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Molecular interactions among soybean aphids and aphid-resistant soybeanStewart, Ashley January 2019 (has links)
No description available.
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Population Dynamics of Transposable Elements in Leptidea sinapisÖten, Ahmet Melih January 2022 (has links)
Although transposable elements (TEs) have been subjected to detailed study in various organisms such as humans, maize, and drosophila, this is not the case for all organisms. Despite numerous studies on the effects of TEs in the field of evolution and functional genomics, there has not been many studies yet on how much variation these elements show in populations. To address these questions, we identified TEs in Leptidea sinapis based on a newly produced high-quality genome assembly and identified novel TEs in this project. In the first step of the project, we manually curated consensus sequences of the 150 most abundant TE subfamilies. We could identify 145 of these subfamilies: two of which were non-curatable because of bad consensus sequences, three that were uncertain where they start and end, and one of the subfamilies were divided into two different subfamilies. Hence, we ended up with 146 different TE subfamilies, and the remaining part of the project was carried out using these. In the second step, we examined how the manually curated 146 subfamilies were distributed in 83 different L. sinapis individuals in the Swedish population. Before performing manual curation for our selected TEs, we looked at the TE landscape of the long-read sequenced L. sinapis genome and showed that 58.2% of the L. sinapis genome consists of TEs. In a recent study, it has been shown that 40% of L. sinapis consists of TEs. So, when compared to previous studies, our result showed that the L. sinapis genome contained more TEs than previously reported. When we made the same analysis after manual curation, we showed that this amount increased to 62.4%. The distribution of classified TEs by groups is as follows: LINE 22.6%, DNA 7.43%, SINE 4.76%, LTR 3.10%. After creating the final TE landscape for our reference genome, we analyzed 83 different individuals collected from different regions of Sweden such as Uppland, Östergötland, Västmanland, Närke, Värmland, Dalarna, Hälsingland, Småland, Medelpad, and Västerbotten for the individual number of non-reference insertions using RelocaTE2. We observed that these 146 subfamilies showed different distributions among individuals based on their sequence coverage. We couldn’t find any correlation between the number of insertions and the latitude of locations where individuals had been collected. When we look at the total number of insertions, we realized type I transposable elements were more abundant compared to type II transposable elements. Also, we checked the percentage of covered bases per individual in our dataset and observed that individuals with greater coverage had more TE insertions. After realizing this, when we analyzed individuals from different locations with very similar coverage, we could not see a significant correlation between the number of TE insertions and the latitude of locations of butterflies from different locations. For this reason, we can say that for the most abundant 146 TE subfamilies in the reference genome, there is not a significant difference between regions of Sweden. This study contributes to a better analysis of TE content in L. sinapis, and the know-how and possible problems with technical bias for individual TE insertion studies in general.
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Transcriptome-Wide piRNA Profiling in Human Brains for Aging Genetic FactorsMao, Qiao, Fan, Longhua, Wang, Xiaoping, Lin, Xiandong, Cao, Yuping, Zheng, Chengchou, Zhang, Yong, Zhang, Huihao, Garcia-Milian, Rolando, Kang, Longli, Shi, Jing, Yu, Ting, Wang, Kesheng, Zuo, Lingjun, Li, Chiang-Shan R., Guo, Xiaoyun, Luo, Xingguang 01 January 2019 (has links)
OBJECTIVE: Piwi-interacting RNAs (piRNAs) represent a molecular feature shared by all nonaging biological systems, including the germline and somatic cancer stem cells, which display an indefinite renewal capacity and lifespan-stable genomic integrity and are potentially immortal. Here, we tested the hypothesis that piRNA is a critical genetic determinant of aging in humans. METHODS: Expression of transcriptome-wide piRNAs (n=24k) was profiled in the human prefrontal cortex of 12 subjects (84.9±9.5, range 68-100, years of age) using microarray technology. We examined the correlation between these piRNAs' expression levels and age, adjusting for covariates including disease status. RESULTS: A total of 9,453 piRNAs were detected in brain. Including seven intergenic and three intronic piRNAs, ten piRNAs were significantly associated with age after correction for multiple testing (|r|=0.9; 1.9×10≤p≤9.9×10). CONCLUSION: We conclude that piRNAs might play a potential role in determining the years of survival of humans. The underlying mechanisms might involve the suppression of transposable elements (TEs) and expression regulation of aging-associated genes.
