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Small RNA MgrR Regulates Sensitivity of <i>Escherichia fergusonii</i> to Oxidative StressWright, Austin Paul 27 December 2018 (has links)
Non-coding small RNAs (sRNAs) are integral to post-transcriptional gene regulation in bacteria. The function of an sRNA is dependent on both secondary structure and the sequence of its unstructured seed region. The sRNA seed region typically base-pairs with target mRNAs to down-regulate the expression of target genes by blocking the ribosome-binding site or by promoting RNase-mediated degradation of the sRNA-mRNA complex. sRNAs have also been shown to increase expression of target genes by releasing RNA secondary structures that block ribosome-binding sites. Selective pressure to maintain sRNA function conserves the sequence of the sRNA seed region, but mutations in mRNA sequences to match sRNA seed regions lead to the accumulation of new targets by an sRNA. In this study, the author identified a unique scenario where a 53-nucleotide insertion event occurred in the seed region of the sRNA MgrR in Escherichia fergusonii. This PhoP/PhoQ-regulated sRNA is conserved in most enteric bacteria and is known to increase bacterial resistance to the antimicrobial peptide polymyxin B by controlling the expression of the phosphethanolamine transferase gene eptB. The analyses shows that MgrR does not regulate the expression of eptB in E. fergusonii, as observed in E. coli. Instead, MgrR likely regulates the glycerol utilization pathway glpABCFKTQ-frdABCD, and the pentose phosphate sugar pathway ulaABÂ-tktC that produces NADPH. Cell sensitivity to oxidative stress is affected by the production of NADPH, and an mgrR-deletion strain of E. fergusonii was highly sensitive to hydrogen peroxide (H2O2) and deoxycholic acid in vitro and displayed a severe loss of fitness within murine gut. The ulaAB-tktC pathway is not present in E. coli MG1655 and deletion of MgrR did not cause any sensitivity to H2O2. This work demonstrates that sRNAs could evolve divergent functions in closely related bacteria.
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Investigation of DNA and RNA markers by novel technologies demonstrates DNA content intratumoral heterogeneity and long non-coding RNA aberrations in breast tumorsZhang, Zhouwei 01 January 2014 (has links)
BACKGROUND:
Breast cancer is the most commonly diagnosed cancer and second leading cancer death cause among females in the U.S.A. About 1 in 8 women in U.S will develop invasive breast cancer over the course of her lifetime. In 2013, 234,580 new invasive breast cancer cases are expected to occur in women within the US and approximately 64,640 non-invasive carcinomas in situ were diagnosed in 2013, most of which were ductal carcinoma in situ (DCIS). Along with technological advances, a wide variety of candidate biomarkers have been proposed for cancer diagnosis and prognosis, including DNA content and non-coding RNA. Current techniques for detecting DNA content abnormalities in formalin-fixed, paraffin-embedded (FFPE) tissue samples by flow cytometric analysis have used cells recovered from ≥50µm whole tissue sections. Here, in our first study, a novel core punch sampling method was investigated for assessing DNA content abnormalities and intratumoral heterogeneity in FFPE specimens. Secondly, long non-coding RNAs (lncRNAs) has been examined. LncRNA participates in a broad spectrum of biological activities by diverse mechanisms and its dysregulation is associated with tumorgenesis. Some lncRNAs may function as oncogenes (O) and others as tumor suppressor genes (TSG). To date, lncRNA has been investigated primarily by qRT-PCR and RNA sequencing. This study has examined the relationship of lncRNA expression patterns to breast tumor pathology by chromogenic in situ hybridization (CISH).
METHODS:
Firstly, FFPE breast carcinoma specimens were selectively targeted using 1.0 mm diameter punch needles. Extracted cores were assayed by flow cytometry using a modified-Headley method. Secondly, the lncRNA expression levels of 6 lncRNAs: HOTAIR, H19, KCNQ1OT1, MEG3, MALAT11 and Zfas1, was examined by RNAscope® CISH using FFPE breast tissue microarrays (TMAs) comprising normal adjacent epithelia (NA), DCIS, and invasive carcinoma (IC) from 46 patients. LncRNA associate polycomb complex protein EZH2 was evaluated by immunohistochemistry (IHC). LncRNA data was also compared to standard breast tumor data including ER, PR, Her2 and Ki67 IHC. SYSTAT version 11 statistical package was used to perform for all the tests.
