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Paralemmin splice variants and mRNA and protein expression in breast cancersTurk, Casey M., January 2008 (has links)
Thesis (M.S.)--University of Massachusetts Amherst, 2008. / Includes bibliographical references (p. 77-79).
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Human cleavage factor I (CFIm) and its role in alternative polyadenylation of pre-mRNAHardy, Jessica January 2017 (has links)
For many human protein-coding genes, alternative cleavage and polyadenylation (APA) of pre-mRNA generates distinct 3' untranslated regions (3'UTRs) with differing regulatory potential. Widespread 3'UTR shortening via APA occurs in proliferative cell states, including cancer, where it can lead to oncogene overexpression. There has therefore been significant interest in identifying factors which influence poly(A) site choice in different physiological states. The multi-subunit human cleavage factor I complex (CFIm), a core component of the mammalian pre-mRNA cleavage machinery, has been identified as a potential master regulator of APA, as its depletion leads to widespread 3'UTR shortening. However, mechanistic understanding of how CFIm influences poly(A) site selection, and how its activity is regulated, is lacking. In this work, gene editing was used to generate cell lines with substantial, permanent depletion of the 25 kDa or 68 kDa subunits of CFIm (CFIm25 and CFIm68), which exhibited the expected 3'UTR shortening for representative transcripts. Reversal of this 3'UTR shortening by CFIm25 or CFIm68 re-expression provided the basis for a complementation assay, which allowed various aspects of CFIm25 and CFIm68 function to be investigated in vivo. The capacity of CFIm25 to recognise UGUA RNA sequences was shown to make an important contribution to poly(A) site selection transcriptome-wide, and a novel function for the C-terminal arginine/serine-rich (RS domain) of CFIm68 in poly(A) site selection was identified. The potential contribution of CFIm post-translational modification (PTM) to APA regulation was also explored. Novel acetylation sites on CFIm25 and CFIm68 were identified, as well as extensive serine phosphorylation in the CFIm68 RS domain. Complementation analysis revealed that phosphomimetic mutations in this RS domain inhibited distal poly(A) site selection, suggesting a potential role for CFIm68 phosphorylation in APA regulation. Taken together, the findings presented here provide insights into several important determinants of CFIm function, and the complementation assay developed provides a useful tool for future investigations.
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The role of the polyadenylation site of the melanocortin 1 receptor in generating MC1R-TUBB3 chimeras and attenuation of TORC1 delays the onset of replicative and RAS-induced cellular senescienceKolisnichenko, Marina January 2012 (has links)
No description available.
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Elucidating the mechanism of localised mDNA translation during Drosophila oogenesisDavidson, Alexander F. January 2015 (has links)
No description available.
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Structural and Biochemical Studies of the Human pre-mRNA 3’-end Processing ComplexHamilton, Keith January 2021 (has links)
Most eukaryotic pre-mRNAs undergo 3′-end cleavage and polyadenylation prior to their export from the nucleus. A large number of proteins in several complexes participate in this 3′-end processing, including cleavage and polyadenylation specificity factor (CPSF) in mammals. The CPSF can be further divided into two sub-complexes: mPSF (mammalian polyadenylation specificity factor) which recognizes the AAUAAA polyadenylation signal (PAS) in the pre- mRNA, and mCF (mammalian cleavage factor) which cleaves the RNA. mPSF consists of CPSF160, CPSF30, WDR33, and hFip1. This thesis shows that AAUAAA PAS is recognized with ∼3 nM affinity by the CPSF160–WDR33–CPSF30 ternary complex, while the proteins alone or the binary complexes do not bind the PAS with high affinity. Furthermore, it is shown that mutations of residues in CPSF30 that have van der Waals interactions with the bases of the PAS lead to a sharp reduction in the affinity. Finally, variations of the AAUAAA or removing the bases downstream also reduce the binding significantly. This thesis goes on to characterize the structure of the CPSF30—hFip1 complex, which was not observed in the previous EM structures of the mPSF. It was known that CPSF30 ZF4–ZF5 recruits the hFip1 subunit of CPSF, although the details of this interaction have not been characterized. Here we report the crystal structure of human CPSF30 ZF4–ZF5 in complex with residues 161–200 of hFip1 at 1.9 Å. Unexpectedly, the structure reveals one hFip1 molecule binding to each ZF4 and ZF5, with a conserved mode of interaction. Mutagenesis studies confirm that the CPSF30–hFip1 complex has 1:2 stoichiometry in vitro. Mutation of each binding site in CPSF30 still allows one copy of hFip1 to bind, while mutation of both sites abrogates binding. Our fluorescence polarization binding assays show that ZF4 has higher affinity for hFip1, with a Kd of 1.8 nM. We also demonstrate that two copies of the catalytic module of poly(A) polymerase (PAP) are recruited by the CPSF30–hFip1 complex in vitro, and both hFip1 binding sites in CPSF30 can support polyadenylation.
