Отдел внутриклеточной регуляции и биотехнологии фотоавтотрофных биосинтезов

Институт физиологии растений им. К.А. Тимирязева РАН

127276 Москва, ул. Ботаническая 35
   Домой      Suleyman_mainpublist

Список основных работ Аллахвердиева С.И.

230.
(Book): Photosynthesis: Structures, Mechanisms, and Applications (Eds: H. Hou, M.M. Najafpour, G. F. Moore, S.I. Allakhverdiev) Springer (2016) - in press.

229.
(Book): Photosynthesis: New Approaches to the Molecular, Cellular, and Organismal Levels (Ed: S.I. Allakhverdiev) (ISBN 978-1-119-08370-2) John Wiley & Sons, Inc. Hoboken, New Jersey, and Scrivener Publishing LLC, USA. (2015) 385 pages.

228.
(Book chapter): Poudyal R.S., Tiwari I., Najafpour M.M., Los D.A., Carpentier R., Shen J.-R., Allakhverdev S.I. (2016) Current Insights to Enhance Hydrogen Production by Photosynthetic Organisms. In: Hydrogen Science and Engineering: Materials, Processes, Systems and Technology (Eds: D. Stolten, B. Emonts). Wiley-VCH Verlag GmbH & Co. KGaA. - in press.

227.
(Book chapter): Najafpour M.M., Hou H., Moore G.F., Allakhverdiev S.I.(2015) Photosynthesis: Natural Nanomachines toward Oxygen and Food Production. In: Photosynthesis: Structures, Mechanisms, and Applications (Eds: H. Hou, M.M. Najafpour, G.F. Moore, S.I. Allakhverdiev) Springer - in press.


226.
(Book chapter): Schmitt F.-J.,Kreslavski V.D., Zharmukhamedov S.K., Friedrich T., Renger G.,Los D.A., Kuznetsov V.V., Allakhverdiev S.I. (2015) The Multiple Roles of Various Reactive Oxygen Species (ROS) in Photosynthetic Organisms. In: Photosynthesis:  New Approaches to the Molecular, Cellular, and Organismal Levels (Ed: S.I. Allakhverdiev) (ISBN 978-1-119-08370-2)  John Wiley & Sons, Inc. Hoboken, New Jersey, and Scrivener Publishing LLC, USA, p: 1-84.
 
225.
(Book chapter): Allakhverdiev S.I., Kreslavski V.D., Fomina I.R.,Los D.A., Klimov V.V., Mimuro M., Mohanty P., Carpentier R. (2015) Inactivation and Repair of Photosynthetic Machinery under Heat Stress. In: Photosynthesis: Basics to Applications (Eds: S. Itoh, P. Mohanty,  K.N. Guruprasad), (ISBN 978-93-84588-54-0) Publisher: I.K. International Publishing House Pvt. Ltd. New Delhi, India, pp: 189-216. 
 
224.
(Book chapter): Najafpour M.M., Heidari S., Abasi M., Khatamian M., Allakhverdiev S.I. (2015) Layered manganese oxides as water oxidizing catalysts for hydrogen production via water splitting: An aid to environmental protection. In: CRC Concise Encyclopedia of Nanotechology (Eds: B.I. Kharisov, O.V. Kharissova, U. Ortiz-Mendez), (ISBN: 978-1466580343) CRC Press, Taylor & Francis Group, p.

223.
(Book chapter): Poudyal R.S., Tiwari I., Koirala A.R., Masukawa H., Inoue K., Tomo T., Najafpour M.M., Allakhverdiev S.I., Veziroglu T.N. (2015) Hydrogen production using photobiological methods. In: Compendium of Hydrogen Energy. v. I: Hydrogen Production and Purification (Eds: V. Subramani, A. Basile, T.N. Veziroglu), ISBN 978-1-78242-361-4 (print); ISBN 978-1-78242-383-6 (online), Woodhead Publishing Series in Energy No: 83. WP-Elsevier, pp. 289-317. 
 
222.
(Book chapter): Najafpour M.M., Balaghi S.E., Sadr M.H., Soltani B., Sedigh D.J. , Allakhverdiev S.I. (2015) Self-healing in nano-sized manganese-based water-oxidizing catalysts. In: Photosynthesis: Structures, Mechanisms, and Applications  (Eds: H. Hou, M.M. Najafpour, G. F. Moore, S.I. Allakhverdiev) Springer - in press.

221.
(Book chapter): Najafpour M.M., Balaghi S.E., Sadr M.H., Soltani B., Sedigh D.J. , Allakhverdiev S.I. (2015) Self-healing in nano-sized manganese-based water-oxidizing catalysts. In: Photosynthesis: Structures, Mechanisms, and Applications  (Eds: H. Hou, M.M. Najafpour, G. F. Moore, S.I. Allakhverdiev) Springer - in press.

220.
(Book chapter): Najafpour M.M., Salimi S., Hołyńska M., Rahimi F., Tavahodi M., Tomo T., Allakhverdiev S.I. (2015) Nanostructured Mn oxide/carboxylic acid or amine functionalized carbon nanotubes as water-oxidizing composites in artificial photosynthesis. In: Photosynthesis: Structures, Mechanisms, and Applications; (Eds: H. Hou, M.M. Najafpour, G. F. Moore, S.I. Allakhverdiev) Springer - in press. 

