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2. Additional file 8 of Deletion of Tbc1d4/As160 abrogates cardiac glucose uptake and increases myocardial damage after ischemia/reperfusion

Author

Binsch, C., Barbosa, D. M., Hansen-Dille, G., Hubert, M., Hodge, S. M., Kolasa, M., Jeruschke, K., Weiß, J., Springer, C., Gorressen, S., Fischer, J. W., Lienhard, M., Herwig, R., Börno, S., Timmermann, B., Cremer, A. L., Backes, H., Chadt, A., and Al-Hasani, H.

Abstract

Additional file 8: Table S1. TOP 25 up- and downregulated genes of cardiac transcriptome due to Tbc1d4-knockout. Table S2. Primary antibody suppliers and Western Blotting concentrations.

Published
2023
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3. Occasional paternal inheritance of the germline-restricted chromosome in songbirds

Author

Max Planck Society, Swedish Research Council, European Commission, Pei, Y., Forstmeier, W., Ruiz-Ruano, F.J., Mueller, J.C, Cabrero, J., Camacho, Juan Pedro M., Alché Ramírez, Juan de Dios, Franke, A., Hoeppner, M., Börno, S., Gessara, I., Hertel, M., Teltscher, K., Knief, U., Suh, A., Kempenaers, Bart, Max Planck Society, Swedish Research Council, European Commission, Pei, Y., Forstmeier, W., Ruiz-Ruano, F.J., Mueller, J.C, Cabrero, J., Camacho, Juan Pedro M., Alché Ramírez, Juan de Dios, Franke, A., Hoeppner, M., Börno, S., Gessara, I., Hertel, M., Teltscher, K., Knief, U., Suh, A., and Kempenaers, Bart

Abstract

Songbirds have one special accessory chromosome, the so-called germline-restricted chromosome (GRC), which is only present in germline cells and absent from all somatic tissues. Earlier work on the zebra finch (Taeniopygia guttata castanotis) showed that the GRC is inherited only through the female line-like the mitochondria-and is eliminated from the sperm during spermatogenesis. Here, we show that the GRC has the potential to be paternally inherited. Confocal microscopy using GRC-specific fluorescent in situ hybridization probes indicated that a considerable fraction of sperm heads (1 to 19%) in zebra finch ejaculates still contained the GRC. In line with these cytogenetic data, sequencing of ejaculates revealed that individual males from two families differed strongly and consistently in the number of GRCs in their ejaculates. Examining a captive-bred male hybrid of the two zebra finch subspecies (T. g. guttata and T. g. castanotis) revealed that the mitochondria originated from a castanotis mother, whereas the GRC came from a guttata father. Moreover, analyzing GRC haplotypes across nine castanotis matrilines, estimated to have diverged for up to 250,000 y, showed surprisingly little variability among GRCs. This suggests that a single GRC haplotype has spread relatively recently across all examined matrilines. A few diagnostic GRC mutations that arose since this inferred spreading suggest that the GRC has continued to jump across matriline boundaries. Our findings raise the possibility that certain GRC haplotypes could selfishly spread through the population via occasional paternal transmission, thereby out-competing other GRC haplotypes that were limited to strict maternal inheritance, even if this was partly detrimental to organismal fitness.

Published
2022

6. Depletion of TBC1D4 Improves the Metabolic Exercise Response by Overcoming Genetically Induced Peripheral Insulin Resistance.

Author

Springer C, Binsch C, Weide D, Toska L, Cremer AL, Backes H, Scheel AK, Espelage L, Kotzka J, Sill S, Kurowski A, Kim D, Karpinski S, Schnurr TM, Hansen T, Hartwig S, Lehr S, Cames S, Brüning JC, Lienhard M, Herwig R, Börno S, Timmermann B, Al-Hasani H, and Chadt A

Subjects
Animals, Mice, Diet, High-Fat, Male, Adipose Tissue, Brown metabolism, Muscle, Skeletal metabolism, Glucose metabolism, Mice, Inbred C57BL, Insulin Resistance genetics, Insulin Resistance physiology, GTPase-Activating Proteins genetics, GTPase-Activating Proteins metabolism, Physical Conditioning, Animal physiology, Mice, Knockout, Adipose Tissue, White metabolism
Abstract

