1)Nosek L., Semchonok D., Boekema E.J., Ilík P., Kouřil R. (2017) Structural variability of plant photosystem II megacomplexes in thylakoid membranes. Plant Journal, 89, 105-111.

2)Ilik P., Pavlovič A., Kouril R., Alboresi A., Morosinotto T., Allahverdieyeva Y., Aro E.-M., Yamamoto H., Shikanai T. (2017) Alternative electron transport mediated by flavodiiron proteins is operational in organisms from cyanobacteria up to gymnosperms. New Phytologist 214, 967-972.

3)Stolárik T., Hedtke B., Šantrůček J., Ilík P., Grimm B., Pavlovič A. (2017) Transcriptional and post-translational control of chlorophyll biosynthesis by dark-operative protochlorophyllide oxidoreductase in Norway spruce. Photosynthesis Research 132, 165-179.

4)Kouřil R., Nosek L., Bartoš J., Boekema E.J., Ilík P. (2016) Evolutionary loss of light-harvesting proteins Lhcb6 and Lhcb3 in major land plant groups – break-up of current dogma. New Phytologist 210, 808-814.

5)Pavlovič A., Stolárik T., Nosek L., Kouřil R., Ilík P. (2016) Light-induced gradual activation of photosystem II in dark-grown Norway spruce seedlings. Biochimica et Biophysica Acta - Bioenergetics, 1857, 799-809.

6)Pracharova J., Saltarella T., Radosova Muchova T., Scintilla S., Novohradsky V., Novakova O., Intini F.P., Pacifico C., Natile G., Ilik P., Brabec V., Kasparkova J. (2015) Novel antitumor cisplatin and transplatin derivatives containing 1-methyl-7-azaindole: Synthesis, characterization, and cellular responses. Journal of Medical Chemistry 58, 847-859.

7)Kouřil R., Strouhal O., Nosek L., Lenobel R., Chamrád I., Boekema E.J., Šebela M., Ilík P. (2014) Structural characterization of a plant photosystem I and NAD(P)H dehydrogenase supercomplex.Plant Journal, 77, 568–576

8)Kyseláková H., Sedlářová M., Kubala M., Nožková V., Piterková J., Luhová L., Novák O., Ilík P. (2013) Reactive oxygen and nitrogen species and hormone signalling in systemic infection of pea by pea enation mosaic virus. Plant Protection Science 49, 105-119.

9)Ilík P., Špundová M., Krchňák P. (2013) Certifikovaná metodika č. 78-13/KÚ-SŘÚ/UKZUZ/2013: Metodika stanovení odolnosti rostlin vůči vyšším teplotám.Ústřední kontrolní a zkušební ústav zemědělský, Brno

10)Šicner M., Trtílek M., Ilík P. (2013) Užitný vzor č. 26294: Zařízení pro zjišťování vysokoteplotní stability rostlin. Úřad průmyslového vlastnictví, Praha

11)Kyseláková H., Prokopová J., Nauš J., Novák O., Navrátil M., Šafářová D., Špundová M., Ilík P. (2011) Photosynthetic alterations of pea leaves infected systemically by pea enation mosaic virus: A coordinated decrease in efficiencies of CO2 assimilation and photosystem II photochemistry. Plant Physiology and Biochemistry49, 1279-1289

12)Šišková K., Kubala M., Dallas P., Jančík D., Thorel A., Ilík P., Zbořil R. (2011) Effect of surface modification on fluorescence and morphology of CdSe nanoparticles embedded in 3D phosphazene-based matrix: Nanowire-like quantum dots. Journal of Materials Chemistry21, 1086-1093

13)Ilík P., Kotabová E., Špundová M., Novák O., Kaňa R., Strzałka K. (2010) Low-light-induced violaxanthin de-epoxidation in shortly preheated leaves: uncoupling from ΔpH-dependent non-photochemical quenching. Photochemistry and Photobiology 86, 722-726

14)Ilík P., Hlaváčková V., Krchňák P., Nauš J. (2010) A low-noise multi-channel device for the monitoring of systemic electrical signal propagation in plants. Biologia Plantarum 54, 185-190

15)Lípová L., Krchňák P., Komenda J., Ilík P. (2010) Heat-induced disassembly and degradation of chlorophyll-containing protein complexes in vivo. Biochimica et Biophysica Acta 1797, 63-70

16)Frolec J., Ilík P., Krchňák P., Sušila P., Nauš J. (2008) Irreversible changes in barley leaf chlorophyll fluorescence detected by the fluorescence temperature curve in a linear heating/cooling regime. Photosynthetica 46, 537-546

