New Head of the Department of Plant Physiology

Pok. 0/129, tel. 59 325 33

e-mail: anita_wisniewska@sggw.pl

http://anita_wisniewska.users.sggw.pl/

Scientific interests:
– molecular plant-nematode interactions,
– molecular basis of sugar beet drought tolerance

Didactics:
– genetics
– plant breeding
– molecular evolution

Scientific projects (click link)

Research projects currently underway:

1. Project financed under the NCN OPUS 9 project No. 2015/17 / B / NZ9 / 01767 (2016-2020)

“Identification of molecular mechanisms determining susceptibility Arabidopsis thaliana for beetroot nematode ( Heterodera schachtii ). “

Project manager: dr inż. Anita Wiśniewska

Completed projects:

1. Project financed under the NCN OPUS 5 project No. 2013/09 / B / NZ9 / 02381 (2014-2018)

“The role of genes encoding MYB and MYB-like transcription factors in the interaction Arabidopsis thaliana and the beetroot nematode ( Heterodera schachtii ) “

Project manager: dr inż. Anita Wiśniewska

2. Project financed by the Ministry of Agriculture and Rural Development as part of a grant for basic research for biological progress in plant production (2014-2018).

“Identification and application of phenotypic and molecular markers of drought stress tolerance in sugar beet”

Project manager: Dr. Danuta Chołuj

Link: http://agrobiol.sggw.pl/fizjologia/pages/dotacja-mrirw.php

Original scientific works:

Wisniewska A. , Andryka-Dudek P, Czerwiński M, Chołuj D ( 2019 ) Fodder beet is a reservoir of drought tolerance alleles for sugar beet breeding, Plant Physiology and Biochemistry 145: 120–131, https://doi.org/10.1016/j.plaphy.2019.10.031

Andryka-Dudek P, Ciacka K, Wisniewska A. , Bogatek R, Gniazdoowska A (2019) Nitric Oxide-Induced Dormancy Removal of Apple Embryos Is Linked to Alterations in Expression of Genes Encoding ABA and JA Biosynthetic or Transduction Pathways and RNA Nitration Ion J. Mol. Sci. 20 (5), 1007; https://doi.org/10.3390/ijms20051007

Malinowski R, Fry SC, Zuzga S, Wisniewska A. , Godlewski M, Noyszewski A, Barczak-Brzyżek A, Malepszy A, Filipecki M ( 2018 ) Developmental expression of the cucumber Cs-XTH1 and Cs-XTH3 genes, encoding xyloglucan endotransglucosylase / hydrolases, can be influenced by mechanical stimuli, Acta Physiologiae Plantarum 40: 130.

Dąbrowska-Bronk J, Czarny M, Wisniewska A. , Fudali S, Baranowski Ł, Sobczak M, Święcicka M, Matuszkiewicz M, Brzyżek G, Wroblewski T, Dobosz R, Bartoszewski G and Filipecki M (2015) Suppression of NGB and NAB / ERabp1 in tomato modifies root responses to potato cyst nematode infestation. Mol Plant Pathol. 16: 334–348.

Chołuj D, Wisniewska A * , Szafrański KM, Cebula J, Gozdowski D, Podlaski S (2014) Assessment of the physiological responses to drought in different sugar beet genotypes in connection with their genetic distance. J Plant Physiol 171: 1221-1230 (* corresponding author).

Długosz M, Wiktorowska E, Wisniewska A. , Pączkowski C (2013) Production of oleanolic acid glycosides by hairy root established cultures of Calendula officinalis L. Acta Bioch Pol 60: 467-473.

Wisniewska A. , Dąbrowska-Bronk J, Szafrański K, Fudali S, Swięcicka M, Czarny M, Wilkowska A, Morgiewicz K, Matusiak J, Sobczak M, Filipecki M (2013) . Analysis of tomato gene promoters activated in syncytia induced in tomato and potato hairy roots by Globodera rostochiensis. Transgenic Research 22 (3): 557-569.

Wisniewska A. , Pietraszewska-Bogiel A, Zuzga S, Tagashira N, Lotocka B, Malepszy S, Filipecki M (2013) . Molecular characterization of SCARECROW ( CsSCR ) gene expressed during somatic embryo development and in root of cucumber ( Cucumis sativus L.). Acta Physiologiae Plantarum 35 (5): 1483-1495.

Wisniewska A. , Grabowska A, Pietraszewska-Bogiel A, Tagashira N, Zuzga S, Wóycicki R, Przybecki Z, Malepszy S, Filipecki M (2012) . Identification of genes up-regulated during somatic embryogenesis of cucumber. Plant Physiol Biochem 50: 54-64.

