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Your search keyword '"Gan, Xiangchao"' showing total 7 results
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7 results on '"Gan, Xiangchao"'

2. The Cardamine hirsuta genome offers insight into the evolution of morphological diversity

Author

Gan, Xiangchao, Hay, Angela, et al, Briskine, Roman, Shimizu, Kentaro K, Shimizu-Inatsugi, Rie, University of Zurich, and Gan, Xiangchao

Subjects
UFSP13-7 Evolution in Action: From Genomes to Ecosystems, 10127 Institute of Evolutionary Biology and Environmental Studies, 1110 Plant Science, 570 Life sciences, biology, 590 Animals (Zoology)
Published
2016

3. Genomic Rearrangements in Arabidopsis Considered as Quantitative Traits

Author

Imprialou, Martha, Kahles, André, Steffen, Joshua G., Osborne, Edward J., Gan, Xiangchao, Lempe, Janne, Bhomra, Amarjit, Belfield, Eric, Visscher, Anne, Greenhalgh, Robert, Harberd, Nicholas P., Goram, Richard, Hein, Jotun, Robert-Seilaniantz, Alexandre, Jones, Jonathan, Stegle, Oliver, Kover, Paula, Tsiantis, Miltos, Nordborg, Magnus, Rätsch, Gunnar, Clark, Richard M., Mott, Richard, The Wellcome Trust Centre for Human Genetics [Oxford], University of Oxford, Department of Computer Science, Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology [Zürich] (ETH Zürich), Department of Biology, University of Utah, Department of Comparative Development and Genetics, Max Planck Institute for Plant Breeding Research (MPIPZ), Department of Plant Sciences, Royal Botanic Gardens [Kew], John Innes Centre [Norwich], Biotechnology and Biological Sciences Research Council (BBSRC), Institut de Génétique, Environnement et Protection des Plantes (IGEPP), Institut National de la Recherche Agronomique (INRA)-Université de Rennes (UR)-AGROCAMPUS OUEST, The Sainsbury Laboratory [Norwich] (TSL), European Molecular Biology Laboratory European Bioinformatics Institute, University of Bath [Bath], Department of Population Genetics, Institute of Marine Research [Bergen] (IMR), University of Bergen (UiB)-University of Bergen (UiB), Genetics Institute, University College of London [London] (UCL), Wellcome Trust [090532/Z/09/Z], UK Engineering and Physical Sciences Research Council, National Science Foundation [0929262], National Institutes of Health Genetics training grant [T32 GM-007464], University of Oxford [Oxford], Royal Botanic Gardens, Kew, John Innes Centre, Institut National de la Recherche Agronomique (INRA)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-AGROCAMPUS OUEST, and Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)

Subjects
quantitative trait locus, structural variation, Arabidopsis, heritability, low-coverage sequencing, [SDV]Life Sciences [q-bio], [SDE]Environmental Sciences, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology
Abstract

International audience; To understand the population genetics of structural variants and their effects on phenotypes, we developed an approach to mapping structural variants that segregate in a population sequenced at low coverage. We avoid calling structural variants directly. Instead, the evidence for a potential structural variant at a locus is indicated by variation in the counts of short-reads that map anomalously to that locus. These structural variant traits are treated as quantitative traits and mapped genetically, analogously to a gene expression study. Association between a structural variant trait at one locus, and genotypes at a distant locus indicate the origin and target of a transposition. Using ultra-low-coverage (0.3x) population sequence data from 488 recombinant inbred Arabidopsis thaliana genomes, we identified 6502 segregating structural variants. Remarkably, 25% of these were transpositions. While many structural variants cannot be delineated precisely, we validated 83% of 44 predicted transposition breakpoints by polymerase chain reaction. We show that specific structural variants may be causative for quantitative trait loci for germination and resistance to infection by the fungus Albugo laibachii, isolate Nc14. Further we show that the phenotypic heritability attributable to read-mapping anomalies differs from, and, in the case of time to germination and bolting, exceeds that due to standard genetic variation. Genes within structural variants are also more likely to be silenced or dysregulated. This approach complements the prevalent strategy of structural variant discovery in fewer individuals sequenced at high coverage. It is generally applicable to large populations sequenced at low-coverage, and is particularly suited to mapping transpositions.

