Aleksandra Skirycz

Pós-doutorado

Idiomas

Áreas de atuação

Participação em eventos

Produções bibliográficas

• SCHULZ, PHILIPP ; JANSSEUNE, KAREL ; DEGENKOLBE, THOMAS ; MÉRET, MICHAËL ; CLAEYS, HANNES ; Skirycz, Aleksandra ; TEIGE, MARKUS ; WILLMITZER, LOTHAR ; Hannah, Matthew A. . Poly(ADP-Ribose)Polymerase Activity Controls Plant Growth by Promoting Leaf Cell Number. Plos One , v. 9, p. e90322, 2014.

• ANDRIANKAJA, MEGAN E. ; DANISMAN, SELAHATTIN ; MIGNOLET-SPRUYT, LORIN F. ; CLAEYS, HANNES ; KOCHANKE, IRINA ; VERMEERSCH, MATTIAS ; DE MILDE, LIESBETH ; DE BODT, STEFANIE ; STORME, VERONIQUE ; Skirycz, Aleksandra ; MAURER, FELIX ; BAUER, PETRA ; MÜHLENBOCK, PER ; VAN BREUSEGEM, FRANK ; ANGENENT, GERCO C. ; IMMINK, RICHARD G. H. ; INZÉ, DIRK . Transcriptional coordination between leaf cell differentiation and chloroplast development established by TCP20 and the subgroup Ib bHLH transcription factors. Plant Molecular Biology , v. 85, p. 233-245, 2014.

• DUBOIS, M. ; SKIRYCZ, A. ; CLAEYS, H. ; MALEUX, K. ; DHONDT, S. ; DE BODT, S. ; VANDEN BOSSCHE, R. ; DE MILDE, L. ; YOSHIZUMI, T. ; MATSUI, M. ; INZE, D. . ETHYLENE RESPONSE FACTOR6 Acts as a Central Regulator of Leaf Growth under Water-Limiting Conditions in Arabidopsis. PLANT PHYSIOLOGY , v. 162, p. 319-332, 2013.

• ANDRIANKAJA, MEGAN ; DHONDT, STIJN ; DE BODT, STEFANIE ; VANHAEREN, HANNES ; COPPENS, FREDERIK ; DE MILDE, LIESBETH ; MÜHLENBOCK, PER ; SKIRYCZ, ALEKSANDRA ; GONZALEZ, NATHALIE ; BEEMSTER, GERRIT T.S. ; INZÉ, DIRK . Exit from Proliferation during Leaf Development in Arabidopsis thaliana: A Not-So-Gradual Process. Developmental Cell , v. 22, p. 64-78, 2012.

• CLAEYS, H. ; SKIRYCZ, A. ; MALEUX, K. ; INZE, D. . DELLA Signaling Mediates Stress-Induced Cell Differentiation in Arabidopsis Leaves through Modulation of Anaphase-Promoting Complex/Cyclosome Activity. PLANT PHYSIOLOGY , v. 159, p. 739-747, 2012.

• MARSHALL, A. AALEN, R. B. AUDENAERT, D. BEECKMAN, T. BROADLEY, M. R. BUTENKO, M. A. CANO-DELGADO, A. I. DE VRIES, S. DRESSELHAUS, T. FELIX, G. GRAHAM, N. S. FOULKES, J. GRANIER, C. GREB, T. GROSSNIKLAUS, U. HAMMOND, J. P. HEIDSTRA, R. HODGMAN, C. HOTHORN, M. INZE, D. OSTERGAARD, L. RUSSINOVA, E. SIMON, R. SKIRYCZ, A. STAHL, Y. , et al. ZIPFEL, C. DE SMET, I. ; Tackling Drought Stress: RECEPTOR-LIKE KINASES Present New Approaches. The Plant Cell , v. 24, p. 2262-2278, 2012.

• SKIRYCZ, ALEKSANDRA ; VANDENBROUCKE, KORNEEL ; CLAUW, PIETER ; MALEUX, KATRIEN ; DE MEYER, BJORN ; DHONDT, STIJN ; PUCCI, ANNA ; GONZALEZ, NATHALIE ; HOEBERICHTS, FRANK ; TOGNETTI, VANESA B ; GALBIATI, MASSIMO ; TONELLI, CHIARA ; VAN BREUSEGEM, FRANK ; VUYLSTEKE, MARNIK ; INZÉ, DIRK . Survival and growth of Arabidopsis plants given limited water are not equal. Nature Biotechnology , v. 29, p. 212-214, 2011.

