Veröffentlichungen 1997-2002 - Forschungsarbeiten

 

19. Nick P, Kiss JP, Jacobs WD, Roux SJ, Barlow PR, Häder DP, Morris CE (1997) The Future of Aquatic Research in Space - Plant biology. Biol Bull 192, 137-138

20. Nick P, Godbolé R, Wang QY (1997) Probing Rice Gravitropism With Cytoskeletal Drugs and Cytoskeletal Mutants. Biol Bull 192, 141-143 - pdf

21. Nick P (1997) Phototropic induction can shift the gradient of crown-root emergence in maize. Bot Acta 110, 291-297 - pdf

22. Waller F, Nick P (1997) Response of actin microfilaments during phytochrome-controlled growth of maize seedlings. Protoplasma 200, 154-162 - pdf

23. Himmelspach R, Nick P, Schäfer E, Ehmann B (1997) Developmental and light-dependent changes of the cytosolic chaperonin containing TCP-1 (CCT) subunits in maize seedlings, and the localization in coleoptiles. Plant J 12, 1299-1310 - pdf

24. Menéndez C, Otto A, Igloi G, Nick P, Brandsch R, Schubach B, Böttcher B, Brandsch R (1997) Molybdate-uptake genes and molybdopterin-biosynthesis genes on a bacterial plasmid. Characterisation of MoeA as a filament-forming protein with adenosinetriphosphate activity. Eur J Biochem 250, 524-531 - pdf

25. Freudenreich A, Nick P (1998) Microtubular organization in tobacco cells: heat-shock protein 90 can bind to tubulin in vitro. Bot Acta 111, 1-7 - pdf

26. Petrašek J, Freudenreich A, Heuing A, Opatrný Z, Nick P (1998) HSP90 is associated with microtubules in tobacco cells. Protoplasma 202, 161-174 - pdf

27. Wang QY, Nick P (1998) The auxin response of actin is altered in the rice mutant Yin-Yang. Protoplasma 204, 22-33 - pdf

28. Kircher S, Wellmer F, Nick P, Rügner A, Schäfer E, Harter K (1999) Nuclear Import of the Parsley bZIP Transcription Factor CPRF2 Is Regulated by Phytochrome Photoreceptors. J Cell Biol 144, 201-211 - pdf

29. Himmelspach R, Wymer CL, Lloyd CW, Nick P (1999) Gravity-induced reorientation of cortical microtubules observed in vivo. Plant J 18, 449-453 - pdf

30. Godbolé R, Michalke W, Nick P, Hertel R (2000) Cytoskeletal drugs and gravity-induced lateral auxin transport in rice coleoptiles. Plant Biol 2, 176-181 - pdf

31. Nick P, Heuing A, Ehmann B (2000) Plant chaperonins: a role in microtubule-dependent wall-formation? Protoplasma 211, 234-244 - pdf

32. Sandu C, Nick P, Hess D, Schiltz E, Garrow TA, Brandsch R (2000) Association of Betaine-Homocysteine S-Methyltransferase with Microtubules. Biol Chem 381, 619-622- pdf

33. Himmelspach R, Nick P (2001) Gravitropic microtubule reorientation can be uncoupled from growth. Planta 212, 184-189 - pdf

34. Wang QY, Nick P (2001) Cold acclimation can induce microtubular cold stability in a manner distinct from abscisic acid. Plant Cell Physiol 42, 999-1005 - pdf

35. Riemann M, Büche C, Kassemeyer HH, Nick P (2002) Microtubules and actin microfilaments guide the establishment of cell polarity during early development of the wine pathogen Plasmopara viticola. Protoplasma 219, 13-22 - pdf

36. Waller F, Riemann M, Nick P (2002) A role for actin-driven secretion in auxin-induced growth. Protoplasma 219, 72-81 - pdf

37. Schwarzerová K, Zelenková S, Nick P, Opatrný Z (2002) Aluminum-induced rapid changes in the microtubular cytoskeleton of tobacco cell lines. Plant Cell Physiol 43, 207-216 - pdf

38. Pay A, Resch K, Frohnmeyer H, Nagy F, Nick P (2002) RanGAP1 is localized in the nuclear envelope and the phragmoplast. Plant J 30, 699-710 - pdf

39. Kiefer B, Riemann M, Büche C, Kassemeyer HH, Nick P (2002) The host guides morphogenesis and stomatal targeting in the grapevine pathogen Plasmopara viticola. Planta 215, 387-393 - pdf

40. Waller F, Furuya M, Nick P (2002) Expression of OsARF1 an auxin response factor from rice (Oryza sativa L.) correlates positively with auxin-regulated differential growth. Plant Mol Biol 50, 415-425 - pdf

41. Wiesler B, Wang QY, Nick P (2002) The stability of cortical microtubules depends on their orientation. Plant J 32, 1023-1032 - pdf

Veröffentlichungen 1997-2002 - Übersichts- und Buchartikel

[2] Nick P, Wang QY, Freudenreich A (1997) Approaches to study signal-triggered cytoskeletal responses in higher plants. Rec Res Devel Plant Physiol 1, 153-180 - pdf

[3] Nick P (1998) Signalling to the microtubular cytoskeleton in plants. Internat Rev Cytol 184, 33-80 - pdf

[4] Nick P (1999) Signals, Motors, Morphogenesis - the Cytoskeleton in Plant Development. Plant Biol 1, 169-179 - pdf

[5] Breviario D, Nick P (2000) Plant tubulins: a melting pot for basic questions and promising applications. Transgen Res 9, 383-393 - pdf

[6] Nick P (2000) Plant microtubules – Potential for Biotechnology. Springer, Berlin Heidelberg New York - mehr

[7] Nick P (2000) Control of Plant Height. In: Plant microtubules – Potential for Biotechnology. Nick P (ed), Springer, Berlin Heidelberg New York, pp 1-23 - mehr

[8] Nick P (2000) Control of Plant Shape. In: Plant microtubules – Potential for Biotechnology. Nick P (ed), Springer, Berlin Heidelberg New York, pp 24-46 - mehr

[9] Nick P (2000) Control of the Response to Low Temperature. In: Plant microtubules – Potential for Biotechnology. Nick, P. (ed), Springer, Berlin Heidelberg New York, pp 121-135 - mehr

[10] Waller F, Wang QY, Nick P (2000) Actin and signal-controlled cell elongation in coleoptiles. In: Actin: A Dynamic Framework for Multiple Plant Cell Functions. Staiger CJ, Baluška F, Volkmann D, Barlow P (eds), Kluwer, Dordrecht, pp 477-496 - pdf

[11] Lloyd CW, Himmelspach R, Nick P, Wymer C (2000) Cortical Microtubules Form a Dynamic Mechanism That Helps Regulate the Direction of Plant Growth. Gravitat Space Biol Bull 13, 59-65 - pdf

[12] Nick P (2001) Role of the microtubular cytoskeleton in coleoptile phototropism. In: Häder D, Lebert M, eds, Photomovement. Elsevier, Amsterdam, pp 813-830 - pdf

[13] Besl H, Licht W, Nick P, Oecking C, Schneider H, Wagenitz G (2002) Strasburger-CD-ROM. Interaktive Studienhilfe und Wörterbuch zur 35. Auflage des Strasburger, Lehrbuch der Botanik. Spektrum Akademischer Verlag, Heidelberg - mehr