219.
Sinetova M.A., Mironov K.S., Mustardy L., Shapiguzov A., Bachin D., Allakhverdiev S.I., Los D.A. (2015) Aquaporin-deficient mutant of Synechocystis is sensitive to salt and high-light stressJ. Photochem. Photobiol. B. Biol. - in press. doi: 10.1016/j.jphotobiol.2015.07.012

218.
Zivcak M., Brestic M., Kunderlikova K., Olsovska K., Allakhverdiev S.I. (2015) Effect of photosystem I inactivation on chlorophyll a fluorescence induction in wheat leaves: Does activity of photosystem I play any role in OJIP rise?Photochem. Photobiol. B. Biology – in press. pii: S1011-1344(15)00274-2. doi: 10.1016/j.jphotobiol.2015.08.024 
 
217.
Ivanov A.G., Morgan-Kiss R.M., Krol M., Allakhverdiev S.I., Zanev Y., Sane P.V., Huner N.P. (2015) Photoinhibition of photosystem I in a pea mutant with altered LHCII organizationJ. Photochem. Photobiol.  B. Biology – in press. doi: 10.1016/j.jphotobiol.2015.08.018.

216.
Bachin D., Nazarenko L.V., Mironov K.S., Pisareva T., Allakhverdiev S.I., Los D.A. (2015) Mechanosensitive ion channel MscL controls ionic fluxes during cold and heat stress in SynechocystisFEMS Microbiol. Lett. - in press. doi: 10.1093/femsle/fnv090 


215.
Allakhverdiev S.I., Ramakrishna S. (2015) A random walk to and through the photoelectrochemical cells based on photosynthetic systems. Biofuel Res. J. 6: 222 
 
214.
Voloshin R.A., Kreslavski V.D., Zharmukhamedov S.K.,Bedbenov V.S., Ramakrishna S., Allakhverdiev S.I. (2015) Photoelectrochemical cells based on photosynthetic systems: a review. Biofuel Res. J. 6: 227–235.


213.
Nath K., Najafpour M.M., Voloshin R.A., Balaghi S.E., Tyystjärvi E., Timilsina R., Eaton-Rye J.J., Tomo T., Nam H.G., Nishihara H., Ramakrishna S., Shen J.R., Allakhverdiev S.I. (2015) Photobiological hydrogen production and artificial photosynthesis for clean energy: from bio to nanotechnologiesPhotosynth Res. 126(2): 237-247. doi: 10.1007/s11120-015-0139-4
 
212.
Najafpour M.M., Fekete M., Sedigh D.J., Aro E.M., Carpentier R., Eaton-Rye J.J., Nishihara H., Shen J.R., Allakhverdiev S.I., Spiccia L. (2015) Damage management in water-oidizing catalysts: from photosystem II to nanosized metal oxides. ACS Catalysis 5: 1499−1512.
 
211.
Najafpour M.M., Ghobadi M.Z., Larkum A.W., Shen J.R., Allakhverdiev S.I. (2015) The biological water-oxidizing complex at the nano-bio interface. Trends Plant Sci. 20(9): 559-568. doi: 10.1016/j.tplants.2015.06.005

210.
Najafpour M.M., Ghobadi M.Z., Haghighi B., Tomo T., Shen J., Allakhverdiev S.I. (2015) Comparison of nano-sized Mn oxides with the Mn cluster of photosystem II as catalysts for water oxidationBiochim. Biophys. Acta 1847(2): 294-306. doi: 10.1016/j.bbabio.2014.11.006
 
209.
Najafpour M.M., Hosseini S.M., Hołynska M., Tomo T., Allakhverdiev S.I. (2015) Gold nanorods or nanoparticles deposited on layered manganese oxide: new findings. New J. Chem. 39: 7260–7267.
 
208.
Najafpour M.M., Hosseini S.M., Hołyńska M., Tomo T., Allakhverdiev S.I. (2015) Manganese oxides supported on gold nanoparticles: new findings and current controversies for the role of gold. PhotosynthRes. – in press. doi: 10.1007/s11120-015-0164-3
 
207.
Najafpour M.M., Hosseini S.M., Holynska M., Tomo T.,Allakhverdiev S.I. (2015) Platinum/manganese oxide nanocomposites as water-oxidizing catalysts: New findings and current controversies. Inter. J. Hydrogen Energy 40: 10825–10832.
 
206.
Najafpour M.M., Allakhverdiev S.I. (2015) Nano-sized Mn oxide: A true catalyst in the water-oxidation reactionJ. Photochem. Photobio.l B. Biol. doi: 10.1016/j.jphotobiol.2015.01.014
 
205.
Najafpour M.M., Allakhverdiev S.I. (2015) Recent progress in the studies of structure and function of Photosystem I and II. J. Photochem. Photobiol. B. – in press. 
 
 204.
Najafpour M.M., Carpentier R., Allakhverdiev S.I. (2015) Artificial photosynthesisJ. Photochem. Photobiol. B. Biol. doi: 1016/j.jphotobiol.2015.04.008
 
203.
Najafpour M.M., Isaloo M.A., Hołyńska M., Shen J.R., Allakhverdiev S.I. (2015) The effect of lanthanum (III) and cerium (III) ions between layers of manganese oxide on water oxidation. Photosynth. Res. 126: 489–498.
 
