dr Weronika Krzeszowiec-Jeleń, adiunkt
pokój: B223 (3.1.27)
telefon: 12 664 63 40
e-mail: weronika.krzeszowiec@uj.edu.pl
Zainteresowania badawcze
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Ruch chloroplastów: znaczenie, przekaz sygnału, układ zaangażowany w transport tych organelli.
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Ruch chloroplastów w zbożach.
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Cytoszkielet aktynowy i miozyna - funkcjonowanie w komórkach roślinnych.
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Rola kanałów GLR w komórkach Arabidopsis.
Nagrody i granty
Kierownik grantów badawczych:
Rola kanałów GLR w fotomorfogenezie siewki Arabidopsis thaliana. Minigrant w ramach POB BioS nr B.1.11.2020.59, 2021-2022, kierownik
Rola kanałów GLR w organizacji cytoszkieletu aktynowego” Narodowe Centrum Nauki DEC-017/01/X/NZ3/01244, kierownik
Wykonawca w projektach:
“The signaling role of basic metabolites in the phototropin-controlled chloroplast responses” Polish National Science Centre, 2016/23/B/NZ3/02141, 2016-2020
“Calcium and light signals in photosynthetic organisms” (CALIPSO), FP7-PEOPLE-2013-ITN, 607607, 2013-2017
“The role of phytochrome in storage material degradation in germinating tomato seeds”, Polish National Science Centre, 2012/06/M/NZ3/00017, 2013-2014
“Light signaling from phototropins in higher plants” Polish National Science Centre, 2011/01/b/N23/02160, 2011-2014
“Chloroplast signals” (COSI) FP7, People Programme, Marie Curie Actions, Initial Training Network 215174-2, 2008-2011
„Influence of light on acto-myosin system active in chloroplast movement”, PB N N303 1395 33, 2007-2010
“Involvement of cell wall-cytoskeleton continuum in stress signal perception and in plant defence responses”, PBZ110/P04/2004, 2004-2007, at the Jagiellonian University
Publikacje
1. Krzeszowiec W, Lewandowska A, Lyczakowski JJ, Bebko K, Scholz SS, Gabryś H 2023. Two types of GLR channels cooperate differently in light and dark growth of Arabidopsis seedlings. BMC Plant Biology, 23(1): 1-10.
2. Hebda A, Liszka A, Lewandowska A, Lyczakowski JJ, Gabryś H, Krzeszowiec W 2022. Upregulation of GLRs expression by light in Arabidopsis leaves. BMC Plant Biology, 22(1): 197.
3. Łabuz J, Sztatelman O, Jagiełło-Flasińska D, Hermanowicz P, Bażant A, Banaś AK, Bartnicki F, Giza A, Kozłowska A, Lasok H, Sitkiewicz E, Krzeszowiec W, Gabryś H, Strzałka W 2021. Phototropin Interactions with SUMO Proteins. Plant and Cell Physiology 62: 693-707.
4. Krzeszowiec W, Novokreshchenova M, Gabryś H 2020. Chloroplasts in C3 grasses move in response to blue-light. Plant cell reports 39: 1331-1343.
5.Gabryś H, Banaś AK, Hermanowicz P, Krzeszowiec W, Leśniewski S, Łabuz J, Sztatelman O 2017. Photometric Assays for Chloroplast Movement Responses to Blue Light. Bio-protocol 7(11):e2310.
