TY  - JOUR
AU  - Solà, Eduard
AU  - Leria, Laia
AU  - Stocchino, Giacinta Angela
AU  - Bagherzadeh, Reza
AU  - Balke, Michael
AU  - Daniels, Savel R.
AU  - Harrath, Abdel Halim
AU  - Khang, Tsung Fei
AU  - Krailas, Duangduen
AU  - Kumar, Biju
AU  - Li, Mei‐Hui
AU  - Maghsoudlou, Abdolvahab
AU  - Matsumoto, Midori
AU  - Naser, Niamul
AU  - Oben, Benedicta
AU  - Segev, Ori
AU  - Thielicke, Matthias
AU  - Tong, Xiaoli
AU  - Živanović, Goran
AU  - Manconi, Renata
AU  - Baguñà, Jaume
AU  - Riutort, Marta
PY  - 2022
UR  - https://onlinelibrary.wiley.com/doi/10.1111/jbi.14371
UR  - http://radar.ibiss.bg.ac.rs/handle/123456789/4987
AB  - Aim Freshwater planarians may have a wide geographical range despite their assumed low vagility. Found across four continents, Dugesia may have either an ancient origin on a large palaeo landmass, followed by colonisation in different regions before continental fragmentation, or a more recent origin and subsequent transoceanic dispersal. We seek to resolve between these two hypotheses. Location Africa, Eurasia and Australasia. Taxon Genus Dugesia (Platyhelminthes: Tricladida: Dugesiidae). Methods We used data from the sequencing of six gene fragments and comprehensive taxonomic sampling of Dugesia from across its distribution range to reconstruct the phylogeny of this genus using maximum likelihood and bayesian inference methods. We conducted two phylogenetic dating analyses using Platyhelminthes fossils and palaeogeological events. Basing on the time-calibrated molecular phylogenetic framework we evaluated the contribution of vicariance and dispersal to the biogeographical evolution of Dugesia. By reconstructing the ancestral areas and present-day potential distribution using BioGeoBEARS and niche modelling, we elucidated the biogeographical history of the genus. Results The present-day distribution of Dugesia is a result of different vicariance and dispersal events. However, we also found evidence of transoceanic dispersal. Consistent with previous hypotheses, Dugesia dates to the Upper Jurassic in the Afro-Malagasy Gondwana region. We unveiled a novel biogeographical scenario for the genus, involving multiple events of colonisation in Eurasia from continental Africa via at least three dispersal routes. Main conclusions Dugesia is an ancient genus having reached its present distribution through a complex history of dispersal and vicariant events following its origin in southern Gondwana. Despite the low vagility of Dugesia, we found evidence of their overseas dispersal.
PB  - Hoboken: Wiley
T2  - Journal of Biogeography
T1  - Three dispersal routes out of Africa: A puzzling biogeographical history in freshwater planarians
DO  - 10.1111/jbi.14371
ER  - 