The Rab-GTPase-activating protein (RabGAP) TBC1D4 (AS160) represents a key component in the regulation of glucose transport into skeletal muscle and white adipose tissue (WAT) and is therefore crucial during the development of insulin resistance and type 2 diabetes. Increased daily activity has been shown to be associated with improved postprandial hyperglycemia in allele carriers of a loss-of-function variant in the human TBC1D4 gene. Using conventional Tbc1d4-deficient mice (D4KO) fed a high-fat diet, we show that moderate endurance exercise training leads to substantially improved glucose and insulin tolerance and enhanced expression levels of markers for mitochondrial activity and browning in WAT from D4KO animals. Importantly, in vivo and ex vivo analyses of glucose uptake revealed increased glucose clearance in interscapular brown adipose tissue and WAT from trained D4KO mice. Thus, chronic exercise is able to overcome the genetically induced insulin resistance caused by Tbc1d4 depletion. Gene variants in TBC1D4 may be relevant in future precision medicine as determinants of exercise response., (© 2024 by the American Diabetes Association.)

Published
2024
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7. Neurofibromin 1 controls metabolic balance and Notch-dependent quiescence of murine juvenile myogenic progenitors.

Author

Wei X, Rigopoulos A, Lienhard M, Pöhle-Kronawitter S, Kotsaris G, Franke J, Berndt N, Mejedo JO, Wu H, Börno S, Timmermann B, Murgai A, Glauben R, and Stricker S

Subjects
Mice, Humans, Animals, Signal Transduction physiology, MAP Kinase Signaling System, Mitogen-Activated Protein Kinase Kinases metabolism, Neurofibromin 1 genetics, Neurofibromin 1 metabolism, Neurofibromatosis 1 genetics, Neurofibromatosis 1 metabolism
Abstract

Patients affected by neurofibromatosis type 1 (NF1) frequently show muscle weakness with unknown etiology. Here we show that, in mice, Neurofibromin 1 (Nf1) is not required in muscle fibers, but specifically in early postnatal myogenic progenitors (MPs), where Nf1 loss led to cell cycle exit and differentiation blockade, depleting the MP pool resulting in reduced myonuclear accretion as well as reduced muscle stem cell numbers. This was caused by precocious induction of stem cell quiescence coupled to metabolic reprogramming of MPs impinging on glycolytic shutdown, which was conserved in muscle fibers. We show that a Mek/Erk/NOS pathway hypersensitizes Nf1-deficient MPs to Notch signaling, consequently, early postnatal Notch pathway inhibition ameliorated premature quiescence, metabolic reprogramming and muscle growth. This reveals an unexpected role of Ras/Mek/Erk signaling supporting postnatal MP quiescence in concert with Notch signaling, which is controlled by Nf1 safeguarding coordinated muscle growth and muscle stem cell pool establishment. Furthermore, our data suggest transmission of metabolic reprogramming across cellular differentiation, affecting fiber metabolism and function in NF1., (© 2024. The Author(s).)

Published
2024
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8. Non-classical circulating monocytes expressing high levels of microsomal prostaglandin E2 synthase-1 tag an aberrant IFN-response in systemic sclerosis.

Author

Villanueva-Martin G, Acosta-Herrera M, Carmona EG, Kerick M, Ortego-Centeno N, Callejas-Rubio JL, Mages N, Klages S, Börno S, Timmermann B, Bossini-Castillo L, and Martin J

Subjects
Humans, Female, Male, Biomarkers, Middle Aged, Adult, Gene Expression Profiling, Single-Cell Analysis, Aged, Transcriptome, Lipopolysaccharide Receptors metabolism, Intramolecular Oxidoreductases metabolism, Intramolecular Oxidoreductases genetics, Scleroderma, Systemic immunology, Scleroderma, Systemic metabolism, Scleroderma, Systemic pathology, Monocytes immunology, Monocytes metabolism, Interferons metabolism
Abstract