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DD34E DNA Transposable Elements of Mosquitoes: Whole-Genome Survey, Evolution, and TranspositionCoy, Monique Royer 10 July 2007 (has links)
Transposable elements (TEs) are mobile genetic elements capable of replicating and spreading within, and in some cases, between genomes. I describe a whole-genome analysis of DD34E TEs, which belong to the IS630-Tc1-mariner superfamily of DNA transposable elements, in the African malaria mosquito, Anopheles gambiae. Twenty-six new transposons as well as a new family, gambol, were identified. The gambol family shares the DD34E catalytic motif with Tc1-DD34E transposons, but is distinct from these elements in their phylogenetic relationships. Although gambol appears to be related to a few DD34E transposons from cyanobacteria and fungi, no gambol elements have been reported in any other insects or animals thus far. This discovery expands the already expansive diversity of the IS630-Tc1-mariner TEs, and raises interesting questions as to the origin of gambol elements and their apparent diversity in An. gambiae. Several DD34E transposons discovered in An. gambiae possess characteristics that are associated with recent transposition, such as high sequence identity between copies, and intact terminal-inverted repeats and open reading frames. One such element, AgTango, was also found in a distantly related mosquito species, Aedes aegypti, at high amino acid sequence identity (79.9%). It was discovered that Tango transposons have patchy distribution among twelve mosquito species surveyed using PCR as well as genomic searches, suggesting a possible case for horizontal transfer. Additionally, it was discovered that in some mosquito genomes, there are several Tango transposons. These observations suggest differential evolutionary scenarios and/or TE-host interaction of Tango elements between mosquito species. This strengthened the case that AgTango may be a functional transposase, and I sought to test its potential activity in a cell culture-based inter-plasmid transposition assay using the Herves plasmids as a positive control (Arensburger et al., 2005). AgTango constructs were successfully constructed; however, no transposition events were detected for Tango or Herves. Because the positive control failed to work, no assessment can be made concerning Tango's transposase. Possible causes and solutions for these results, alternative means to detect transposition, as well as future directions with Tango are discussed. / Ph. D.
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Algorithms for the selection of optimal spaced seed sets for transposable element identificationLi, Hui 30 August 2010 (has links)
No description available.
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Discovery of an expanded set of avian leukosis subgroup E proviruses in chickens using Vermillion, a novel sequence capture and analysis pipelineRutherford, K., Meehan, Conor J., Langille, M.G.I., Tyack, S.G., McKay, J.C., McLean, N.L., Benkel, K., Beiko, R.G., Benkel., B. 05 November 2019 (has links)
No / Transposable elements (TEs), such as endogenous retroviruses (ERVs), are common in the genomes of vertebrates. ERVs result from retroviral infections of germ-line cells, and once integrated into host DNA they become part of the host's heritable genetic material. ERVs have been ascribed positive effects on host physiology such as the generation of novel, adaptive genetic variation and resistance to infection, as well as negative effects as agents of tumorigenesis and disease. The avian leukosis virus subgroup E family (ALVE) of endogenous viruses of chickens has been used as a model system for studying the effects of ERVs on host physiology, and approximately 30 distinct ALVE proviruses have been described in the Gallus gallus genome. In this report we describe the development of a software tool, which we call Vermillion, and the use of this tool in combination with targeted next-generation sequencing (NGS) to increase the number of known proviruses belonging to the ALVE family of ERVs in the chicken genome by 4-fold, including expanding the number of known ALVE elements on chromosome 1 (Gga1) from the current 9 to a total of 40. Although we focused on the discovery of ALVE elements in chickens, with appropriate selection of target sequences Vermillion can be used to develop profiles of other families of ERVs and TEs in chickens as well as in species other than the chicken. / Financial support was provided by the EW GROUP, as well as grants from the Canada Foundation for Innovation, Canada Research Chairs Program, and the Natural Sciences and Engineering Council of Canada to RGB, and Canada Institutes of Health Research funding to MGIL and CJM.
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Cis-regulatory variation and divergence in CapsellaSteige, Kim A. January 2016 (has links)
Cis-regulatory changes in e.g. promoters or enhancers that affect the expression of a linked focal gene have long been thought to be important for adaptation. In this thesis, I investigate the selective importance and genomic correlates of cis-regulatory variation and divergence in the genus Capsella, using massively parallel sequencing data. This genus provides an opportunity to investigate cis-regulatory changes in response to polyploidization and mating system shifts, as it harbors three diploid species, the outcrosser Capsella grandiflora and the selfers Capsella orientalis and Capsella rubella, as well as the tetraploid Capsella bursa-pastoris. We first identify cis-regulatory changes associated with adaptive floral evolution in connection with the recent switch to self-fertilization in C. rubella and show that cis-regulatory changes between C. rubella and its outcrossing close relative C. grandiflora are associated with differences in transposable element content. Second, we show that variation in positive and purifying selection is important for the distribution of cis-regulatory variation across the genome of C. grandiflora. Interestingly, the presence of polymorphic transposable elements is strongly associated with cis-regulatory variation in C. grandiflora. Third, we show that the tetraploid C. bursa-pastoris is of hybrid origin and investigate the contribution of both parental species to gene expression. We show that gene expression in the tetraploid is partly explained by cis-regulatory divergence between the parental species. Nonetheless, within C. bursa-pastoris there is a great deal of variation in homeolog expression. In summary, this thesis explores the role of cis-regulatory changes for adaptive morphological changes in connection to a shift in mating system, the role of cis-regulatory divergence between progenitor species for an allopolyploid as well as the impact of positive and purifying selection on cis-regulatory variation within a species.