17)Kotabová E., Kaňa R., Kyseláková H., Lípová L., Novák O., Ilík P. (2008) A pronounced light-induced zeaxanthin formation accompanied by an unusually slight increase in non-photochemical quenching. A study with barley leaves treated with methyl viologen at moderate light. Journal of Plant Physiology 165, 1563-1571

18)Ilík P., Schansker G., Kotabová E., Váczi P., Strasser R.J., Barták M. (2006) A dip in the chlorophyll fluorescence induction at 0.2 - 2 s in Trebouxia-possessing lichens reflects a fast reoxidation of photosystem I. A comparison with higher plants. Biochimica et Biophysica Acta1757, 12-20

19)Kaňa R., Kotabová E., Ilík P., Nauš J., Prášil O. (2005) Irreversible changes in photosynthetic rate induced by heating above 40 °C.In: A. van der Est, D. Bruce (eds.), Photosynthesis: Fundamental Aspects to Global Perspectives (Proceedings of the 13th International Congress on Photosynthesis, CD-ROM), Allen Press, 566-568

20)Lazár D., Ilík P., Kruk J., Strzalka K., Nauš J. (2005) A theoretical study on effect of the initial redox state of cytochrome b559 on maximal chlorophyll fluorescence level (FM). Implications for photoinhibition of photosystem II. Journal of Theoretical Biology 233, 287-300

21)Sušila P., Lazár D., Ilík P., Tomek P., Nauš J. (2004) The gradient of exciting radiation within a sample affects relative heights of steps in the fast chlorophyll a fluorescenec rise. Photosynthetica 42, 161-172

22)Kouřil R., Lazár D., Ilík P., Skotnica J., Krchňák P., Nauš J. (2004) High-temperature induced chlorophyll fluorescence rise in plants at 40 - 50 °C: experimental and theoretical approach. Photosynthesis Research 81, 49-66

23)Kaňa R., Špundová M.,Ilík P., Lazár D., Klem K., Tomek P., Nauš J., Prášil O. (2004) Effect of herbicide clomazone on photosynthetic processes in primary barley (Hordeum vulgare L.) leaves. Pesticide Biochemistry and Physiology 78, 161-170

24)Špundová M., Popelková H., Ilík P., Skotnica J., Novotný R., Nauš J. (2003) Ultrastructural and functional changes in the chloroplasts of detached barley leaves senescing under dark and light conditions. Journal of Plant Physiology160, 1051-1058

25)Tomek P., Ilík P., Lazár D., Štroch M., Nauš J. (2003) On the determination of QB-non-reducing photosystem II centers from chlorophyll a fluorescence induction. Plant Science164, 665-670

26)Ilík P., Kouřil R., Kruk J., Myśliwa-Kurdziel B., Popelková H., Strzałka K., Nauš J. (2003) Origin of chlorophyll fluorescence in plants at 55 - 75 °C. Photochemistry and Photobiology 77, 68-76

27)Ilík P., Krchňák P., Tomek P., Nauš J. (2002) 2-D gel densitometer for high-contrast and selective imaging of chlorophyll-containing protein complexes separated by non-denaturing polyacrylamide gel electrophoresis. Journal of Biochemical and Biophysical Methods 51, 273-281

28)Krchňák P., Ilík P., Nauš J. (2002) Konstrukce aparatury pro monochromatické snímkování plošných objektů vprocházejícím světle a její použití kanalýze elektroforeogramů. (Construction of apparatus for monochromatic scanning of planar samples in transmitted light and its use for analysis of electrophoreograms.) Jemná mechanika a optika1, 15-19 (in Czech)

29)Kouřil R., Ilík P., Tomek P., Nauš J, Poulíčková A. (2001) Chlorophyll fluorescence temperature curve on Klebsormidium flaccidum cultivated at different temperature regimes. Journal of Plant Physiology158, 1131-1136

30)Lazár D., Tomek P., Ilík P., Nauš J. (2001) Determination of the antenna heterogeneity of Photosystem II by direct simultaneous fitting of several fluorescence rise curves measured with DCMU at different light intensities. Photosynthesis Research68, 247-257

31)Tomek P., Lazár D., Ilík P., Nauš J. (2001) On the intermediate steps between the O and P steps in chlorophyll a fluorescence rise measured at different intensities of exciting light. Australian Journal of Plant Physiology28, 1151-1160

