1.Svarcova, O., Laurincik, J., Avery, B., Mlyncek, M., Niemann, H., Maddox-Hyttel, P.: Nucleolar development and allocation of key nucleolar proteins require de novo transcription in bovine embryos. Mol. Reprod. Dev., 74, 1428 – 35, 2007, Kat. A (IF 2,538) Publikácia vznikla v rámci pracovného pomeru na UKF v Nitre.

2.Svarcova, O., Strejcek, F., Petrovicova, I., Avery, B., Pedersen, H.G., Lucas-Hahn, A., Niemann, H., Laurincik, J., Maddox-Hyttel, P.: The role of RNA polymerase I transcription and embryonic genome activation in nucleolar development in bovine preimplantation embryos. Mol. Reprod. Dev., 75, 1095-1103, 2008, Kat. A (IF 2,287) Publikácia vznikla v rámci pracovného pomeru na UKF v Nitre.

3.Østrup, O., Petrovicova, I, Strejcek, F, Morovic, M., Lucas-Hahn, A., Lemme, E., Petersen, B., Niemann, H., Laurincik, J., Maddox-Hyttel, P.: Nuclear and nucleolar reprogramming during the first cell cycle in bovine nuclear transfer embryos. Cloning and Stem Cells, 11, 1-10, 2009, Kat. A (IF 2,690) Publikácia vznikla v rámci pracovného pomeru na UKF v Nitre.

4.Vodickova Kepkova, K., Vodicka, P., Toralova, T., Lopatarova, M., Cech, S., Dolezel, R., Havlicek, V., Besenfelder, U., Kuzmany, A., Sirard, M.-A., Laurincik, J., Kanka, J.: Transcriptomic analysis of in vivo and in vitro produced bovine embryos revealed a developmental change in cullin 1 during maternal-to-embryonic transition. Theriogenology, 75, 1582-1595, 2011, Kat. A (IF 1.963) Publikácia vznikla v rámci pracovného pomeru na UKF v Nitre.

5.Østrup, O., Strejcek, F., Petrovicova, I., Lucas-Hahn, A., Morovic, M., Lemme, E., Petersen, B., Lurincikova, N., Niemann, H., Laurincik, J., Hyttel, H.: Role of ooplasm in nuclear and nucleolar remodelling of intergeneric somatic cell nuclear transfer embryos during the first cell cycle. Cellular Reprogramming, 13, 145-155, 2011, Kat. A (IF 2,286) Publikácia vznikla v rámci pracovného pomeru na UKF v Nitre.

1.Gad, A., Nemcova, L., Murin, M., Kinterova, V, Kanka, J., Laurincik, J., Benc, M, Pendovski, L., Prochazka, R.: Global transcriptome alterations in porcine oocytes in correlation with follicle size and developmental competence. Mol Reprod Dev., 87, 102-114, 2020

2.Benc, M., Martinkova, S., Rychtarova, J., Fulka, J., Jr., Bartkova, A., Fulka, H., Laurincik, J.: Assessing the effect of interspecies oocyte nucleolar material dosage on embryonic development. Theriogenology, 155, 17-24, 2020

3.Gebremedhn, S., Gad, A., Aglan, H. S., Laurincik,J., Prochazka, R., Salilew-Wondim, D., Hoelker, M., Schellander, K., Tesfaye, D.: Extracellular vesicles shuttle protective messages against heat stress in bovine granulosa cells. Sci Rep 10, 15824 (2020). https://doi.org/10.1038/s41598-020-72706-z

4.Gad, A., Sánchez, J.M., Browne, J.A., Nemcova, L., Laurincik, J., Prochazka, R., Lonergan, P.: Plasma extracellular vesicle miRNAs as potential biomarkers of superstimulatory response in cattle. Scientific Reports volume 10, Article number: 19130 (2020)

5.Gad, A., Murin, M., Nemcova, L., Bartkova, A., Laurincik, J., Procházka. R.: Inhibition of miR-152 during in vitro maturation enhances the developmental potential of porcine embryos. Animals 2020, 10(12), 2289; https://doi.org/10.3390/ani10122289