@article{
author = "Solà, Eduard and Leria, Laia and Stocchino, Giacinta Angela and Bagherzadeh, Reza and Balke, Michael and Daniels, Savel R. and Harrath, Abdel Halim and Khang, Tsung Fei and Krailas, Duangduen and Kumar, Biju and Li, Mei‐Hui and Maghsoudlou, Abdolvahab and Matsumoto, Midori and Naser, Niamul and Oben, Benedicta and Segev, Ori and Thielicke, Matthias and Tong, Xiaoli and Živanović, Goran and Manconi, Renata and Baguñà, Jaume and Riutort, Marta",
year = "2022",
abstract = "Aim Freshwater planarians may have a wide geographical range despite their assumed low vagility. Found across four continents, Dugesia may have either an ancient origin on a large palaeo landmass, followed by colonisation in different regions before continental fragmentation, or a more recent origin and subsequent transoceanic dispersal. We seek to resolve between these two hypotheses. Location Africa, Eurasia and Australasia. Taxon Genus Dugesia (Platyhelminthes: Tricladida: Dugesiidae). Methods We used data from the sequencing of six gene fragments and comprehensive taxonomic sampling of Dugesia from across its distribution range to reconstruct the phylogeny of this genus using maximum likelihood and bayesian inference methods. We conducted two phylogenetic dating analyses using Platyhelminthes fossils and palaeogeological events. Basing on the time-calibrated molecular phylogenetic framework we evaluated the contribution of vicariance and dispersal to the biogeographical evolution of Dugesia. By reconstructing the ancestral areas and present-day potential distribution using BioGeoBEARS and niche modelling, we elucidated the biogeographical history of the genus. Results The present-day distribution of Dugesia is a result of different vicariance and dispersal events. However, we also found evidence of transoceanic dispersal. Consistent with previous hypotheses, Dugesia dates to the Upper Jurassic in the Afro-Malagasy Gondwana region. We unveiled a novel biogeographical scenario for the genus, involving multiple events of colonisation in Eurasia from continental Africa via at least three dispersal routes. Main conclusions Dugesia is an ancient genus having reached its present distribution through a complex history of dispersal and vicariant events following its origin in southern Gondwana. Despite the low vagility of Dugesia, we found evidence of their overseas dispersal.",
publisher = "Hoboken: Wiley",
journal = "Journal of Biogeography",
title = "Three dispersal routes out of Africa: A puzzling biogeographical history in freshwater planarians",
doi = "10.1111/jbi.14371"
}

Solà, E., Leria, L., Stocchino, G. A., Bagherzadeh, R., Balke, M., Daniels, S. R., Harrath, A. H., Khang, T. F., Krailas, D., Kumar, B., Li, M., Maghsoudlou, A., Matsumoto, M., Naser, N., Oben, B., Segev, O., Thielicke, M., Tong, X., Živanović, G., Manconi, R., Baguñà, J.,& Riutort, M.. (2022). Three dispersal routes out of Africa: A puzzling biogeographical history in freshwater planarians. in Journal of Biogeography
Hoboken: Wiley..
https://doi.org/10.1111/jbi.14371

Solà E, Leria L, Stocchino GA, Bagherzadeh R, Balke M, Daniels SR, Harrath AH, Khang TF, Krailas D, Kumar B, Li M, Maghsoudlou A, Matsumoto M, Naser N, Oben B, Segev O, Thielicke M, Tong X, Živanović G, Manconi R, Baguñà J, Riutort M. Three dispersal routes out of Africa: A puzzling biogeographical history in freshwater planarians. in Journal of Biogeography. 2022;.
doi:10.1111/jbi.14371 .

Solà, Eduard, Leria, Laia, Stocchino, Giacinta Angela, Bagherzadeh, Reza, Balke, Michael, Daniels, Savel R., Harrath, Abdel Halim, Khang, Tsung Fei, Krailas, Duangduen, Kumar, Biju, Li, Mei‐Hui, Maghsoudlou, Abdolvahab, Matsumoto, Midori, Naser, Niamul, Oben, Benedicta, Segev, Ori, Thielicke, Matthias, Tong, Xiaoli, Živanović, Goran, Manconi, Renata, Baguñà, Jaume, Riutort, Marta, "Three dispersal routes out of Africa: A puzzling biogeographical history in freshwater planarians" in Journal of Biogeography (2022),
https://doi.org/10.1111/jbi.14371 . .

