Äîêóìåíò âçÿò èç êýøà ïîèñêîâîé ìàøèíû. Àäðåñ îðèãèíàëüíîãî äîêóìåíòà : http://www.mce.biophys.msu.ru/archive/doc57298/doc.pdf Äàòà èçìåíåíèÿ: Tue Mar 9 12:28:24 2010 Äàòà èíäåêñèðîâàíèÿ: Mon Oct 1 22:45:20 2012 Êîäèðîâêà:

-

. .,

.

.,

..

, , (NPQ) Anthoceros sp. . Chara corallina , NPQ

. . ; (Pyatygin et al., 1992; Shepherd et al., 2002; Koziolek et al., 2003; Lautner et al., 2005; Fromm and Lautner, 2007). () . , (Bulychev and Turovetsky, 1983; Trebacz et al., 1989), (Pyatygin et al., 1992), (Koziolek et al., 2003), , (Shepherd et al., 2002). , (Dziubinska et al., 1989), (Davies, 2006), (Fromm, 2006), (Shepherd et al., 2002). , (Vian et al., 1999), Mimosa (Koziolek et al., 2003) (Kikuyama and Tazawa, 1983). . , 169


6. . Part 6. Analysis of Complex Biological Systems. Models and Experiment

II ( II) ' Fm (Koziolek et al., 2003; Lautner et al., 2005). (NPQ) , -

(Crofts and Yerkes, 1994; Dau, 1994; MÝller et al., 2001). ' Fm (Bulychev et al., 2004; Bulychev and Kamzolkina, 2006; Krupenina and Bulychev, 2007; Krupenina et al., 2008). , Chara (Bulychev and Kamzolkina, 2006). , NPQ 2+ (Krupenina and Bulychev, 2007). , . Athoceros sp., , (Bulychev and Turovetsky, 1983; , 1989; , 1989). 40 (Bulychev and Turovetsky, 1983; ( ., 1986), , , 1989; Pikulenko and Bulychev, 2005).

Chara
.

Anthoceros sp.

Chara , 0.1 KCl, 1.0 thoceros,

NaCl

Chara corallina Klein ex Willd, Anthoceros sp. ( ), 0.1 CaCl2. An.

170


. ., . ., . . -- ­ 2009, . 2, . 169­179 Krupenina N. A., Pikulenko M. M., Bulychev A. A. -- MCE ­ 2009, v. 2, pp. 169­179

25 (Carl Zeiss) ( 100 (Walz). Bulychev, 2007). II
F Fm Fm F0 Fm

Axiovert Microscopy PAM (Walz). Chara Anthoceros sp. Microscopy PAM (Bulychev and Kamzolkina, 2006; Krupenina and , , : ' F Fm F , ' ' Fm Fm , . F0 : ' Fm
' Fm

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171


6. . Part 6. Analysis of Complex Biological Systems. Models and Experiment

Anthoceros sp.
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,
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).

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II,

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' m

. 1. Anthoceros. ( )

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( 3).

1) . Anthoceros sp. 3Chara;

Chara corallina Chara ­2 ­1 26 ( 2), ( 3). ( ) NPQ Anthoceros sp. ­2 ­1 39 ( 2 .3 -- ­2 ­1 (1000 ).

NPQ NPQ

172


. ., . ., . . -- ­ 2009, . 2, . 169­179 Krupenina N. A., Pikulenko M. M., Bulychev A. A. -- MCE ­ 2009, v. 2, pp. 169­179

, , ( Anthoceros sp. .1 , . 1). , , (Bulychev and Turovetsky, 1983; NPQ NPQ Anthoceros sp. , ( .1 , ., 1986). Chara, 1).

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(Bulychev and Kamzolkina, 2006; 2+ 2+ +

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173


6. . Part 6. Analysis of Complex Biological Systems. Models and Experiment

, (Shahak, 1986). ,
+

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, 1989).

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-

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Anthoceros sp.,

-

174


. ., . ., . . -- ­ 2009, . 2, . 169­179 Krupenina N. A., Pikulenko M. M., Bulychev A. A. -- MCE ­ 2009, v. 2, pp. 169­179

(

. 3).

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):

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175


6. . Part 6. Analysis of Complex Biological Systems. Models and Experiment

, :

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2+

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, 2008) Chara , , , , -

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Anthoceros sp.

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, , -

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NPQ NPQ Anthoceros sp.
, .

-

.

.. Anthoceros . -- 1989. -- . 36,
176

// 5. -- . 939­946.

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. ., . ., . . -- ­ 2009, . 2, . 169­179 Krupenina N. A., Pikulenko M. M., Bulychev A. A. -- MCE ­ 2009, v. 2, pp. 169­179

. .,

.. . -- 2008. -- . 55, . ., . ., Chara corallina // 2. -- . 192­201. .. . -- 1986. --

-

. .,

// 1. -- . 253­256. . ., ..