1.Hyttel P, Laurincik J, Viuff D, Fair T, Zakhartchenko V, Rosenkranz C, Avery B, Rath D, Niemann H, Thomsen PD, Schellander K, Callesen H, Wolf E, Ochs RL, Greve T.: Activation of ribosomal RNA genes in preimplantation cattle and swine embryos. Source: ANIMAL REPRODUCTION SCIENCE Volume: 60 Special Issue: Sp. Iss. SI Pages: 49-60 Published: JUL 2 2000 , Publikácia vznikla v rámci pracovného pomeru na UKF v Nitre Databáza CCC 1. Vajta G.: Somatic cell nuclear transfer in its first and second decades: successes, setbacks, paradoxes and perspectives Source: REPRODUCTIVE BIOMEDICINE ONLINE Volume: 15 Issue: 5 Pages: 582-590 Published: NOV 2007 2. Badr H (Badr, H.), Bongioni G (Bongioni, G.), Abdoon ASS (Abdoon, A. S. S.), Kandil O (Kandil, O.), Puglisi R (Puglisi, R.).: Gene expression in the in vitro-produced preimplantation bovine embryos Source: ZYGOTE Volume: 15 Issue: 4 Pages: 355-367 Published: NOV 2007 3. Romanova LG (Romanova, Ludmila G.), Anger M (Anger, Martin), Zatsepina OV (Zatsepina, Olga V.), Schultz RM (Schultz, Richard M.).: Implication of nucleolar protein SURF6 in ribosome biogenesis and preimplantation mouse development. Source: BIOLOGY OF REPRODUCTION Volume: 75 Issue: 5 Pages: 690-696 Published: NOV 2006 4. Schuurmann E, Flogel-Niesmann G, Monnig V, Rath D.: Susceptibility of in vivo- and in vitro-produced porcine embryos to classical swine fever virus. Source: REPRODUCTION IN DOMESTIC ANIMALS Volume: 40 Issue: 5 Pages: 415-421 Published: OCT 2005 5. Hwang KC, Lee HY, Cui XS, Kim JH, Kim NH.: Identification of maternal mRNAs in porcine parthenotes at the 2-cell stage: A comparison with the blastocyst stage Source: MOLECULAR REPRODUCTION AND DEVELOPMENT Volume: 70 Issue: 3 Pages: 314-323 Published: MAR 2005 6. Rhind SM.: Effects of maternal nutrition on fetal and neonatal reproductive development and function Source: ANIMAL REPRODUCTION SCIENCE Volume: 82-3 Special Issue: Sp. Iss. SI Pages: 169-181 Published: JUL 2004 7. Holm P, Booth PJ, Callesen H.: Developmental kinetics of bovine nuclear transfer and parthenogenetic embryos Source: CLONING AND STEM CELLS Volume: 5 Issue: 2 Pages: 133-142 Published: 2003 8. Rhind SM, Rae MT, Brooks AN.: Environmental influences on the fetus and neonate - timing, mechanisms of action and effects on subsequent adult function Source: DOMESTIC ANIMAL ENDOCRINOLOGY Volume: 25 Issue: 1 Pages: 3-11 Published: JUL 2003 9. Kanka J.: Gene expression and chromatin structure in the pre-implantation embryo. Source: THERIOGENOLOGY Volume: 59 Issue: 1 Pages: 3-19 Published: JAN 1 2003

