Genetics of the Holt-Oram syndrome.

Chan, Lily Wai-Li

January 1971

No description available.

Holt-Oram syndrome

Heart -- Abnormalities.

Medical genetics.

Genetics of the Holt-Oram syndrome.

Chan, Lily Wai-Li

January 1971

No description available.

Heart -- Abnormalities.

Holt-Oram syndrome

Medical genetics.

Secure and efficient query processing in outsourced databases

Bogatov, Dmytro

16 September 2022

As organizations struggle with processing vast amounts of information, outsourcing sensitive data to third parties becomes a necessity. Various cryptographic techniques are used in outsourced database systems to ensure data privacy while allowing for efficient querying. This thesis proposes a definition and components of a new secure and efficient outsourced database system, which answers various types of queries, with different privacy guarantees in different security models. This work starts with the survey of five order-preserving and order-revealing encryption schemes that can be used directly in many database indices, such as the B+ tree, and five range query protocols with various tradeoffs in terms of security and efficiency. The survey systematizes the state-of-the-art range query solutions in a snapshot adversary setting and offers some non-obvious observations regarding the efficiency of the constructions. The thesis then proceeds with Epsolute - an efficient range query engine in a persistent adversary model. In Epsolute, security is achieved in a setting with a much stronger adversary where she can continuously observe everything on the server, and leaking even the result size can enable a reconstruction attack. Epsolute proposes a definition, construction, analysis, and experimental evaluation of a system that provably hides both access pattern and communication volume while remaining efficient. The dissertation concludes with k-anon - a secure similarity search engine in a snapshot adversary model. The work presents a construction in which the security of kNN queries is achieved similarly to OPE / ORE solutions - encrypting the input with an approximate Distance Comparison Preserving Encryption scheme so that the inputs, the points in a hyperspace, are perturbed, but the query algorithm still produces accurate results. Analyzing the solution, we run a series of experiments to observe the tradeoff between search accuracy and attack effectiveness. We use TREC datasets and queries for the search, and track the rank quality metrics such as MRR and nDCG. For the attacks, we build an LSTM model that trains on the correlation between a sentence and its embedding and then predicts words from the embedding. We conclude on viability and practicality of the solution.

Computer science

Differential privacy

ORAM

ORE

Secure range queries

The development of resources for electronic music in the UK, with particular reference to the bids to establish a National Studio

Candlish, Nicola Anne

January 2012

This thesis traces the history and development of the facilities for electronic music in the UK. It covers the early attempts to experiment with electronic music and create studios in less than ideal circumstances and the subsequent bids to create a national centre. It also covers some elements of worldwide development of electronic music and sound recording, in particular those which occurred before 1965. The thesis calls upon non-traditional sources and the author was able to access many documents in the personal archives of electronic music pioneers. There is substantial reference to committees and societies for electronic music and their effects on the development of facilities for electronic music in the UK. Some of the early pioneers are studied in detail; these include Daphne Oram, Tristram Cary and Hugh Davies. Unprecedented access to information on Hugh Davies and Daphne Oram was provided by the family estates of these recently deceased composers. This allowed the author to gain valuable insight into the working patterns and methodology of these composers. Many references to later pioneers such as Trevor Wishart are also made but the focus remains on the facilities available to composers rather than the composers and their works.

786.7

FUNCTIONAL CHARACTERIZATION OF THE HOLT-ORAM SYNDROME ASSOCIATED TRANSCRIPTION FACTOR Tbx5 DURING EMBRYONIC HEART DEVELOPOMENT

PLAGEMAN, TIMOTHY F., JR.

13 July 2006

No description available.

Biology, Molecular

Tbx5

Holt Oram Syndrome

Transcription factor

Embryonic heart development

Diversité fonctionnelle du facteur de transcription Tbx5 dans le coeur

Georges, Romain O.

