Quantitative analysis of BCR-ABL1 fusion gene by Droplet Digital PCR and qRT-PCR

Jakobsson, Sanna

January 2015

No description available.

BCR-ABL1

ABL1 control gene

qRT-PCR

ddPCR

Biomedical Laboratory Science/Technology

The role of the BLADE-ON-PETIOLE genes in the regulation of plant growth and development /

Holmlund, Mattias.

January 2008

Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniv., 2008. / Härtill 4 uppsatser.

Effet des microARNs sur la traduction cellulaire et virale / Regulation of cellular and viral translation by microRNAs

Limousin, Taran

20 December 2013

Les microARN jouent un grand rôle dans la régulation de l'expression des gènes bien que leur mécanisme d'action soit encore sujet à débat. Des premières études chez le vers C. elegans aux différents systèmes in vitro qui ont ensuite été développés, plusieurs modèles ont été proposés, comme l'inhibition de la traduction au niveau de l'initiation ou de l'élongation, et la déstabilisation du transcrit par déadénylation. Cependant, à la lumière des découvertes récentes, un consensus semble apparaître et indique que les miARN inhiberaient d'abord la traduction avant d'induire la déadénylation du transcrit, provoquant ainsi sa dégradation prématurée. D'autre part, le blocage traductionnel semble impliquer à la fois la coiffe en 5' et la queue poly(A) en 3' de l'ARNm ainsi que les facteurs qui s'y lient, c'est à dire le facteur d'initiation de la traduction eIF4F et la Poly(A) Binding Protein (PABP). Ces résultats ont conduit au modèle selon lequel, les miARN seraient capables d'empêcher la liaison entre ces deux facteurs et donc la circularisation du transcrit qui est essentielle à la fois au recrutement de la machinerie traductionnelle et à la stabilité de l'ARNm. Afin de mieux comprendre ce mécanisme, notre laboratoire a développé un système in vitro basé sur l'utilisation du lysat de réticulocytes de lapin qui permet d'étudier l'effet traductionnel des miARN en s'affranchissant de dégradation du transcrit. L'étude de l'effet de drogues et d'enzymes virales, capables de bloquer spécifiquement la fonction de chaque facteur d'initiation dans ce système, a permis de déterminer le rôle clé de eIF4G et PABP dans l'inhibition traductionnelle par les miARN. Cependant, leur interaction n'est pas requise et le blocage s'effectue plutôt au cours de l'étape de balayage de la région 5' non codante par la petite sous-unité ribosomique. En parallèle de cette étude in vitro, un travail sur des lignées cellulaires a permis de déterminer l'influence de la queue poly(A) sur l'effet miARN. De façon très surprenante, l'expression des transcrits non polyadénylés n'est plus inhibée et est même stimulée par les miARN. Cet effet est dépendant de l'association du domaine MIF4G du facteur eIF4G avec le facteur eIF3, ce qui suggère qu'en l'absence de queue poly(A), les miARN seraient capables de stimuler le recrutement de la petite sous-unité ribosomique sur l'ARNm. L'ensemble de ces résultats révèle la complexité de l'effet miARN sur la traduction et ouvre de nouvelles voies / The mechanism by which microRNAs (miRNAs) can control gene expression has been a great matter of debate. From the first studies in worm to the in vitro systems that are used today, many models have been proposed that include regulation at the level of translation or at the level of mRNA stability by controlling 3' deadenylation and decay. Recent studies provided a consensus model of all these discrepancies and suggested that translation inhibition occured first and is followed by deadenylation and further degradation of the target transcript. Moreover, translation silencing seems to occur at the initiation level, and requires eIF4F and PABP initiation factors. This led to the hypothesis that miRNAs could interfere with the interaction between these two factors thus affecting the circularisation of the mRNA, which is essential for translation efficiency. In order to gain insight into this mechanism, we have used an in vitro system based on the rabbit reticulocyte lysate that fully recapitulates miRNA effects on translation with virtually no effect on deadenylation and decay. Using this system and a wide spectrum of translational inhibitors, we have narrowed down the step of initiation at which repression is exerted and we found that miRNAs affect mainly ribosomal scanning. This effect requires the presence of both eIF4G and PABP but does not rely on their physical interaction. Further analysis of miRNA repression in cells revealed that the poly(A) tail was an absolute requirement for miRNA action. To most of our surprise, we observed that removal of the poly(A) resulted in a shift from repression to stimulation of mRNA expression. This effect seems to require the middle domain of eIF4G and the presence of the Ago proteins. Altogether, these results reveal the complexity of miRNA effect and open new prospects on translation regulation

