avec le temps d’entreposage et pourrait être utilisée afin d’estimer l’âge des échantillons lorsque l’impact des conditions d’entreposage sur la dégradation de l’ARN sera mieux connu. / Recent studies in forensic science have shown a possible correlation between the degradation rate of some RNA transcripts and the age of bloodstains. The time of deposition of a stain can be of major importance to determine the relevance of a sample in a forensic investigation. In this thesis, we describe the degradation profiles of the 18S ribosomal RNA and the β-actin, glyceraldehyde-3-phosphate dehydrogenase and cyclophilin A mRNAs, measured by RT-qPCR and obtained from dried blood, semen and saliva stains stored at room temperature or frozen at -80°C up to 6 months. Our results showed low inter-individual variation for blood and semen stains, but a high variation was observed between donors for saliva. Moreover, degradation profile of each transcripts was similar, but differed between fluids. Freezing samples prevented RNA degradation over time. Finally, RNA quantity was in relation with the time of storage and could be used to estimate the time since deposition of a stain when the effects of various storage conditions on RNA degradation profiles will be better documented.
58

La reconnaissance automatique des brins complémentaires : leçons concernant les habiletés des algorithmes d'apprentissage automatique en repliement des acides ribonucléiques

Chasles, Simon 07 1900 (has links)
L'acide ribonucléique (ARN) est une molécule impliquée dans de nombreuses fonctions cellulaires comme la traduction génétique et la régulation de l’expression des gènes. Les récents succès des vaccins à ARN témoignent du rôle que ce dernier peut jouer dans le développement de traitements thérapeutiques. La connaissance de la fonction d’un ARN passe par sa séquence et sa structure lesquelles déterminent quels groupes chimiques (et de quelles manières ces groupes chimiques) peuvent interagir avec d’autres molécules. Or, les structures connues sont rares en raison du coût et de l’inefficacité des méthodes expérimentales comme la résonnance magnétique nucléaire et la cristallographie aux rayons X. Par conséquent, les méthodes calculatoires ne cessent d’être raffinées afin de déterminer adéquatement la structure d’un ARN à partir de sa séquence. Compte tenu de la croissance des jeux de données et des progrès incessants de l’apprentissage profond, de nombreuses architectures de réseaux neuronaux ont été proposées afin de résoudre le problème du repliement de l’ARN. Toutefois, les jeux de données actuels et la nature des mécanismes de repliement de l’ARN dressent des obstacles importants à l’application de l’apprentissage statistique en prédiction de structures d’ARN. Ce mémoire de maîtrise se veut une couverture des principaux défis inhérents à la résolution du problème du repliement de l’ARN par apprentissage automatique. On y formule une tâche fondamentale afin d’étudier le comportement d’une multitude d’algorithmes lorsque confrontés à divers contextes statistiques, le tout dans le but d’éviter le surapprentissage, problème dont souffre une trop grande proportion des méthodes publiées jusqu’à présent. / Ribonucleic acid (RNA) is a molecule involved in many cellular functions like translation and regulation of gene expression. The recent success of RNA vaccines demonstrates the role RNA can play in the development of therapeutic treatments. The function of an RNA depends on its sequence and structure, which determine which chemical groups (and in what ways these chemical groups) can interact with other molecules. However, only a few RNA structures are known due to the high cost and low throughput of experimental methods such as nuclear magnetic resonance and X-ray crystallography. As a result, computational methods are constantly being refined to accurately determine the structure of an RNA from its sequence. Given the growth of datasets and the constant progress of deep learning, many neural network architectures have been proposed to solve the RNA folding problem. However, the nature of current datasets and RNA folding mechanisms hurdles the application of statistical learning to RNA structure prediction. Here, we cover the main challenges one can encounter when solving the RNA folding problem by machine learning. With an emphasis on overfitting, a problem that affects too many of the methods published so far, we formulate a fundamental RNA problem to study the behaviour of a variety of algorithms when confronted with various statistical contexts.
59

An analysis of the importance of semen in investigation of rape cases at Venda (Thohoyandou)

Mulaudzi, Ratshilumela 27 February 2020 (has links)
The use of technology and science in the investigation of crime plays a major role in the resolution of complicated cases that cannot be solved by means of other available evidence during the prosecution of rape cases. The study details the importance of semen in investigation of rape cases and emphasizes that semen discovered during the investigation must be analysed in all cases of rape and used as evidence in court. The use of semen as evidence in the investigation of rape cases is a modern intervention aimed at producing evidence that is reliable and relevant. / Criminology and Security Science / M. Tech. (Forensic Investigation)
60