2.Laurincik J, Thomsen PD, Hay-Schmidt A, Avery B, Greve T, Ochs RL, Hyttel P.: Nucleolar proteins and nuclear ultrastructure in preimplantation bovine embryos produced in vitro. Source: BIOLOGY OF REPRODUCTION Volume: 62 Issue: 4 Pages: 1024-1032 Published: APR 2000, Publikácia vznikla v rámci pracovného pomeru na UKF v Nitre Databáza CCC 1. Pochukalina, G.N., Parfenov, V.N. Nucleolus transformation in mouse antral follicles: Distribution of coilin and components of RNA-polymerase I complex (2008) Cell and Tissue Biology, 2 (5), pp. 522-530. 2. Pochukalina, G.N., Parfenov, V.N. Nucleolus transformation in oocytes of mouse antral follicles. Revealing of coilin and RNA polymerase I complex components (2008) Tsitologiya, 50 (8), pp. 671-680. 3. De Lesegno CV (De Lesegno, Christine Viaris), Reynaud K (Reynaud, Karine), Pechoux C (Pechoux, Christine), Thoumire S (Thoumire, Sandra), Chastant-Maillard S (Chastant-Maillard, Sylvie).: Ultrastructure of canine oocytes during in vivo maturation. Source: MOLECULAR REPRODUCTION AND DEVELOPMENT Volume: 75 Issue: 1 Pages: 115-125 Published: JAN 2008 4. Modina S (Modina, Silvia), Abbate F (Abbate, Francesco), Germana GP (Germana, Germana P.), Lauria A (Lauria, Antonio), Luciano AM (Luciano, Alberto M.).: beta-Catenin localization and timing of early development of bovine embryos obtained from oocytes matured in the presence of follicle stimulating hormone. Source: ANIMAL REPRODUCTION SCIENCE Volume: 100 Issue: 3-4 Pages: 264-279 Published: AUG 2007 5. Jakobsen AS, Avery B, Dieleman SJ, Knijn HM, Vos PLAM, Thomsen PD.: Transcription of ribosomal RNA genes is initiated in the third cell cycle of bovine embryos. Source: MOLECULAR REPRODUCTION AND DEVELOPMENT Volume: 73 Issue: 2 Pages: 196-205 Published: FEB 2006 6. Meirelles F, Caetano AR, Watanabe YF, Ripamonte P, Carambula SE, Merighe GK, Garcia SM.: Genome activation and developmental block in bovine embryos. Source: ANIMAL REPRODUCTION SCIENCE Volume: 82-3 Special Issue: Sp. Iss. SI Pages: 13-20 Published: JUL 2004 7. Holm P, Booth PJ, Callesen H.: Developmental kinetics of bovine nuclear transfer and parthenogenetic embryos Source: CLONING AND STEM CELLS Volume: 5 Issue: 2 Pages: 133-142 Published: 2003 8. Lequarre AS, Marchandise J, Moreau B, Massip A, Donnay I.: Cell cycle duration at the time of maternal zygotic transition for in vitro produced bovine embryos: Effect of oxygen tension and transcription inhibition. Source: BIOLOGY OF REPRODUCTION Volume: 69 Issue: 5 Pages: 1707-1713 Published: NOV 2003 9. Scott L.: The biological basis of non-invasive strategies for selection of human oocytes and embryos Source: HUMAN REPRODUCTION UPDATE Volume: 9 Issue: 3 Pages: 237-249 Published: MAY-JUN 2003 10. Niemann H, Rath D, Wrenzycki C.: Advances in biotechnology: New tools in future pig production for agriculture and biomedicine Source: REPRODUCTION IN DOMESTIC ANIMALS Volume: 38 Issue: 2 Pages: 82-89 Published: APR 2003

