Characterization of human chromosome 22 : cloning of breakpoints of the constitutional translocation t(11;22)(q23;q11) and detection of small constitutional deletions by microarray CGH /

Tapia Páez, Isabel,

January 2003

Diss. (sammanfattning) Stockholm : Karol. inst., 2003. / Härtill 6 uppsatser.

Dynamics of the bacterial genome rates and mechanisms of mutation /

Koskiniemi, Sanna,

January 2010

Diss. (sammanfattning) Uppsala : Uppsala universitet, 2010.

Yod Variation in Australian English : A Sociolinguistic Investigation

Kazemi, Ruholla

January 2015

In various post-consonantal environments, the palatal glide /j/ has been subject to variation and change since the late 17th century. Retention, coalescence, and deletion of the glide respectively account for various pronunciations of the word due [dju:], [dʒu:], and [du:] in different dialects of English. Research in this area has often focused on internal motivations. However, the external motivations that regulate the practice of glide variants in the speech of different segments of communities have been a relatively recent area of investigation. Among other dialects, Australian English is one of the major varieties that has not been formally assessed in this area. Hence, the aim of this thesis has been to investigate possible associations between the glide variants and their emergence in the speech of 48 speakers of Australian English. The audio data for this study were 12 tokens pronounced by the speakers in wordlist, sentences, and a story, and were extracted from the AusTalk Corpus (Burnham, Cox et al., 2011). The results for separate analysis of social variables seem to indicate that the spread of different glide variants in the speech of speakers are mainly conditioned by age. The combination of the social variables shows that glide retention is most frequent in the speech of higher educated old individuals. By contrast, glide deletion seems to be almost non-existent in their speech while more frequent in the pronunciations of the young. Overall, glide coalescence is the most present and has the strongest stylistic consistency in the speech of individuals. Further details and possible reasons behind these observations are discussed in the work that follows.

Palatal glide

yod dropping

yod deletion

glide deletion

yod coalescence

yod palatalization

glide palatalization

yod retention

yod variation

glide variants

General Language Studies and Linguistics

Copula Deletion in English as a Lingua Franca in Asia

Leuckert, Sven

11 July 2019

Non-standard features such as copula deletion have long been dismissed as learner errors or were interpreted as results of simplification processes in English as a Lingua Franca (ELF), and only recent publications tend to acknowledge the influence of language contact in ELF settings (cf. Schneider 2012). The present paper analyses tokens of copula deletion in the Asian Corpus of English (ACE 2014) with respect to speaker L1s, situational context and syntactic environment, with our results suggesting a correlation between copula usage patterns in the speakers’ L1s and constructions involving copula deletion found in ACE. Thus, opening up the field to ELF settings, our data confirm findings of previous studies such as Sharma (2009) that point to contact-induced copula usage in non-standard English(es).

info:eu-repo/classification/ddc/420

ddc:420

Dickkopf1 fuels inflammatory cytokine responses

Jaschke, Nikolai P., Pählig, Sophie, Adolph, Timon E., Sinha, Anupam, Ledesma Colunga, Maria, Hofmann, Maura, Wang, Andrew, Thiele, Sylvia, Schwärzler, Julian, Kleymann, Alexander, Gentzel, Marc, Tilg, Herbert, Wielockx, Ben, Hofbauer, Lorenz C., Rauner, Martina, Göbel, Andy, Rachner, Tilman D.

19 March 2024

Many human diseases, including cancer, share an inflammatory component but the molecular underpinnings remain incompletely understood. We report that physiological and pathological Dickkopf1 (DKK1) activity fuels inflammatory cytokine responses in cell models, mice and humans. DKK1 maintains the elevated inflammatory tone of cancer cells and is required for mounting cytokine responses following ligation of toll-like and cytokine receptors. DKK1- controlled inflammation derives from cell-autonomous mechanisms, which involve SOCS3- restricted, nuclear RelA (p65) activity. We translate these findings to humans by showing that genetic DKK1 variants are linked to elevated cytokine production across healthy populations. Finally, we find that genetic deletion of DKK1 but not pharmacological neutralization of soluble DKK1 ameliorates inflammation and disease trajectories in a mouse model of endotoxemia. Collectively, our study identifies a cell-autonomous function of DKK1 in the control of the inflammatory response, which is conserved between malignant and nonmalignant cells. Additional studies are required to mechanistically dissect cellular DKK1 trafficking and signaling pathways.

info:eu-repo/classification/ddc/610

ddc:610

Development of a novel genetic system for generation of markerless deletions in Clostridium difficile