Systemic sclerosis (SSc) is a complex disease that affects the connective tissue, causing fibrosis. SSc patients show altered immune cell composition and activation in the peripheral blood (PB). PB monocytes (Mos) are recruited into tissues where they differentiate into macrophages, which are directly involved in fibrosis. To understand the role of CD14 + PB Mos in SSc, a single-cell transcriptome analysis (scRNA-seq) was conducted on 8 SSc patients and 8 controls. Using unsupervised clustering methods, CD14 + cells were assigned to 11 clusters, which added granularity to the known monocyte subsets: classical (cMos), intermediate (iMos) and non-classical Mos (ncMos) or type 2 dendritic cells. NcMos were significantly overrepresented in SSc patients and showed an active IFN-signature and increased expression levels of PTGES, in addition to monocyte motility and adhesion markers. We identified a SSc-related cluster of IRF7+ STAT1+ iMos with an aberrant IFN-response. Finally, a depletion of M2 polarised cMos in SSc was observed. Our results highlighted the potential of PB Mos as biomarkers for SSc and provided new possibilities for putative drug targets for modulating the innate immune response in SSc., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2023
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9. IsoTools: a flexible workflow for long-read transcriptome sequencing analysis.

Author

Lienhard M, van den Beucken T, Timmermann B, Hochradel M, Börno S, Caiment F, Vingron M, and Herwig R

Subjects
Humans, Workflow, Gene Expression Profiling, RNA Splicing, High-Throughput Nucleotide Sequencing, Sequence Analysis, RNA methods, Transcriptome, Alternative Splicing
Abstract

Motivation: Long-read transcriptome sequencing (LRTS) has the potential to enhance our understanding of alternative splicing and the complexity of this process requires the use of versatile computational tools, with the ability to accommodate various stages of the workflow with maximum flexibility., Results: We introduce IsoTools, a Python-based LRTS analysis framework that offers a wide range of functionality for transcriptome reconstruction and quantification of transcripts. Furthermore, we integrate a graph-based method for identifying alternative splicing events and a statistical approach based on the beta-binomial distribution for detecting differential events. To demonstrate the effectiveness of our methods, we applied IsoTools to PacBio LRTS data of human hepatocytes treated with the histone deacetylase inhibitor valproic acid. Our results indicate that LRTS can provide valuable insights into alternative splicing, particularly in terms of complex and differential splicing patterns, in comparison to short-read RNA-seq., Availability and Implementation: IsoTools is available on GitHub and PyPI, and its documentation, including tutorials, CLI, and API references, can be found at https://isotools.readthedocs.io/., (© The Author(s) 2023. Published by Oxford University Press.)

Published
2023
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10. Odd skipped-related 1 controls the pro-regenerative response of fibro-adipogenic progenitors.

Author

Kotsaris G, Qazi TH, Bucher CH, Zahid H, Pöhle-Kronawitter S, Ugorets V, Jarassier W, Börno S, Timmermann B, Giesecke-Thiel C, Economides AN, Le Grand F, Vallecillo-García P, Knaus P, Geissler S, and Stricker S

Abstract

Skeletal muscle regeneration requires the coordinated interplay of diverse tissue-resident- and infiltrating cells. Fibro-adipogenic progenitors (FAPs) are an interstitial cell population that provides a beneficial microenvironment for muscle stem cells (MuSCs) during muscle regeneration. Here we show that the transcription factor Osr1 is essential for FAPs to communicate with MuSCs and infiltrating macrophages, thus coordinating muscle regeneration. Conditional inactivation of Osr1 impaired muscle regeneration with reduced myofiber growth and formation of excessive fibrotic tissue with reduced stiffness. Osr1-deficient FAPs acquired a fibrogenic identity with altered matrix secretion and cytokine expression resulting in impaired MuSC viability, expansion and differentiation. Immune cell profiling suggested a novel role for Osr1-FAPs in macrophage polarization. In vitro analysis suggested that increased TGFβ signaling and altered matrix deposition by Osr1-deficient FAPs actively suppressed regenerative myogenesis. In conclusion, we show that Osr1 is central to FAP function orchestrating key regenerative events such as inflammation, matrix secretion and myogenesis., (© 2023. The Author(s).)