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Investigation on Bacterial Signaling through Generation of a ppGpp BiosensorRobinson, Andrew 01 May 2022 (has links)
Guanosine tetraphosphate (ppGpp) is a bacterial signaling molecule involved in activating the stringent response, a cellular reaction to environmental stress that downregulates cell division and metabolism processes to conserve nutrients. The stringent response is implicated in some instances of antibiotic persistence, so broadening the current understanding of ppGpp signaling is useful. This thesis seeks to generate a ppGpp biosensor that will bind ppGpp and emit fluorescent light in its presence, which will allow for improved research into the pathways and functions of the signaling molecule. To generate a novel ppGpp biosensor, I converted a biosensor previously used to detect cyclic di-GMP (a different signaling molecule) to contain a binding site transformed to now bind specifically with ppGpp. The genetic sequence for the cyclic di-GMP binding site was replaced with the ppGpp hydrolase domain which has a specific affinity for ppGpp; however, hydrolase activity would provide unwanted breakdown of the ppGpp, so it is mutated further to neutralize hydrolase activity. The desired outcome of this thesis results in a biosensor with a binding site that has a specific and sufficient binding affinity for the ppGpp molecule. Using this, we can determine how ppGpp levels are regulated in bacteria under conditions of stress, and how this signaling molecule is related to the survival of bacteria in response to antibiotic treatment.
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Tissue Distribution of a Peptide Transporter mRNA in Sheep, Dairy Cows, Pigs, and ChickensChen, Hong 21 August 1998 (has links)
To study the mRNA found in sheep omasal epithelium encoding for a peptide transport protein(s), a 446-bp cDNA fragment was cloned from sheep omasal epithelium RNA. The predicted amino acid sequence of this fragment was 85.8, 90.5, and 90.5 percent identical to rabbit, human, and rat PepT1, respectively. The fragment was radiolabeled for use as a probe to study the distribution of the mRNA in various tissues. Total RNA was extracted and mRNA was isolated from the epithelium of gastrointestinal segments and other tissues as indicated. Northern blot analysis was conducted using the radiolabeled probe. In sheep (5) and lactating Holstein cows (3), hybridization was observed with mRNA from the omasum, rumen, duodenum, jejunum, and ileum. The estimated size of mRNA was 2.8 kb. No hybridization was observed with mRNA from the abomasum, cecum, colon, liver, kidney, and semitendinosus and longissimus muscles of either species or the mammary gland of the dairy cows. In pigs (6), the probe hybridized with mRNA from the duodenum, jejunum, and ileum. There was no hybridization with mRNA from the stomach, large intestine, liver, kidney, and semitendinosus and longissimus muscles. Two bands, 3.5 and 2.9 kb were observed with northern blot analysis, indicating two RNA transcripts that may result from alternative mRNA processing. In both Leghorns (15) and broilers (20), the strongest hybridization was found in the duodenum while the jejunum and ileum showed faint bands. The size of mRNA in chickens was 1.9 kb. Other tissues, including the crop, proventriculus, gizzard, ceca, liver, kidney, and muscles showed no hybridization to the probe. In conclusion, mRNA for a peptide transport protein(s) is present in the small intestine of all animals examined and the omasal and ruminal epithelium of sheep and dairy cows. The size of the mRNA varied among species. / Master of Science
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The influence of riboregulation on fitness and virulence in Neisseria meningitidis / Der Einfluss der Riboregulation auf Fitness und Virulenz von Neisseria meningitidisBauriedl, Saskia Corinna January 2020 (has links) (PDF)
Neisseria meningitidis (N. meningitidis) is a human commensal that occasionally causes life-threatening infections such as bacterial meningitis and septicemia. Despite experi-mental evidence that the expression of small non-coding RNAs (sRNAs) as well as the RNA chaperone Hfq affect meningococcal physiology, the impact of RNA-based regula-tion (riboregulation) on fitness and virulence in N. meningitidis is only poorly understood. Therefore, this study addressed these issues using a combination of high-throughput tech-nologies.