202.
Kurepin L.V., Ivanov A.G., Zaman M., Pharis R.P., Allakhverdiev S.I., Hurry V., Hüner N.P. (2015) Stress-related hormones and glycinebetaine interplay in protection of photosynthesis under abiotic stress conditions. Photosynth. Res126(2): 221-235. doi: 10.1007/s11120-015-0125-x
 
201.
Zivcak M., Brestic M., Kunderlikova K., Sytar O., Allakhverdiev S.I. (2015) Repetitive light pulse-induced photoinhibition of photosystem I severely affects CO2 assimilation and photoprotection in wheat leaves. Photosynth. Res.  126(2): 449-463. doi: 10.1007/s11120-015-0121-1 
 
200.
Brestic M., Zivcak M., Kunderlikova K., Sytar O., Shao H., Kalaji H.M., Allakhverdiev S.I. (2015) Low PSI content limits the photoprotection of PSI and PSII in early growth stages of chlorophyll b-deficient wheat mutant lines. Photosynth. Res125(1): 151166. doi: 10.1007/s11120-015-0093-1 
 
199.
Carpentier R., Allakhverdiev S.I. (2015) In honor of Vladimir A. Shuvalov: light energy conversion in photosynthesisPhotosynth. Res. 125(1): 1-3. doi: 10.1007/s11120-015-0108-y
 
198.
Brestic M., Zivcak M., Kunderlikova K., Sytar O., Shao H., Kalaji H.M., Allakhverdiev S.I. (2015) Low PSI content limits the photoprotection of PSI and PSII in early growth stages of chlorophyll b-deficient wheat mutant linesPhotosynth. Res. 125(1): 151-166. 2015 doi: 10.1007/s11120-015-0093-1 
 
197.

Akimoto S., Shinoda T., Chen M., Allakhverdiev S.I., Tomo T. (2015) Energy transfer in the chlorophyll f-containing cyanobacterium, Halomicronema hongdechloris, analyzed by time-resolved fluorescence spectroscopiesPhotosynth. Res. 125(1): 115-122. doi: 10.1007/s11120-015-0091-3
 
 
 
196.
(Книга): Современные проблемы фотосинтеза (Contemporary problems of photosynthesis): сб. ст. / под ред. С.И. Аллахвердиева, А.Б. Рубина, В.А. Шувалова (Allakhverdiev SI, Rubin AB, Shuvalov VA (Eds.), Изд: Ижевский институт компьютерных исследований, Москва-Ижевский (Institute of Computer Science, Izhevsk-Moscow) 2014, Т. II, 544 стр.

195.
(Книга): Современные проблемы фотосинтеза (Contemporary problems of photosynthesis): под ред. С.И. Аллахвердиева, А.Б. Рубина, В.А. Шувалова (Allakhverdiev SI, Rubin AB, Shuvalov VA (Eds.), Изд: Ижевский институт компьютерных исследований, Москва-Ижевск (Institute of Computer Science, Izhevsk-Moscow) 2014, Т. I, 568 стр.

194.
(E-book): Current Challenger in Photosynthesis: From Natural to Artificial. (Eds: Hou H., Allakhverdiev S.I., Najafpour M.M., Govindjee ), Publisher: Frontiers Media SA. (ISBN: 978-2-88919-286-1), Product Name: Frontiers Research Topic E-book (2014), 102 p.

193.
Hou H.J.M., Allakhverdiev S.I., Najafpour M.M., Govindjee (2014)  Current Challenger in Photosynthesis: From Natural to Artificial. (Editorial/Introduction) Frontier in Plant Science, (September issue), p.1-2.

192. Креславский В.Д., Зорина А.А., Лось Д.А., Аллахвердиев С.И. (2014) Молекулярные механизмы адаптации фотосинтетического аппарата к стрессу. В книге "Фотосинтез: открытые вопросы и что мы знаем сегодня" (под ред. Аллахвердиева С.И., Рубина А.Б., Шувалова В.А.), Ижевский Институт компьютерных исследований, Ижевск–Москва, Том 2. с. 333-376.

191.

Allakhverdiev S.I., Aro E.-M., Tomo T. (2014) Special issue on Photosynthesis Research for Sustainability. Plant Physiol. Biochem. 81: 1-2.

190.

Allakhverdiev S.I., Shen J.-R. (2014) Photosynthesis research for sustainability: Keys to produce clean energy. Biochim. Biophys. Acta (BBA-Bioenergetics) 1837: 1377-1383.

189.

Allakhverdiev S.I., Tomo T, Govindjee. (2014) International conference on "Photosynthesis research for sustainability-2014: in honor of Vladimir A. Shuvalov", held on June 2-7, 2014, in Pushchino, Russia. Photosynth Res. 122 (3): 337-347.

188.

Bosa K., Jadczuk-Tobjasz E., Kalaji M.H., Majewska M., Allakhverdiev S.I. (2014) Evaluating the effect of rootstocks and potassium level on photosynthetic productivity and yield of pear trees. Russian J. Plant Physiol. 61(2): 231–237.

187.

Borawska-Jarmuowicz B., Mastalerczuk G., Kalaji H.M., Carpentier R., Pietkiewicz S., Allakhverdiev S.I. (2014) Photosynthetic efficiency and survival of Dactylis glomerata and Lolium perenne following low temperature stress. Russian J. Plant Physiol. 61(3): 281-288.

186.

Wiechen M., Najafpour M.M., Allakhverdiev S.I., Spiccia L. (2014) Water oxidation catalysis by manganese oxides: learning from evolution. Energy & Environmental Sciences 7: 2203-2212.

185.

Kumar P.S., Sundaramurthy J., Sundarrajan S., Babu V.J., Singh G., Allakhverdiev S.I., Ramakrishna S. (2014) Hierarchical electrospun nanofibers for energy harvesting, production and environmental remediation. Energy & Environmental Sciences 7:3192-3222.