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Étude de l’influence des éléments transposables sur la régulation des gènes chez les mammifères / Study of transposable element influence on gene regulation in mammalsMortada, Hussein 04 October 2011 (has links)
Les éléments transposables sont des séquences génomiques capables de se répliquer et de se déplacer dans les génomes. Leur capacité à s’insérer près des gènes et à produire des réarrangements chromosomiques par recombinaison entre copies, font des éléments transposables des agents mutagènes. Les éléments transposables sont de plus capables de modifier l’expression des gènes voisins grâce aux régions promotrices qu’ils possèdent. Les éléments transposables ont été trouvés dans la plupart des génomes dans lesquels ils ont été recherchés. Ils forment ainsi 45 % du génome de l’homme et peuvent représenter jusqu’à 90 % du génome de certaines plantes. Dans la première partie de ma thèse, je me suis penché sur les facteurs qui déterminent la distribution de ces éléments. Je me suis intéressé à un facteur particulier, qui est la fonction des gènes dans le voisinage des insertions d’éléments transposables. Dans la deuxième partie, j’ai essayé de déterminer l’impact de l’altération des modifications épigénétiques (modifications d’histones plus précisément) associées aux différents composants géniques, dont les éléments transposables, sur la variation de l’expression des gènes en condition tumorale. / Transposable elements are genomic sequences able to replicate themselves and to move within genomes. Their ability to integrate near genes and to produce chromosomal rearrangements by recombination between copies, make transposable elements mutagens. Moreover, transposable elements are able to alter the expression of neighboring genes through their promoter regions. Transposable elements form 45% of the human genome and may represent up to 90% of certain plant genomes. In the first part of my thesis, I examined the factors that determine the distribution of these elements. I have been interested in a particular factor, which is the function of the genes in the vicinity of transposable element insertions. In the second part, I determined the impact of epigenetic modifications alterations (histone modifications) in different gene components, including transposable elements, on the variation of gene expression in tumoral conditions.
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La régulation épigénétique des éléments transposables dans les populations naturelles de Drosophila simulans / Epigenetic regulation of transposable elements in natural populations of Drosophila simulansHubert, Benjamin 17 December 2010 (has links)
La méthylation de l’ADN et les modifications post-traductionnelles des histones sont desmodifications épigénétiques qui interviennent dans la régulation des éléments transposables(ET) chez de nombreuses espèces. La proportion des ET dans les génomes varie selon lesespèces considérées et pose la question des mécanismes de régulation de ces ET. Au sein del’espèce Drosophila simulans, les populations naturelles présentent un polymorphisme uniquedans le nombre de copies des ET, ce qui en fait un excellent modèle pour étudier cettequestion. L’étude de la méthylation d’ADN et des modifications post-traductionnelles deshistones associées au rétrotransposon à LTR tirant dans la lignée germinale des populationsnaturelles a permis de montrer l’influence d’une copie d’ET sur la structure de la chromatineau site d’insertion. Dans un second volet, nous avons cherché à caractériser la méthylation del’ADN chez la drosophile, chez laquelle la fonction est encore mal connue. Nous avons, pardes approches spécifiques et globales, mesuré l’abondance de cette marque épigénétique chezla drosophile. Nous concluons que les taux de méthylation de l’ADN sont très faibles maisvariables entre espèces. Notre travail n’a pas permis de mettre en évidence un rôle de laméthylation de l’ADN dans le contrôle des ET, toutefois, nous ne pouvons pas exclure cesystème de régulation. / Epigenetic modifications such as DNA methylation and post-translational histonemodifications are involved in transposable elements (TE) silencing in many species. Theirrelative abundance in genomes ask the question of differences in regulation mecanismbetween species. Within the Drosophila simulans species, natural populations exibits a uniquepolymorphism in TE copy number, providing a powerfull tool for the analysis of TEregulation in population from the same specie. We analyzed DNA methylation and posttranslationalhistone modifications associated with the LTR retrotransposon tirant in thegermline of natural populations and report the influence of this element on chromatinestructure. DNA methylation is a wide-conserved epigenetic modification involved in generegulation and TE silencing but its function in drosophila remains missunderstood. Usingdifferent methods, we determined the abundance of methylated cytosines in drosophila, andshowed that methylation level are low and variable between species. Our results show lowevidence for a TE regulation system involving DNA methylation but this cannot be so farexcluded.