Soltys D, Rudzińska-Langwald A, Gniazdoowska A, Wisniewska A. , Bogatek R (2012) . Inhibition of tomato (Solanum lycopersicum L.) root growth by cyanamide is due to altered cell division, phytohormone balance and expansin gene expression. Planta 236 (5): 1629-1638.

Grabowska A, Wisniewska A. , Tagashira N, Malepszy S, Filipecki M (2009) . Characterization of CsSEF1 gene encoding putative CCCH-type zinc finger transcription factor expressed during cucumber somatic embryogenesis. J Plant Physiol 166: 310-323.

Szwacka M, Tykarska T, Wisniewska A. , Kuraś M, Bilski H, Malepszy S (2009) . Leaf morphology and anatomy of transgenic cucumber lines tolerant to downy mildew. Plantarum Biology 53 (4): 697-701.

Filipecki M, Yin Z, Wisniewska A. , Laughter M, Malinowski R, Malepszy S (2006) . Tissue-culture-responsive and autotetraploidy-responsive changes in metabolic profiles of cucumber (Cucumis sativus L.). J. Appl Genet 47 (1): 17-21.

Tagashira N, Pląder W, Filipecki M, Yin Z, Wisniewska A. , Gaj P, Szwacka M, Fiehn O, Hoshi Y, Kondo K, Malepszy S (2005) . The metabolic profiles of transgenic cucumber lines vary with different chromosomal locations of the transgene. Cell. Moth. Biol. Lett. 10 (4): 697–710.

Filipecki M, Wisniewska A. , Yin Z, Malepszy S (2005) . The heritable changes in metabolic profiles of plants regenerated in different types of in vitro culture. Plant Cell, Tissue and Organ Culture 82 (3): 349-356.

Malinowski R, Filipecki M, Tagashira N, Wisniewska A. , Gaj P, Pląder W, Malepszy S (2004) . Xyloglucan endotransglucosylase / hydrolase genes in cucumber (Cucumis sativus) – differential expression during somatic embryogenesis. Physiol Plant. 120(4): 678-685.

Review works:

Kuczerski KS, Nawrocka K, Wisniewska A. ( 2018 ) Mutants in studies of gene functions in plants. Advances in Cell Biology 45 (1): 45-62.

Podlaski S, Chołuj D, Wisniewska A. (2017) . The yield of sugar beet depending on selected environmental factors. Notebook Problems of Advances in Agricultural Sciences No. 590: 59–71.

Nawrocka K, Kamińska K, Wisniewska A. (2016). The role of expansins in plant-nematode interactions. In “Plants – an overview of selected issues” (Ed. Kropiwiec K, Szala M), Wydawnictwo Naukowe TYGIEL sp. Z oo, Lublin 2016, pp. 130-140 (PDF).

Wisniewska A. , Kamińska K, Nawrocka K, Sobczak M (2015) . The role of salicylic and jasmonic acids in the plant response to nematodes and nodules. Advances in Cell Biology 42 (4): 743: 764. (PDF)

Yin Z, Pląder W, Wisniewska A. , Szwacka M, Malepszy S (2005) . Transgenic cucumber – a current state. Horticulturae 17/1: 73-90 foil.

Wisniewska A. , Filipecki M (2003) . Gene silencing as a strategy for studying their functions in plants. Advances in Cell Biology 30 (2): 339-358.

Manuals, scripts:

Fish K, Fish Z, Wisniewska A. (2009) . Chapter 7. Nucleic acids. In Plant Biochemistry. Eds. Narwal SS, Bogatek R, Zagdańska BM, Sampietro DA, Vattuone MA. Studium Press, LLC, USA, pp: 161-216.

Prizes and awards:

1. Team award of the Rector of the Warsaw University of Life Sciences (SGGW) for research achievements. August 31, 2020
2. Individual 3rd degree award of the Rector of the Warsaw University of Life Sciences for organizational achievements. October 01, 2019
3. Individual 3rd degree award of the Rector of the Warsaw University of Life Sciences for organizational achievements. October 01, 2017
4. Team award of the 3rd degree by the Rector of the Warsaw University of Life Sciences (SGGW) for scientific achievements. October 01, 2015
5. Individual 3rd degree award of the Rector of the Warsaw University of Life Sciences (SGGW) for scientific achievements. October 1, 2014
6. Second degree team award of the Rector of the Warsaw University of Life Sciences (SGGW) for scientific achievements. October 1, 2013
7. First degree team award of the Rector of the Warsaw University of Life Sciences (SGGW) for scientific achievements. September 30, 2010
8. Individual award of the 2nd degree by the Rector of the Warsaw University of Life Sciences for scientific achievements. September 30, 2009