71 research outputs found

    Supplementary Figures for Repapi et al. 2022

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    This repository contains supplementary figures for Repapi et al (2022): Integration of single-cell RNA-Seq and CyTOF data characterises heterogeneity of rare cell subpopulation

    Supplementary Figures and Table for Repapi et al. 2022

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    This repository contains supplementary figures and table for Repapi et al (2022): Integration of single-cell RNA-Seq and CyTOF data characterises heterogeneity of rare cell subpopulation

    Fundamental period of infilled reinforced concrete frame structures

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    The fundamental period of vibration appears to be one of the most critical parameters for the seismic design and assessment of structures. In the present paper, the results of a large-scale analytical investigation on the parameters that affect the fundamental period of reinforced concrete structures are presented. The influence of the number of storeys, the number of spans, the span length, the infill wall panel stiffness and the percentage of openings within the infill panel on the fundamental period of infilled RC frames was investigated. Based on these results, a regression analysis is applied in order to propose a new empirical equation for the estimation of the fundamental period. The derived equation is shown to have better predictive power compared with equations available in the literature

    An integrated genomic approach for the identification and analysis of single nucleotide polymorphisms that affect cancer in humans

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    The identification of genetic variants such as single nucleotide polymorphisms (SNPs), which affect cancer progression, survival and response to treatments could help in the design of better prevention and treatment strategies. Genome-wide association studies (GWAS) have provided the first step of identifying SNPs associating with cancer risk. However, identifying the causal SNPs responsible for the associations has proven challenging, and GWAS have not been successful for time-to-event phenotypes such as cancer progression, due to the insurmountable obstacle of the large sample size needed. The aim of this thesis is to design and implement strategies that combine the identification of SNPs significantly associated with cancer, focusing on time-to-event phenotypes, with detailed bioinformatics analysis to allow for further experimental validation and modelling, to better understand cancer-associated genomic loci and accelerate their incorporation into the clinic. First, a methodology that utilises the Random Survival Forest is developed and combined with a bioinformatics analysis that ranks SNPs according to their potential to result in differential protein levels or activity, in order to identify SNPs that affect the progression of B-cell chronic lymphocytic leukaemia. Next, an analysis that aims to extend our understanding of the role of SNPs in mediating the cellular responses to chemotherapeutic agents is applied. SNPs that could associate with differential cellular growth responses in cancer cell line panels are identified, and their association with the differential survival of cancer patients is explored. Finally, the potential roles of SNPs in affecting the transcriptional regulation of key cancer genes resulting in differential cancer risk are assessed. First, by focusing on SNPs in an important transcription factor binding motif that has been shown to be extremely sensitive to single base pair changes (the E-box) and next, by exploring the possibility that polymorphic transcription factor binding sites could underlie the significant associations noted in cancer GWAS

    An integrated genomic approach for the identification and analysis of single nucleotide polymorphisms that affect cancer in humans

    No full text
    The identification of genetic variants such as single nucleotide polymorphisms (SNPs), which affect cancer progression, survival and response to treatments could help in the design of better prevention and treatment strategies. Genome-wide association studies (GWAS) have provided the first step of identifying SNPs associating with cancer risk. However, identifying the causal SNPs responsible for the associations has proven challenging, and GWAS have not been successful for time-to-event phenotypes such as cancer progression, due to the insurmountable obstacle of the large sample size needed. The aim of this thesis is to design and implement strategies that combine the identification of SNPs significantly associated with cancer, focusing on time-to-event phenotypes, with detailed bioinformatics analysis to allow for further experimental validation and modelling, to better understand cancer-associated genomic loci and accelerate their incorporation into the clinic. First, a methodology that utilises the Random Survival Forest is developed and combined with a bioinformatics analysis that ranks SNPs according to their potential to result in differential protein levels or activity, in order to identify SNPs that affect the progression of B-cell chronic lymphocytic leukaemia. Next, an analysis that aims to extend our understanding of the role of SNPs in mediating the cellular responses to chemotherapeutic agents is applied. SNPs that could associate with differential cellular growth responses in cancer cell line panels are identified, and their association with the differential survival of cancer patients is explored. Finally, the potential roles of SNPs in affecting the transcriptional regulation of key cancer genes resulting in differential cancer risk are assessed. First, by focusing on SNPs in an important transcription factor binding motif that has been shown to be extremely sensitive to single base pair changes (the E-box) and next, by exploring the possibility that polymorphic transcription factor binding sites could underlie the significant associations noted in cancer GWAS.This thesis is not currently available in ORA