184.

Hou H.J.M., Allakhverdiev S.I., Najafpour M.M., Govindjee (2014) Current challenges in photosynthesis: from natural to artificial. (Editorial/Introduction) Front. Plant Sci. 5: 232. doi: 10.3389/fpls.2014.00232.

183.

Kalaji H.M., Oukarroum A., Alexandrov V., Kouzmanova M., Brestic M., Zivcak M., Samborska I.A., Cetner M.D., Allakhverdiev S.I., Goltsev V. (2014) Identification of nutrient deficiency in maize and tomato plants by in vivo chlorophyll a fluorescence measurements. Plant Physiol. Biochem. - 81: 16-25.

182.

Kalaji H.M., Schansker G., Ladle R.J., Goltsev V., Bosa K., Allakhverdiev S.I., Brestic M., Bussotti F., Calatayud A., Dąbrowski P., Elsheery N.I., Ferroni L., Guidi L., Hogewoning S.W., Jajoo A., Misra A.N., Nebauer S.G., Pancaldi S., Penella C., Poli D., Pollastrini M., Romanowska-Duda Z.B., Rutkowska B., Serôdio J., Suresh K., Szulc W., Tambussi E., Yanniccari M., Zivcak M. (2014) Frequently asked questions about in vivo chlorophyll fluorescence: practical issues. Photosynth. Res. 122(2): 121-158.

181.

Najafpour M.M., Ghobadi M.Z., Haghighi B., Eaton-Rye J.J., Tomo T., Shen J.R., Allakhverdiev S.I. (2014) Nano-Sized Manganese-Calcium Cluster in Photosystem II. Biochemistry (Mosc). 79(4): 324-336.

180.

Najafpour M.M., Abasi M., Tomo T., Allakhverdiev S.I. (2014) Nanolayered manganese oxide/C60 composite: a good water-oxidizing catalyst for artificial photosynthetic systems. Dalton Trans. 43: 12058-12064.

179.

Najafpour M.M., Abasi M., Tomo T., Allakhverdiev S.I. (2014) Mn oxide/nanodiamond composite: A new water-oxidizing catalyst for water oxidation. RSC Advances 4: 37613-37619.

178.

Najafpour M.M., Heidari S., Amini E., Khatamian M., Carpentier R., Allakhverdiev S.I. (2014) Nano-sized layered Mn oxides as promising and biomimetic water oxidizing catalysts for water splitting in artificial photosynthetic systems.J. Photochem. Photobiol. B. Biol. 5 (133): 124-139.

177.

Najafpour M.M., Isaloo M.A., Eaton-Rye J.J., Tomo T., Nishihara H., Satoh K., Carpentier R., Shen J.R., Allakhverdiev S.I. (2014) Water exchange in manganese-based water-oxidizing catalysts in photosynthetic systems: From the water-oxidizing complex in photosystem II to nano-sized manganese oxides. Biochim. Biophys. Acta 1837: 1395-1410.

176.

Najafpour M.M., Rahimi F., Fathollahzadeh M., Haghighi B., Hołyńska M., Tomo T., Allakhverdiev S.I. (2014) Nanostructured manganese oxide/carbon nanotubes, graphene and graphene oxide as water-oxidizing composites in artificial photosynthesis. Dalton Trans. 43(28): 10866-10876.

175.

Najafpour M.M., Ghobadi M.Z., Haghighi B., Tomo T., Carpentier R., Shen J.R., Allakhverdiev S.I. (2014) A nano-sized manganese oxide in a protein matrix as a natural water-oxidizing site. Plant Physiol. Biochem. 81: 3-15.

174.

Tomo T., Shinoda T., Chen M., Allakhverdiev S.I., Akimoto S. (2014) Energy transfer processes in chlorophyll f-containing cyanobacteria using time-resolved fluorescence spectroscopy on intact cells. Biochim. Biophys. Acta 1837: 1484-1489.

173.

Kreslavski V.D., Lankin A.V., Vasilyeva G.K., Luybimov V.Yu., Semenova G.N.,  Schmitt F.-J., Friedrich T., Allakhverdiev S.I. (2014) Effects of polyaromatic hydrocarbons on photosystem II activity in pea leaves. Plant Physiol. Biochem. 81: 135-142.

172.

Brestic M., Zivcak M., Olsovska K., Shao H.B., Kalaji H.M., Allakhverdiev S.I. (2014) Reduced glutamine synthase activity plays a role in control of photosynthetic responses to high light in barley leaves. Plant Physiol. Biochem. 81: 74-83.

171.

Ланкин А.В., Креславский В.Д., Худякова А.Ю., Жармухамедов С.К., Аллахвердиев С.И. (2014) Влияние нафталина на фотохимическую активность фотосистемы 2 гороха. Биохимия 79: 1493-1504.

170.

Schmitt F.-J., Renger G., Friedrich T., Kreslavski V.D., Zharmukhamedov S.K., Los D.A., Kuznetsov Vl.V., Allakhverdiev S.I. (2014) Reactive oxygen species: re-evaluation of generation, monitoring and role in stress-signaling in phototrophic organisms. Biochim. Biophys. Acta 1837: 835-848.

169.