08 1900

Le cœur des vertébrés est un organe modulaire qui requiert le " patterning " complexe des champs morphogénétiques cardiogènes et la convergence coordonnée des diverses sous-populations de progéniteurs cardiogéniques. Au moins 7 facteurs de transcription de la famille T-box coopèrent au sein de ces nombreuses sous-populations de progéniteurs cardiogéniques afin de réguler la morphogenèse et l’agencement de multiples structures le long de l’ébauche cardiaque, ce qui explique que les mutations humaines de ces gènes engendrent diverses malformations congénitales cardiaques (MCCs). L’un de ces gènes T-box, Tbx5, dont l’haploinsuffisance génère le syndrome de Holt-Oram (SHO), intervient dans une grande variété de réseaux de régulation géniques (RRGs) qui orchestrent la morphogenèse des oreillettes, du ventricule gauche, de la valve mitrale, des septums inter-auriculaire et inter-ventriculaire, ainsi que du système de conduction cardiaque. La diversité des RRGs impliqués dans la formation de ces structures cardiaques suggère que Tbx5 détient une profusion de fonctions qui ne seront identifiables qu’en répertoriant ses activités moléculaires dans chaque lignée cardiaque examinée isolément. Afin d’aborder cette problématique, une ablation génétique de Tbx5 dans l’endocarde a été réalisée. Cette expérience a démontré le rôle crucial de Tbx5 dans la survie des cellules endocardiques bordant le septum primum et des cardiomyocytes au sein de cette structure embryonnaire qui contribuera à la morphogenèse du septum inter-auriculaire. En outre, cette étude a révélé l’existence d’une communication croisée entre la sous-population de cellules endocardiques Tbx5+ et le myocarde au niveau du septum primum, afin d’assurer la survie des cardiomyocytes, et ultimement de garantir la maturation du septum inter-auriculaire. Nos résultats confirment aussi l’importance de l’interdépendance génétique (Tbx5 et Gata4 ainsi que Tbx5 et Nos3) entre différents loci dans la morphogenèse de la cloison inter-auriculaire, et particulièrement de l’influence que peut avoir l’environnement sur la pénétrance et l’expressivité des communications inter-auriculaires (CIAs) dans le SHO. En outre, puisque les fonctions d’un gène dépendent ordinairement des différents isoformes qu’il peut générer, une deuxième étude a focalisé davantage sur l’aspect transcriptionnel de Tbx5. Cette approche a mené à la découverte de 6 transcrits alternatifs exhibant des fonctions à la fois communes et divergentes. La caractérisation de 2 de ces isoformes a révélé le rôle de l’isoforme long (Tbx5_v1) dans la régulation de la croissance des cardiomyocytes durant la cardiogénèse, tandis que l’isoforme court (Tbx5_v2), préférentiellement exprimé dans le cœur mature, réprime la croissance cellulaire. Il est donc entièrement concevable que les mutations de TBX5 entraînant une troncation de la région C-terminale accroissent la concentration d’une protéine mutée qui, à l’instar de Tbx5_v2, interfère avec la croissance de certaines structures cardiaques. En revanche, la divergence de fonctions de ces isoformes, caractérisée par les disparités de localisation subcellulaire et de d’interaction avec d’autres cofacteurs cardiaques, suggère que les mutations affectant davantage un isoforme favoriseraient l’émergence d’un type particulier de MCC. Finalement, un dernier objectif était d’identifier le ou les mécanisme(s) moléculaire(s) par le(s)quel(s) Tbx5 régule son principal gène cible, Nppa, et d’en extraire les indices qui éclairciraient sa fonction transcriptionnelle. Cet objectif nécessitait dans un premier lieu d’identifier les différents modules cis-régulateurs (MCRs) coordonnant la régulation transcriptionnelle de Nppa et Nppb, deux gènes natriurétiques dont l’organisation en tandem et le profil d’expression durant la cardiogénèse sont conservés dans la majorité des vertébrés. L’approche d’empreinte phylogénétique employée pour scanner le locus Nppb/Nppa a permis d’identifier trois MCRs conservés entre diverses espèces de mammifères, dont un (US3) est spécifique aux euthériens. Cette étude a corroboré que la régulation de l’expression du tandem génique Nppb/Nppa requérait l’activité transcriptionnelle d’enhancers en complément aux promoteurs de Nppa et Nppb. La concordance quasiment parfaite entre les profils d’expression de Tbx5 et de ces deux gènes natriurétiques chez les mammifères, suggère que le gradient d’expression ventriculaire de Tbx5 est interprété par le recrutement de ce facteur au niveau des différents enhancers identifiés. En somme, les études présentées dans cette thèse ont permis de clarifier la profusion de fonctions cardiaques que possède Tbx5. Certaines de ces fonctions émanent de l’épissage alternatif de Tbx5, qui favorise la synthèse d’isoformes dotés de propriétés spécifiques. Les diverses