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21 results on '"Jovanovic Vladimir M."'

4. Response prediction in patients with gastric and esophagogastric adenocarcinoma under neoadjuvant chemotherapy using targeted gene expression analysis and next-generation sequencing in pre-therapeutic biopsies

Author

Kleo, Karsten, primary, Jovanovic, Vladimir M., additional, Arndold, Alexander, additional, Lehmann, Annika, additional, Lammert, Hedwig, additional, Berg, Erika, additional, Harloff, Hannah, additional, Treese, Christoph, additional, Hummel, Michael, additional, and Daum, Severin, additional

Published
2022
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5. Positive Selection in Gene Regulatory Factors Suggests Adaptive Pleiotropic Changes During Human Evolution

Author

Jovanovic, Vladimir M., Sarfert, Melanie, Reyna-Blanco, Carlos S., Indrischek, Henrike, Valdivia, Dulce I., Shelest, Ekaterina, and Nowick, Katja

Subjects
speciation, archaic humans, Genetics, phenotypic evolution, gene regulatory evolution, 500 Naturwissenschaften und Mathematik::570 Biowissenschaften, Biologie::570 Biowissenschaften, Biologie, primate, KRAB-ZNF, transcription factor, great apes, Original Research
Abstract

Gene regulatory factors (GRFs), such as transcription factors, co-factors and histone-modifying enzymes, play many important roles in modifying gene expression in biological processes. They have also been proposed to underlie speciation and adaptation. To investigate potential contributions of GRFs to primate evolution, we analyzed GRF genes in 27 publicly available primate genomes. Genes coding for zinc finger (ZNF) proteins, especially ZNFs with a Kr��ppel-associated box (KRAB) domain were the most abundant TFs in all genomes. Gene numbers per TF family differed between all species. To detect signs of positive selection in GRF genes we investigated more than 3,000 human GRFs with their more than 70,000 orthologs in 26 non-human primates. We implemented two independent tests for positive selection, the branch-site-model of the PAML suite and aBSREL of the HyPhy suite, focusing on the human and great ape branch. Our workflow included rigorous procedures to reduce the number of false positives: excluding distantly similar orthologs, manual corrections of alignments, and considering only genes and sites detected by both tests for positive selection. Furthermore, we verified the candidate sites for selection by investigating their variation within human and non-human great ape population data. In order to approximately assign a date to positively selected sites in the human lineage, we analyzed archaic human genomes. Our work revealed with high confidence five GRFs that have been positively selected on the human lineage and one GRF that has been positively selected on the great ape lineage. These GRFs are scattered on different chromosomes and have been previously linked to diverse functions. For some of them a role in speciation and/or adaptation can be proposed based on the expression pattern or association with human diseases, but it seems that they all contributed independently to human evolution. Four of the positively selected GRFs are KRAB-ZNF proteins, that induce changes in target genes co-expression and/or through arms race with transposable elements. Since each positively selected GRF contains several sites with evidence for positive selection, we suggest that these GRFs participated pleiotropically to phenotypic adaptations in humans.

Published
2021
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6. Lithium influences whole-organism metabolic rate inDrosophila subobscura

Author

Novicic, Zorana Kurbalija, Bodén, Robert, Kozarski, Ksenija, Jelic, Mihailo, Jovanovic, Vladimir M., Cunningham, Janet, Novicic, Zorana Kurbalija, Bodén, Robert, Kozarski, Ksenija, Jelic, Mihailo, Jovanovic, Vladimir M., and Cunningham, Janet

Abstract

Lithium is widely used to treat bipolar disorder. However, the efficacy and vulnerability as to its side effects are known to differ. Although the specific biochemical mechanism of action is still elusive, lithium may influence mitochondrial function, and consequently, metabolism. Lithium exposure in this study was conducted on a unique set of mito-nuclear introgression lines ofDrosophila subobscurato disentangle the independent effects of mitochondrial DNA (mtDNA) against a common nuclear DNA background. The study addressed three issues: (a) whether lithium has a dose-dependent effect on whole-organism metabolic rate, (b) whether mtDNA haplotypes show divergent metabolic efficiency measured by metabolic rate to lithium exposure and (c) whether lithium influences the whole-organism metabolic rate across sexes. The results confirm that lithium influenced the whole-organism metabolic rate, showing a subtle balance between efficacy and adverse effects within a narrow dose range. In addition, lithium exposure was found to influence metabolism differently based on mtDNA haplotypes and sex. This preliminary research may have a range of biological implications for the role of mitochondrial variability in psychiatric disease and treatment by contributing to the understanding and predicting of the lithium treatment response and risk for toxic side effects.