TY  - JOUR
AU  - Kapun, Martin
AU  - Nunez, Joaquin C B
AU  - Bogaerts-Márquez, María
AU  - Murga-Moreno, Jesús
AU  - Paris, Margot
AU  - Outten, Joseph
AU  - Coronado-Zamora, Marta
AU  - Tern, Courtney
AU  - Rota-Stabelli, Omar
AU  - Guerreiro, Maria P García
AU  - Casillas, Sònia
AU  - Orengo, Dorcas J
AU  - Puerma, Eva
AU  - Kankare, Maaria
AU  - Ometto, Lino
AU  - Loeschcke, Volker
AU  - Onder, Banu S
AU  - Abbott, Jessica K
AU  - Schaeffer, Stephen W
AU  - Rajpurohit, Subhash
AU  - Behrman, Emily L
AU  - Schou, Mads F
AU  - Merritt, Thomas J S
AU  - Lazzaro, Brian P
AU  - Glaser-Schmitt, Amanda
AU  - Argyridou, Eliza
AU  - Staubach, Fabian
AU  - Wang, Yun
AU  - Tauber, Eran
AU  - Serga, Svitlana V
AU  - Fabian, Daniel K
AU  - Dyer, Kelly A
AU  - Wheat, Christopher W
AU  - Parsch, John
AU  - Grath, Sonja
AU  - Savić Veselinović, Marija
AU  - Stamenković-Radak, Marina
AU  - Jelić, Mihailo
AU  - Buendía-Ruíz, Antonio J
AU  - Gómez-Julián, Maria Josefa
AU  - Espinosa-Jimenez, Maria Luisa
AU  - Gallardo-Jiménez, Francisco D
AU  - Patenković, Aleksandra
AU  - Erić, Katarina
AU  - Tanasković, Marija
AU  - Ullastres, Anna
AU  - Guio, Lain
AU  - Merenciano, Miriam
AU  - Guirao-Rico, Sara
AU  - Horváth, Vivien
AU  - Obbard, Darren J
AU  - Pasyukova, Elena
AU  - Alatortsev, Vladimir E
AU  - Vieira, Cristina P
AU  - Vieira, Jorge
AU  - Torres, Jorge Roberto
AU  - Kozeretska, Iryna
AU  - Maistrenko, Oleksandr M
AU  - Montchamp-Moreau, Catherine
AU  - Mukha, Dmitry V
AU  - Machado, Heather E
AU  - Lamb, Keric
AU  - Paulo, Tânia
AU  - Yusuf, Leeban
AU  - Barbadilla, Antonio
AU  - Petrov, Dmitri
AU  - Schmidt, Paul
AU  - Gonzalez, Josefa
AU  - Flatt, Thomas
AU  - Bergland, Alan O
AU  - Nielsen, Rasmus
PY  - 2021
UR  - https://academic.oup.com/mbe/article/38/12/5782/6361628
UR  - http://radar.ibiss.bg.ac.rs/handle/123456789/4765
AB  - Drosophila melanogaster is a leading model in population genetics and genomics, and a growing number of whole-genome data sets from natural populations of this species have been published over the last years. A major challenge is the integration of disparate data sets, often generated using different sequencing technologies and bioinformatic pipelines, which hampers our ability to address questions about the evolution of this species. Here we address these issues by developing a bioinformatics pipeline that maps pooled sequencing (Pool-Seq) reads from D. melanogaster to a hologenome consisting of fly and symbiont genomes and estimates allele frequencies using either a heuristic (PoolSNP) or a probabilistic variant caller (SNAPE-pooled). We use this pipeline to generate the largest data repository of genomic data available for D. melanogaster to date, encompassing 271 previously published and unpublished population samples from over 100 locations in >20 countries on four continents. Several of these locations have been sampled at different seasons across multiple years. This data set, which we call Drosophila Evolution over Space and Time (DEST), is coupled with sampling and environmental metadata. A web-based genome browser and web portal provide easy access to the SNP data set. We further provide guidelines on how to use Pool-Seq data for model-based demographic inference. Our aim is to provide this scalable platform as a community resource which can be easily extended via future efforts for an even more extensive cosmopolitan data set. Our resource will enable population geneticists to analyze spatiotemporal genetic patterns and evolutionary dynamics of D. melanogaster populations in unprecedented detail.
PB  - Oxford: Oxford University Press
T2  - Molecular Biology and Evolution
T1  - Drosophila Evolution over Space and Time (DEST): A New Population Genomics Resource
IS  - 12
VL  - 38
DO  - 10.1093/molbev/msab259
SP  - 5782
EP  - 5805
ER  - 