3.Hyttel P, Laurincik J, Rosenkranz C, Rath D, Niemann H, Ochs RL, Schellander K: Nucleolar proteins and ultrastructure in preimplantation porcine embryos developed in vivo. Source: BIOLOGY OF REPRODUCTION Volume: 63 Issue: 6 Pages: 1848-1856 Published: DEC 2000, Publikácia vznikla v rámci pracovného pomeru na UKF v Nitre Databáza CCC 1. Martin L (Martin, L.), Besch-Williford C (Besch-Williford, C.), Lai L (Lai, L.), Cheong HT (Cheong, H.-T.), Im GS (Im, G.-S.), Park KW (Park, K.-W.), Murphy C (Murphy, C.), Hao Y (Hao, Y.), Ellersieck MR (Ellersieck, M. R.), Keisler DH (Keisler, D. H.), Schatten H (Schatten, H.), Green JA (Green, J. A.), Prather RS (Prather, R. S.).: Morphologic and histologic comparisons between in vivo and nuclear transfer derived porcine embryos. Source: MOLECULAR REPRODUCTION AND DEVELOPMENT Volume: 74 Issue: 8 Pages: 952-960 Published: AUG 2007 2. Foster HA (Foster, Helen A.), Stokes P (Stokes, Paula), Forsey K (Forsey, Katherine), Leese HJ (Leese, Henry J.), Bridger JM (Bridger, Joanna M.).: Lamins A and C are present in the nuclei of early porcine embryos, with lamin A being distributed in large intranuclear foci. Source: CHROMOSOME RESEARCH Volume: 15 Issue: 2 Pages: 163-174 Published: FEB 2007 3. Brandt Y (Brandt, Y.), Madej A (Madej, A.), Rodriguez-Martinez H (Rodriguez-Martinez, H.), Einarsson S (Einarsson, S.).: Effects of exogenous ACTH during oestrus on early embryo development and oviductal transport in the sow. Source: REPRODUCTION IN DOMESTIC ANIMALS Volume: 42 Issue: 2 Pages: 118-125 Published: APR 2007 4. Weng YC (Weng, Ya-Chi), Sha SW (Sha, Shi-Wen), Chiou CM (Chiou, Chii-Ming), Tang PC (Tang, Pin-Chi), Yang JH (Yang, Jeng-Huh), Ju JC (Ju, Jyh-Cherng).: Butyrolactone I reversibly alters nuclear configuration, periooplasmic microtubules and development of porcine oocytes. Source: THERIOGENOLOGY Volume: 67 Issue: 3 Pages: 509-519 Published: FEB 2007 5. Hsieh CH, Tang PC, Chang WH, Weng YC, Sha SW, Tseng JK, Chang LH, Ju JC.: The kinase inhibitor indirubin-3 '-oxime prevents germinal vesicle breakdown and reduces parthenogenetic development of pig oocytes. Source: THERIOGENOLOGY Volume: 65 Issue: 4 Pages: 744-756 Published: MAR 1 2006 6. Shav-Tal Y, Blechman J, Darzacq X, Montagna C, Dye BT, Patton JG, Singer RH, Zipori D.: Dynamic sorting of nuclear components into distinct nucleolar caps during transcriptional inhibition. Source: MOLECULAR BIOLOGY OF THE CELL Volume: 16 Issue: 5 Pages: 2395-2413 Published: MAY 2005 7. Kitagawa Y, Suzuki K, Yoneda A, Watanabe T.: Effects of oxygen concentration and antioxidants on the in vitro developmental ability, production of reactive oxygen species (ROS), and DNA fragmentation in porcine embryos. Source: THERIOGENOLOGY Volume: 62 Issue: 7 Pages: 1186-1197 Published: OCT 1 2004 8. Prisco M, Ricchiari L, Montella R, Liguoro A, Andreuccetti P.: The nucleolus and its modifications during oogenesis of Torpedo marmorata. Source: JOURNAL OF FISH BIOLOGY Volume: 65 Issue: 6 Pages: 1489-1497 Published: DEC 2004 9. DiMario PJ.: Cell and molecular biology of nucleolar assembly and disassembly Source: INTERNATIONAL REVIEW OF CYTOLOGY - A SURVEY OF CELL BIOLOGY, VOL. 239 Volume: 239 Pages: 99-+ Published: 2004 10. Podgornaya OI, Voronin AP, Enukashvily NI, Matveev IV, Lobov IB.: Structure-specific DNA-binding proteins as the foundation for three-dimensional chromatin organization Source: INTERNATIONAL REVIEW OF CYTOLOGY - A SURVEY OF CELL BIOLOGY, VOL 224 Book Series: INTERNATIONAL REVIEW OF CYTOLOGY-A SURVEY OF CELL BIOLOGY Volume: 224 Pages: 227-296 Published: 2003