Published
2021
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7. Effects of thyroid hormone on mitochondria and metabolism of human preimplantation embryos

Author

Noli, Laila, primary, Khorsandi, Shirin E., additional, Pyle, Angela, additional, Giritharan, Gnanaratnam, additional, Fogarty, Norah, additional, Capalbo, Antonio, additional, Devito, Liani, additional, Jovanovic, Vladimir M., additional, Khurana, Preeti, additional, Rosa, Hannah, additional, Kolundzic, Nikola, additional, Cvoro, Aleksandra, additional, Niakan, Kathy K., additional, Malik, Afshan, additional, Foulk, Russell, additional, Heaton, Nigel, additional, Ardawi, Mohammad Saleh, additional, Chinnery, Patrick F., additional, Ogilvie, Caroline, additional, Khalaf, Yacoub, additional, and Ilic, Dusko, additional

Published
2019
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8. New institutes in German insolvency law

Author

Đurić Đuro M. and Jovanović Vladimir M.

Subjects
germany, eu, insolvency law, reform, preventive restructuring, Law of Europe, KJ-KKZ, Comparative law. International uniform law, K520-5582
Abstract

Germany was one of the first EU members to harmonize its legislation with the provisions of the European Union Directive no. 1023/2019 on preventive restructuring frameworks. The Law on Stabilization and Restructuring of Enterprises (StaRUG) introduced several new institutes through a modular approach with the aim of preventing insolvency. It entered into force on 1st January 2021 and provided a pre-bankruptcy procedure, as a novelty, rearranged procedure of personal administration of debtors in bankruptcy and the mediation procedure in restructuring. This enables business entities to timely determine the existence of circumstances that may jeopardize business, but also established the obligation to act appropriately in a timely manner. The instruments of the new legal framework are the adoption of the restructuring plan in court proceedings, the court examination of the contents of the restructuring plan, the court moratorium on executions and the court confirmation of the restructuring plan, as well as adoption of the plan in the mediation procedure. The aforementioned reform further strengthened the principles of consensualism in insolvency law. Also, this law represents a good model for other EU states and for candidate states in the process of harmonization of legislation with EU regulations as well. The aim of this paper is to provide an insight into the new institutes in German legislation, to analyze them and to give a critical review of their application in practice.

Published
2023

9. Effects of thyroid hormone on mitochondria and metabolism of human preimplantation embryos

Author

Noli, Laila, Khorsandi, Shirin E., Pyle, Angela, Giritharan, Gnanaratnam, Fogarty, Norah, Capalbo, Antonio, Devito, Liani, Jovanovic, Vladimir M., Khurana, Preeti, Rosa, Hannah, Kolundzic, Nikola, Cvoro, Aleksandra, Niakan, Kathy K., Malik, Afshan, Foulk, Russell, Heaton, Nigel, Ardawi, Mohammad Saleh, Chinnery, Patrick F., Ogilvie, Caroline, Khalaf, Yacoub, and Ilic, Dusko

Abstract

Thyroid hormones are regarded as the major controllers of metabolic rate and oxygen consumption in mammals. Although it has been demonstrated that thyroid hormone supplementation improves bovine embryo development in vitro, the cellular mechanisms underlying these effects are so far unknown. In this study, we investigated the role of thyroid hormone in development of human preimplantation embryos. Embryos were cultured in the presence or absence of 10−7M triiodothyronine (T3) till blastocyst stage. Inner cell mass (ICM) and trophectoderm (TE) were separated mechanically and subjected to RNAseq or quantification of mitochondrial DNA copy number. Analyses were performed using DESeq (v1.16.0 on R v3.1.3), MeV4.9 and MitoMiner 4.0v2018 JUNplatforms. We found that the exposure of human preimplantation embryos to T3 had a profound impact on nuclear gene transcription only in the cells of ICM (1178 regulated genes—10.5% of 11 196 expressed genes) and almost no effect on cells of TE (38 regulated genes—0.3% of expressed genes). The analyses suggest that T3 induces in ICM a shift in ribosome and oxidative phosphorylation activity, as the upregulated genes are contributing to the composition and organization of the respiratory chain and associated cofactors involved in mitoribosome assembly and stability. Furthermore, a number of genes affecting the citric acid cycle energy production have reduced expression. Our findings might explain why thyroid disorders in women have been associated with reduced fertility and adverse pregnancy outcome. Our data also raise a possibility that supplementation of culture media with T3 may improve outcomes for women undergoing in vitro fertilization. Embryos cultured in the presence or absence of triiodothyronine (T3) till blastocyst stage upregulate genes contributing to the composition and organization of the respiratory chain and associated cofactors involved in mitoribosome assembly and stability. Furthermore, a number of genes affecting the citric acid cycle energy production have reduced expression.