Published
2023
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11. Sleep neuron depolarization promotes protective gene expression changes and FOXO activation.

Author

Koutsoumparis A, Welp LM, Wulf A, Urlaub H, Meierhofer D, Börno S, Timmermann B, Busack I, and Bringmann H

Subjects
Animals, Caenorhabditis elegans physiology, Forkhead Transcription Factors genetics, Forkhead Transcription Factors metabolism, Gene Expression, Neurons physiology, Sleep genetics, Caenorhabditis elegans Proteins genetics, Caenorhabditis elegans Proteins metabolism
Abstract

Sleep is an essential state that allows for recuperation and survival processes. Disturbing sleep triggers stress responses that promote protective gene expression. Sleep and its deprivation grossly impact gene expression, but little is known about how normal or disturbed sleep control gene expression. Central to the induction of sleep are sleep-active neurons, which inhibit wakefulness and promote survival. Sleep and sleep-active neurons are highly conserved. In Caenorhabditis elegans, the sleep-active RIS neuron is crucial for sleep and survival. Here, we show that RIS depolarization promotes the protective gene expression response that occurs during developmental arrest. This response includes the activation of FOXO/DAF-16 and expression of DAF-16 target genes such as HSP-12.6, a small heat-shock protein that is required for starvation survival. Disturbing sleep by mechanical stimulation increases RIS depolarization. RIS activation in turn activates DAF-16 and other genes required for survival. Hence, during normal sleep, RIS depolarization promotes protective gene expression. When sleep is disturbed, protective gene expression gets further increased by raised RIS depolarization. We thus link sleep-active neuron depolarization to protective gene expression changes and suggest that the cellular stress response following sleep deprivation could be understood as a safeguarding process that is caused by the overactivation of sleep-active neurons., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
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12. Occasional paternal inheritance of the germline-restricted chromosome in songbirds.

Author

Pei Y, Forstmeier W, Ruiz-Ruano FJ, Mueller JC, Cabrero J, Camacho JPM, Alché JD, Franke A, Hoeppner M, Börno S, Gessara I, Hertel M, Teltscher K, Knief U, Suh A, and Kempenaers B

Subjects
Animals, Cytogenetic Analysis, DNA, Mitochondrial, Evolution, Molecular, Female, Haplotypes, Male, Phylogeny, Songbirds classification, Spermatozoa, Chromosomes, Germ Cells, Paternal Inheritance, Songbirds genetics
Abstract

Songbirds have one special accessory chromosome, the so-called germline-restricted chromosome (GRC), which is only present in germline cells and absent from all somatic tissues. Earlier work on the zebra finch ( Taeniopygia guttata castanotis ) showed that the GRC is inherited only through the female line-like the mitochondria-and is eliminated from the sperm during spermatogenesis. Here, we show that the GRC has the potential to be paternally inherited. Confocal microscopy using GRC-specific fluorescent in situ hybridization probes indicated that a considerable fraction of sperm heads (1 to 19%) in zebra finch ejaculates still contained the GRC. In line with these cytogenetic data, sequencing of ejaculates revealed that individual males from two families differed strongly and consistently in the number of GRCs in their ejaculates. Examining a captive-bred male hybrid of the two zebra finch subspecies ( T. g. guttata and T. g. castanotis ) revealed that the mitochondria originated from a castanotis mother, whereas the GRC came from a guttata father. Moreover, analyzing GRC haplotypes across nine castanotis matrilines, estimated to have diverged for up to 250,000 y, showed surprisingly little variability among GRCs. This suggests that a single GRC haplotype has spread relatively recently across all examined matrilines. A few diagnostic GRC mutations that arose since this inferred spreading suggest that the GRC has continued to jump across matriline boundaries. Our findings raise the possibility that certain GRC haplotypes could selfishly spread through the population via occasional paternal transmission, thereby outcompeting other GRC haplotypes that were limited to strict maternal inheritance, even if this was partly detrimental to organismal fitness., Competing Interests: The authors declare no competing interest., (Copyright © 2022 the Author(s). Published by PNAS.)

Published
2022
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13. Health monitoring in birds using bio-loggers and whole blood transcriptomics.