    Yofyros: A River Beyond Banks: Revealing and redefining Yofyros river landscape as a bridge between the identity of the place and people living with water

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    In a context of neglect for natural resources, formerly guiding cores of cultural development and revealed in a constitution of public spaces - due to the urban and economic development in the city of Iraklion, Crete, this project aims at exploring, understanding and revealing the potentials of Yofyros river as an actor to facilitate, enhance, and connect living-with-water in the nature, the field, and the city. In Yofyros landscape human activities and environmental imbalance are inscribed, and -in terms of use and movement, seasonal interventions for flood protection, and lack of urban planning- it is a fact that the river is pressed in a “corset” made of built irrationalities. As a physical space, it does not belong nor is included in the structure and the organization of the urban tissue, and essentially, its significance, as a part that preexists and can reinforce the public space of the city, is ignored. When it overflows, it floods the city and the outskirts, claiming more space, but also damaging houses, farming, and infrastructure. As a place with cultural and symbolic role it is rejected from the urban memory. Flood events are relatively frequent, and in combination with the contemporary fast building- they displace locals and direct stakeholders living in adjacency to the river, away from the values embedded in it. Thus, this project suggests that the locals should become actively engaged and committed to the place in their everyday life and through a physical experience that promotes further interpretation and bonds with the material and immaterial heritage of the location. The landscape biography approach was drawn upon and from the discovery of existing spatial and physical elements that specify the developing relation between the locals and the river, by defining also the main authors of the landscape, and they become the main drivers of this research and the on-site analysis, in order to retrieve multifaceted meanings of the place, their in-between connections, and their potentials for further interventions.Interventions are guided through the notion of “bridge” that situates the physical landscape and its intellectual interpretation on the ground, as it, upon itself, has both spatial and symbolic meaning. Bridge as a physical structure is dealt with the incorporation of existing pedestrian bridges and the addition of new ones, emerging to connect spaces of long-term value, and derelict spaces that are newly envisioned and intervened to reinforce already operating programs by also including their surrounding, and improve environmental issues, while through the trails they form, they provide users with “new” perceptions and mental connections with the existent and its context.Architecture, Urbanism and Building Sciences | Landscape Architectur

    The U2AF1<sup>S34F</sup> mutation induces lineage-specific splicing 1 alterations in myelodysplastic syndromes

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    Mutations of the splicing factor-encoding gene U2AF1 are frequent in the myelodysplastic syndromes (MDS), a myeloid malignancy, and other cancers. Patients with MDS suffer from peripheral blood cytopenias, including anemia, and an increasing percentage of bone marrow myeloblasts. We studied the impact of the common U2AF1S34F^{S34F} mutation on cellular function and mRNA splicing in the main cell lineages affected in MDS. We demonstrated that U2AF1S34F^{S34F} expression in human hematopoietic progenitors impairs erythroid differentiation and skews granulomonocytic differentiation toward granulocytes. RNA sequencing of erythroid and granulomonocytic colonies revealed that U2AF1S34F^{S34F} induced a higher number of cassette exon splicing events in granulomonocytic cells than in erythroid cells. U2AF1S34F^{S34F} altered mRNA splicing of many transcripts that were expressed in both cell types in a lineage-specific manner. In hematopoietic progenitors, the introduction of isoform changes identified in the U2AF1S34F^{S34F} target genes H2AFY, encoding an H2A histone variant, and STRAP, encoding serine/threonine kinase receptor-associated protein, recapitulated phenotypes associated with U2AF1S34F^{S34F} expression in erythroid and granulomonocytic cells, suggesting a causal link. Furthermore, we showed that isoform modulation of H2AFY and STRAP rescues the erythroid differentiation defect in U2AF1S34F^{S34F} MDS cells, suggesting that splicing modulators could be used therapeutically. These data have critical implications for understanding MDS phenotypic heterogeneity and support the development of therapies targeting splicing abnormalities