Published
2020
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10. Mitochondrial phylogeography of the Mediterranean horseshoe bat on the Balkan Peninsula

Author

Budinski Ivana, Jovanović Vladimir M., Pejić Branka, Blagojević Jelena, Rajičić Marija, Paunović Milan, Presetnik Primož, and Vujošević Mladen

Subjects
d-loop, mitochondrial dna, refugium, rhinolophus euryale, Biology (General), QH301-705.5
Abstract

The Balkan Peninsula is identified as one of the major glacial refugia in Europe during the Pleistocene, and it has served as a genetic source for post-glacial recolonization for many temperate species. The aim of this study was to investigate the genetic diversity and phylogeographic patterns of the Mediterranean horseshoe bat, Rhinolophus euryale Blasius 1853, on the Balkan Peninsula. We also analyzed its demographic history and tested the hypothesis that this region was a glacial refugium for this species. We collected 82 samples from 20 localities in the Balkans and Italy and sequenced the mitochondrial D-loop region. Our results revealed low nucleotide but high haplotype diversity, with 20 out of 24 haplotypes reported for the first time. All Balkan and Italian samples belonged to a single genetic clade in the phylogenetic reconstruction, where they clustered together with previously published samples from Turkey, southern France and North Africa. The haplotype network had a star-like pattern that is indicative of recent population expansion. Both mismatch distribution and shallow genetic differentiation also supported the scenario of a sudden demographic expansion. We estimated that expansion within this lineage commenced in the Late Pleistocene. We suggest that the Balkan Peninsula was a glacial refugium for R. euryale. [Project of the Serbian Ministry of Education, Science and Technological Development, Grant no. 173003]

Published
2019
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11. SMN1 copy number as a modifying factor of survival in Serbian patients with sporadic amyotrophic lateral sclerosis

Author

Brkušanin Miloš, Jeftović-Velkova Irena, Jovanović Vladimir M., Perić Stojan, Pešović Jovan, Brajušković Goran, Stević Zorica, and Savić-Pavićević Dušanka

Subjects
survival motor neuron, amyotrophic lateral sclerosis, H4F5, NAIP, SMN1, Medicine
Abstract

Introduction/Objective. Amyotrophic lateral sclerosis (ALS) is a devastating motor neuron disease. The majority of cases are apparently sporadic ALS (SALS) with variants in susceptibility genes or sometimes in high-risk ALS genes. Two ALS susceptibility genes are SMN1, whose functional loss causes spinal muscular atrophy (SMA), and a nearly identical SMN2 gene, which modulates SMA severity. In this study we examined the association of copy number variations (CNVs) of SMN1 and SMN2 genes and two additional genes, SERF1 and NAIP, residing in the same genomic region (i.e. 5q13.2 segmental duplication), with SALS in patients from Serbia. Methods. Multiplex ligation-dependent probe amplification was used to determine CNVs of each gene in a clinically well-characterised group of 153 Serbian SALS patients and 153 controls. Results. Individual association between SMN1, SMN2, SERF1 or NAIP CNVs and SALS susceptibility or survival was not found. Survival curves based on the multivariable Cox regression analysis showed that three SMN1 copies, lower ALS Functional Rating Scale Revised (ALSFRS-R) score at the time of diagnosis, faster decline of the ALSFRS-R score over time, and shorter diagnostic delay result in shorter survival of Serbian SALS patients. Conclusion. Clinical variables might be complemented with the SMN1 copy number to improve prediction of survival in Serbian SALS patients. [Project of the Serbian Ministry of Education, Science and Technological Development, Grant no. 173016]

Published
2018
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12. Три љубави

Author

Jovanović Vladimir M., Jovanovic Vladimir M., Јовановић Владимир М., Jovanović Vladimir M., Jovanovic Vladimir M., and Јовановић Владимир М.