6. Eckstein A, Krzeszowiec W, Banaś AK, Janowiak F, Gabryś H 2016. Abscisic acid and blue light signaling pathways in chloroplast movements in Arabidopsis mesophyll. Acta Biochimica Polonica 63: doi: 10.18388/abp.2016_1382
7. Sztatelman O, Łabuz J, Hermanowicz P, Banaś AK, Bażant A, Zgłobicki P, Aggarwal Ch, Nadzieja M, Krzeszowiec W, Strzałka W, Gabryś H 2016. Fine tuning chloroplast movements through physical interactions between phototropins. Journal of Experimental Botany, doi: 10.1093/jxb/erw265
8. Eckstein A, Krzeszowiec W, Waligórski P, Gabryś H 2015. Auxin and chloroplast movements. Physiologia Plantarum. doi: 10.1111/ppl.12396
9. Strzalka WK, Aggarwal C, Krzeszowiec W, Jakubowska A, Sztatelman O and Banas AK 2015. Arabidopsis PCNAs form complexes with selected D-type cyclins. Front. Plant Sci. 6:516. doi: 10.3389/fpls.2015.00516
10. Samardakiewicz S, Krzeszowiec-Jelen W, Bednarski W, Jankowski A, Suski S, Gabryś H, Woźny A 2015. Pb-Induced Avoidance-Like Chloroplast Movements in Fronds of Lemna trisulca L. PloS One: 10(2), e0116757-e0116757
11. Luczak M, Krzeszowiec-Jeleń W, Konopka-Postupolska D, Wojtaszek P 2015. Collagenase as a useful tool for the analysis of plant cellular peripheries Photochemistry, 112, 195-209
12. Bojko M, Brzostowska K, Kuczyńska P, Latowski D, Olchawa-Pajor M, Krzeszowiec W, Waloszek A, Strzałka K 2013. Temperature effect on growth, and selected parameters of Phaeodactylum tricornutum in batch cultures Acta Biochimica Polonica, 60(4)
13. Gabrys H, Krzeszowiec W 2012. Chloroplast movements induced by light: diversity of mechanisms in various taxa. In: Laska G. (ed). Biological diversity - from cell to ecosystem, Polish Botanical Society - Branch in Bialystok, pp. 9 - 23
14. Krzeszowiec W, Gabryś H 2011. Intracellular movements: integration at the cellular level as reflected in the organization of organelle movements. In Mechanical Integration of Plant Cells and Plants pp. 91-116. Springer, Berlin, Heidelberg
15. Banas AK, Krzeszowiec W, Dobrucki J, Gabryś H 2010. Mannose, selection marker, disturbs actin cytoskeleton in plants lacking phosphomannose isomerase. Acta Physiol. Plant. 32:773–779
16. Paris N, Saint-Jean B, Faraco M, Krzeszowiec W, Dalessandro G, Neuhaus JM, Di Sansebastiano GP 2010. Expression of a glycosylated GFP as a bivalent reporter in exocytosis. Plant Cell Rep. 29:79-86
17. Labuz J, Krzeszowiec W, Gabryś H 2010. Threshold change in expression of GFP-FABD2 fusion protein during development of Arabidopsis thaliana leaves. Acta Biologica Cracoviensia Ser. Botanica, 52(2): 103-107
18. Augustynowicz J, Krzeszowiec W, Gabryś H 2009. Acquisition of plastid movement responsiveness to light during mesophyll cell differentiation. Int. J. Dev. Biol. 53: 121-127
19. Krzeszowiec W, Gabryś H 2007. Phototropin-mediated relocation of myosins in Arabidopsis thaliana. Plant Signaling and Behavior 2(5), 333-336
20. Krzeszowiec W, Rajwa B, Dobrucki J, Gabryś H 2007. Actin cytoskeleton in Arabidopsis thaliana under blue and red light. Biol. Cell 99, 251-260
Publikacje dydaktyczne:
Krzeszowiec-Jeleń, W. (2022). Jakość w kształceniu laboratoryjnym : przypadek nauk przyrodniczych. In J. Bugaj & M. Budzanowska-Drzewiecka (Eds.), Jakość kształcenia akademickiego (pp. 141–160). Wydawnictwo Uniwersytetu Jagiellońskiego.
Biologia na czasie. Podręcznik Zakres podstawowy Szkoła ponadgimnazjalna. Bonar E, Krzeszowiec-Jeleń W, Czachorowski S 2015. Nowa Era. ISBN: 978-83-267-2124-3