A differential RNA-sequencing (dRNA-seq) approach was applied to produce a single-nucleotide resolution map of the primary transcriptome of N. meningitidis strain 8013. The dRNA-seq analysis predicted 1,625 transcriptional start sites including 65 putative sRNAs, of which 20 were further validated by northern blot analysis. By Hfq RNA im-munopreci-pitation sequencing a large Hfq-centered post-transcriptional regulatory net-work comprising 23 sRNAs and 401 potential mRNA targets was identified. Rifampicin stability assays demonstrated that Hfq binding confers enhanced stability on its associat-ed sRNAs. Based on these data, the interactions of two paralogous sRNAs and their cog-nate target mRNA prpB were validated in vivo as well as in vitro. Both sRNAs directly repress prpB encoding a methylisocitrate lyse which was previously shown to be involved in meningococcal colonization of the human nasopharynx.
Besides the well-described RNA chaperone Hfq, FinO-domain proteins have recently been recognized as a widespread family of RNA-binding proteins (RBPs) with regulatory roles in diverse bacteria. They display an intriguing bandwidth of target sites, ranging from a single RNA pair as recognized by plasmid-encoded FinO to the global RNA regu-lons of enterobacterial ProQ proteins. To better understand the intrinsic targeting mode of this RBP family, in vivo targets of the minimal ProQ protein of N. meningitidis were de-termined. In vivo UV crosslinking with RNA deep sequencing (UV-CLIP) identified as-sociations of ProQ with 16 sRNAs and 166 mRNAs encoding a variety of biological functions and thus revealed ProQ as another global RBP in meningococci. It could be shown that meningococcal ProQ predominantly binds to highly structured RNA regions including DNA uptake sequences (DUS) and rho-independent transcription terminators and stabilizes many of its RNA targets as proved by rifampicin stability experiments. As expected from the large suite of ProQ-bound RNAs, proQ deletion globally affects both gene and protein expression in N. meningitidis, changing the expression levels of at least 244 mRNAs and 80 proteins. Phenotypic analyses suggested that ProQ promotes oxida-tive stress tolerance and UV damage repair capacity, both of which are required for full virulence of N. meningitidis.
Together, this work uncovers the co-existence of two major post-transcriptional regulons, one governed by ProQ, the other by Hfq, in N. meningitidis. It further highlights the role of these distinct RBPs and its associated sRNAs to bacterial virulence and indicates that riboregulation is likely to contribute to the way how meningococci adapt to different host niches. / Neisseria meningitidis (N. meningitidis) ist ein kommensal lebendes Bakterium, welches unter nicht vollständig geklärten Bedingungen auch lebensbedrohliche Infektionen im Menschen wie bakterielle Meningitis und Sepsis verursachen kann. Obwohl experimentell nachgewiesen wurde, dass die Expression kleiner, nicht kodierender RNAs (sRNAs) so-wie des RNA-Chaperons Hfq in Meningokokken physiologisch relevant ist, blieb der Ein-fluss der RNA-basierten Genregulation (Riboregulation) auf die Fitness und Virulenz von N. meningitidis bisher unvollständig verstanden. Daher befasste sich diese Studie durch Kombination verschiedener Hochdurchsatz-Technologien mit dieser Fragestellung.