Published
1886

13. У врту

Author

Jovanović Vladimir M., Jovanovic Vladimir M., Јовановић Владимир М., Jovanović Vladimir M., Jovanovic Vladimir M., and Јовановић Владимир М.

Published
1893

14. Летњи дан

Author

Jovanović Vladimir M., Jovanovic Vladimir M., Јовановић Владимир М., Jovanović Vladimir M., Jovanovic Vladimir M., and Јовановић Владимир М.

Published
1888

15. Нада

Author

Jovanović Vladimir M., Jovanovic Vladimir M., Јовановић Владимир М., Jovanović Vladimir M., Jovanovic Vladimir M., and Јовановић Владимир М.

Published
1886

16. Попадија

Author

Jovanović Vladimir M., Jovanovic Vladimir M., Јовановић Владимир М., Jovanović Vladimir M., Jovanovic Vladimir M., and Јовановић Владимир М.

Published
1891

17. Идеалисање

Author

Jovanović Vladimir M., Jovanovic Vladimir M., Јовановић Владимир М., Jovanović Vladimir M., Jovanovic Vladimir M., and Јовановић Владимир М.

Published
1892

18. Опали листак

Author

Jovanović Vladimir M., Jovanovic Vladimir M., Јовановић Владимир М., Jovanović Vladimir M., Jovanovic Vladimir M., and Јовановић Владимир М.

Published
1888

19. Effects of thyroid hormone on mitochondria and metabolism of human preimplantation embryos

Author

Noli, Laila, Khorsandi, Shirin E, Pyle, Angela, Gnanaratnam Giritharan, Fogarty, Norah, Capalbo, Antonio, Liani Devito, Jovanovic, Vladimir M, Khurana, Preeti, Rosa, Hannah, Kolundzic, Nikola, Cvoro, Aleksandra, Niakan, Kathy K, Afshan Malik, Foulk, Russell, Heaton, Nigel, Ardawi, Mohammad Saleh, Chinnery, Patrick F, Ogilvie, Caroline, Yacoub Khalaf, and Dusko Ilic

Subjects
Gene Expression, 7. Clean energy, Genetics & Genomics, Developmental Biology
Abstract

Thyroid hormones are regarded as the major controllers of metabolic rate and oxygen consumption in mammals. Although it has been demonstrated that thyroid hormone supplementation improves bovine embryo development in vitro, the cellular mechanisms underlying these effects are so far unknown. In this study, we investigated the role of thyroid hormone in development of human preimplantation embryos. Embryos were cultured in the presence or absence of 10-7 M triiodothyronine (T3) till blastocyst stage. Inner cell mass (ICM) and trophectoderm (TE) were separated mechanically and subjected to RNAseq or quantification of mitochondrial DNA copy number. Analyses were performed using DESeq (v1.16.0 on R v3.1.3), MeV4.9 and MitoMiner 4.0v2018 JUN platforms. We found that the exposure of human preimplantation embryos to T3 had a profound impact on nuclear gene transcription only in the cells of ICM (1178 regulated genes - 10.5% of 11 196 expressed genes) and almost no effect on cells of TE (38 regulated genes - 0.3% of expressed genes). The analyses suggest that T3 induces in ICM a shift in OXPHOS activity, as the upregulated genes are contributing to the composition and organization of the respiratory chain and associated co-factors involved in mitoribosome assembly and stability. Furthermore, a number of genes affecting the citric acid cycle energy production have reduced expression. Our findings might explain why thyroid disorders in women have been associated with reduced fertility and adverse pregnancy outcome. Our data also raise a possibility that supplementation of culture media with T3 may improve outcomes for women undergoing in vitro fertilization. © AlphaMed Press 2019 SIGNIFICANCE STATEMENT: Thyroid hormones are regarded as the major controllers of metabolic rate and oxygen consumption in mammals. Little is known about the effects of the thyroid hormones in the earliest stages of human development. Our results suggest that thyroid hormones affect mitochondrial function in human embryos: stimulate mitochondrial replication and energy production within mitochondria by switching metabolism from glycolytic pathway to more efficient oxidative phosphorylation. Our findings shed a light on metabolic switch in early embryo development and might explain why thyroid disorders in women have been associated with reduced fertility and adverse pregnancy outcome. Our data also suggest that supplementation of culture media with T3 may improve outcomes for women undergoing IVF.