Theophilou, Elena Stella

January 2014

C. difficile is an obligate anaerobic, Gram-positive, rodshaped and spore-forming bacterium. It is a well-recognised causative agent of antibiotic-associated diarrhoea and pseudomembranous colitis. C. difficile has emerged as an important nosocomial pathogen in recent years, associated with considerable morbidity, mortality and economic burden. Despite its importance, functional genomic studies have been lagging behind in comparison to other enteric pathogens. This is attributed to the fact that C. difficile is difficult to manipulate genetically and the lack of robust, reproducible mutagenesis systems for many years. The ideal mutation for robust functional genomic studies is a markerless, in-frame deletion of the gene of interest. All systems developed for C. difficile, up to the start of this study, involve insertional inactivation of the gene of interest. This study describes the development of a novel genetic system for C. difficile, to create precise and markerless chromosomal deletions, using the meganuclease ISceI. For validation of the system, the addBA genes in C. difficile were deleted. The AddAB enzyme complex is important in the survival of many bacteria, since it maintains genome integrity, by the repair of double-strand breaks. Deletion of addBA in C. difficile did not significantly affect growth and viability, but the mutant strains were sensitive to DNA damaging agents. In addition, it was shown that C. difficile is capable of initiating the SOS response after DNA damage and that AddAB is not necessary for the induction of this response. The genetic system was further optimised to delete type IV pili (TFP)- associated genes, particularly pilT (CD3505) and pilA (CD3507), to investigate twitching motility. TFP are important in virulence and pathogenesis of many bacteria and twitching motility is often involved. TFP in C. difficile may be expressed in vivo during infection and may be involved in biofilm formation and colonization. To study potential TFP-mediated motility, a non-flagellated C. difficile strain was first constructed by deleting the fliC gene. The pilT gene, predicted to encode a protein involved in TFP retraction, was then deleted in the ΔfliC strain. A ΔpilT strain was also generated. Preliminary experimental work using these strains did not show any evidence for twitching motility and no difference between the ΔpilT strains and the parental strains. Examination of cells from the ΔfliC strain, under various conditions, did not reveal any pili, which indicates that TFP are regulated in C. difficile and that the TFP locus might be repressed at the transcriptional level. Preliminary work to investigate an intergenic region located upstream of the TFP locus in C. difficile, that might be involved in regulation, suggested that transcription is being initiated within a 500 bp region upstream of the CD3513 gene.

579.3

New data-driven approaches to text simplification

Štajner, Sanja

January 2016

No description available.

Identifying Candidates for Product Deletion: An Analytic Hierarchy Process Approach / 分析層級程序法在產品刪除決策之應用

徐正穎, Cheng-ying Hsu

Unknown Date

分析層級程序法在產品刪除決策之應用 / The recent explosion of product management in consumer packaged goods has highlighted the importance of product assortment decisions. In particular, firms are increasingly faced with the decision of which products to delete from distribution. Upon reflection, there are both strategic and tactical dimensions to this decision. Strategic approaches focus on the development of optimal product assortments as the basis for deletion decisions. Tactical approaches address incremental (i.e., item-by- item) decisions whether to delete any product, and if so, which product. This thesis focuses on tactical approaches and proposes using Analytic Hierarchy Process (AHP) as a systematic and analytic tool that helps to quantify the managerial judgments in identifying the candidates for product deletion. Supported by a practical case study, which illustrates how AHP can be beneficial in quantifying both financial and non-financial product performance rankings for managers’ easier understanding and higher transparency of product deletion decision-making.

Product Deletion

Product Elimination

Analytic Hierarchy Process (AHP)

Structure-Function Studies on Aspartate Transcarbamoylase and Regulation of Pyrimidine Biosynthesis by a Positive Activator Protein, PyrR in Pseudomonas putida

Kumar, Alan P.

12 1900

The regulation of pyrimidine biosynthesis was studied in Pseudomonas putida. The biosynthetic and salvage pathways provide pyrimidine nucleotides for RNA, DNA, cell membrane and cell wall biosynthesis. Pyrimidine metabolism is intensely studied because many of its enzymes are targets for chemotheraphy. Four aspects of pyrimidine regulation are described in this dissertation. Chapter I compares the salvage pathways of Escherichia coli and P. putida. Surprisingly, P. putida lacks several salvage enzymes including nucleoside kinases, uridine phosphorylase and cytidine deaminase. Without a functional nucleoside kinase, it was impossible to feed exogenous uridine to P. putida. To obviate this problem, uridine kinase was transferred to P. putida from E. coli and shown to function in this heterologous host. Chapter II details the enzymology of Pseudomonas aspartate transcarbamoylase (ATCase), its allosteric regulation and how it is assembled. The E. coli ATCase is a dodecamer of two different polypeptides, encoded by pyrBI. Six regulatory (PyrI) and six catalytic (PyrB) polypeptides assemble from two preformed trimers (B3) and three preformed regulatory dimers (I2) in the conserved 2B3:3I2 molecular structure. The Pseudomonas ATCase also assembles from two different polypeptides encoded by pyrBC'. However, a PyrB polypeptide combines with a PyrC. polypeptide to form a PyrB:PyrC. protomer; six of these assemble into a dodecamer of structure 2B3:3C'2. pyrC' encodes an inactive dihydroorotase with pyrB and pyrC' overlapping by 4 bp. Chapter III explores how catabolite repression affects pyrimidine metabolism. The global catabolite repression control protein, Crc, has been shown to affect pyrimidine metabolism in a number of ways. This includes orotate transport for use as pyrimidine, carbon and nitrogen sources. Orotate is important because it interacts with PyrR in repressing the pyr genes. Chapter IV describes PyrR, the positive activator of the pyrimidine pathway. As with other positive activator proteins, when pyrimidine nucleotides are depleted, PyrR binds to DNA thereby enhancing expression of pyrD, pyrE and pyrF genes. When pyrimidine nucleotides are in excess, the PyrR apoprotein binds to orotate, its co-repressor, to shut down all the pyrimidine genes. Like many positive activators, PyrR is subject to autoregulation and has catalytic activity for uracil phosphoribosyltransferase inducible by orotate.