32)Ilík P., Krchňák P., Tomek P., Popelková H., Nauš J. (2001) High-contrast imaging of chlorophyll-containing protein complexes separated by native polyacrylamide gel electrophoresis. In: Proceedings of the 12th International Congress on Photosynthesis (CD-ROM), S1-028, CSIRO Publishing, Collingwood

33)Ilík P., Kouřil R., Fiala J., Nauš J., Vácha F. (2000) Spectral characterization of chlorophyll fluorescence in barley leaves during linear heating. Analysis of high-temperature fluorescence rise around 60°C. Journal of Photochemistry and Photobiology. B: Biology59, 103-114

34)Kouřil R., Ilík P., Nauš J., Schoefs B. (1999) On the limits of applicability of spectrophotometric and spectrofluorimetricmethods for the determination of chlorophyll a/b ratio. Photosynthesis Research 62, 107-116

35)Skotnica J., Fiala J., Ilík P., Dvořák L. (1999) Thermaly induced chemiluminescence of barley leaves. Photochemistry and Photobiology 69, 211-217

36)Fiala J., Ilík P., Skotnica J., Nauš J. (1998) Spectral changes of chlorophyll fluorescence during linear heating of barley leaves. In: G. Garab (ed.), Photosynthesis: Mechanisms and Effects (Proceedings of the 11th International Congress on Photosynthesis), Vol. I, 433-436, Kluwer Academic Publishers, Dordrecht

37)Lazár D., Ilík P., Nauš J. (1997) An appearance of K-peak in fluorescence induction depends on the acclimation of barley leaves to higher temperature. Journal of Luminescence 72-74, 595-596

38)Lazár D., Ilík P. (1997) 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 124, 159-164

39)Ilík P., Nauš J., Špunda V., Čajánek M., Cikánek D., Pospíšil P. (1997) High temperature chlorophyll fluorescence rise within 61 - 67 °C. Spectroscopic study with intermittent light grown barley leaves. Journal of Photochemistry and Photobiology. B: Biology 39, 243-248

40)Nauš J., Ilík P. (1997) Fluorescence Temperature Curve and Fluorescence Reabsorbtion of Chlorophyll a in Leaves. Acta Universitatis Carolinae Biologica 41, 157-166

41)Špunda V., Čajánek M., Ilík P., Kalina J., Nauš J. (1997) Appearance of long-wavelength excitationform of chlorophyll a in PS I fluorescence during greening of barley leaves under continuous light. Journal of Photochemistry and Photobiology B: Biology 40, 149-153

42)Ilík P., Vystrčilová M., Nauš J., Kalina J. (1997) Chlorophyll fluorescence temprature curves of spruce needles from different whorls of the tree. Photosynthetica 34, 477-480

43)Ilík P., Nauš J., Cikánek D., Novotný R. (1995) Chlorophyll fluorescence changes at high temperatures induced by linear heating of greening barley leaves. Photosynthesis Research 44, 271-275

44)Ilík P., Nauš J., Cikánek D., Špunda V., Čajánek M., Novotný R., Žák D. (1995) An investigation of high-temperature region of chlorophyll fluorescence temperature curve. In: P. Mathis (ed.), Photosynthesis: from Light to Biosphere (Proceedings of the 10th International Congress on Photosynthesis), Vol. IV, 885-888, Kluwer Academic Publishers, Dordrecht

45)Nauš J., Klinkovský T., Ilík P., Cikánek D. (1994) Model studies of chlorophyll fluorescence reabsorption at chloroplast level under different exciting light conditions. Photosynthesis Research 40, 67-74

46)Nauš J., Kuropatwa R., Mašláň M., Ilík P. (1993) Natural light stress of barley leaves detected by chlorophyll fluorescence temperature curve. Acta Univsitatis Palackianae Olomuciensis, Facultas Rerum Naturalium, Physica 32, 35-46

47)Nauš J., Kuropatwa R., Klinkovský T., Ilík P., Lattová J., Pavlová Z. (1992) Heat injury of barley leaves detected by the chlorophyll fluorescence temprature curve. Biochimica et Biophysica Acta 1101, 359-362

48)Kuropatwa R., Nauš J., Klinkovský T., Ilík P., Kalina J., Mašláň M., Žák D., Lattová J., Pavlová Z. (1992) The clorophyll fluorescence temperature curve as a plant damage and light acclimation diagnostic tool. In: M. Murata (ed.), Research in Photosynthesis (Proceedings of the 9th International Congress on Photosynthesis), Vol. IV, 177-180, Kluwer Academic Publishers, Dordrecht

1