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De la rose sauvage à la rose domestiquée : caractérisation du rôle d’APETALA2L dans la formation de la fleur double chez le rosier / From wild to domesticated roses : characterisation of APETALA2L function in double flower formation in Rosa chinensisFrançois, Léa 16 July 2019 (has links)
Les roses à fleurs doubles attirent sélectionneurs et scientifiques depuis de nombreux siècles. L’analyse des taux de ségrégation et cartes génétiques indique que le passage de la fleur simple à la fleur double est dû à une seule mutation dominante située sur le chromosome 3. Cette mutation conduit à une conversion homéotique d’une partie des étamines en pétales, soulignant la possibilité que cette mutation impacte certains gènes du modèle ABC. Il y a quelques années, notre équipe a démontré que l’augmentation du nombre de pétales chez le rosier était corrélée à une restriction de l’expression de RcAGAMOUS (RcAG) vers le centre du méristème floral. Cependant, RcAG étant porté par le chromosome 5, il ne peut être le déterminant génétique de la fleur double. Il a donc été supposé que la mutation en cause se trouvait dans un gène intervenant en amont de RcAG.Récemment, nous avons séquencé, assemblé et publié le génome de Rosa chinensis cv ‘Old Blush’ un ancêtre des rosiers modernes qui produit déjà des fleurs doubles. L’assemblage, de très bonne qualité, nous a aidé à reconstruire la séquence des deux haplotypes de l'intervalle contenant la mutation liée à la fleur double. Nous avons identifié, parmi les 631 gènes de cet intervalle, un gène APETALA2-LIKE (RcAP2L) comme candidat plus que prometteur. En effet, il a été découvert que ce gène existait sous la forme de deux allèles, l’un d’entre eux contenant un grand élément transposable, donnant lieu à un allèle tronqué résistant à l’inhibition par miR172, appelé RcAP2LΔ172. Sachant que la surexpression d’un variant résistant au miR172 entraîne souvent la formation de pétales supplémentaires chez A. thaliana, j’ai démontré que la présence de ce variant corrèle avec le phénotype « fleur double » chez les rosiers d’origine chinoise. Enfin, alors qu’AP2 est capable d’inhiber l’expression d’AG en se liant directement à ses séquences régulatrices chez A. thaliana, j’ai confirmé la capacité des protéines codées par les deux allèles de RcAP2L à lier les séquences régulatrices de RcAG, in vitro. À partir de ces résultats, je propose donc un modèle pouvant expliquer la formation de fleurs doubles chez les rosiers chinois et peut-être d’autres Rosaceae, dans lesquelles la protéine RcAP2LΔ172 peut s’accumuler du fait de sa résistance au miR172 et restreindre davantage l’expression de RcAG au centre du méristème floral. Ainsi, la frontière entre les domaines A et C se trouve elle aussi déplacée vers le centre du méristème, ce qui induit la conversion des étamines en pétales. / Roses exhibiting double flowers have intrigued both breeders and scientists for decades. Based on segregation ratios and genetic maps, it is known that the switch from simple to double flower is due a single dominant locus on chromosome 3. When present in its mutated form, this locus leads to a homeotic conversion of stamens into petals, suggesting a mechanism involving the ABC genes. A few years ago, our team demonstrated that the increase in petal number correlates with a restriction of RCAGAMOUS (RcAG) expression domain towards the center of the floral meristem. However, as RcAG is located on chromosome 5, the causative mutation was assumed to act as a regulator of this gene. Recently, we sequenced, assembled and published the double-flowered Rosa chinensis cv ‘Old Blush’ genome sequence with a high-quality assembly that helped us to reconstruct the sequence of the two haplotypes of the interval containing the double flower mutation. Among the 631 genes from this interval, we identified here an APETALA2-LIKE (RcAP2L) gene as a strong candidate. Indeed, this gene was found to exist as two alleles, with one containing a large transposable element resulting in a truncated, miR172-resistant, variant named RcAP2LΔ172. Knowing that the overexpression of a miR172-resistant variant of AP2 leads to the formation of extra petals (and sometimes stamens) in Arabidopsis, we investigated the presence of this variant in simple and double flower varieties. The presence of RcAP2LΔ172 was found to correlate with the double flower phenotype in Chinese roses and was not observed in any of the simple-flowered roses studied. Finally, as AP2 is able to inhibit AG expression by directly binding to its regulatory sequences in A. thaliana, I confirmed that both RcAP2L proteins are also able to recognize RcAG regulatory sequences in vitro. A working model is thus proposed for double flower formation in rose, that could be valid for other Rosaceae, whereby RcAP2LΔ172 protein may accumulate due to its resistance to miR172 and consequently may repress more RcAG towards the center of the floral meristem, leading to the sliding of the A/C border and thus the conversion of stamens into petals.
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