Pyrimidine nucleotides -- Metabolism.

Biosynthesis.

Pseudomonas.

Pseudomonas aspartate transcarbamoylase

pyrimidine regulator protein PyrR

deletion mutants

salvage pyrimidines

TE variation in natural populations of Drosophila : copy number, transcription and chromatin state / Variation des éléments transposables dans les populations naturelles de drosophila : nombre de copies, transcription et état de la chromatine

Rebollo figueiredo da silva, Rita

26 October 2009

Les éléments transposables (ET) sont une source majeure de variation génétique, ce qui leur confère un rôle essentiel dans l’évolution des génomes. Certes présents dans tous les génomes analysés à ce jour, leurs proportions sont fortement variables entre espèces et aussi entre populations, suggérant une relation unique entre génome hôte et ET. Grâce à un système modèle composé de populations naturelles de deux espèces proches (Drosophila melanogaster et D. simulans) avec des quantités différentes en ET, nous avons pu comparer les relations génome hôte/ET. Nous nous sommes particulièrement interessés à l’élément helena qui, chez D. simulans, montre une activité faible, malgré un nombre de copies élevé.Cette activité moindre est associée à de nombreuses délétions internes des copies, suggérant un mécanisme de régulation d’ET par des délétions de l’ADN. Un autre système de régulation de l’activité des ET utilise le contrôle épigénétique, ce qui permet le maintien des copies d’ET dans le génome mais un blocage de leur activité. Le remodelage de la chromatine est un système épigénétique bien décrit chez la drosophile. Les régions chromatiniennes des génomes sont associées à différents types de modifications d’histone. Nous avons mis en évidence, dans des populations de D. melanogaster et D. simulans, une variation conséquente de modifications d’histones de type hétérochromatique, H3K27me3 et H3K9me2, associées àdes copies de différents ET. De plus, nous avons décrit des populations chez D. simulans dites déréprimées, chez lesquelles certains éléments sont surexprimés et présentent des localisations probablement hétéchromatiques. Les ET sont donc contrôlés par le génome hôte par des délétions internes et probablement par un système épigénétique variable. De plus, dans certaines populations, des copies peuvent échapper à ce contrôle et envahir le génome. Les ET sont donc des grands créateurs de variabilité génétique mais permettent aussi une territorialisation chromatinienne du génome car ils portent des modifications épigénétiques précises et sont capables de les étendre à leurs environnements génomiques. Ceci leur confére la fonction "d'épigénétique mobile". / Transposable elements (TEs) are one major force of genome evolution thanks to theirability to create genetic variation. TEs are ubiquitous and their proportion is variable between species and also populations, suggesting that a tight relationship exists between genomes and TEs. The model system composed of the natural populations of the twin sisters Drosophila melanogaster and D. simulans is interesting to compare host/TE relationship, since both species harbour different amounts of TE copies. The helena element is nearly silenced in D.simulans natural populations despite a very high copy number. Such repression is associated to abundant internally deleted copies suggesting a regulatory mechanism of TEs based on DNA deletion. Another pathway of TE regulation is through epigenetics where the host genome is able to keep intact the DNA sequences of TEs and still silence their activities.Chromatin remodelling is well known in drosophila and specific histone modifications can be associated to specific chromatin domains. We observed an important variation on H3K27me3and H3K9me2, two heterochromatic marks, on TE copies in D. melanogaster and D. simulans natural populations. Also, we show that derepressed lines of D. simulans exist for specific elements, have high TE transcription rates and are highly associated to non constitutive heterochromatic marks. TEs are therefore controlled by the host genome through DNA deletion and a possible chromatin remodelling mechanism. Not only genetic variability is enhanced by TEs but also epigenetic variability, allowing the host genome to be partitioned into chromatin domains. TEs are therefore mandatory to gene network regulation through their ability of “jumping epigenetics”.

Éléments transposables

Drosophila

Populations naturelles

Délétion

Epigénétique

Transposable elements

Drosophila

Natural populations

Deletion

Epigenetics