@article{
author = "Kapun, Martin and Nunez, Joaquin C B and Bogaerts-Márquez, María and Murga-Moreno, Jesús and Paris, Margot and Outten, Joseph and Coronado-Zamora, Marta and Tern, Courtney and Rota-Stabelli, Omar and Guerreiro, Maria P García and Casillas, Sònia and Orengo, Dorcas J and Puerma, Eva and Kankare, Maaria and Ometto, Lino and Loeschcke, Volker and Onder, Banu S and Abbott, Jessica K and Schaeffer, Stephen W and Rajpurohit, Subhash and Behrman, Emily L and Schou, Mads F and Merritt, Thomas J S and Lazzaro, Brian P and Glaser-Schmitt, Amanda and Argyridou, Eliza and Staubach, Fabian and Wang, Yun and Tauber, Eran and Serga, Svitlana V and Fabian, Daniel K and Dyer, Kelly A and Wheat, Christopher W and Parsch, John and Grath, Sonja and Savić Veselinović, Marija and Stamenković-Radak, Marina and Jelić, Mihailo and Buendía-Ruíz, Antonio J and Gómez-Julián, Maria Josefa and Espinosa-Jimenez, Maria Luisa and Gallardo-Jiménez, Francisco D and Patenković, Aleksandra and Erić, Katarina and Tanasković, Marija and Ullastres, Anna and Guio, Lain and Merenciano, Miriam and Guirao-Rico, Sara and Horváth, Vivien and Obbard, Darren J and Pasyukova, Elena and Alatortsev, Vladimir E and Vieira, Cristina P and Vieira, Jorge and Torres, Jorge Roberto and Kozeretska, Iryna and Maistrenko, Oleksandr M and Montchamp-Moreau, Catherine and Mukha, Dmitry V and Machado, Heather E and Lamb, Keric and Paulo, Tânia and Yusuf, Leeban and Barbadilla, Antonio and Petrov, Dmitri and Schmidt, Paul and Gonzalez, Josefa and Flatt, Thomas and Bergland, Alan O and Nielsen, Rasmus",
year = "2021",
abstract = "Drosophila melanogaster is a leading model in population genetics and genomics, and a growing number of whole-genome data sets from natural populations of this species have been published over the last years. A major challenge is the integration of disparate data sets, often generated using different sequencing technologies and bioinformatic pipelines, which hampers our ability to address questions about the evolution of this species. Here we address these issues by developing a bioinformatics pipeline that maps pooled sequencing (Pool-Seq) reads from D. melanogaster to a hologenome consisting of fly and symbiont genomes and estimates allele frequencies using either a heuristic (PoolSNP) or a probabilistic variant caller (SNAPE-pooled). We use this pipeline to generate the largest data repository of genomic data available for D. melanogaster to date, encompassing 271 previously published and unpublished population samples from over 100 locations in >20 countries on four continents. Several of these locations have been sampled at different seasons across multiple years. This data set, which we call Drosophila Evolution over Space and Time (DEST), is coupled with sampling and environmental metadata. A web-based genome browser and web portal provide easy access to the SNP data set. We further provide guidelines on how to use Pool-Seq data for model-based demographic inference. Our aim is to provide this scalable platform as a community resource which can be easily extended via future efforts for an even more extensive cosmopolitan data set. Our resource will enable population geneticists to analyze spatiotemporal genetic patterns and evolutionary dynamics of D. melanogaster populations in unprecedented detail.",
publisher = "Oxford: Oxford University Press",
journal = "Molecular Biology and Evolution",
title = "Drosophila Evolution over Space and Time (DEST): A New Population Genomics Resource",
number = "12",
volume = "38",
doi = "10.1093/molbev/msab259",
pages = "5782-5805"
}

