prof. RNDr. Dušan LAZÁR, Ph.D.
Telephone:
585634164
E-mail:
WWW:
Workplace:
Katedra biofyziky
Org. unit:
Přírodovědecká fakulta
Address:
Šlechtitelů 27 - objekt F2 (CRH)
Room number:
1.07
Profession:
profesor
Activity:
biophysics, photosynthesis, chlorophyll fluorescence, mathematical modelling of photosynthetic processes
ČLÁNEK
Fuente Herraiz D., Orlando M., Bailleul B., Jullien L., Lazár D., Nedbal L.
A mathematical model to simulate the dynamics of photosynthetic light reactions under harmonically oscillating light.
PLANT PHYSIOLOGY AND BIOCHEMISTRY.
2024.
Lyu H., Lazár D.
Assessing key parameters in simultaneous simulation of rapid kinetics of chlorophyll a fluorescence and trans-thylakoid electric potential difference.
PHYSIOLOGIA PLANTARUM.
2024.
Niu Y., Matsubara S., Nedbal L., Lazár D.
Dynamics and interplay of photosynthetic regulatory processes depend on the amplitudes of oscillating light.
PLANT CELL AND ENVIRONMENT.
2024.
Stirbet A., Guo Y., Lazár D., Govindjee G.
From leaf to multiscale models of photosynthesis: applications and challenges for crop improvement.
PHOTOSYNTHESIS RESEARCH.
2024.
Lahlou A., Coghill I., Davidson MLH., Billon R., Barneche F., Lazár D., Lesaux T., Jullien L.
Leaves to measure light intensity.
Advanced Science.
2024.
Lyu H., Lazár D.
Effect of ion fluxes on regulating the light-induced transthylakoid electric potential difference.
PLANT PHYSIOLOGY AND BIOCHEMISTRY.
2023.
Lahlou A., Sepasi Tehrani H., Coghill I., Nedbal L., Lazár D., Le Saux T., Jullien L.
Fluorescence to measure light intensity.
NATURE METHODS.
2023.
Niu Y., Lazár D., Holzwarth AR., Nedbal L.
Plants cope with fluctuating light by frequency-dependent nonphotochemical quenching and cyclic electron transport.
NEW PHYTOLOGIST.
2023.
Lyu H., Lazár D.
Analyzing the effect of ion binding to the membrane-surface on regulating the light-induced transthylakoid electric potential (Delta_Psi_m).
Frontiers in Plant Science.
2022.
Lazár D., Niu Y., Nedbal L.
Insights on the regulation of photosynthesis in pea leaves exposed to oscillating light.
JOURNAL OF EXPERIMENTAL BOTANY.
2022.
Lazár D., Stirbet A., Björn LO., Govindjee G.
Light quality, oxygenic photosynthesis and more.
Photosynthetica.
2022.
Nedbal L., Lazár D.
Photosynthesis dynamics and regulation sensed in the frequency domain.
PLANT PHYSIOLOGY.
2021.
Fuente Herraiz D., Lazár D., Oliver‑Villanueva JV., Urchueguía JF.
Reconstruction of the absorption spectrum of Synechocystis sp. PCC 6803 optical mutants from the in vivo signature of individual pigments.
PHOTOSYNTHESIS RESEARCH.
2021.
Ilíková I., Ilík P., Opatíková M., Arshad R., Nosek L., Karlický V., Kučerová Z., Roudnický P., Pospíšil P., Lazár D., Bartoš J., Kouřil R.
Towards spruce-type photosystem II supercomplex: consequences of the loss of light-harvesting proteins LHCB3 and LHCB6 in Arabidopsis.
PLANT PHYSIOLOGY.
2021.
Bednaříková M., Folgar-Cameán Y., Kučerová Z., Lazár D., Špundová M., Hájek J., Barták M.
Analysis of K- and L-band appearance in OJIPs in Antarctic lichens in low and high temperature.
Photosynthetica.
2020.
Stirbet A., Björn LO., Shevela DN., Lazár D.
Celebrating the contributions of Govindjee after his retirement: 1999–2020.
NEW ZEALAND JOURNAL OF BOTANY.
2020.
Baránková B., Lazár D., Nauš J., Solovchenko A., Gorelova o., Baulina O., Huber G., Nedbal L.
Light absorption and scattering by high light-tolerant, fast-growing Chlorella vulgaris IPPAS C-1 cells.
Algal Research-Biomass Biofuels and Bioproducts.
2020.
Stirbet AD., Lazár D., Guo Y., Govindjee G.
Photosynthesis: basics, history, and modeling.
ANNALS OF BOTANY.
2020.
Bednaříková M., Váczi P., Lazár D., Barták M.
Photosynthetic performance of Antarctic lichen Dermatocarpon polyphyllizum when affected by desiccation and low temperatures.