interactions combinatoires entre ces isoformes et d’autres facteurs cardiaques au sein des diverses sous-populations de progéniteurs cardiogènes contribuent à l’émergence de RRGs cardiaques divergents. / The vertebrate heart is a modular organ, which requires the complex patterning of the morphogenetic heart fields and the coordinated convergence of the diverse subpopulations of cardiogenic progenitors. At least 7 transcription factors of the T-box family cooperate within these numerous subpopulations of cardiogenic progenitors to regulate the morphogenesis and the layout of multiple structures along the primordial heart tube, which explains that the human mutations of these genes induce various congenital heart defects (CHDs). One of these T-box genes, Tbx5, whose haploinsufficiency generates the Holt-Oram syndrome (HOS), intervenes in a wide variety of gene regulatory networks (GRNs) that orchestrate the morphogenesis of the atria, the left ventricle, the mitral valve, the inter-atrial and inter-ventricular septa, as well as the cardiac conduction system. The diversity of GRNs involved in the formation of these cardiac structures suggests that Tbx5 holds a profusion of functions which will be identifiable only by indexing its molecular activities in each separately examined cardiac lineage. To address this problem, a conditional knockout of Tbx5 in the endocardium was generated. This experiment demonstrated a crucial role of Tbx5 in the survival of the endocardial cells lining the septum primum and the cardiomyocytes within this embryonic structure, which will contribute to the morphogenesis of the inter-atrial septum. Moreover, this study revealed a crosstalk between the Tbx5-positive endocardial cells subpopulation and the myocardium at the level of the septum primum to ensure the survival of cardiomyocytes, and ultimately to guarantee the maturation of the inter-atrial septum. Our results also confirmed the importance of genetic interdependence (Tbx5 and Gata4 as well as Tbx5 and Nos3) between different loci in the morphogenesis of the inter-atrial septum, and particularly the influence that the environment can have on the penetrance and the expressivity of atrial septal defects (ASDs) in the HOS. Besides, since the functions of a gene usually depend on the different isoforms it can generate, a second study focused more on the transcriptional aspect of Tbx5. This approach led to the discovery of 6 alternative transcripts exhibiting both common and specific functions. The characterization of 2 of these isoforms revealed the role of the long isoform (Tbx5_v1) in the regulation of cardiomyocytes growth during cardiogenesis, whereas the short isoform (Tbx5_v2), preferentially expressed in the mature heart, represses cell growth. It is thus entirely conceivable that TBX5 mutations leading to a C-terminal truncation increase the concentration of a mutated protein, which, like Tbx5_v2, interferes with the growth of certain cardiac structures. On the other hand, the divergence of functions of these isoforms, characterized by the disparities of subcellular localization and interaction with other cardiac cofactors, suggests that mutations affecting more one isoform would favor the emergence of a particular type of CHD. Finally, a last objective was to identify one or several molecular mechanism(s) by which Tbx5 regulates its main target gene, Nppa, and to extract clues that might clarify its transcriptional function. This objective required in a first place to identify the various cis-regulatory modules (CRMs) coordinating the transcriptional regulation of Nppa and Nppb, two natriuretic genes whose tandem organization and expression pattern during cardiogenesis are preserved in most vertebrates. The phylogenetic footprint approach employed to scan the Nppb/Nppa locus allowed the identification of three CRMs evolutionary conserved between different mammals species, one of which (US3) is specific to eutherians. This study confirmed that the regulation of the tandem genes Nppb/Nppa required the transcriptional activity of enhancers in complement to Nppa and Nppb promoters. The almost perfect concordance between the expression profiles of Tbx5 and these two natriuretic genes in mammals, suggests that the ventricular expression gradient of Tbx5 is interpreted by the recruitment of this factor to the identified enhancers. Altogether, the studies presented in this thesis allowed clarifying the profusion of Tbx5 cardiac functions. Some of these functions emanate from the alternative splicing of Tbx5, which favors the synthesis of isoforms endowed with specific properties. The diverse combinatorial interactions between these isoforms and other cardiac factors within the various cardiogenic progenitor subpopulations contribute to the emergence of distinct cardiac RRGs.