Kapun, M., Nunez, J. C. B., Bogaerts-Márquez, M., Murga-Moreno, J., Paris, M., Outten, J., Coronado-Zamora, M., Tern, C., Rota-Stabelli, O., Guerreiro, M. P. G., Casillas, S., Orengo, D. J., Puerma, E., Kankare, M., Ometto, L., Loeschcke, V., Onder, B. S., Abbott, J. K., Schaeffer, S. W., Rajpurohit, S., Behrman, E. L., Schou, M. F., Merritt, T. J. S., Lazzaro, B. P., Glaser-Schmitt, A., Argyridou, E., Staubach, F., Wang, Y., Tauber, E., Serga, S. V., Fabian, D. K., Dyer, K. A., Wheat, C. W., Parsch, J., Grath, S., Savić Veselinović, M., Stamenković-Radak, M., Jelić, M., Buendía-Ruíz, A. J., Gómez-Julián, M. J., Espinosa-Jimenez, M. L., Gallardo-Jiménez, F. D., Patenković, A., Erić, K., Tanasković, M., Ullastres, A., Guio, L., Merenciano, M., Guirao-Rico, S., Horváth, V., Obbard, D. J., Pasyukova, E., Alatortsev, V. E., Vieira, C. P., Vieira, J., Torres, J. R., Kozeretska, I., Maistrenko, O. M., Montchamp-Moreau, C., Mukha, D. V., Machado, H. E., Lamb, K., Paulo, T., Yusuf, L., Barbadilla, A., Petrov, D., Schmidt, P., Gonzalez, J., Flatt, T., Bergland, A. O.,& Nielsen, R.. (2021). Drosophila Evolution over Space and Time (DEST): A New Population Genomics Resource. in Molecular Biology and Evolution
Oxford: Oxford University Press., 38(12), 5782-5805.
https://doi.org/10.1093/molbev/msab259

Kapun M, Nunez JCB, Bogaerts-Márquez M, Murga-Moreno J, Paris M, Outten J, Coronado-Zamora M, Tern C, Rota-Stabelli O, Guerreiro MPG, Casillas S, Orengo DJ, Puerma E, Kankare M, Ometto L, Loeschcke V, Onder BS, Abbott JK, Schaeffer SW, Rajpurohit S, Behrman EL, Schou MF, Merritt TJS, Lazzaro BP, Glaser-Schmitt A, Argyridou E, Staubach F, Wang Y, Tauber E, Serga SV, Fabian DK, Dyer KA, Wheat CW, Parsch J, Grath S, Savić Veselinović M, Stamenković-Radak M, Jelić M, Buendía-Ruíz AJ, Gómez-Julián MJ, Espinosa-Jimenez ML, Gallardo-Jiménez FD, Patenković A, Erić K, Tanasković M, Ullastres A, Guio L, Merenciano M, Guirao-Rico S, Horváth V, Obbard DJ, Pasyukova E, Alatortsev VE, Vieira CP, Vieira J, Torres JR, Kozeretska I, Maistrenko OM, Montchamp-Moreau C, Mukha DV, Machado HE, Lamb K, Paulo T, Yusuf L, Barbadilla A, Petrov D, Schmidt P, Gonzalez J, Flatt T, Bergland AO, Nielsen R. Drosophila Evolution over Space and Time (DEST): A New Population Genomics Resource. in Molecular Biology and Evolution. 2021;38(12):5782-5805.
doi:10.1093/molbev/msab259 .