4.Chrenek P, Boulanger L, Heyman Y, Uhrin P, Laurincik J, Bulla J, Renard JP.: Sexing and multiple genotype analysis from a single cell of bovine embryo. Source: THERIOGENOLOGY Volume: 55 Issue: 5 Pages: 1071-1081 Published: MAR 15 2001, Publikácia vznikla v rámci pracovného pomeru na UKF v Nitre Databáza CCC 1. Anguita, B., Paramio, M.-T., Jiménez-Macedo, A.R., Morató, R., Mogas, T., Izquierdo, D. Total RNA and protein content, Cyclin B1 expression and developmental competence of prepubertal goat oocytes (2008) Animal Reproduction Science, 103 (3-4), pp. 290-303. 2. Kharche, S.D., Goel, A.K., Jindal, S.K., Sinha, N.K. Birth of a female kid from in-vitro matured and fertilized caprine oocytes (2008) Indian Journal of Animal Sciences, 78 (7), pp. 680-685. 3. Pereira, R.M., Carvalhais, I., Pimenta, J., Baptista, M.C., Vasques, M.I., Horta, A.E.M., Santos, I.C., Marques, M.R., Reis, A., Pereira, M.S., Marques, C.C. Biopsied and vitrified bovine embryos viability is improved by trans10, cis12 conjugated linoleic acid supplementation during in vitro embryo culture (2008) Animal Reproduction Science, 106 (3-4), pp. 322-332. 4. Velazquez, M.A. Assisted reproductive technologies in cattle: Applications in livestock production, biomedical research and conservation biology (2008) Annual Review of Biomedical Sciences, 10, pp. 36-62. 5. Ciani, F., Cocchia, N., Rizzo, M., Ponzio, P., Tortora, G., Avallone, L., Lorizio, R. Sex determining of cat embryo and some feline species (2008) Zygote, 16 (2), pp. 169-177. 6. Lopatarova M (Lopatarova, M.), Cech S (Cech, S.), Krontorad P (Krontorad, P.), Holy L (Holy, L.), Hlavicova J (Hlavicova, J.), Dolezel R (Dolezel, R.).: Lower quality bovine embryos may be successfully used for sex determination. Source: VETERINARNI MEDICINA Volume: 52 Issue: 12 Pages: 540-546 Published: DEC 2007 7. Peippo J (Peippo, Jaana), Viitala S (Viitala, Sirja), Virta J (Virta, Jouni), Raty M (Raty, Mervi), Tammiranta N (Tammiranta, Niina), Lamminen T (Lamminen, Terttu), Aro J (Aro, Johanna), Myllymaki H (Myllymaki, Hannu), Vilkki J (Vilkki, Johanna).: Birth of correctly genotyped calves after multiplex marker detection from bovine embryo microblade biopsies. Source: MOLECULAR REPRODUCTION AND DEVELOPMENT Volume: 74 Issue: 11 Pages: 1373-1378 Published: NOV 2007 8. Kubisch HM, Johnson KM.: The effects of blastomere biopsy and oxygen tension on bovine embryo development, rate of apoptosis and interferon-tau secretion Source: REPRODUCTION IN DOMESTIC ANIMALS Volume: 42 Issue: 5 Pages: 509-515 Published: OCT 2007 9. Rosa AJM (Rosa, Artur J. M.), Bijma P (Bijma, Piter), Oliveira HN (Oliveira, Henrique N.), Lobo RB (Lobo, Raysildo B.), van Arendonk JAM (van Arendonk, Johan A. M.).: A deterministic simulation study of embryo marker-assisted selection for age at first calving in Nellore (Bos indicus) beef cattle. Source: GENETICS AND MOLECULAR BIOLOGY Volume: 30 Issue: 3 Pages: 552-559 Published: SEP 2007 10. Laible G, Wells DN.: Recent advances and future options for New Zealand agriculture derived from animal cloning and transgenics Source: NEW ZEALAND JOURNAL OF AGRICULTURAL RESEARCH Volume: 50 Issue: 2 Pages: 103-124 Published: JUN 2007