Study of the Role of SAGA/SLIK Complexes and Mip6 Protein in Gene Expression Regulation in Eukaryotes

Nuño Cabanes, María del Carmen 22 July 2024 (has links)
[ES] The study of eukaryotic gene expression is challenging because of the interconnection between all steps. Many factors orchestrate gene expression by influencing several layers of regulation. The Spt-Ada-Gcn5 acetyltransferase (SAGA) complex is a transcriptional coactivator involved in the coupling between transcriptional activation and downstream events, such as transcriptional elongation and mRNA export, by interacting with other elements of the regulatory machinery, such as transcription and export complex 2 (TREX-2). In this thesis, we demonstrate that TREX-2 components influence the activity of the SAGA deubiquitination module (DUBm) and the formation of the SAGA-like (SLIK) complex, a SAGA-related complex that exists in budding yeast, whose function is still unclear. We deepened our understanding of the SAGA and SLIK duality by studying different scenarios in which the two complexes behaved similarly or showed functional differences, such as osmotic stress. We created new Spt7 mutants, in which SLIK formation was triggered or impaired, to determine the differential roles of SAGA and SLIK. Although we observed that some SAGA functions, such as histone deubiquitination, were also performed by SLIK, others were not, such as chromatin recruitment of the Spt7 and Spt8 SAGA subunits and nuclear retention of bulk mRNA under osmotic stress. We also demonstrated that the C-terminal domain of Spt7 interacts with Spt8 outside of the SAGA complex. Additionally, in this thesis we focused on the study of Mip6 protein, an mRNA-binding protein that interacts with the general export factor Mex67 and has been recently reported to participate in the regulation of the heat stress response, in a recent study from our laboratory. Using a multi-omics approach, we characterized the mip6¿ mutant in a heat shock time course experiment (0,20 and 120 min) through the generation of a high-quality multi-omics dataset, which allowed us to deepen the study of Mip6 function under heat shock and adaptation to stress. mip6¿ showed altered levels of some transcripts under stress and non-stress conditions, together with impaired recruitment of the stress-transcription factors Hsf1 and Msn2 to the chromatin and altered occupancy of RNApol II under stress. Consistent hyperactivation of trehalose metabolism genes was observed at the transcriptional level, which was accompanied by the accumulation of trehalose, a key disaccharide in the stress response with a protective function. / [CA] El estudio de la expresión génica en eucariotas es un desafío debido a la interconexión entre todos los pasos. Muchos factores orquestan la expresión genética al influir en varios niveles su regulación. El complejo Spt-Ada-Gcn5 acetiltransferasa (SAGA) es un coactivador transcripcional involucrado en el acoplamiento entre la activación transcripcional y eventos posteriores, como la elongación transcripcional y la exportación de ARNm, al interactuar con otros elementos de la maquinaria de regulación, como el complejo de transcripción y exportación 2 (TREX-2). En esta tesis, demostramos que componentes de TREX-2 influyen en la actividad del módulo de desubiquitinación de SAGA (DUBm) y en la formación del complejo SAGA-like (SLIK), un complejo relacionado con SAGA que existe en la levadura, cuya función aún se desconoce. Profundizamos nuestra comprensión de la dualidad de SAGA y SLIK, mediante el estudio de diferentes escenarios en los que los dos complejos se comportaban de manera similar o mostraban diferencias funcionales, como el estrés osmótico. Creamos nuevos mutantes de Spt7, en los que se favoreció o impidió la formación de SLIK, para determinar las diferencias funcionales entre ambos complejos. Aunque observamos que algunas funciones de SAGA, como la desubiquitinación de histonas, también fueron realizadas por SLIK, otras no, como el reclutamiento a la cromatina de las subunidades de SAGA Spt7 y Spt8 y la retención nuclear del ARNm en estrés osmótico. También demostramos que el dominio C-terminal de Spt7 interacciona con Spt8 fuera del complejo SAGA. Además, en esta tesis nos centramos en el estudio de la proteína Mip6, una proteína de unión a ARNm que interacciona con el factor general