Kapun, Martin, Nunez, Joaquin C B, Bogaerts-Márquez, María, Murga-Moreno, Jesús, Paris, Margot, Outten, Joseph, Coronado-Zamora, Marta, Tern, Courtney, Rota-Stabelli, Omar, Guerreiro, Maria P García, Casillas, Sònia, Orengo, Dorcas J, Puerma, Eva, Kankare, Maaria, Ometto, Lino, Loeschcke, Volker, Onder, Banu S, Abbott, Jessica K, Schaeffer, Stephen W, Rajpurohit, Subhash, Behrman, Emily L, Schou, Mads F, Merritt, Thomas J S, Lazzaro, Brian P, Glaser-Schmitt, Amanda, Argyridou, Eliza, Staubach, Fabian, Wang, Yun, Tauber, Eran, Serga, Svitlana V, Fabian, Daniel K, Dyer, Kelly A, Wheat, Christopher W, Parsch, John, Grath, Sonja, Savić Veselinović, Marija, Stamenković-Radak, Marina, Jelić, Mihailo, Buendía-Ruíz, Antonio J, Gómez-Julián, Maria Josefa, Espinosa-Jimenez, Maria Luisa, Gallardo-Jiménez, Francisco D, Patenković, Aleksandra, Erić, Katarina, Tanasković, Marija, Ullastres, Anna, Guio, Lain, Merenciano, Miriam, Guirao-Rico, Sara, Horváth, Vivien, Obbard, Darren J, Pasyukova, Elena, Alatortsev, Vladimir E, Vieira, Cristina P, Vieira, Jorge, Torres, Jorge Roberto, Kozeretska, Iryna, Maistrenko, Oleksandr M, Montchamp-Moreau, Catherine, Mukha, Dmitry V, Machado, Heather E, Lamb, Keric, Paulo, Tânia, Yusuf, Leeban, Barbadilla, Antonio, Petrov, Dmitri, Schmidt, Paul, Gonzalez, Josefa, Flatt, Thomas, Bergland, Alan O, Nielsen, Rasmus, "Drosophila Evolution over Space and Time (DEST): A New Population Genomics Resource" in Molecular Biology and Evolution, 38, no. 12 (2021):5782-5805,
https://doi.org/10.1093/molbev/msab259 . .

TY  - JOUR
AU  - Stojković Burić, Sonja
AU  - Podolski-Renić, Ana
AU  - Dinić, Jelena
AU  - Stanković, Tijana
AU  - Jovanović, Mirna
AU  - Hadžić, Stefan
AU  - Ayuso, Jose M.
AU  - Virumbrales-Muñoz, María
AU  - Fernández, Luis J.
AU  - Ochoa, Ignacio
AU  - Pérez-García, Victor M.
AU  - Pešić, Milica
PY  - 2019
UR  - https://www.hindawi.com/journals/omcl/2019/3061607/
UR  - http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=PMC6432727
UR  - https://radar.ibiss.bg.ac.rs/handle/123456789/3323
AB  - The main reasons for the inefficiency of standard glioblastoma (GBM) therapy are the occurrence of chemoresistance and the invasion of GBM cells into surrounding brain tissues. New therapeutic approaches obstructing these processes may provide substantial survival improvements. The purpose of this study was to assess the potential of lipophilic antioxidant coenzyme Q10 (CoQ10) as a scavenger of reactive oxygen species (ROS) to increase sensitivity to temozolomide (TMZ) and suppress glioma cell invasion. To that end, we used a previously established TMZ-resistant RC6 rat glioma cell line, characterized by increased production of ROS, altered antioxidative capacity, and high invasion potential. CoQ10 in combination with TMZ exerted a synergistic antiproliferative effect. These results were confirmed in a 3D model of microfluidic devices showing that the CoQ10 and TMZ combination is more cytotoxic to RC6 cells than TMZ monotherapy. In addition, cotreatment with TMZ increased expression of mitochondrial antioxidant enzymes in RC6 cells. The anti-invasive potential of the combined treatment was shown by gelatin degradation, Matrigel invasion, and 3D spheroid invasion assays as well as in animal models. Inhibition of MMP9 gene expression as well as decreased N-cadherin and vimentin protein expression implied that CoQ10 can suppress invasiveness and the epithelial to mesenchymal transition in RC6 cells. Therefore, our data provide evidences in favor of CoQ10 supplementation to standard GBM treatment due to its potential to inhibit GBM invasion through modulation of the antioxidant capacity.
T2  - Oxidative Medicine and Cellular Longevity
T1  - Modulation of Antioxidant Potential with Coenzyme Q10 Suppressed Invasion of Temozolomide-Resistant Rat Glioma In Vitro and In Vivo.
VL  - 2019
DO  - 10.1155/2019/3061607
SP  - 3061607
ER  - 