5.Hyttel P, Viuff D, Fair T, Laurincik J, Thomsen PD, Callesen H, Vos PLAM, Hendriksen PJM, Dieleman SJ, Schellander K, Besenfelder U, Greve T.: Ribosomal RNA gene expression and chromosome aberrations in bovine oocytes and preimplantation embryos. Source: REPRODUCTION Volume: 122 Issue: 1 Pages: 21-30 Published: JUL 2001, Publikácia vznikla v rámci pracovného pomeru na UKF v Nitre Databáza CCC 1. Torner H (Torner, Helmut), Ghanem N (Ghanem, Nasser), Ambros C (Ambros, Christina), Holker M (Hoelker, Michael), Tomek W (Tomek, Wolfgang), Phatsara C (Phatsara, Chirawath), Alm H (Alm, Hannelore), Sirard MA (Sirard, Marc-Andre), Kanitz W (Kanitz, Wilhelm), Schellander K (Schellander, Karl), Tesfaye D (Tesfaye, Dawit).: Molecular and subcellular characterisation of oocytes screened for their developmental competence based on glucose-6-phosphate dehydrogenase activity. Source: REPRODUCTION Volume: 135 Issue: 2 Pages: 197-212 Published: FEB 2008 2. Anguita B (Anguita, Begona), Paramio MT (Paramio, Maria-Teresa), Jimenez-Macedo AR (Jimenez-Macedo, Ana R.), Morato R (Morato, Roser), Mogas T (Mogas, Teresa), Izquierdo D (Izquierdo, Dolors).: Total RNA and protein content, Cyclin B 1 expression and developmental competence of prepubertal goat oocytes. Source: ANIMAL REPRODUCTION SCIENCE Volume: 103 Issue: 3-4 Pages: 290-303 Published: JAN 30 2008 3. Ogushi S (Ogushi, Sugako), Palmieri C (Palmieri, Chiara), Fulka H (Fulka, Helena), Saitou M (Saitou, Mitinori), Miyano T (Miyano, Takashi), Fulka J (Fulka, Josef, Jr.).: The maternal nucleolus is essential for early embryonic development in mammals. Source: SCIENCE Volume: 319 Issue: 5863 Pages: 613-616 Published: FEB 1 2008 4. Badr H (Badr, H.), Bongioni G (Bongioni, G.), Abdoon ASS (Abdoon, A. S. S.), Kandil O (Kandil, O.), Puglisi R (Puglisi, R.).: Gene expression in the in vitro-produced preimplantation bovine embryos. Source: ZYGOTE Volume: 15 Issue: 4 Pages: 355-367 Published: NOV 2007 5. Ghanem N (Ghanem, Nasser), Holker M (Hoelker, Michael), Rings F (Rings, Franca), Jennen D (Jennen, Danyel), Tholen E (Tholen, Ernst), Sirard MA (Sirard, Marc-Andre), Torner H (Torner, Helmut), Kanitz W (Kanitz, Wilhelm), Schellander K (Schellander, Karl), Tesfaye D (Tesfaye, Dawit).: Alterations in transcript abundance of bovine oocytes recovered at growth and dominance phases of the first follicular wave. Source: BMC DEVELOPMENTAL BIOLOGY Volume: 7 Article Number: 90 Published: JUL 27 2007 6. Wrenzycki C, Herrmann D, Niemann H.: Messenger RNA in oocytes and embryos in relation to embryo viability Source: THERIOGENOLOGY Volume: 68 Pages: S77-S83 Supplement: Suppl. 1 Published: SEP 1 2007 7. Van Soom A (Van Soom, A.), Vandaele L (Vandaele, L.), Goossens K (Goossens, K.), de Kruif A (de Kruif, A.), Peelman L (Peelman, L.).: Gamete origin in relation to early embryo development. Source: THERIOGENOLOGY Volume: 68 Pages: S131-S137 Supplement: Suppl. 1 Published: SEP 1 2007 8. Vandaele L (Vandaele, Leen), Mateusen B (Mateusen, Bart), Maes DGD (Maes, Dorniniek G. D.), de Kruif A (de Kruif, Aart), van Soom A (van Soom, Ann).: Temporal detection of caspase-3 and-7 in bovine in vitro produced embryos of different developmental capacity. Source: REPRODUCTION Volume: 133 Issue: 4 Pages: 709-718 Published: APR 2007 9. Kuzmina TI (Kuzmina, Tatjana I.), Alm H (Alm, Hannelore), Denisenko V (Denisenko, Vitaly), Tuchscherer A (Tuchscherer, Armin), Kanitz W (Kanitz, Wilhelm), Torner H (Torner, Helmut).: Effect of recombinant bovine somatotropin (rbST) on cytoplasmic maturation of bovine oocytes and their developmental competence in vitro. Source: JOURNAL OF REPRODUCTION AND DEVELOPMENT Volume: 53 Issue: 2 Pages: 309-316 Published: APR 2007 10. Weng YC (Weng, Ya-Chi), Sha SW (Sha, Shi-Wen), Chiou CM (Chiou, Chii-Ming), Tang PC (Tang, Pin-Chi), Yang JH (Yang, Jeng-Huh), Ju JC (Ju, Jyh-Cherng).: Butyrolactone I reversibly alters nuclear configuration, periooplasmic microtubules and development of porcine oocytes. Source: THERIOGENOLOGY Volume: 67 Issue: 3 Pages: 509-519 Published: FEB 2007