MicroARN

Traduction

Initiation de la traduction

Régulation des gènes

Argonaute

EIF4G

PABP

EIF3

MicroRNAs

Translation

Translation initiation

Control gene

Argonaute

EIF4G

PABP

EIF3

572.8

Hormetic UV treatments for control of plant diseases on protected edible crops

Scott, George

January 2017

Hormesis is a dose response phenomenon where low doses of a stress bring about a positive response in the organism undergoing treatment. UV-C hormesis has been known for over three decades and has a broad range of benefits on postharvest produce. Benefits include increased nutritional content, delayed chlorophyll degradation and disease resistance. The beneficial effects have been observed on many varieties of fresh produce including climacteric and non-climacteric fruit, tubers, salads and brassicas. The majority of previous studies have used low-intensity (LIUV) UV-C sources. LIUV sources require lengthy treatment times, which are in the region of 6 minutes for tomato fruit. This has, in part, prevented the commercial application of this technique. High-intensity, pulsed polychromatic light (HIPPL) sources, however, have recently been developed. HIPPL sources may have the potential to drastically reduce treatment times and increase their commercial viability. It was shown, here, that the use of HIPPL can control disease (reduce disease progression) caused by Botrytis cinerea and Penicillium expansum and also delay ripening on tomato fruit. Both disease control and delayed ripening were at similar levels for LIUV and HIPPL treatments on mature green fruit. The HIPPL treatments used in these studies can reduce treatment times for tomato fruit by 97.3%. Both HIPPL and LIUV treatments elicit local responses irrespective of the treatment orientation and tomato fruit, therefore, require full surface irradiation. Furthermore, UV-C in the HIPPL source is not required for disease control or delayed ripening. It does, however, contribute approximately 50% towards the total observed effects. Investigations into the mechanisms underpinning postharvest HIPPL and LIUV hormesis, on tomato fruit, identified that the expression of genes involved in plant hormone biosynthesis, defence, secondary metabolism and ripening were affected. This indicates that disease control is achieved through induced resistance. Changes to expression, following treatment, were highly similar for both HIPPL and LIUV treatments and were mediated by salicylic acid, jasmonic acid and ethylene. This may lead to broad range resistance against necrotrophic and biotrophic pathogens as well as abiotic stresses and herbivorous pests. Recently, the exposure of foliage to UV-C has been shown to induce resistance against B. cinerea on Arabidopsis thaliana. The horticultural applications of such treatments, however, have not been explored. Pre-harvest treatments of lettuce in the glasshouse showed variation in damage threshold and optimal treatment to control disease following LIUV and HIPPL treatment. Further sources of variation included the cultivar, pathogen of interest and the point that treatment was applied during the year. Using a controlled environment allowed seasonal variation to be mitigated and both HIPPL and LIUV treatments controlled disease against B. cinerea. For pre-harvest treatments to be a success in the glasshouse, further studies into how both biotic and abiotic factors influence treatment is required. To circumvent the problems associated with pre-harvest treatments and environmental variation in the glasshouse, LIUV seed treatments were performed on tomato. Control of B. cinerea was established with an approximately 10% reduction in incidence and disease progression with a 4 kJ/m2 treatment. When monitoring the effect of treatment on germination and early seedling development it was also identified that an 8 kJ/m2 treatment led to biostimulation of germination and root and shoot growth.

MammOmics™ in Sus scrofa: Studio degli adattamenti genomici alla base dello sviluppo della ghiandola mammaria durante la gravidanza e la lattazione. / Mammomics in sus scrofa: uncovering adaptation underlylng mammary development during pregnancy and lactation

TRAMONTANA, SIMONA

04 February 2009

La comprensione dei geni che controllano la crescita, lo sviluppo, e il metabolismo della ghiandola mammaria suina può rivelare potenziali vie metaboliche o di segnale per migliorare l'efficienza di sintesi del latte. Un microarray suino costituito da 13.263 oligonucleotidi (mer 70) è stato utilizzato per lo studio del profilo di trascrizione del tessuto mammario da 4.5 scrofe a -34, -14, -4, 0, 7, 14, 21, e 28 giorni rispetto alla data del parto. ANOVA (FDR ≤ 0.10) ha individuato 2664 geni differenzialmente espressi (DEG) in relazione allo stato fisiologico. L’analisi dei network e delle vie metaboliche ha identificato come funzioni molecolari più affette dallo stato fisiologico: crescita e proliferazione cellulare (548 geni) cellule di segnale(612 geni).La qPCR rimane il metodo migliore per la misurazione dell’ abbondanza mRNA ad alta precisione e per la validazione di dati array. Essenziale per assicurare l'affidabilità della qPCR è la normalizzazione dei dati con l’utilizzo di geni di controllo interno (ICG). Un analisi sulla stabilità dei geni ha identificato, tra i 19 potenziali ICG, API5, VABP, e MRPL39 come i più stabili ICG nel tessuto mammario suini e ha inoltre stabilito che l'uso di tali 3 geni è il più appropriato per il calcolo di un fattore di normalizzazione. I risultati sottolineano l'importanza di una corretta validazione dei controlli interni per qPCR ed evidenziano le limitazioni di utilizzo dell’assenza dell’effetto tempo come unico criterio per la selezione di CIG. / Elucidating genes controlling growth, development, and metabolism of swine mammary glands can reveal potential metabolic or signalling pathways that might help improve efficiency of milk synthesis. A swine microarray consisting of 13,263 oligonucleotides (70 mer) was used for transcript profiling of mammary tissue from 4-5 sows at -34, -14, -4, 0, 7, 14, 21, and 28 d relative to parturition. ANOVA (FDR ≤ 0.10) identified 2,664 differentially expressed genes (DEG) dueto physiological state. Gene network/pathway analysis revealed that cell growth and proliferation (548 genes) and cell signaling (612 genes) were among the most affected molecular functions due to physiological state in DEG. QPCR remains the chosen method for high-precision mRNA abundance analysis and for array data validation. Essential for reliability of qPCR data is normalization using appropriate internal control genes (ICG). Gene stability analysis identified , among 19 potential ICG, API5, VABP, and MRPL39 as the most stable ICG in porcine mammary tissue and indicated that the use of those 3 genes was most appropriate for calculating a normalization factor. Results underscore the importance of proper validation of internal controls for qPCR and highlight the limitations of using absence of time effects as the criteria for selection of appropriate ICG.

VET/02: FISIOLOGIA VETERINARIA