RESULTS:
Following optimization experiments of the core punch flow cytometric approach, DNA index and percent S-phase fraction intratumoral heterogeneities were detected in 10/23 (44%) and 11/23 (47%) specimens respectively. The lncRNA CISH study utilized a TMA that contained 36 spots of NA breast tissues, 34 DCIS spots and 43 IC spots. HOTAIR CISH staining was significantly stronger in IC than DCIS (p
CONCLUSION:
Core-punching is an effective alternative to whole specimen sectioning and shows that macro-level genomic heterogeneity is common even within a single FFPE block. The interrelationship of DNA content heterogeneity to other forms of heterogeneity requires further study. RNAscope CISH supports bright-field microscopy investigations of lncRNA expression in FFPE tissue specimens. HOTAIR, H19 and KCNQ1OT1 may be potential breast cancer biomarkers, both HOTAIR and H19 may be a marker for DCIS at increased risk of progression to invasive cancer. HOTAIR, in particular, may be a predictor for invasive cancer grade.
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Use of Comparative Genomics for Non-coding Rna Prediction and Investigation of Dna Introgression in YeastKavanaugh, Laura Anne 23 April 2008 (has links)
The rapid development of large-scale genomic sequencing has dramatically changed the field of genetics, in part through the development of comparative genomics. Fungal comparative genomics is particularly powerful given the large number of genomes currently available, their compact architecture, and their relative ease of genetic manipulation. Fungal comparative genomics was employed in this work to address two related questions.
First, it was used along with computational thermodynamic methods to predict non-coding RNA (ncRNA) in Saccharomyces cerevisiae. Sets of positive and negative control genes were evaluated to determine the effect of window sizes and step sizes on the sensitivity of ncRNA identification. The approach was then applied to predict ncRNA genes on chromosome 6 of S. cerevisiae and S. bayanus. Northern blot analysis, rapid amplification of cDNA ends (RACE), and publicly available cDNA library data were used to test the predictions. Strong experimental evidence was accumulated for four new ncRNA genes. Potential structural elements in the 5' and 3' untranslated regions (UTRs) of six annotated protein-coding genes were also identified. This work shows that thermodynamic approaches, coupled with comparative genomics, are powerful tools for predicting structural ncRNA.
Second, comparative genomic approaches were employed to identify a non-reciprocal transfer event from Cryptococcus neoformans var. grubii to var. neoformans ~2 million years ago involving a 14 gene (~40 kb) region. The majority of clinical and environmental var. neoformans strains from around the world contain this sequence obtained from var. grubii. The introgression event likely occurred via an incomplete inter-varietal sexual cycle creating a hybrid intermediate where mobile elements common to both lineages mediated the exchange. The subsequent duplication in laboratory strains of a fragment of this same genomic region supports evolutionary theories that instabilities in subtelomeric regions promote adaptive evolution through gene amplification and subsequent adaptation. These data indicate that DNA exchange between closely related sympatric varieties or species may be a recurrent theme in the evolution of fungal species. It further suggests that while evolutionary divergence is the primary force driving speciation, rare introgression events also play a potentially important role. / Dissertation
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Computational identification and evolutionaty enalysis of metazoan micrornasAnzola Lagos, Juan Manuel 15 May 2009 (has links)
MicroRNAs are a large family of 21-26 nucleotide non-coding RNAs with a
role in the post-transcriptional regulation of gene expression. In recent years,
microRNAs have been proposed to play a significant role in the expansion of
organism complexity. MicroRNAs are expressed in a cell or tissue-specific manner
during embryonic development, suggesting a role in cellular differentiation. For
example, Let-7 is a metazoan microRNA that acts as developmental timer between
larval stages in C. elegans. We conducted a comparative study that determined the
distribution of microRNA families among metazoans, including the identification of
new family members for several species. MicroRNA families appear to have evolved
in bursts of evolution that correlate with the advent of major metazoan groups such
as vertebrates, eutherians, primates and hominids. Most microRNA families identified
in these organisms appeared with or after the advent of vertebrates. Only a few of
them appear to be shared between vertebrates and invertebrates. The distribution of
these microRNA families supports the idea that at least one whole genome
duplication event (WGS) predates the advent of vertebrates. Gene ontology analyses of the genes these microRNA families regulate show enrichments for functions
related to cell differentiation and morphogenesis.
MicroRNA genes appear to be under great selective constraints. Identification
of conserved regions by comparative genomics allows for the computational
identification of microRNAs. We have identified and characterized ultraconserved
regions between the genomes of the honey bee (Apis mellifera) and the parasitic wasp
(Nasonia vitripennis), and developed a strategy for the identification of microRNAs
based on regions of ultraconservation. Ultraconserved regions preferentially localize
within introns and intergenic regions, and are enriched in functions related to neural
development. Introns harboring ultraconserved elements appear to be under negative
selection and under a level of constraint that is higher than in their exonic
counterparts. This level of constraint suggests functional roles yet to be discovered
and suggests that introns are major players in the regulation of biological processes.