Karacan M.S., Zharmukhamedov S.K., Mamas S., Kupriyanova E.V., Shitov A., Klimov V., Özbek N., Özmen Ü., Gündüzalp A., Schmitt F.-J., Karacan N., Friedrich T., Los D.A.. Carpentier R., Allakhverdiev S.I. (2014) Screening of novel chemical compounds as possible inhibitors of carbonic anhydrase and photosynthetic activity of photosystem II. J. Photochem. Photobiol. B: Biol. 137: 156-167.

168.

Kalaji H.M., Goltsev V., Brestic M., Bosa K., Allakhverdiev S.I., Strasser R.J., Govindjee (2014) In Vivo Measurements of Light Emission in Plants. In: “Contemporary problems of photosynthesis”, Allakhverdiev S.I., Rubin A.B., Shuvalov V.A. (Eds.), Institute of Computer Science, Izhevsk-Moscow. Vol. 1, p. 1- 40.

167.

Najafpour M.M., Sedigh D.J., Eaton-Rye J.J., Allakhverdiev S.I. (2014) The Water-Oxidizing Complex in Photosystem II. In: “Contemporary problems of photosynthesis”,Allakhverdiev S.I., Rubin A.B., Shuvalov V.A. (Eds.), Institute of Computer Science, Izhevsk-Moscow. Vol. 1, p. 325-341.

166.

Tomo T, Allakhverdiev S.I. (2014) The Divergence of Chlorophyll and Photosynthetic Reactions in Chlorophyll d-Containing Cyanobacteria. In: “Contemporary problems of photosynthesis”, Allakhverdiev SI, Rubin AB, Shuvalov VA (Eds.), Institute of Computer Science, Izhevsk-Moscow, Vol. 2, p. 115–139.

165.

(Книга): Гольцев В.Н., Каладжи Х.М., Кузманова М.А., Аллахвердиев С.И. (2014) Переменная и замедленная флуоресценция хлорофилла а – теоретические основы и практическое приложение в исследовании растений. Институт компьютерных исследований, Москва-Ижевск, 220 стр.

164.

(Книга): Фотосинтез: открытые вопросы и что мы знаем сегодня. Под ред. С.И. Аллахвердиева, А.Б. Рубина, В.А. Шувалова. Ижевский институт компьютерных исследований, Москва-Ижевск, 2013, 825 с. (коллективная монография).

163.

Najafpour M.M., Leonard K.C., Fan F.R., Tabrizi M.A., Bard A.J., Kingondu C.K., Suib S.L., Haghighi B., Allakhverdiev S.I. (2013) Nano-size layered manganese–calcium oxide as an efficient and biomimetic catalyst for water oxidation under acidic conditions: comparable to platinum. Dalton Trans42: 5085–5091.

162.

Schmitt F.J., Maksimov E., Junghans C., Weißenborn J., Hätti P., Paschenko V.Z., Allakhverdiev S.I., Friedrich T. (2013) Structural organization and dynamic processes in protein complexes determined by multiparameter imaging. SOAJ NanoPhotoBioSciences 1(1): 1-47.

161.

Allakhverdiev S.I., Huseynova I.M., Govindjee (2013) International conference on “Photosynthesis research for sustainability-2013: in honor of Jalal A. Aliyev” held during June 5-9, 2013, Baku, Azerbaijan. Photosynth Res. 118:297-307.

160.

Najafpour M.M., Abasi M., Allakhverdiev S.I. (2013) Recent proposed mechanisms for biological water oxidation. SOAJ NanoPhotoBioSciences 1(1): 79-92.

159.

Omar S.A., Elsheery N.I., Kalaji H.M., Ebrahim M.K.H., Pietkiewicz S., Lee C.H., Allakhverdiev S.I., Xu Z.F. (2013) Identification and differential expression of two dehydrin cDNAs during maturation of Jatropha curcas seeds. Biochemistry (Moscow) 78 (5): 485-495.

158.

Allakhverdiev S.I., Shen J.R., Edwards G.E. (2013) Special issues on Photosynthesis Education honoring Govindjee. Photosynth. Res. 116: 107-110.

157.

Nguyen L.T.H., Chen S., Elumalai N.K., Prabhakaran M.P., Zong Y., Vijila C., Allakhverdiev S.I., Ramakrishna S. (2013) Biological, chemical, and electronic applications of nanofibers. Macromolecular Materials and Engineering 298: 822–867.

156.

Los D.A., Mironov K.S., Allakhverdiev S.I. (2013) Regulatory role of membrane fluidity in gene expression and physiological functions. Photosynth. Res.116: 489-509.

155.

Kreslavski V.D., Lyubimov V.Y., Shirshikova G.N., Shmarev A.N., Kosobryukhov A.A., Schmitt F.J., Friedrich T., Allakhverdiev S.I. (2013) Preillumination of lettuce seedlings with red light enhances the resistance of photosynthetic apparatus to UV-A. Journal of Photochemistry and Photobiology B: Biology 122: 1-6.

154.

Zivcak M., Brestic M., Balatova Z., Drevenakova P., Olsovska K., Kalaji H.M., Yang X., Allakhverdiev S.I. (2013) Photosynthetic electron transport and specific photoprotective responses in wheat leaves under drought stress. Photosynth. Res.117 (1-3) 529-546.

153.

Najafpour M.M., Tabrizi M.A., Haghighi B., Eaton-Rye J.J., Carpentier R., Allakhverdiev S.I. (2013) Imidazolium or guanidinium/layered manganese (III, IV) oxide hybrid as a promising structural model for the water-oxidizing complex of photosystem II for artificial photosynthetic systems. Photosynth Res. 117 (1-3): 413-421.

152.