. 286,

Anthoceros

// . -- 1989. -- . 34, 2. -- . 272­274. Bulychev A.A., Kamzolkina N.A. Differential effects of plasma membrane electric excitation on H+ fluxes and photosynthesis in characean cells // Bioelectrochemistry. -- 2006. -- Vol. 69. -- P. 209­215. Bulychev A.A., Kamzolkina N.A., Luengviriya J., Rubin A.B., MÝller S.C. Effect of a single excitation stimulus on photosynthetic activity and light-dependent pH banding in Chara cells // J. Membrane Biol. -- 2004. -- Vol. 202, no. 1. -- P. 11­19. Bulychev A.A., Niyazova M.M., Turovetsky V.B. Evidence for delayed photoactivation of electrogenic transport in chloroplast membranes // Biochim. Biophys. Acta. -- 1985. -- Vol. 808, no. 1. -- P. 186­191. Bulychev A.A., Turovetsky V.B. Light-triggered changes of membrane potential in cells of Anthoceros punctatus and their relation to activation of chloroplast ATPase // J. Exp. Botany. -- 1983. -- Vol. 34, no. 146. -- P. 1181­1188. Crofts A.R., Yerkes C.T. A Molecular Mechanism for Qe-quenching // FEBS Letters. -- 1994. -- Vol. 352. -- P. 265­270. Dau H. Short-term adaptation of plants to changing light intensities and its relation to Photosystem II photochemistry and fluorescence emission // J. Photochem. Photobiol. (B: Biology). -- 1994. -- Vol. 26, no. 1. -- P. 3­27. Davies E. Electrical signals in plants: Facts and hypotheses // Plant Electrophysiology. Theory and Methods / A. Volkov (Ed.). -- 2006. -- Berlin: Springer. -- P. 407­422. Dziubinska H., Trebacz K., Zawadski T. The effect of excitation on the rate of respiration in the liverwort Conocephalum conicum // Physiol. Plant. -- 1989. -- Vol. 75. -- P. 417­423. Eremin A., Bulychev A., Krupenina N.A., Mair T., Hauser M.J.B., Stannarius R., MÝller S., Rubin A.B. Excitation-induced dynamics of external pH pattern in Chara corallina cells and its dependence on external calcium concentration // Photochem. Photobiol. Sci. -- 2007. -- Vol. 6. -- P. 103­109. Fromm J. Long-distance electrical signaling and physiological functions in higher plants // Plant Electrophysiology. Theory and Methods / A. Volkov (Ed.). -- 2006. -- Berlin: Springer. -- P. 269­285.

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Fromm J., Lautner S. Electrical signals and their physiological significance in plants // Plant, Cell Environ. -- 2007. -- Vol. 30. -- P. 249­257. Gilmore A.M., Yamamoto H.Y. Dark induction of zeaxanthin-dependent nonphotochemical fluorescence quenching mediated by ATP // Proc. Natl. Acad. Sci. USA. -- 1992. -- Vol. 89. -- P. 1899­1903. Kikuyama M., Tazawa M. Transient increase of intracellular Ca2+ during excitation of tonoplast-free Chara cells // Protoplasma. -- 1983. -- Vol. 117. -- P. 62­67. Koziolek C., Grams T.E.E., Schreiber U., Matyssek R., Fromm J. Transient knockout of photosynthesis mediated by electrical signals // New Phytologist. -- 2003. -- Vol. 161. -- P. 715­722. Krupenina N.A., Bulychev A.A. Action potential in a plant cell lowers the light requirement for non-photochemical energy-dependent quenching of chlorophyll fluorescence // Biochim. Biophys. Acta --2007. -- Vol. 1767. -- P. 781­788. Krupenina N.A., Bulychev A.A., Roelfsema M.R.G., Schreiber U. Action potential in Chara cells intensifies spatial patterns of photosynthetic electron flow and non-photochemical quenching in parallel with inhibition of pH banding // Photochem. Photobiol. Sci. -- 2008. -- Vol. 7. -- P. 681­688. Lautner S., Grams T.E.E., Matyssek R., Fromm J. Characteristics of electrical signals in poplar and responses in photosynthesis // Plant Physiol. -- 2005. -- Vol. 138. -- P. 2200­2209. MÝller P., Li X.-P., Niyogi K.K. Non-photochemical quenching. A response to excess light energy // Plant Physiol. -- 2001. -- Vol. 125. -- P. 1558­1566. Pikulenko M.M., Bulychev A.A. Light-triggered action potentials and changes in quantum efficiency of photosystem II in Anthoceros cells // Russian Journal of Plant Physiology. -- 2005. -- Vol. 52, no. 5. -- P. 584­590. Pyatygin S.S., Opritov V.A., Khudyakov V.A. Subthreshold changes in excitable membranes of Cucurbita pepo L. stem cells during cooling-induced action potential generation // Planta. -- 1992. -- Vol. 186. -- P. 161­165. Shahak T. Regulation of the chloroplast H+-ATPase by light // Europ. J. Biochem. -- 1986. -- Vol. 154, no. 1. -- P. 179­185. Shepherd V.A., Beilby M.J., Shimmen T. Mechanosensory ion channels in charophyte cells: the response to touch and salinity stress // Eur. Biophys. J. -- 2002. -- Vol. 31. -- P. 341­355. Trebacz K., Tarnecki R., Zawadski T. The effects of ionic channel inhibitors and factors modifying metabolism on the excitability of the liverwort Conocephalum conicum // Physiol. Plant. -- 1989. -- Vol. 75. -- P. 24­30. Vian A., Henry-Vian C.E.D. Rapid and systemic accumulation of chloroplast mRNA binding protein transcripts after flame stimulus in tomato // Plant Physiology. -- 1999. -- Vol. 121. -- P. 517­524.

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FLUORESCENCE QUENCHING IN GREEN PLANT CELLS AFTER ELECTRICALLY AND PHOTO-INDUCED ACTION POTENTIALS Krupenina N. A., Pikulenko M. M., Bulychev A. A.

Pulse amplitude-modulated microfluorometry was used to study the effects of electrically and photo-induced action potentials (AP) on the formation of non-photochemical fluorescence quenching (NPQ) in cells of alga Chara corallina and hornwort Anthoceros sp. It was shown that the mechanisms of NPQ formation differ in the cases of electro- and photo-induced excitation.

179