de exportación Mex67 y cuya función en la regulación de la respuesta al estrés térmico se ha descrito en un reciente estudio de nuestro laboratorio. Utilizando un enfoque multiómico, caracterizamos el mutante mip6D en un experimento de estrés térmico de 120 minutos mediante la generación de un conjunto de datos de alta calidad, lo que nos permitió profundizar en el estudio de la función de Mip6 en choque térmico y en la adaptación a dicho estrés. mip6D mostró niveles alterados de algunos tránscritos en condiciones de estrés y no estrés, junto con un reclutamiento a la cromatina deficiente de los factores de transcripción Hsf1 y Msn2 y una alteración en la ocupación de la RNA polimerasa II (RNApol II) en estrés térmico. Se observó una hiperactivación constante de los genes del metabolismo de la trehalosa, así como acumulación de trehalosa, un disacárido clave en la respuesta al estrés con una función protectora. / [EN] L'estudi de l'expressió gènica en eucariotes és un desafiament a causa de la interconnexió entre tots els passos. Molts factors orquesten l'expressió genètica en influir en diversos nivells la regulació. El complex Spt-Ada-Gcn5 acetiltransferasa (SAGA) és un coactivador transcripcional involucrat en l'acoblament entre l'activació transcripcional i esdeveniments posteriors, com l'elongació transcripcional i l'exportació d'ARNm, en interactuar amb altres elements de la maquinària de regulació, com ara el complex de transcripció i exportació 2 (TREX-2). En aquesta tesi, demostrem que components de TREX-2 influeixen en l'activitat del mòdul de desubiquitinació de SAGA (DUBm) i en la formació del complex SAGA-like (SLIK), un complex relacionat amb SAGA que existeix al llevat, la funció del qual encara es desconeix. Hem aprofundit la nostra comprensió de la dualitat de SAGA i SLIK, mitjançant l'estudi de diferents escenaris on els dos complexos es comportaven de manera similar o mostraven diferències funcionals, com l'estrès osmòtic. Hem creat nous mutants de Spt7, en què s'afavoreix o s'impedeix la formació de SLIK, per determinar les diferències funcionals entre ambdós complexos. Tot i que observem que algunes funcions de SAGA, com la desubiquitinació d'histones, també foren realitzades per SLIK, d'altres no, com el reclutament a la cromatina de les subunitats de SAGA Spt7 i Spt8, i la retenció nuclear de l'ARNm en estrès osmòtic. També hem demostrat que el domini C-terminal de Spt7 interacciona amb Spt8 fora del complex SAGA. A més, en aquesta tesi ens centrem en l'estudi de la proteïna Mip6, una proteïna d'unió a ARNm que interacciona amb el factor general d'exportació Mex67 i la funció de la qual en la regulació de la resposta a l'estrès tèrmic s'ha descrit en un estudi recent el nostre laboratori. Utilitzant un enfocament multiòmic, hem caracteritzat el mutant mip6D en un experiment d'estrès tèrmic de 120 minuts mitjançant la generació d'un conjunt de dades d'alta qualitat, cosa que ens ha permés aprofundir en l'estudi de la funció de Mip6 en xoc tèrmic i en la adaptació a aquest estrès. mip6D va mostrar nivells alterats d'alguns trànscrits en condicions d'estrès i no estrès, juntament amb un reclutament a la cromatina deficient dels factors de transcripció Hsf1 i Msn2, i una alteració en l'ocupació de l'RNA polimerasa II (RNApol II) en estrés tèrmic . Es va observar una hiperactivació constant dels gens del metabolisme de la trehalosa, així com acumulació de trehalosa, un disacàrid clau en la resposta a l'estrès amb una funció protectora. / This thesis was accomplished thanks to two pre-doctoral fellowships, both given by the Generalitat Valenciana, and a predoctoral contract: Pre-doctoral fellowship associated with the PROMETEO project PROMETEO2016/B/093 – “The Next Systems Biology: development of statistical methods for the biology of multiomic systems"; Pre-doctoral fellowship for research stays outside the Valencian Community BEFPI/2019/035; Pre-doctoral contract associated with the project 20182D179 – “Regulación epigenética de la formación y metabolismo de mRNPs”, given by the Ministerio de Ciencia, Innovación y Universidades from the Spanish Government. / Nuño Cabanes, MDC. (2024). Study of the Role of SAGA/SLIK Complexes and Mip6 Protein in Gene Expression Regulation in Eukaryotes [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/207009

Page generated in 0.0666 seconds