Kreslavski V.D., Shirshikova G.N., Lyubimov V.Y., Shmarev A.N., Boutanaev A.M., Kosobryukhov A.A., Schmitt F.J., Friedrich T., Allakhverdiev S.I. (2013) Effect of preillumination with red light on photosynthetic parameters and oxidant-/antioxidant balance in Arabidopsis thaliana in responce to UV-A. Journal of Photochemistry and Photobiology B: Biology 127: 229-236.

151.

Najafpour M.M., Rahimi F., Sedigh D.J., Carpentier R., Eaton-Rye J.J., Shen J.R., Allakhverdiev S.I. (2013) Gold or silver deposited on layered manganese oxide: a functional model for the water-oxidizing complex in photosystem II.Photosynth Res. 117 (1-3): 423-429.

150.

Nath K., Phee B.K., Jeong S., Lee S.Y., Tateno Y., Allakhverdiev S.I., Lee C.H., Nam H.G. (2013) Age-dependent changes in the functions and compositions of photosynthetic complexes in the thylakoid membranes of Arabidopsis thaliana.Photosynth Res. 117 (1-3): 547-556.

149.

Zharmukhamedov S.K., Allakhverdiev S.I., Smolova T.N., Klimov V.V. (2013) Bicarbonate stimulates the electron donation from Mn2+ to P680+ in isolated D1/D2/cytochrome b559 complex. Journal of Photochemistry and Photobiology B: Biology 129: 87-92.

148.

Креславский В.Д., Зорина А.А., Лось Д.А., Аллахвердиев С.И. (2013) Молекулярные механизмы адаптации фотосинтетического аппарата к стрессу. В книге «Фотосинтез: открытые вопросы и что мы знаем сегодня» (под ред. Аллахвердиева С.И., Рубина А.Б., Шувалова В.А.), Ижевский Институт компьютерных исследований, Ижевск–Москва, с. 663-706.

147.

Kreslavski V.D., Zorina A.A., Los D.A., Fomina I.R.,Allakhverdiev S.I. (2013) Molecular Mechanisms of Stress Resistance of Photosynthetic Machinery. In: Molecular Stress Physiology of Plants (Eds: Rout G.R. and Das A.B.), Springer, India, pp. 21-51.

 146.

Allakhverdiev S.I. (2012) Photosynthetic and biomimetic hydrogen production. Intl. J. Hydrogen Energy 37: 8744-8752.

 145.

Mohanty P., Kreslavski V.D., Klimov V.V., Los D.A., Mimuro M., Carpentie R., Allakhverdiev S.I. (2012) Heat Stress: Susceptibility, Recovery and Regulation. In: Photosynthesis: Plastid Biology, Energy Conversion and Carbon Assimilation (Eds: Eaton-Rye J.J., Tripathy B.C., Sharkey T.D.), Springer Dordrecht Heidelberg, London, New York, pp. 251-274.

144.

Allakhverdiev S.I., Kreslavski V.D., Fomina I.R., Los D.A., Klimov V.V., Mimuro M., Mohanty P., Carpentier R. (2012) Inactivation and repair of photosynthetic machinery under heat stress. In: Photosynthesis: Overviews on Recent Progress and Future Perspective, (Eds: Itoh S., Mohanty P., Guruprasad K.N.) I.K. International Publishing House Pvt. Ltd. New Delhi, India, pp. 189-216.

143.

Kreslavski V.D., Fomina I.R., Los D.A., Allakhverdiev S.I. (2012) Heat induced impairments and recovery of photosynthetic machinery. In: Heat Stress: Causes, Treatment and Prevention. (Eds: Josipovic S., Ludwig E.) Nova Science Publishers, Inc. New York, pp. 89-112.

142.

Sundarrajan S., Allakhverdiev S.I., Ramakrishna S. (2012) Progress and perspectives in micro direct methanol fuel cell. Intl. J. Hydrogen Energy 37: 8765-8786.

141.

Brestic M., Zivcak M., Kalaji H.M., Carpentier R., Allakhverdiev S.I. (2012) Photosystem II thermostability in situ: Environmentally induced acclimation andgenotype-specific reactions in Triticum aestivum L. Plant Physiol. Biochem. 57C: 93-105.

140.

Babu V.J., Kumar M.K., Nair A.S., Kheng T.L., Allakhverdiev S.I., Ramakrishna S. (2012) Visible light photocatalytic water splitting for hydrogen productionfrom N-TiO2 rice grain shaped electrospun nanostructures. Intl. J. Hydrogen Energy37: 8897-8904.

139.

Omar S.A., Elsheery N.I., Kalaji H.M., Xu Z.-F., Song-Quan S., Carpentier R., Lee C.-H., Allakhverdiev S.I. (2012) Dehydroascorbate reductase and glutathione reductase play an important role in scavenging hydrogen peroxide during natural and artificial dehydration of Jatropha curcasseeds. J. Plant Biol. 55: 469-480.

138.

Singh-Tomar R., Mathur S., Allakhverdiev S.I., Jajoo A. (2012) Changes in PS II heterogeneity in response to osmotic and ionic stress in wheat leaves (Triticum aestivum). J. Bioenerg. Biomembr. 44(4): 411-419.

137.

Sinetova M.A., Kupriyanova E.V., Markelova A.G., Allakhverdiev S.I., Pronina N.A. (2012) Identification and functional role of the carbonic anhydrase Cah3 in thylakoid membranes of pyrenoid of Chlamydomonas reinhardtii. Biochim. Biophys. Acta (BBA-Bioenergetics) 1817(8): 1248–1255.