Published
2017
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4. Molecular Signatures of Major Depression

Author

Cai, Na, Chang, Simon, Li, Yihan, Li, Qibin, Hu, Jingchu, Liang, Jieqin, Song, Li, Kretzschmar, Warren, Gan, Xiangchao, Nicod, Jerome, Rivera, Margarita, Deng, Hong, Du, Bo, Li, Keqing, Sang, Wenhu, Gao, Jingfang, Gao, Shugui, Ha, Baowei, Ho, Hung-Yao, Hu, Chunmei, Hu, Jian, Hu, Zhenfei, Huang, Guoping, Jiang, Guoqing, Jiang, Tao, Jin, Wei, Li, Gongying, Li, Kan, Li, Yi, Li, Yingrui, Li, Youhui, Lin, Yu-Ting, Liu, Lanfen, Liu, Tiebang, Liu, Ying, Liu, Yuan, Lu, Yao, Lv, Luxian, Meng, Huaqing, Qian, Puyi, Sang, Hong, Shen, Jianhua, Shi, Jianguo, Sun, Jing, Tao, Ming, Wang, Gang, Wang, Guangbiao, Wang, Jian, Wang, Linmao, Wang, Xueyi, Wang, Xumei, Yang, Huanming, Yang, Lijun, Yin, Ye, Zhang, Jinbei, Zhang, Kerang, Sun, Ning, Zhang, Wei, Zhang, Xiuqing, Zhang, Zhen, Zhong, Hui, Breen, Gerome, Wang, Jun, Marchini, Jonathan, Chen, Yiping, Xu, Qi, Xu, Xun, Mott, Richard, Huang, Guo-Jen, Kendler, Kenneth, and Flint, Jonathan

Subjects
Male, Aging, Inbred C57BL, Stress, Medical and Health Sciences, DNA, Mitochondrial, Article, Life Change Events, Mice, Behavioral and Social Science, Genetics, Animals, Humans, Child Abuse, Child, Glucocorticoids, Telomere Shortening, Depressive Disorder, Depressive Disorder, Major, Sexual, Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), Depression, Human Genome, Psychology and Cognitive Sciences, Neurosciences, Major, DNA, Child Abuse, Sexual, Biological Sciences, Mitochondrial, Brain Disorders, Mice, Inbred C57BL, Mental Health, Case-Control Studies, Psychological, Female, Biomarkers, Stress, Psychological, Developmental Biology
Abstract

Summary Adversity, particularly in early life, can cause illness. Clues to the responsible mechanisms may lie with the discovery of molecular signatures of stress, some of which include alterations to an individual’s somatic genome. Here, using genome sequences from 11,670 women, we observed a highly significant association between a stress-related disease, major depression, and the amount of mtDNA (p = 9.00 × 10−42, odds ratio 1.33 [95% confidence interval [CI] = 1.29–1.37]) and telomere length (p = 2.84 × 10−14, odds ratio 0.85 [95% CI = 0.81–0.89]). While both telomere length and mtDNA amount were associated with adverse life events, conditional regression analyses showed the molecular changes were contingent on the depressed state. We tested this hypothesis with experiments in mice, demonstrating that stress causes both molecular changes, which are partly reversible and can be elicited by the administration of corticosterone. Together, these results demonstrate that changes in the amount of mtDNA and telomere length are consequences of stress and entering a depressed state. These findings identify increased amounts of mtDNA as a molecular marker of MD and have important implications for understanding how stress causes the disease., Highlights • Amount of mtDNA is increased, and telomeric DNA is shortened in major depression • Both changes can be induced with stress but are contingent on the depressed state • Changes are tissue specific and in part due to glucocorticoid secretion • Changes are in part reversible and represent switches in metabolic strategy, Cai et al. found increases in mtDNA and a reduction in telomeric DNA in cases of major depression using whole-genome sequencing. Both changes are depression state dependent. Mice exposed to chronic stress or glucorticoids showed that these changes reflect switches in metabolic strategy and are tissue specific and partial reversible.