Tbx5

Nppa

Nppb

Gata4

Nos3

Cardiogénèse

Endocarde

Communication inter-auriculaire

Malformation congénitale cardiaque

Syndrome de Holt-Oram

Épissage alternatif

Cardiogenesis

Endocardium

Atrial septal defect

Congenital heart defect

Holt-Oram syndrome

Alternative splicing

Enhancer

Diversité fonctionnelle du facteur de transcription Tbx5 dans le coeur

Georges, Romain O.

08 1900

Le cœur des vertébrés est un organe modulaire qui requiert le " patterning " complexe des champs morphogénétiques cardiogènes et la convergence coordonnée des diverses sous-populations de progéniteurs cardiogéniques. Au moins 7 facteurs de transcription de la famille T-box coopèrent au sein de ces nombreuses sous-populations de progéniteurs cardiogéniques afin de réguler la morphogenèse et l’agencement de multiples structures le long de l’ébauche cardiaque, ce qui explique que les mutations humaines de ces gènes engendrent diverses malformations congénitales cardiaques (MCCs). L’un de ces gènes T-box, Tbx5, dont l’haploinsuffisance génère le syndrome de Holt-Oram (SHO), intervient dans une grande variété de réseaux de régulation géniques (RRGs) qui orchestrent la morphogenèse des oreillettes, du ventricule gauche, de la valve mitrale, des septums inter-auriculaire et inter-ventriculaire, ainsi que du système de conduction cardiaque. La diversité des RRGs impliqués dans la formation de ces structures cardiaques suggère que Tbx5 détient une profusion de fonctions qui ne seront identifiables qu’en répertoriant ses activités moléculaires dans chaque lignée cardiaque examinée isolément. Afin d’aborder cette problématique, une ablation génétique de Tbx5 dans l’endocarde a été réalisée. Cette expérience a démontré le rôle crucial de Tbx5 dans la survie des cellules endocardiques bordant le septum primum et des cardiomyocytes au sein de cette structure embryonnaire qui contribuera à la morphogenèse du septum inter-auriculaire. En outre, cette étude a révélé l’existence d’une communication croisée entre la sous-population de cellules endocardiques Tbx5+ et le myocarde au niveau du septum primum, afin d’assurer la survie des cardiomyocytes, et ultimement de garantir la maturation du septum inter-auriculaire. Nos résultats confirment aussi l’importance de l’interdépendance génétique (Tbx5 et Gata4 ainsi que Tbx5 et Nos3) entre différents loci dans la morphogenèse de la cloison inter-auriculaire, et particulièrement de l’influence que peut avoir l’environnement sur la pénétrance et l’expressivité des communications inter-auriculaires (CIAs) dans le SHO. En outre, puisque les fonctions d’un gène dépendent ordinairement des différents isoformes qu’il peut générer, une deuxième étude a focalisé davantage sur l’aspect transcriptionnel de Tbx5. Cette approche a mené à la découverte de 6 transcrits alternatifs exhibant des fonctions à la fois communes et divergentes. La caractérisation de 2 de ces isoformes a révélé le rôle de l’isoforme long (Tbx5_v1) dans la régulation de la croissance des cardiomyocytes durant la cardiogénèse, tandis que l’isoforme court (Tbx5_v2), préférentiellement exprimé dans le cœur mature, réprime la croissance cellulaire. Il est donc entièrement concevable que les mutations de TBX5 entraînant une troncation de la région C-terminale accroissent la concentration d’une protéine mutée qui, à l’instar de Tbx5_v2, interfère avec la croissance de certaines structures cardiaques. En revanche, la divergence de fonctions de ces isoformes, caractérisée par les disparités de localisation subcellulaire et de d’interaction avec d’autres cofacteurs cardiaques, suggère que les mutations affectant davantage un isoforme favoriseraient l’émergence d’un type particulier de MCC. Finalement, un dernier objectif était d’identifier le ou les mécanisme(s) moléculaire(s) par le(s)quel(s) Tbx5 régule son principal gène cible, Nppa, et d’en extraire les indices qui éclairciraient sa fonction transcriptionnelle. Cet objectif nécessitait dans un premier lieu d’identifier les différents modules cis-régulateurs (MCRs) coordonnant la régulation transcriptionnelle de Nppa et Nppb, deux gènes natriurétiques dont l’organisation en tandem et le profil d’expression durant la cardiogénèse sont conservés dans la majorité des vertébrés. L’approche d’empreinte phylogénétique employée pour scanner le locus Nppb/Nppa a permis d’identifier trois MCRs conservés entre diverses espèces de mammifères, dont un (US3) est spécifique aux euthériens. Cette étude a corroboré que la régulation de l’expression du tandem génique Nppb/Nppa requérait l’activité transcriptionnelle d’enhancers en complément aux promoteurs de Nppa et Nppb. La concordance quasiment parfaite entre les profils d’expression de Tbx5 et de ces deux gènes natriurétiques chez les mammifères, suggère que le gradient d’expression ventriculaire de Tbx5 est interprété par le recrutement de ce facteur au niveau des différents enhancers identifiés. En somme, les études présentées dans cette thèse ont permis de clarifier la profusion de