PHOTOSYNTHESIS RESEARCH.
2020.
Husičková A., Humplík J., Hýbl M., Spíchal L., Lazár D.
Analysis of Cold-Developed vs. Cold-Acclimated Leaves Reveals Various Strategies of Cold Acclimation of Field Pea Cultivars.
Remote Sensing.
2019.
Janečková H., Husičková A., Lazár D., Ferretti U., Pospíšil P., Špundová M.
Exogenous application of cytokinin during dark senescence eliminates the acceleration of photosystem II impairment caused by chlorophyll b deficiency in barley.
PLANT PHYSIOLOGY AND BIOCHEMISTRY.
2019.
Lazárová M., Lazár D., Málek F., Václavík J., Táborský M., Ignaszewski A.
Heart failure disease management program, its contribution to established pharmacotherapy and long-term prognosis in real clinical practice – retrospective data analysis.
BIOMEDICAL PAPERS-OLOMOUC.
2019.
Husičková A., Humplík J., Hýbl M., Spíchal L., Lazár D.
Nekompletní zadání záznamu přes průvodce.
2019.
Lysenko V., Lazár D., Verduny T.
A method of a bicolor fast-Fourier pulse-amplitude modulation chlorophyll fluorometry.
Photosynthetica.
2018.
Stirbet A., Lazár D., Kromdijk G., Govindjee G.
Chlorophyll a fluorescence induction: Can just a one-second measurement be used to quantify abiotic stress responses?
Photosynthetica.
2018.
Nauš J., Lazár D., Baránková B., Arnoštová B.
On the source of non-linear light absorbance in photosynthetic samples.
Photosynthesis Research.
2018.
Lyu H., Lazár DL.
Modeling the light-induced electric potential difference ΔΨ across the thylakoid membrane based on the transition state rate theory.
Biochimica et Biophysica Acta - Bioenergetics.
2017.
Lyu H., Lazár D.
Modeling the light-induced electric potential difference (Delta Psi), the pH difference (Delta pH) and the proton motive force across the thylakoid membrane in C-3 leaves.
Journal of Theoretical Biology.
2017.
Baránková B., Lazár D., Nauš J.
Analysis of the effect of chloroplast arrangement on optical properties of green tobacco leaves.
Remote Sensing of Environment.
2016.
Humplík J., Lazár D., Fürst T., Husičková A., Hýbl M., Spíchal L.
Automated integrative high-throughput phenotyping of plant shoots: a case study of the cold-tolerance of pea (Pisum sativum L.).
Plant Methods.
2015.
Humplík J., Lazár D., Husičková A., Spíchal L.
Automated phenotyping of plant shoots using imaging methods for analysis of plant stress responses – a review.
Plant Methods.
2015.
Lazár D.
Parameters of photosynthetic energy partitioning.
Journal of Plant Physiology.
2015.
Lazár D., Murch SJ., Beilby MJ., Al Khazaaly S.
Exogenous melatonin affects photosynthesis in characeae Chara australis.
Plant Signaling & Behavior (print).
2013.
Lazár D.
Simulations show that a small part of variable chlorophyll a fluorescence originates in photosystem I and contributes to overall fluorescence rise.
Journal of Theoretical Biology.
2013.
Alami M., LAZÁR D., Green BR.
The harmful alga Aureococcus anophagefferens utilizes 19’- butanoyloxyfucoxanthin as well as xanthophyll cycle carotenoids in acclimating to higher light intensities.
Biochimica et Biophysica Acta - Bioenergetics.
2012.
Šafránek D., Červený J., Klement M., Pospíšilová J., Brim L., Lazár D., Nedbal L.
E-photosynthesis: Web-based platform for modeling of complex photosynthetic processes.
BioSystems.
2011.
Frolec J., Řebíček J., Lazár D., Nauš J.
Impact of two different types of heat stress on chloroplast movement and fluorescence signal of tobacco leaves.
Plant Cell Reports.
2010.
Lazár D.
Modelling of light-induced chlorophyll a fluorescence rise (O-J-I-P transient) and changes in 820 nm-transmittance signal of photosynthesis.
Photosynthetica.
2009.
Lazár D., Jablonský J.
On the approaches applied in formulation of a kinetic model of photosystem II: Different approaches lead to different simulations of the chlorophyll a fluorescence transients.
Journal of Theoretical Biology.
2009.
Jablonský J., Lazár D.
Evidence for Intermediate S-States as Initial Phase in the Process of Oxygen-Evolving Complex Oxidation.
Biophysical Journal.
2008.
Jablonský J., Sušila P., Lazár D.
Impact of dimeric organization of enzyme on its function: the case of photosynthetic water splitting.
Bioinformatics.
2008.
Lazár D., Jablonský J.
Response to Kinetic Models of Photosystem II Should Incorporate a Role for QB-Nonreducing Reaction Centers.