1.

APVV-14-0001 Oocytárna fibrilarna sféra – guľa pre život: zásadná genetická a epigenetická štúdia; Funkcia v projekte: zodpovedný riešiteľ; doba trvania projektu: 2015-2019; Hlavným cieľom projektu je rozšíriť základné poznanie o (1) konfigurácii chromatínu DNA obklopujúcej fibrilárnu sféru, (2) obsahu RNA a proteínov aspirovaných fibrilárnych sfér používaných na transfer, (3) vývinovej kompetencii, karyotype, nukleologenéze, RNA pol I a pol III transkripcii a procesovaní, remodelovaní chromatínu a epigenetických modifikáciách, aktivácii genómu a proteomickej analýze embryí získaných pomocou transferu fibrilárnej sféry.

2.

VEGA - 1/0167/20 - Vnútrojadrové molekulárne markery rastúcich a plne narastených oocytov – transkriptomická a proteomická štúdia; Funkcia v projekte: zodpovedný riešiteľ; Doba riešenia: 1/2020 - 12/2023; Oocytárna fibrilárna sféra (FS) slúži ako zásobáreň transkriptov vývinových génov a ich príslušných polypeptidov, ktoré sú esenciálne počas včasného embryonálneho vývinu. Dysfunkcia FS môže byť spájaná s neplodnosťou samíc. Našou základnou hypotézou je, že nižšia vývinová kompetencia neovulačných oocytov ošípaných určených pre in vitro kultiváciu a oplodnenie súvisí s nesprávnou konfiguráciou a zložením chromatínu, ako aj s nízkou kvalitou FS. Našim hlavným cieľom je lepšie pochopenie a rozvinutie základných poznatkov o vlastnostiach a organizácii DNA sekvencií lokalizovaných v blízkosti FS v súvislosti s transkripčnou aktivitou rastúcich a plne narastených oocytov v štádiách GV1-GV4. Naviac, podrobná transkriptomická a proteomická analýza oocytov ako aj FS významne napomôže k pochopeniu ich zloženia (a tak aj kvality), ako ajstanoveniu ich významu pre včasný embryonálny vývin.

3.