fonctions cardiaques que possède Tbx5. Certaines de ces fonctions émanent de l’épissage alternatif de Tbx5, qui favorise la synthèse d’isoformes dotés de propriétés spécifiques. Les diverses interactions combinatoires entre ces isoformes et d’autres facteurs cardiaques au sein des diverses sous-populations de progéniteurs cardiogènes contribuent à l’émergence de RRGs cardiaques divergents. / The vertebrate heart is a modular organ, which requires the complex patterning of the morphogenetic heart fields and the coordinated convergence of the diverse subpopulations of cardiogenic progenitors. At least 7 transcription factors of the T-box family cooperate within these numerous subpopulations of cardiogenic progenitors to regulate the morphogenesis and the layout of multiple structures along the primordial heart tube, which explains that the human mutations of these genes induce various congenital heart defects (CHDs). One of these T-box genes, Tbx5, whose haploinsufficiency generates the Holt-Oram syndrome (HOS), intervenes in a wide variety of gene regulatory networks (GRNs) that orchestrate the morphogenesis of the atria, the left ventricle, the mitral valve, the inter-atrial and inter-ventricular septa, as well as the cardiac conduction system. The diversity of GRNs involved in the formation of these cardiac structures suggests that Tbx5 holds a profusion of functions which will be identifiable only by indexing its molecular activities in each separately examined cardiac lineage. To address this problem, a conditional knockout of Tbx5 in the endocardium was generated. This experiment demonstrated a crucial role of Tbx5 in the survival of the endocardial cells lining the septum primum and the cardiomyocytes within this embryonic structure, which will contribute to the morphogenesis of the inter-atrial septum. Moreover, this study revealed a crosstalk between the Tbx5-positive endocardial cells subpopulation and the myocardium at the level of the septum primum to ensure the survival of cardiomyocytes, and ultimately to guarantee the maturation of the inter-atrial septum. Our results also confirmed the importance of genetic interdependence (Tbx5 and Gata4 as well as Tbx5 and Nos3) between different loci in the morphogenesis of the inter-atrial septum, and particularly the influence that the environment can have on the penetrance and the expressivity of atrial septal defects (ASDs) in the HOS. Besides, since the functions of a gene usually depend on the different isoforms it can generate, a second study focused more on the transcriptional aspect of Tbx5. This approach led to the discovery of 6 alternative transcripts exhibiting both common and specific functions. The characterization of 2 of these isoforms revealed the role of the long isoform (Tbx5_v1) in the regulation of cardiomyocytes growth during cardiogenesis, whereas the short isoform (Tbx5_v2), preferentially expressed in the mature heart, represses cell growth. It is thus entirely conceivable that TBX5 mutations leading to a C-terminal truncation increase the concentration of a mutated protein, which, like Tbx5_v2, interferes with the growth of certain cardiac structures. On the other hand, the divergence of functions of these isoforms, characterized by the disparities of subcellular localization and interaction with other cardiac cofactors, suggests that mutations affecting more one isoform would favor the emergence of a particular type of CHD. Finally, a last objective was to identify one or several molecular mechanism(s) by which Tbx5 regulates its main target gene, Nppa, and to extract clues that might clarify its transcriptional function. This objective required in a first place to identify the various cis-regulatory modules (CRMs) coordinating the transcriptional regulation of Nppa and Nppb, two natriuretic genes whose tandem organization and expression pattern during cardiogenesis are preserved in most vertebrates. The phylogenetic footprint approach employed to scan the Nppb/Nppa locus allowed the identification of three CRMs evolutionary conserved between different mammals species, one of which (US3) is specific to eutherians. This study confirmed that the regulation of the tandem genes Nppb/Nppa required the transcriptional activity of enhancers in complement to Nppa and Nppb promoters. The almost perfect concordance between the expression profiles of Tbx5 and these two natriuretic genes in mammals, suggests that the ventricular expression gradient of Tbx5 is interpreted by the recruitment of this factor to the identified enhancers. Altogether, the studies presented in this thesis allowed clarifying the profusion of Tbx5 cardiac functions. Some of these functions emanate from the alternative splicing of Tbx5, which favors the synthesis of isoforms endowed with specific properties. The diverse combinatorial interactions between these isoforms and other cardiac factors within the various cardiogenic progenitor subpopulations contribute to the emergence of distinct cardiac RRGs.