Es wurde differentielle RNA-Sequenzierung (dRNA-seq) angewendet, um das primäre Transkriptom des N. meningitidis Stamms 8013 möglichst genau zu kartieren. Die durch-geführte dRNA-seq-Analyse detektierte 1.625 Transkriptionsstartstellen (TSS) einschließ-lich 65 potentieller sRNAs. Durch Anwendung von Northern-Blot-Analysen konnten an-schließend 20 sRNAs experimentell validiert werden. Darüber hinaus wurde durch Ko-Immunopräzipitation mit Hfq (RIP-seq) ein großes, Hfq-zentriertes, post- transkripti-onelles regulatorisches Netzwerk identifiziert, welches 23 sRNAs und 401 mRNAs um-fasst. Rifampicin-Stabilitätsversuche zeigten, dass durch Hfq-Bindung die Stabilität die-ser sRNAs erhöht wird. Basierend auf diesen Daten konnte die Interaktion zwischen zweier Hfq-gebundener paraloger sRNAs und der prpB mRNA sowohl in vivo als auch in vitro bestätigt werden. Beide sRNAs reprimieren die Translation des PrpB-Genes, wel-ches für eine Methylisocitratlyase kodiert und wahrscheinlich die Kolonisation des menschlichen Nasopharynxs durch Meningokokken begünstigt.
Neben dem ausführlich charakterisierten RNA-Chaperon Hfq wurden Proteine mit FinO-Domäne kürzlich als eine neue Familie von RNA-bindenden Proteinen (RBPs) mit regula-torischen Funktionen in verschiedenen Bakterien identifiziert. Sie weisen eine große Bandbreite regulierter Gene auf: Während das Plasmid-kodierte FinO-Protein nur ein ein-zelnes RNA-Paar bindet, stellt das enterobakterielle ProQ-Protein ein globales RBP dar. Um die Wirkungsweise dieser RBP-Familie besser zu verstehen, wurde in vivo untersucht, wie viele RNAs mit dem minimalen ProQ-Protein in N. meningitidis assoziiert sind. Durch Kombination von UV-Crosslinken mit RNA-Sequenzierung (UV-CLIP) konnte die Bin-dung von 16 sRNAs und 166 biologisch diverser mRNAs mit ProQ identifiziert werden, welches daher ebenfalls ein globales RBP in Meningokokken darstellt. Es konnte gezeigt werden, dass ProQ vorwiegend RNA-Regionen mit ausgeprägter Sekundärstruktur bin-det, darunter DNA-Aufnahmesequenzen (DUS) und Rho-unabhängige Transkriptions-terminatoren. Die ProQ-Bindung führt dabei häufig zur Stabilisation der RNAs, was durch Rifampicin-Stabilitätsexperimente nachgewiesen wurde. Wie aufgrund der großen Zahl ProQ-gebundener RNAs zu erwarten, beeinflusste die Deletion des ProQ Proteins die zelluläre Expression von mindestens 244 mRNAs und 80 Proteinen. Phänotypische Analysen deuten darauf hin, dass ProQ sowohl die Toleranz gegenüber oxidativem Stress als auch die Reparatur von DNA-Schäden reguliert, die beide für die vollständige Viru-lenz von N. meningitidis von Bedeutung sind.
Zusammenfassend beschreibt diese Arbeit die Koexistenz von zwei großen posttranskrip-tionellen Regulons in N. meningitidis, von denen eines von ProQ und das andere von Hfq kontrolliert wird. Im Rahmen dieser Arbeit wurde die Rolle beider RBPs und ihrer assozi-ierten sRNAs für die bakterielle Virulenz verdeutlicht und hervorgehoben, dass Riboregu-lation sehr wahrscheinlich dazu beiträgt, wie sich Meningokokken an verschiedene Wirts-nischen anpassen.
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Identifizierung und Untersuchung TOP-mRNA - bindender Faktoren / Identification and examination of TOP mRNA binding factorsAmelingmeier, Florian January 2022 (has links) (PDF)
Im Zellkern eukaryotischer Zellen werden Gene in mRNAs transkribiert, welche umfangreich prozessiert und aus dem Zellkern exportiert werden. Im Zytoplasma erfolgt die Translation der mRNAs in Proteine, ein Prozess, welcher viel Energie benötigt und daher mittels vielfältiger Mechanismen streng reguliert wird. Ein Beispiel hierfür stellt die Klasse der TOP-mRNAs dar, eine RNA-Spezies, welche hauptsächlich Transkripte von Genen umfasst, die selbst in die Translation involviert sind. Die prominentesten Vertreter dieser Klasse sind die Proteine der kleinen und großen ribosomalen Untereinheiten. TOP-mRNAs zeichnen sich durch ein gemeinsames Sequenz-Motiv am Anfang Ihrer 5’-UTR aus, welches aus einem Pyrimidinstrang besteht und unmittelbar nach dem Cap mit einem Cytosin beginnt. Dieses allen TOP-RNAs gemeinsame Motiv ermöglicht die zeitgleiche Translationskontrolle dieser RNA-Klasse. So kann die Translation der TOP-mRNAs unter Stressbedingungen wie z.B. Nährstoffmangel koordiniert inhibiert werden, wodurch Energie eingespart wird.