Our computational strategy was able to identify new microRNA genes shared
between honey bee and wasp. We recovered 41 of 45 previously validated
microRNAs for these organisms, and we identified several new ones. A significant
fraction of these microRNA candidates are located in introns and intergenic regions
and are organized in genomic clusters. Expression of 13 of these new candidates was
verified by 454 sequencing.
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MicroRNA let-7a regulates integrin beta-3, vav3, and dicer to modulate trophoblast activities and hence embryo implantation張韻怡, Cheong, Wan-yee, Ana January 2013 (has links)
MicroRNAs are small regulatory RNAs that bind to the seeding regions within the 3’-untranslated region (3’-UTR) of their target transcripts to modulate transcript stability and/or inhibit protein translation. MicroRNA Let-7a belonging to the Lethal-7 (Let-7) family is down-regulated at the blastocyst stage, suggesting its suppression is crucial for embryo implantation. Yet, the underlying mechanism on how Let-7a modulates blastocyst implantation remains largely unknown. In silico analysis identified attachment related integrin beta-3, outgrowth related vav3, and the microRNA processing dicer, as Let-7a targets. Therefore, it is hypothesized that down-regulation of Let-7a promotes embryo implantation by stimulating these target proteins.
Let-7a is down-regulated during blastulation and at 3-hour post-estradiol activation of the dormant blastocysts. Force-expression of Let-7a in mouse blastocysts suppressed blastocyst attachment, outgrowth on fibronectin-coated plates and compromised pregnancy in vivo. Dual luciferase assay using the 3’-UTR reporter constructs of the integrin beta-3, vav3, and dicer confirmed the interaction between Let-7a and the three targets. Force-expressing or inhibiting Let-7a expression in mouse blastocysts by electroporating the Let-7a precursor or inhibitor respectively illustrated post-transcriptional regulation of Let-7a on integrin beta-3 and vav3, and transcriptional regulation on dicer. Dormant blastocysts retrieved from the delayed implanting mice expressed high Let-7a levels, which was suppressed in the first 12-hours of estradiol activation. Concomitantly, dormant blastocysts expressed low levels of integrin beta-3, vav3, and dicer, yet, their protein expression was up-regulated from 3 hours-post estradiol activation. Furthermore, addition of integrin beta-3 antibody suppressed attachment of trophoblast spheroids (blastocyst surrogate) onto endometrial epithelial cells in a co-culture model and the outgrowth of the spheroids on fibronectin-coated plates.
Knockdown of Vav3 with siRNA decreased blastulation, hatching, and outgrowth rates of the embryos in vitro. Although the loss of vav3 activities did not affect embryo implantation, it suppressed trophoblast migration on fibronectin-coated plates and invasion into collagen matrix. In contrast, force-expression of vav3 enhanced blastocyst outgrowth, and promoted cell proliferation. Blocking integrin beta-3 activities in the vav3 knock-down embryos further suppressed blastocyst outgrowth, suggesting the intertwining effect of the integrins and vav3.
Dicer knock-down in mouse blastocysts decreased mature Let-7a expression and suppressed blastulation and hatching in vitro and implantation in vivo. Dicer knock-down in estradiol activated mouse blastocysts decreased the epidermal growth factor receptor expression and lowered the affinity of the embryos to EGF, and suppressed the implantation potential to a level similar to that of dormant blastocysts.
Taken together, the suppression of Let-7a by estradiol up-regulates integrin beta-3, vav3, and dicer. The increased Itgb3 expression promotes blastocyst attachment and intertwined with the up-regulated vav3 expression to enhance blastocyst outgrowth. The increased vav3 expression further stimulates cell proliferation and confers blastocyst invasion into the collagen matrix. Dicer, by altering microRNA processing, facilitates blastulation and thereby embryo implantation. Thus, the loss of Let-7a biological activities during blastulation is crucial to enhance blastulation and stimulate trophoblast activities for successful embryo implantation. / published_or_final_version / Obstetrics and Gynaecology / Doctoral / Doctor of Philosophy
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Mechanisms of non-coding RNA mediated gene silencing in Escherichia coli and Salmonella typhimuriumBandyra, Katarzyna Justyna January 2013 (has links)
No description available.
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Use of Comparative Genomics for Non-coding Rna Prediction and Investigation of Dna Introgression in YeastKavanaugh, Laura Anne, January 2008 (has links)
Thesis (Ph. D.)--Duke University, 2008. / Includes bibliographical references.
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Analyse der 3' nicht translatierten Region von BVDV CP7Pankraz, Alexander January 2007 (has links)
Zugl.: Giessen, Univ., Diss., 2007
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Analyse der 3' nicht translatierten Region von BVDV CP7 /Pankraz, Alexander. January 2008 (has links)
Zugl.: Gießen, Universiẗat, Diss., 2007.
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Analysis of cyclin H interaction with non-coding RNAsO'Gorman, William Evert January 2007 (has links)
No description available.
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