Tbx5

Nppa

Nppb

Gata4

Nos3

Cardiogénèse

Endocarde

Communication inter-auriculaire

Malformation congénitale cardiaque

Syndrome de Holt-Oram

Épissage alternatif

Cardiogenesis

Endocardium

Atrial septal defect

Congenital heart defect

Holt-Oram syndrome

Alternative splicing

Enhancer

Defeating Critical Threats to Cloud User Data in Trusted Execution Environments

Adil Ahmad (13150140)

26 July 2022

<p>In today’s world, cloud machines store an ever-increasing amount of sensitive user data, but it remains challenging to guarantee the security of our data. This is because a cloud machine’s system software—critical components like the operating system and hypervisor that can access and thus leak user data—is subject to attacks by numerous other tenants and cloud administrators. Trusted execution environments (TEEs) like Intel SGX promise to alter this landscape by leveraging a trusted CPU to create execution contexts (or enclaves) where data cannot be directly accessed by system software. Unfortunately, the protection provided by TEEs cannot guarantee complete data security. In particular, our data remains unprotected if a third-party service (e.g., Yelp) running inside an enclave is adversarial. Moreover, data can be indirectly leaked from the enclave using traditional memory side-channels.</p> <p><br></p> <p>This dissertation takes a significant stride towards strong user data protection in cloud machines using TEEs by defeating the critical threats of adversarial cloud services and memory side-channels. To defeat these threats, we systematically explore both software and hardware designs. In general, we designed software solutions to avoid costly hardware changes and present faster hardware alternatives.</p> <p><br></p> <p>We designed 4 solutions for this dissertation. Our Chancel system prevents data leaks from adversarial services by restricting data access capabilities through robust and efficient compiler-enforced software sandboxing. Moreover, our Obliviate and Obfuscuro systems leverage strong cryptographic randomization and prevent information leakage through memory side-channels. We also propose minimal CPU extensions to Intel SGX called Reparo that directly close the threat of memory side-channels efficiently. Importantly, each designed solution provides principled protection by addressing the underlying root-cause of a problem, instead of enabling partial mitigation.</p> <p><br></p> <p>Finally, in addition to the stride made by our work, future research thrust is required to make TEEs ubiquitous for cloud usage. We propose several such research directions to pursue the essential goal of strong user data protection in cloud machines.</p>

Data security and protection

Hardware security

System and network security

Cloud data protection

Trusted Execution Environments (TEEs)

Intel Software Guard eXtensions (SGX)

Oblivious RAM (ORAM)

Hardware extensions

Compiler-aided protection