Biophysical Journal.
2008.
Lazár D., Sušila P., Nauš J.
Early Detection of Plant Stress from Changes in Distributions of Chlorophyll a Fluorescence Parameters Measured with Fluorescence Imaging.
Journal of Fluorescence.
2006.
Lazár D.
The polyphasic chlorophyll a fluorescence rise measured under high intensity of exciting light.
Functional Plant Biology.
2006.
Lazár D., Ilík P., Strzalka K., Kruk J., Nauš J.
A theoretical study on effect of the initial redox state of cytochrome b(559) on maximal chlorophyll fluorescence level (F-M) implications for photoinhibition of photosystem II.
Journal of Theoretical Biology.
2005.
Lazár D., Kaňa R., Klinkovský T., Nauš J.
Experimental and theoretical study on high-temperature induced changes in chlorophyll a fluorescence oscillations from barley leaves upon 2% CO2.
Photosynthetica.
2005.
Kaňa R., Špundová M., Ilík P., Lazár D., Klem K., Tomek P., Nauš J., Prášil O.
Effect of herbicide clomazone on photosynthetic processes in primary barley (Hordeum vulgare L.) leaves.
Pesticide Biochemistry and Physiology.
2004.
Kouřil R., Lazár D., Ilík P., Skotnica J., Nauš J.
High-temperature induced chlorophyll fluorescence rise in plants at 40-50 degrees C: experimental and theoretical approach.
Photosynthesis Research.
2004.
Sušila P., Lazár D., Ilík P., Tomek P., Nauš J.
The gradient of exciting radiation within a sample affects the relative height of steps in the fast chlorophyll a fluorescence rise.
Photosynthetica.
2004.
Lazár D.
Chlorophyll a fluorescence rise induced by high light illumination of dark-adapted plant tissue studied by means of a model of photosystem II and considering photosystem II heterogeneity.
Journal of Theoretical Biology.
2003.
Tomek P., Ilík P., Lazár D., Štroch M., Nauš J.
On the determination of QB-non-reducing photosystem II centers from chlorophyll a fluorescence induction.
Plant Science.
2003.
Lazár D., Nauš J., Hlaváčková V., Špundová M., Mieslerová B.
Statistical changes in chlorophyll fluorescence rise within adaxial leaf area caused by worsening of Photosystem II function.
Proceedings of International Conference on Advances in Statistical Inferential Methods: Theory and Applications.
2003.
Kaňa R., Lazár D., Prášil O., Nauš J.
Experimental and theoretical studies on the excess capacity of Photosystem II.
Photosynthesis Research.
2002.
Lazár D., Brokeš M., Nauš J., Dvořák L.
.
Journal of Theoretical Biology.
1998.
Lazár D., Ilík P., Nauš J.
An appearance of K-peak in fluorescence induction depends on the acclimation of barley leaves to higher temperature.
Journal of Luminiscence.
1997.
Lazár D., Ilík P.
High-temperature induced chlorophyll fluorescence changes in barley leaves. Comparison of the critical temperatures determined from fluorescence induction and from fluorescence temperature curve.
Plant Science.
1997.
Lazár D., Nauš J., Matoušková M., Flašarová M.
Mathematical Modelling of Changes in Chlorophyll Fluorescence Induction Caused by Herbicides.
Pesticide Biochemistry and Physiology.
1997.
Lazár D.
Modelování velmi rychlého fluorescenčního indukčního jevu ve fotosyntéze.
Sborník příspěvků z 12. Konference českých a slovenských fyziků.
1996.
PŘÍSPĚVEK VE SBORNÍKU
Jablonský J., Lazár D.
Analysis of S2,3-states decay processes: focused on cyanobacteria.
In Kuang T., Lu C., Zhang L. (Eds.)
Photosynthesis Research for Food, Fuel and the Future. 15th International Conference on Photosynthesis.
2013.
Lazár D., Sušila P., Nauš J.
Statistical properties of parameters evaluated from the O-J-I-P chlorophyll a fluorescence transients and their changes upon high temperature stress.
Photosynthesis: Fundamental Aspects to Global Perspectives (Proceedings of the 13th International Congress on Photosynthesis; CD-ROM).
2005.
KAPITOLA V KNIZE
Stirbet A., Lazár D., Papageorgiou GC., Govindjee G.
Chlorophyll a fluorescence in cyanobacteria: relation to photosynthesis.
Cyanobacteria: From Basic Science to Applications.
2019.
Lazár D., Schancker G.
Models of Chlorophyll a Fluorescence Transients.
Photosynthesis in silico: Understanding Complexity from Molecules to Ecosystems.
2009.
Uživatel nepovolil zobrazení dat v Portále UP.
Uživatel nepovolil zobrazení dat v Portále UP.