20. Effects of thyroid hormone on mitochondria and metabolism of human preimplantation embryos

Author

Noli, Laila, Khorsandi, Shirin E, Pyle, Angela, Gnanaratnam Giritharan, Fogarty, Norah, Capalbo, Antonio, Liani Devito, Jovanovic, Vladimir M, Khurana, Preeti, Rosa, Hannah, Kolundzic, Nikola, Cvoro, Aleksandra, Niakan, Kathy K, Afshan Malik, Foulk, Russell, Heaton, Nigel, Ardawi, Mohammad Saleh, Chinnery, Patrick F, Ogilvie, Caroline, Yacoub Khalaf, and Dusko Ilic

Subjects
Gene Expression, 7. Clean energy, Genetics & Genomics, Developmental Biology
Abstract

Thyroid hormones are regarded as the major controllers of metabolic rate and oxygen consumption in mammals. Although it has been demonstrated that thyroid hormone supplementation improves bovine embryo development in vitro, the cellular mechanisms underlying these effects are so far unknown. In this study, we investigated the role of thyroid hormone in development of human preimplantation embryos. Embryos were cultured in the presence or absence of 10-7 M triiodothyronine (T3) till blastocyst stage. Inner cell mass (ICM) and trophectoderm (TE) were separated mechanically and subjected to RNAseq or quantification of mitochondrial DNA copy number. Analyses were performed using DESeq (v1.16.0 on R v3.1.3), MeV4.9 and MitoMiner 4.0v2018 JUN platforms. We found that the exposure of human preimplantation embryos to T3 had a profound impact on nuclear gene transcription only in the cells of ICM (1178 regulated genes - 10.5% of 11 196 expressed genes) and almost no effect on cells of TE (38 regulated genes - 0.3% of expressed genes). The analyses suggest that T3 induces in ICM a shift in OXPHOS activity, as the upregulated genes are contributing to the composition and organization of the respiratory chain and associated co-factors involved in mitoribosome assembly and stability. Furthermore, a number of genes affecting the citric acid cycle energy production have reduced expression. Our findings might explain why thyroid disorders in women have been associated with reduced fertility and adverse pregnancy outcome. Our data also raise a possibility that supplementation of culture media with T3 may improve outcomes for women undergoing in vitro fertilization. © AlphaMed Press 2019 SIGNIFICANCE STATEMENT: Thyroid hormones are regarded as the major controllers of metabolic rate and oxygen consumption in mammals. Little is known about the effects of the thyroid hormones in the earliest stages of human development. Our results suggest that thyroid hormones affect mitochondrial function in human embryos: stimulate mitochondrial replication and energy production within mitochondria by switching metabolism from glycolytic pathway to more efficient oxidative phosphorylation. Our findings shed a light on metabolic switch in early embryo development and might explain why thyroid disorders in women have been associated with reduced fertility and adverse pregnancy outcome. Our data also suggest that supplementation of culture media with T3 may improve outcomes for women undergoing IVF.

21. Taking identity-by-descent analysis into the wild: Estimating realized relatedness in free-ranging macaques.

Author

Freudiger A, Jovanovic VM, Huang Y, Snyder-Mackler N, Conrad DF, Miller B, Montague MJ, Westphal H, Stadler PF, Bley S, Horvath JE, Brent LJN, Platt ML, Ruiz-Lambides A, Tung J, Nowick K, Ringbauer H, and Widdig A

Abstract

Biological relatedness is a key consideration in studies of behavior, population structure, and trait evolution. Except for parent-offspring dyads, pedigrees capture relatedness imperfectly. The number and length of DNA segments that are identical-by-descent (IBD) yield the most precise estimates of relatedness. Here, we leverage novel methods for estimating locus-specific IBD from low coverage whole genome resequencing data to demonstrate the feasibility and value of resolving fine-scaled gradients of relatedness in free-living animals. Using primarily 4-6× coverage data from a rhesus macaque ( Macaca mulatta ) population with available long-term pedigree data, we show that we can call the number and length of IBD segments across the genome with high accuracy even at 0.5× coverage. The resulting estimates demonstrate substantial variation in genetic relatedness within kin classes, leading to overlapping distributions between kin classes. They identify cryptic genetic relatives that are not represented in the pedigree and reveal elevated recombination rates in females relative to males, which allows us to discriminate maternal and paternal kin using genotype data alone. Our findings represent a breakthrough in the ability to understand the predictors and consequences of genetic relatedness in natural populations, contributing to our understanding of a fundamental component of population structure in the wild., Competing Interests: Conflict of interest The authors declare no conflict of interest.

Published
2024
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