• SKIRYCZ, A. ; CLAEYS, H. ; DE BODT, S. ; OIKAWA, A. ; SHINODA, S. ; ANDRIANKAJA, M. ; MALEUX, K. ; ELOY, N. B. ; COPPENS, F. ; YOO, S.-D. ; SAITO, K. ; INZE, D. . Pause-and-Stop: The Effects of Osmotic Stress on Cell Proliferation during Early Leaf Development in Arabidopsis and a Role for Ethylene Signaling in Cell Cycle Arrest. The Plant Cell , v. 23, p. 1876-1888, 2011.

• Skirycz, Aleksandra ; MEMMI, SAMY ; DE BODT, STEFANIE ; MALEUX, KATRIEN ; OBATA, TOSHIHIRO ; FERNIE, ALISDAIR R. ; DEVREESE, BART ; INZE', DIRK . A Reciprocal N-Labeling Proteomic Analysis of Expanding Leaves Subjected to Osmotic Stress Indicates Importance of Mitochondria in Preserving Plastid Functions. Journal of Proteome Research (Print) , v. 10, p. 1018-1029, 2011.

• SKIRYCZ, ALEKSANDRA ; INZÉ, DIRK . More from less: plant growth under limited water. Current Opinion in Biotechnology , v. 21, p. 197-203, 2010.

• VERELST, WIM ; SKIRYCZ, ALEKSANDRA ; INZÉ, DIRK . Abscisic acid, ethylene and gibberellic acid act at different developmental stages to instruct the adaptation of young leaves to stress. Plant Signaling & Behavior , v. 5, p. 473-475, 2010.

• SKIRYCZ, A. ; DE BODT, S. ; OBATA, T. ; DE CLERCQ, I. ; CLAEYS, H. ; DE RYCKE, R. ; ANDRIANKAJA, M. ; VAN AKEN, O. ; VAN BREUSEGEM, F. ; FERNIE, A. R. ; INZE, D. . Developmental Stage Specificity and the Role of Mitochondrial Metabolism in the Response of Arabidopsis Leaves to Prolonged Mild Osmotic Stress. PLANT PHYSIOLOGY , v. 152, p. 226-244, 2009.

• Skirycz, Aleksandra ; RADZIEJWOSKI, AMANDINE ; BUSCH, WOLFGANG ; Hannah, Matthew A. ; CZESZEJKO, JOANNA ; KWA'NIEWSKI, MIROS'AW ; ZANOR, MARIA-INÈS ; LOHMANN, JAN U. ; DE VEYLDER, LIEVEN ; WITT, ISABELL ; MUELLER-ROEBER, BERND . The DOF transcription factor OBP1 is involved in cell cycle regulation in. Plant Journal (Print) , v. 56, p. 779-792, 2008.

• MARCZAK, 'UKASZ ; KACHLICKI, PIOTR ; KOZ'NIEWSKI, PIOTR ; Skirycz, Aleksandra ; KRAJEWSKI, PAWE' ; STOBIECKI, MACIEJ . Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry monitoring of anthocyanins in extracts from leaves. RCM. Rapid Communications in Mass Spectrometry , v. 22, p. 3949-3956, 2008.

• SKIRYCZ, ALEKSANDRA ; JOZEFCZUK, SZYMON ; STOBIECKI, MACIEJ ; MUTH, DOROTA ; ZANOR, MARIA INÉS ; WITT, ISABELL ; MUELLER-ROEBER, BERND . Transcription factor AtDOF4;2 affects phenylpropanoid metabolism in Arabidopsis thaliana. New Phytologist (Online) , v. 175, p. 425-438, 2007.