Author

Jax E, Müller I, Börno S, Borlinghaus H, Eriksson G, Fricke E, Timmermann B, Pendl H, Fiedler W, Klein K, Schreiber F, Wikelski M, Magor KE, and Kraus RHS

Subjects
Animals, Anseriformes blood, Anseriformes genetics, Avian Proteins genetics, Blood Chemical Analysis, Body Temperature, Computer Simulation, Gene Expression Regulation, Heart Rate, High-Throughput Nucleotide Sequencing, Influenza in Birds genetics, Influenza in Birds immunology, Population Surveillance, Sequence Analysis, RNA, Exome Sequencing, Anseriformes immunology, Gene Expression Profiling veterinary, Gene Regulatory Networks, Influenza A virus immunology, Influenza in Birds diagnosis
Abstract

Monitoring and early detection of emerging infectious diseases in wild animals is of crucial global importance, yet reliable ways to measure immune status and responses are lacking for animals in the wild. Here we assess the usefulness of bio-loggers for detecting disease outbreaks in free-living birds and confirm detailed responses using leukocyte composition and large-scale transcriptomics. We simulated natural infections by viral and bacterial pathogens in captive mallards (Anas platyrhynchos), an important natural vector for avian influenza virus. We show that body temperature, heart rate and leukocyte composition change reliably during an acute phase immune response. Using genome-wide gene expression profiling of whole blood across time points we confirm that immunostimulants activate pathogen-specific gene regulatory networks. By reporting immune response related changes in physiological and behavioural traits that can be studied in free-ranging populations, we provide baseline information with importance to the global monitoring of zoonotic diseases.

Published
2021
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14. Cell autonomous requirement of neurofibromin (Nf1) for postnatal muscle hypertrophic growth and metabolic homeostasis.

Author

Wei X, Franke J, Ost M, Wardelmann K, Börno S, Timmermann B, Meierhofer D, Kleinridders A, Klaus S, and Stricker S

Subjects
Animals, Homeostasis, Humans, Mice, Muscle Development, Muscles, Neurofibromin 1 genetics, Neurofibromatosis 1 genetics, Neurofibromin 1 metabolism
Abstract

Background: Neurofibromatosis type 1 (NF1) is a multi-organ disease caused by mutations in neurofibromin 1 (NF1). Amongst other features, NF1 patients frequently show reduced muscle mass and strength, impairing patients' mobility and increasing the risk of fall. The role of Nf1 in muscle and the cause for the NF1-associated myopathy are mostly unknown., Methods: To dissect the function of Nf1 in muscle, we created muscle-specific knockout mouse models for NF1, inactivating Nf1 in the prenatal myogenic lineage either under the Lbx1 promoter or under the Myf5 promoter. Mice were analysed during prenatal and postnatal myogenesis and muscle growth., Results: Nf1 Lbx1 and Nf1 Myf5 animals showed only mild defects in prenatal myogenesis. Nf1 Lbx1 animals were perinatally lethal, while Nf1 Myf5 animals survived only up to approximately 25 weeks. A comprehensive phenotypic characterization of Nf1 Myf5 animals showed decreased postnatal growth, reduced muscle size, and fast fibre atrophy. Proteome and transcriptome analyses of muscle tissue indicated decreased protein synthesis and increased proteasomal degradation, and decreased glycolytic and increased oxidative activity in muscle tissue. High-resolution respirometry confirmed enhanced oxidative metabolism in Nf1 Myf5 muscles, which was concomitant to a fibre type shift from type 2B to type 2A and type 1. Moreover, Nf1 Myf5 muscles showed hallmarks of decreased activation of mTORC1 and increased expression of atrogenes. Remarkably, loss of Nf1 promoted a robust activation of AMPK with a gene expression profile indicative of increased fatty acid catabolism. Additionally, we observed a strong induction of genes encoding catabolic cytokines in muscle Nf1 Myf5 animals, in line with a drastic reduction of white, but not brown adipose tissue., Conclusions: Our results demonstrate a cell autonomous role for Nf1 in myogenic cells during postnatal muscle growth required for metabolic and proteostatic homeostasis. Furthermore, Nf1 deficiency in muscle drives cross-tissue communication and mobilization of lipid reserves., (© 2020 The Authors. Journal of Cachexia, Sarcopenia and Muscle published by John Wiley & Sons Ltd on behalf of Society on Sarcopenia, Cachexia and Wasting Disorders.)