136.

Allakhverdiev S.I. (2012) Photosynthesis research for sustainability: From natural to artificial. Biochim. Biophys. Acta (BBA-Bioenergetics) 1817: 1107-1109.

135.

Goltsev V., Zaharieva I., Chernev P., Kouzmanova M., Kalaji H.M., Yordanov I., Krasteva V., Alexandrov V., StefanovD., Allakhverdiev S.I., Strasser R.J. (2012) Drought-induced modifications of photosynthetic electron transport in intactleaves: Analysis and use of neural networks as a tool for a rapid non-invasive estimation. Biochim. Biophys. Acta (BBA-Bioenergetics) 1817: 1490-1498.

134.

Kalaji H.M., Carpentier R., Allakhverdiev S.I., Bosa K. (2012) Fluorescence parameters as early indicators of light stress in barley. J. Photochem. Photobiol. B. Biol. 112: 1-6.

133.

Kalaji H.M., Goltsev V., Bosa K., Allakhverdiev S.I., Strasser R.J., Govindjee. (2012) Experimental in vivo measurements of light emission in plants: A perspective dedicated to David Walker. Photosynth. Res. 114: 69-96.

132.

Najafpour M.M., Allakhverdiev S.I. (2012) Manganese compounds as water oxidizing catalysts for hydrogen production via water splitting: From manganesecomplexes to nano-sized manganese oxides. Intl. J. Hydrogen Energy 37: 8753-8764.

131.

Najafpour M.M., Moghaddam A.N., Yang Y.N., Aro E.-M., Carpentier R., Eaton-Rye J.J., Lee C.H., Allakhverdiev S.I. (2012) Biological water oxidizingcomplex: A nano-sized manganese-calcium oxide in a protein environment. Photosynth. Res. 114: 1-13.

130.

Najafpour M.M., Rahimi F., Aro E.M., Lee C.H., Allakhverdiev S.I. (2012) Nano-sized manganese oxides as biomimetic catalysts for water oxidation inartificial photosynthesis: a review. J. Roy. Soc. Interface 9: 2383-2395.

129.

Najafpour M.M., Moghaddam A.N., Allakhverdiev S.I., Govindjee (2012) Biological water oxidation: Lessons from Nature. Biochim. Biophys. Acta (Bioenergetics) 1817: 1110-1121.

128.

Murata N., Allakhverdiev S.I., Nishiyama Y. (2012) The mechanism of photoinhibition in vivo: Re-evaluation of the roles of catalase, ?-tocopherol, non-photochemical quenching, and electron transport. Biochim. Biophys. Acta (Bioenergetics)1817: 1127-1133.

127.

Ivanov A.G., Allakhverdiev S.I., Huner N.P., Murata N. (2012) Genetic decrease in fatty acid unsaturation of phosphatidylglycerol increased photoinhibition of photosystem I at low temperature in tobacco leaves.Biochim. Biophys. Acta (Bioenergetics) 1817: 1374-1379.

126.

Allakhverdiev S.I., Huseynova I.M., Govindjee. (2012) International conference on "Photosynthesis research for sustainability-2011", July 24-30, 2011, Baku, Azerbaijan. Photosynth. Res. 110(3): 205-212.

125.

Kreslavsky V.D., Fomina I.R., Los D.A., Carpentier R., Kuznetsov Vl.V., Allakhverdiev S.I. (2012) Red and near infra-red signaling: Hypothesis and perspectives. Journal of Photochemistry and Photobiology. C: Photochemistry Reviews. 13(3): 190-203.

124.

Karacan M.S., Yakan C., Yakan M., Karacan N., Zharmukhamedov S.K., Shitov A., Los D.A., Klimov V.V., Allakhverdiev S.I. (2012) Quantitative structure-activity relationship analysis of perfluoroisopropyl-dinitrobenzene derivatives known as photosystem II electron transfer inhibitors. Biochim. Biophys. Acta (Bioenergetics) 1817(8): 1229-1236.

123.

Mironov K.S., Sidorov R.A., Trofimova M.S., Bedbenov V.S., Tsydendambaev V.S., Allakhverdiev S.I., Los D.A. (2012) Light-dependent cold-induced fatty acid unsaturation, changes in membrane fluidity, and alterations in gene expression inSynechocystis. Biochim. Biophys. Acta (Bioenergetics) 1817(8): 1352-1359.

122.

Креславский В.Д., Лось Д.А., Аллахвердиев С.И., Кузнецов Вл.В. (2012) Сигнальная роль активных форм кислорода при стрессе у растений. Физиология растений. 59: 163-178.

121.

Antal T.K., Krendeleva T.E., Pashchenko V.Z., Rubin A.B., Stensjo K., Tyystjärvi E., Los D.A., Carpentier R., Nishihara H., Allakhverdiev S.I. (2011) Photosynthetic hydrogen production: mechanisms and approaches. In: State of the Art and Progress in Production of Biohydrogen(Eds. Azbar N., Levin D.) Bentham Science Publishers, Canada, pp. 25-53.

120.

Mehta P., Kreslavsky V.D., Bharti S., Allakhverdiev S.I., Jajoo A. (2011) Analysis of salt stress induced changes in Photosystem II heterogeneity by prompt fluorescence and delayed fluorescence in wheat (Triticum aestivum) leaves. J. Photochem. Photobiol. B: Biol. 104: 308-313.

119.