Published
2015

5. The architecture of parent-of-origin effects in mice

Author

Mott, Richard, Yuan, Wei, Kaisaki, Pamela, Gan, Xiangchao, Cleak, James, Edwards, Andrew, Baud, Amelie, and Flint, Jonathan

Subjects
Biochemistry, Genetics and Molecular Biology(all)
Abstract

SummaryThe number of imprinted genes in the mammalian genome is predicted to be small, yet we show here, in a survey of 97 traits measured in outbred mice, that most phenotypes display parent-of-origin effects that are partially confounded with family structure. To address this contradiction, using reciprocal F1 crosses, we investigated the effects of knocking out two nonimprinted candidate genes, Man1a2 and H2-ab1, that reside at nonimprinted loci but that show parent-of-origin effects. We show that expression of multiple genes becomes dysregulated in a sex-, tissue-, and parent-of-origin-dependent manner. We provide evidence that nonimprinted genes can generate parent-of-origin effects by interaction with imprinted loci and deduce that the importance of the number of imprinted genes is secondary to their interactions. We propose that this gene network effect may account for some of the missing heritability seen when comparing sibling-based to population-based studies of the phenotypic effects of genetic variants.

Published
2014

7. Genomic Rearrangements in Arabidopsis Considered as Quantitative Traits

Author

Imprialou, Martha, Kahles, André, Steffen, Joshua G., Osborne, Edward J., Gan, Xiangchao, Lempe, Janne, Bhomra, Amarjit, Belfield, Eric, Visscher, Anne, Greenhalgh, Robert, Harberd, Nicholas P., Goram, Richard, Hein, Jotun, Robert-Seilaniantz, Alexandre, Jones, Jonathan, Stegle, Oliver, Kover, Paula, Tsiantis, Miltos, Nordborg, Magnus, Rätsch, Gunnar, Clark, Richard M., and Mott, Richard

Subjects
quantitative trait locus, structural variation, Arabidopsis, low-coverage sequencing, heritability, 3. Good health
Abstract

To understand the population genetics of structural variants and their effects on phenotypes, we developed an approach to mapping structural variants that segregate in a population sequenced at low coverage. We avoid calling structural variants directly. Instead, the evidence for a potential structural variant at a locus is indicated by variation in the counts of short-reads that map anomalously to that locus. These structural variant traits are treated as quantitative traits and mapped genetically, analogously to a gene expression study. Association between a structural variant trait at one locus, and genotypes at a distant locus indicate the origin and target of a transposition. Using ultra-low-coverage (0.3×) population sequence data from 488 recombinant inbred Arabidopsis thaliana genomes, we identified 6502 segregating structural variants. Remarkably, 25% of these were transpositions. While many structural variants cannot be delineated precisely, we validated 83% of 44 predicted transposition breakpoints by polymerase chain reaction. We show that specific structural variants may be causative for quantitative trait loci for germination and resistance to infection by the fungus Albugo laibachii, isolate Nc14. Further we show that the phenotypic heritability attributable to read-mapping anomalies differs from, and, in the case of time to germination and bolting, exceeds that due to standard genetic variation. Genes within structural variants are also more likely to be silenced or dysregulated. This approach complements the prevalent strategy of structural variant discovery in fewer individuals sequenced at high coverage. It is generally applicable to large populations sequenced at low-coverage, and is particularly suited to mapping transpositions., Genetics, 205 (4), ISSN:1943-2631

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