@article{
author = "Stojković Burić, Sonja and Podolski-Renić, Ana and Dinić, Jelena and Stanković, Tijana and Jovanović, Mirna and Hadžić, Stefan and Ayuso, Jose M. and Virumbrales-Muñoz, María and Fernández, Luis J. and Ochoa, Ignacio and Pérez-García, Victor M. and Pešić, Milica",
year = "2019",
abstract = "The main reasons for the inefficiency of standard glioblastoma (GBM) therapy are the occurrence of chemoresistance and the invasion of GBM cells into surrounding brain tissues. New therapeutic approaches obstructing these processes may provide substantial survival improvements. The purpose of this study was to assess the potential of lipophilic antioxidant coenzyme Q10 (CoQ10) as a scavenger of reactive oxygen species (ROS) to increase sensitivity to temozolomide (TMZ) and suppress glioma cell invasion. To that end, we used a previously established TMZ-resistant RC6 rat glioma cell line, characterized by increased production of ROS, altered antioxidative capacity, and high invasion potential. CoQ10 in combination with TMZ exerted a synergistic antiproliferative effect. These results were confirmed in a 3D model of microfluidic devices showing that the CoQ10 and TMZ combination is more cytotoxic to RC6 cells than TMZ monotherapy. In addition, cotreatment with TMZ increased expression of mitochondrial antioxidant enzymes in RC6 cells. The anti-invasive potential of the combined treatment was shown by gelatin degradation, Matrigel invasion, and 3D spheroid invasion assays as well as in animal models. Inhibition of MMP9 gene expression as well as decreased N-cadherin and vimentin protein expression implied that CoQ10 can suppress invasiveness and the epithelial to mesenchymal transition in RC6 cells. Therefore, our data provide evidences in favor of CoQ10 supplementation to standard GBM treatment due to its potential to inhibit GBM invasion through modulation of the antioxidant capacity.",
journal = "Oxidative Medicine and Cellular Longevity",
title = "Modulation of Antioxidant Potential with Coenzyme Q10 Suppressed Invasion of Temozolomide-Resistant Rat Glioma In Vitro and In Vivo.",
volume = "2019",
doi = "10.1155/2019/3061607",
pages = "3061607"
}

Stojković Burić, S., Podolski-Renić, A., Dinić, J., Stanković, T., Jovanović, M., Hadžić, S., Ayuso, J. M., Virumbrales-Muñoz, M., Fernández, L. J., Ochoa, I., Pérez-García, V. M.,& Pešić, M.. (2019). Modulation of Antioxidant Potential with Coenzyme Q10 Suppressed Invasion of Temozolomide-Resistant Rat Glioma In Vitro and In Vivo.. in Oxidative Medicine and Cellular Longevity, 2019, 3061607.
https://doi.org/10.1155/2019/3061607

Stojković Burić S, Podolski-Renić A, Dinić J, Stanković T, Jovanović M, Hadžić S, Ayuso JM, Virumbrales-Muñoz M, Fernández LJ, Ochoa I, Pérez-García VM, Pešić M. Modulation of Antioxidant Potential with Coenzyme Q10 Suppressed Invasion of Temozolomide-Resistant Rat Glioma In Vitro and In Vivo.. in Oxidative Medicine and Cellular Longevity. 2019;2019:3061607.
doi:10.1155/2019/3061607 .

Stojković Burić, Sonja, Podolski-Renić, Ana, Dinić, Jelena, Stanković, Tijana, Jovanović, Mirna, Hadžić, Stefan, Ayuso, Jose M., Virumbrales-Muñoz, María, Fernández, Luis J., Ochoa, Ignacio, Pérez-García, Victor M., Pešić, Milica, "Modulation of Antioxidant Potential with Coenzyme Q10 Suppressed Invasion of Temozolomide-Resistant Rat Glioma In Vitro and In Vivo." in Oxidative Medicine and Cellular Longevity, 2019 (2019):3061607,
https://doi.org/10.1155/2019/3061607 . .