The egg’s nucleolar sphere – the globe of life: Molecular studies of nucleolar inheritance. Funding body: Danmarks Frie Forskningsfond | Natur og Univers, Instrument: DFF-Forskningsprojekt1/DFF-Research Project 1, Case number: 8021-00048A; Funckia v projekte: zodpovedný riešiteľ/koordinátor; doba riešenia projektu: 2019-2022; Jadierko je bunková organela zodpovedná za syntézu ribozómov, a teda za syntézu bielkovín. V oocytoch cicavcov sa jadierko zhlukuje do hustej gule (nukleolárnej sféry) bez syntézy ribozómov v dostatočnom predstihu pred ovuláciou. Nukleárna sféra je nanajvýš významná pre vývoj embrya. Nie sú však známe jej funkcie. V tomto projekte budú ošípané, v ktorých biológia oocytu pripomína ľudský oocyt, použíté na štúdium obsahu nukleolárnej sféry, ako aj sprostredkovanej vývojovej kompetencie touto štruktúrou. Obsah sféry sa bude analyzovať pomocou transkriptomiky a proteomiky a funkčnosť bude testovaná pokročilou mikromanipuláciou, kde budú transplantované nukleárne sféry z jedného oocytu do druhého. Konzorcium si už mnoho rokov vybudovalo špecifické kompetencie a spolupráce zabezpečujúce úspech projektu.

4.

VEGA - 1/0001/19 Perinukleolárna a intranukleolárna charakteristika oocytov s rôznou vývinovou kompetenciou – transkriptomická a proteomická štúdia; Funkcia v projekte: zodpovedný riešiteľ/koordinátor; doba riešenia: 2019-2022; Existuje predpoklad, že oocytárna fibrilárna sféra (FS) slúži ako zásobáreň transkriptov vývinových génov a ich príslušných polypeptidov, ktoré sú esenciálne počas včasného embryonálneho vývinu. Z tohto dôvodu dysfunkcia FS môže byť spájaná s neplodnosťou samíc. Našou základnou hypotézou je, že nižšia vývinová kompetencia neovulačných oocytov ošípaných určených pre in vitro kultiváciu a oplodnenie súvisí s nesprávnou konfiguráciou a zložením chromatínu, ako aj s nízkou kvalitou FS. Našim hlavným cieľom je lepšie pochopenie a rozvinutie základných poznatkov o vlastnostiach a organizácii DNA sekvencií lokalizovaných v blízkosti FS v súvislosti s transkripčnou aktivitou oocytov v štádiách GV1-GV4. Naviac, podrobná transkriptomická a proteomická analýza oocytov a FS významne napomôže k pochopeniu ich zloženia (a tak aj kvality), ako aj stanoveniu ich významu pre včasný embryonálny vývin.

5.

APVV- SK-FR-19-0010 Štúdium kvality oocytov v závislosti na organizácii chromatínu; Funkcia v projekte: riešiteľ; doba riešenia projektu: 2020-2022; Hlavný cieľ predkladaného projektu je podpora vzájomnej spolupráce v oblasti prípravy spoločných medzinárodných projektov, v publikačnej činnosti a v spoločnom výskumnom zámere medzi oboma inštitúciami - Univerzita Konštantína Filozofa v Nitre a INRA Science & Impact v Paríži. Náš spoločný výskumný zámer je zameraný na jadierko (nemembránovú sub-organelu jadra) v oocytoch a skorých embryách a jeho úzkeho prepojenia s organizáciou chromatínu, ktorá súvisí s vývinovým potenciálom. Nedávne výsledky z medzidruhových jadierkových transferov a naše analýzy procesu enukleolácie naznačujú, že táto sub-organela má viac funkcií a môže byť omnoho viac spojená s organizáciou DNA, ako sa pôvodne predpokladalo. Naše publikované výsledky, kedy prasacie jadierko plne nahradilo myšie, avšak opačný proces bol neúspešný, vytvára množstvo hypotéz a otázok o kompozícii a funkciách tejto atypickej štruktúry. Na základe naši doterajších výsledkov, by sme radi pokračovali v spoločnom výskumnom procese a radi by sme aplikovali nové prístupy (menovite trojrozmernú analýzu organizácie DNA), ktoré by mohli byť sľubnou cestou a ktoré by mohli priniesť nové poznatky o jadierku a jeho funkciách v skorom embryonálnom vývine.