• SKIRYCZ, ALEKSANDRA ; BUROW, MEIKE ; BIRKEMEYER, CLAUDIA ; ROLCIK, JAKUB ; KOPKA, JOACHIM ; ZANOR, MARIA INÈS ; GERSHENZON, JONATHAN ; STRNAD, MIROSLAV ; SZOPA, JAN ; MUELLER-ROEBER, BERND ; WITT, ISABELL . DOF transcription factor AtDof1.1 (OBP2) is part of a regulatory network controlling glucosinolate biosynthesis in Arabidopsis. The Plant Journal , v. 47, p. 10-24, 2006.

• SKIRYCZ, ALEKSANDRA ; 'WI'DRYCH, ANNA ; SZOPA, JAN . Expression of human dopamine receptor in potato (Solanum tuberosum) results in altered tuber carbon metabolism.. BMC Plant Biology (Online) , v. 5, p. 1, 2005.

• 'WI'DRYCH, ANNA ; LORENC-KUKU'A, KATARZYNA ; SKIRYCZ, ALEKSANDRA ; SZOPA, JAN . The catecholamine biosynthesis route in potato is affected by stress. Plant Physiology and Biochemistry (Paris) , v. 42, p. 593-600, 2004.

• Skirycz, Aleksandra ; Hannah, Matthew A. . The Use of Omics Approaches in Arabidopsis for the Improvement of Abiotic Stress Tolerance, in Improving Crop Resistance to Abiotic Stress. Improving Crop Resistance to Abiotic Stress: Vol. 1. 1ed.Weinheim: Narendra Tuteja, 2012, v. 1, p. 301-320.

Projetos de pesquisa

• 2014 - Atual

  Growth and Photosynthesis Regulation in Arabidopsis, Descrição: This project takes advantage of the Arabidopsis 2nd generation mapping population MAGIC, automated phenomics platform and isotope discrimination measurements. Growth and photosynthetic traits measured across >500 MAGIC lines will be used to define underlying QTLs. . , Situação: Em andamento; Natureza: Pesquisa. , Integrantes: Aleksandra Skirycz - Coordenador / Sergei Kouschnir - Integrante / CINTHIA Mileo - Integrante.

• 2014 - Atual

  Improvemnet of E.guineensisxE.oleifera Oil Palm Hybrid., Descrição: This projects aims in addressing fertility problems encountered in oil palm hybrid plants. More specifically the reason behind low volatile production and as consequence pollinator attractiveness.. , Situação: Em andamento; Natureza: Pesquisa. , Integrantes: Aleksandra Skirycz - Integrante / Sergei Kouschnir - Coordenador / CINTHIA Mileo - Integrante / Edson Barcelos - Integrante / Alisdair Fernie - Integrante.

• 2008 - 2012

  Plant Growth under Drought, Descrição: The main interest of my research was on regulatory networks underling leaf growth reduction caused by drought. In unpredictable environments, growth reduction enables plants to re-distribute and save resources, ensuring reproduction even when the stress becomes extreme (reviewed by Skirycz and Inze, 2010 Current Opinions in Biotechnology). However when the episode of stress does not threaten plant survival and from the agricultural point of view growth reduction can be seen as counter-productive leading to unnecessary yield loss. Limiting growth reduction may thus provide a strategy to boost plant productivity under stress (Skirycz et al. 2011 Nature Biotechnology).Whilst stress responses of mature organs are relatively well characterized what happens in the growing zones is much less understood. To address this gap in knowledge, physiological (growth analysis) and molecular (transcript, metabolite and protein profiling) analyses have been undertaken to understand how growing (fully proliferating and fully expanding) Arabidopsis leaves regulate their growth in response to water deficit (Skirycz et al., 2010 and 2011 Plant Physiology and Journal of Proteome Research). Most current work focused on dissecting regulatory networks up-stream of cell cycle machinery with emphasis on hormonal signalling (Skirycz et al., 2012 Plant Cell and Plant Physiology) and transcriptional regulation (Madub et al., in preparation).. , Situação: Concluído; Natureza: Pesquisa. , Integrantes: Aleksandra Skirycz - Coordenador / DE BODT, S. - Integrante / CLAEYS, H. - Integrante / ANDRIANKAJA, M. - Integrante / INZE, D. - Integrante / CLAUW, PIETER - Integrante / MALEUX, K. - Integrante / DUBOIS, M. - Integrante / MEMMI, SAMY - Integrante., Número de produções C, T & A: 16