Published
2020
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15. Iranome: A catalog of genomic variations in the Iranian population.

Author

Fattahi Z, Beheshtian M, Mohseni M, Poustchi H, Sellars E, Nezhadi SH, Amini A, Arzhangi S, Jalalvand K, Jamali P, Mohammadi Z, Davarnia B, Nikuei P, Oladnabi M, Mohammadzadeh A, Zohrehvand E, Nejatizadeh A, Shekari M, Bagherzadeh M, Shamsi-Gooshki E, Börno S, Timmermann B, Haghdoost A, Najafipour R, Khorram Khorshid HR, Kahrizi K, Malekzadeh R, Akbari MR, and Najmabadi H

Subjects
Genetic Variation, Genetics, Population, Genotype, Geography, Humans, Iran, Middle East, Molecular Sequence Annotation, Computational Biology methods, Databases, Genetic, Ethnicity genetics, Genome, Human, Genomics methods, Web Browser
Abstract

Considering the application of human genome variation databases in precision medicine, population-specific genome projects are continuously being developed. However, the Middle Eastern population is underrepresented in current databases. Accordingly, we established Iranome database (www.iranome.com) by performing whole exome sequencing on 800 individuals from eight major Iranian ethnic groups representing the second largest population of Middle East. We identified 1,575,702 variants of which 308,311 were novel (19.6%). Also, by presenting higher frequency for 37,384 novel or known rare variants, Iranome database can improve the power of molecular diagnosis. Moreover, attainable clinical information makes this database a good resource for classifying pathogenicity of rare variants. Principal components analysis indicated that, apart from Iranian-Baluchs, Iranian-Turkmen, and Iranian-Persian Gulf Islanders, who form their own clusters, rest of the population were genetically linked, forming a super-population. Furthermore, only 0.6% of novel variants showed counterparts in "Greater Middle East Variome Project", emphasizing the value of Iranome at national level by releasing a comprehensive catalog of Iranian genomic variations and also filling another gap in the catalog of human genome variations at international level. We introduce Iranome as a resource which may also be applicable in other countries located in neighboring regions historically called Greater Iran (Persia)., (© 2019 Wiley Periodicals, Inc.)

Published
2019
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16. Ice-Age Climate Adaptations Trap the Alpine Marmot in a State of Low Genetic Diversity.

Author

Gossmann TI, Shanmugasundram A, Börno S, Duvaux L, Lemaire C, Kuhl H, Klages S, Roberts LD, Schade S, Gostner JM, Hildebrand F, Vowinckel J, Bichet C, Mülleder M, Calvani E, Zelezniak A, Griffin JL, Bork P, Allaine D, Cohas A, Welch JJ, Timmermann B, and Ralser M

Subjects
Animals, Phylogeny, Population Density, Adaptation, Biological, Climate, Genetic Variation, Genome, Marmota genetics
Abstract

Some species responded successfully to prehistoric changes in climate [1, 2], while others failed to adapt and became extinct [3]. The factors that determine successful climate adaptation remain poorly understood. We constructed a reference genome and studied physiological adaptations in the Alpine marmot (Marmota marmota), a large ground-dwelling squirrel exquisitely adapted to the "ice-age" climate of the Pleistocene steppe [4, 5]. Since the disappearance of this habitat, the rodent persists in large numbers in the high-altitude Alpine meadow [6, 7]. Genome and metabolome showed evidence of adaptation consistent with cold climate, affecting white adipose tissue. Conversely, however, we found that the Alpine marmot has levels of genetic variation that are among the lowest for mammals, such that deleterious mutations are less effectively purged. Our data rule out typical explanations for low diversity, such as high levels of consanguineous mating, or a very recent bottleneck. Instead, ancient demographic reconstruction revealed that genetic diversity was lost during the climate shifts of the Pleistocene and has not recovered, despite the current high population size. We attribute this slow recovery to the marmot's adaptive life history. The case of the Alpine marmot reveals a complicated relationship between climatic changes, genetic diversity, and conservation status. It shows that species of extremely low genetic diversity can be very successful and persist over thousands of years, but also that climate-adapted life history can trap a species in a persistent state of low genetic diversity., (Copyright © 2019 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published
2019
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17. QSEA-modelling of genome-wide DNA methylation from sequencing enrichment experiments.