    Hysterically y-ours: Reclaiming academic writing as a hysterical practice

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    Abstract Yet another hysteric! Can’t bear it anymore? Neither can we! In this text, we reclaim this highly derogatory term, “hysteric,” so often used against us, as women academic writers, to rewrite the gendered architecture of academic membership in organization studies. Performing hysterical writing interweaves affects, poems and reflections with feminist theoretical and methodological inspirations to challenge the masculine norms that marginalize affective, sentient, feminine and/or other, nonconforming, different bodies from academic texts. Specifically, drawing on Irigarayan mimesis as an activist feminist practice, we develop hysteria’s transformative, response-able potentials for writing, researching, relating and eventually knowing differently in organization studies. Our account contributes to burgeoning debates on writing differently particularly by situating the ethico-political potentials of écriture feminine for knowledge creation and resistance against epistemic oppression and violence.Abstract Yet another hysteric! Can’t bear it anymore? Neither can we! In this text, we reclaim this highly derogatory term, “hysteric,” so often used against us, as women academic writers, to rewrite the gendered architecture of academic membership in organization studies. Performing hysterical writing interweaves affects, poems and reflections with feminist theoretical and methodological inspirations to challenge the masculine norms that marginalize affective, sentient, feminine and/or other, nonconforming, different bodies from academic texts. Specifically, drawing on Irigarayan mimesis as an activist feminist practice, we develop hysteria’s transformative, response-able potentials for writing, researching, relating and eventually knowing differently in organization studies. Our account contributes to burgeoning debates on writing differently particularly by situating the ethico-political potentials of écriture feminine for knowledge creation and resistance against epistemic oppression and violence

    Taylor-CCB-Group/SpOOx: First release

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    SpOOx - Spatial Omics Oxford Analysis Pipeline Release Notes Version: 1.0.0 Release Date: 6th September 2023 Overview: SpOOx is a state-of-the-art pipeline developed in close collaboration with clinicians, computational biologists, laboratory scientists, and mathematicians, offering a comprehensive analysis of spatial proteomics data. Features: Automated Processing: SpOOx automatically processes MCD image files, which are generated by the Fluidigm Hyperion Imaging System. Image Processing with imctools: Integration with imctools provides advanced image processing capabilities. Segmentation with DeepCell: Utilizes DeepCell for accurate and efficient image segmentation. Custom Scripts for Data Analysis: Extracts marker intensities, conducts quality control, and performs cell clustering to support cell phenotyping. Spatial Statistical Analysis: Includes innovative procedures for novel spatial statistical analysis. Recommendation: For an enhanced user experience and a more detailed analytics approach, we strongly recommend uploading the outputs of SpOOx to our comprehensive analytics and visualisation platform: MDV Multi-Dimensional View. Changelog: Initial Release: First version of the SpOOx pipeline released to the public. Introduced automated processing of MCD image files. Integrated with imctools and DeepCell for image processing and segmentation respectively. Introduced custom scripts for detailed data analysis. Embedded novel spatial statistical analysis procedures. Known Issues and Limitations: Tested to work on Linux HPC. Untested on Windows / macOS. Feedback and Support: We value your feedback. If you have any questions, suggestions, or encounter any issues, please report them in Issues on GitHub

    The Inheritance of p53

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    The p53 pathway constitutes a major cellular gene network that is crucial in directing the suppression of cancer formation, mediating the response to commonly used cancer therapies, as well as the regulation of germline maintenance, fertility, and reproduction. It has been demonstrated that various cancer predisposition syndromes are caused by low-frequency, highly penetrant inherited mutations in the p53 network, the knowledge of which is already positively affecting patient survival. Mounting evidence from studies utilizing human material, patient cohorts, and mouse models suggests that higher frequency, lesser penetrant genetic variants can also affect p53 signaling, resulting in differences in cancer risk, prognosis, response to therapies, and/or natural selection. Indeed, multiple genes in the p53 network have been shown to harbor functional single nucleotide polymorphisms (SNPs). Comprehensive analyses of two SNPs have demonstrated that their effects on cancer can be modified by factors such as gender, estrogen, and other p53 pathway SNPs. Together these insights suggest that genetic variants in the p53 network could present an excellent opportunity to further define individuals in their abilities to react to stress, suppress tumor formation, and respond to therapies
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