Bereits lange wird nach einem Regulator gesucht, der an dieses TOP-Motiv bindet und die koordinierte Regulation ermöglicht. Man kann sich hier einen Inhibitor oder auch einen Aktivator vorstellen. Verschiedene Proteine wurden bereits in Erwägung gezogen. In dieser Arbeit wurde das Protein TIAR mittels Massenspektrometrie als TOP-interagierender Faktor identifiziert und dessen Bindungseigenschaften mit dem TOP-Motiv durch Shift Assays untersucht. Hierbei konnten Minimalkonstrukte verschiedener Organismen sowie RNA-TOP – Sequenzen identifiziert werden, welche sich für Strukturanalysen eignen würden. Als weiterer TOP-interagierender Faktor wurde über verschiedene sequenzielle Reinigungsschritte das Protein 14-3-3ε identifiziert.
Weiterhin wurden die TOP-Motiv-bindenden Proteine LARP1 und LARP7 auf Ihre Bindungseigenschaften mit Ihren Zielsequenzen untersucht. Während gezeigt werden konnte, dass LARP1 einen inhibierenden Einfluss auf TOP-RNAs hat, wurde in weiteren Shift-Assays die Bindungseigenschaften von LARP7 mit 7SK untersucht, wobei ebenfalls ein minimales LARP7–Konstrukt sowie 7SK-Konstrukte für Strukturanalysen identifiziert werden konnten. Weiterhin konnte gezeigt werden, dass verschiedene Substanzen wie tRNA und Arginin einen starken Einfluss auf die LARP7-7SK – Interaktion ausüben, welcher in weiteren Studien berücksichtigt werden sollte. / In the nucleus of eucaryotic cells, genes are transcribed into mRNA which are heavily
processed and exported into the cytoplasm. There they are translated into proteins, a process
requiring large amounts of energy so this process is strongly regulated. One example is the
class of TOP RNAs consisting mainly of transcripts encoding for proteins involved in
translation. Some well-known examples include the proteins of the large and small ribosomal
subunits. TOP RNAs share a common motif at the start of their 5’ UTR comprising a sequence
entirely made of Pyrimidines immediately following the cap. This motif common to all TOP
RNAs enables translational control of this class of RNAs in a timely coordinated manner. In this
way, during conditions of stress like nutrient starvation, translation of TOP RNAs can be
inhibited to save energy.
The search for a regulator which binds to the TOP motif and enables coordinated regulation
started long ago. In principle the regulator could activate or inhibit translation. Different
proteins have been considered to be the regulator so far.
In this thesis the protein TIAR was identified as TOP interacting factor using mass
spectrometry. Its binding properties regarding the TOP motif have been evaluated using
EMSA. RNA and proteins of different organisms were evaluated to identify minimal binding
partner constructs for further structural analysis. Using different sequential purification
approaches, the 14-3-3ε protein was also identified as TOP binding factor.
Furthermore, the TOP binding proteins LARP1 and LARP7 and their target RNA sequences have
been evaluated in regard to their binding properties. It could be shown that LARP1 has an
inhibiting effect on translation of TOP RNAs. Using EMSA, minimal binding constructs of LARP7
and 7SK could be established which can be considered for further structural analysis. Also, it
could be shown that certain substances like tRNA and Arginine influence the interaction of
LARP7 and 7SK, an observation which should be considered in further experiments.
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Thymidylate synthase gene amplification and messenger RNA expression in fluorodeoxyuridine-resistant mouse cells /Jenh, Chung-Her January 1985 (has links)
No description available.
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