Author

Lienhard M, Grasse S, Rolff J, Frese S, Schirmer U, Becker M, Börno S, Timmermann B, Chavez L, Sültmann H, Leschber G, Fichtner I, Schweiger MR, and Herwig R

Subjects
Animals, Bayes Theorem, Gene Expression Regulation, Humans, Lung Neoplasms genetics, Mice, Promoter Regions, Genetic, Sulfites, Workflow, DNA Methylation, Genomics methods, Sequence Analysis, DNA methods
Abstract

Genome-wide enrichment of methylated DNA followed by sequencing (MeDIP-seq) offers a reasonable compromise between experimental costs and genomic coverage. However, the computational analysis of these experiments is complex, and quantification of the enrichment signals in terms of absolute levels of methylation requires specific transformation. In this work, we present QSEA, Quantitative Sequence Enrichment Analysis, a comprehensive workflow for the modelling and subsequent quantification of MeDIP-seq data. As the central part of the workflow we have developed a Bayesian statistical model that transforms the enrichment read counts to absolute levels of methylation and, thus, enhances interpretability and facilitates comparison with other methylation assays. We suggest several calibration strategies for the critical parameters of the model, either using additional data or fairly general assumptions. By comparing the results with bisulfite sequencing (BS) validation data, we show the improvement of QSEA over existing methods. Additionally, we generated a clinically relevant benchmark data set consisting of methylation enrichment experiments (MeDIP-seq), BS-based validation experiments (Methyl-seq) as well as gene expression experiments (RNA-seq) derived from non-small cell lung cancer patients, and show that the workflow retrieves well-known lung tumour methylation markers that are causative for gene expression changes, demonstrating the applicability of QSEA for clinical studies. QSEA is implemented in R and available from the Bioconductor repository 3.4 (www.bioconductor.org/packages/qsea)., (© The Author(s) 2016. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published
2017
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18. The metabolic background is a global player in Saccharomyces gene expression epistasis.

Author

Alam MT, Zelezniak A, Mülleder M, Shliaha P, Schwarz R, Capuano F, Vowinckel J, Radmanesfahar E, Krüger A, Calvani E, Michel S, Börno S, Christen S, Patil KR, Timmermann B, Lilley KS, and Ralser M

Subjects
Gene Regulatory Networks, Epistasis, Genetic, Gene Expression Regulation, Fungal, Metabolism, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism
Abstract

The regulation of gene expression in response to nutrient availability is fundamental to the genotype-phenotype relationship. The metabolic-genetic make-up of the cell, as reflected in auxotrophy, is hence likely to be a determinant of gene expression. Here, we address the importance of the metabolic-genetic background by monitoring transcriptome, proteome and metabolome in a repertoire of 16 Saccharomyces cerevisiae laboratory backgrounds, combinatorially perturbed in histidine, leucine, methionine and uracil biosynthesis. The metabolic background affected up to 85% of the coding genome. Suggesting widespread confounding, these transcriptional changes show, on average, 83% overlap between unrelated auxotrophs and 35% with previously published transcriptomes generated for non-metabolic gene knockouts. Background-dependent gene expression correlated with metabolic flux and acted, predominantly through masking or suppression, on 88% of transcriptional interactions epistatically. As a consequence, the deletion of the same metabolic gene in a different background could provoke an entirely different transcriptional response. Propagating to the proteome and scaling up at the metabolome, metabolic background dependencies reveal the prevalence of metabolism-dependent epistasis at all regulatory levels. Urging a fundamental change of the prevailing laboratory practice of using auxotrophs and nutrient supplemented media, these results reveal epistatic intertwining of metabolism with gene expression on the genomic scale., Competing Interests: The authors declare no competitive interests.

Published
2016
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