Allakhverdiev S.I. (2011) Recent progress in the studies of structure and function of photosystem II. J. Photochem. Photobiol. B: Biol. 104: 1-8.

118.

Shitov A.V., Zharmukhamedov S.K., Shutova T.V., Allakhverdiev S.I., Samuelsson G., Klimov V.V. (2011) A carbonic anhydrase inhibitor induces bicarbonate-reversible suppression of electron transfer in pea photosystem 2 membranefragments. J. Photochem. Photobiol. B: Biol. 104: 366-371.

 117.

Allakhverdiev S.I., Tsuchiya T, Watabe K., Kojima A., Los D.A., Tomo T., Klimov V.V., Mimuro M. (2011) Redox potentials of primary electron acceptor quinone molecule (QA)- and conserved energetics of photosystem II in cyanobacteria with chlorophyll a and chlorophyll d. Proc. Natl. Acad. Sci. USA 108(19): 8054-8058.

116.

Tomo T., Allakhverdiev S.I., Mimuro M. (2011) Constitution and energetics of photosystem I and photosystem II in the chlorophyll d-dominated cyanobacterium Acaryochloris marina. J. Photochem. Photobiol. B: Biol. 104: 333-340.

115.

Nishiyama Y., Allakhverdiev S.I., Murata N. (2011) Protein synthesis is the primary target of reactive oxygen species in the photoinhibition of photosystem II. Physiol. Plant. 142: 35-46.

114.

Зорина А.А., Миронов К.С., Степанченко Н.С., Синетова М.А., Коробан Н.В., Зинченко В.В., Куприянова Е.В., Аллахвердиев С.И., Лось Д.А. (2011) Системы регуляции стрессовых ответов у цианобактерий. Физиология растений 58: 643-663.

113.

Kupriyanova E.V., Sinetova M.P., Markelova A.G., Allakhverdiev S.I., Los D.A., Pronina N.A. (2011) Carboxysomal type β-class carbonic anhydrase located in the cell envelopes of the alkaliphilic cyanobacterium Microcoleus chthonoplastes. J. Photochem. Photobiol. B: Biology 103: 78-86.

112.

Mathur S., Allakhverdiev S.I., Jajoo A. (2011) Analysis of high temperature stress on the dynamics of antenna size and reducing side heterogeneity of Photosystem II in wheat leaves (Triticum aestivum). Biochim. Biophys. Acta 1807:  22–29.

111.

Tongra T., Mehta P., Mathur S., Agrawal D., Bharti S., Los D.A., Allakhverdiev S.I., Jajoo A. (2011) Computational analysis of fluorescence induction curves in intact spinach leaves treated at different pH. BioSystems 103: 158–163.

110.

Mehta P., Allakhverdiev S.I., Jajoo A. (2010) Characterization of photosystem II heterogeneity in response to high salt stress in wheat leaves (Triticum aestivum). Photosynth. Res. 105: 249-255.

109.

АллахвердиевC.И., Жармухамедов С.К., Лось Д.А., Климов В.В., Мурата Н. (2010) Воздействие абиотических стрессов на цианобактерии ведет к подавлению репарации фотоповрежденной фотосистемы 2. Биохимия 75(12): 1621-1632.

108.

Allakhverdiev S.I., Thavasi V., Kreslavski V.D., Zharmukhamedov S.K., Klimov V.V., Ramakrishna S., Los D.A., Mimuro M., Nishihara H., Carpentier R. (2010) Photosynthetic hydrogen production. Journal of Photochemistry and Photobiology C: Photochemistry Reviews 11: 87-99.

107.

Biel K.Y., Fomina I.R., Kreslavski V.D., Allakhverdiev S.I. (2010) Methods for Assessment of Activity and Stress Acclimation of Photosynthetic Machinery in Cyanobacteria and Symbiotic Microalgae. In: Protocols on Algal and Cyanobacterial Research (Eds. Kliner W., Nath Bagchi S., Mohanty P.) Narosa Publishing House, New Delhi, India. pp. 195-214.

106.

Klimov V.V., Zharmukhamedov S.K., Allakhverdiev S.I. (2010) Spectrophotometric Quantification of Photochemical Active Reaction Centers of Photosystem II by Reversible Photoreduction of Pheophytin in Cells of Green Algae and Cyanobacteria. In: Protocols on Algal and Cyanobacterial Research (Eds. Kliner W., Nath Bagchi S., Mohanty P.) Narosa Publishing House, New Delhi, India, pp.215-224.

105.

Allakhverdiev S.I., Kreslavski V.D., Thavasi V., Zharmukhamedov S.K., Klimov V.V.,  Nishihara H., Ramakrishna S., MimuroM., Carpentier R., Nagata T. (2010) Photosynthetic energy conversion: hydrogen photoproduction by natural and biomimetic systems. In: Biomimetics, Learning from Nature (Ed. Amitava Mukherjee, IN-TECH, Vukovar, Croatia. pp. 49-76.

104.

Allakhverdiev S.I., Tomo T., Shimada Y., Kindo H., Nagao R., Klimov V.V., Mimuro M. (2010) Redox potential of pheophytin a in photosystem II of two cyanobacteria having the different special pair chlorophylls. Proc. Natl. Acad. Sci. USA107: 3924-3929.

103.

Jajoo A., Mathur S., Mehta P., Yoshoika M., Allakhverdiev S.I., Yamamoto Y. (2010) Study on the effects of chloride depletion on photosystem II using different chloride depletion method. J. Bioenerg. Biomembr. 42: 47-53.

102.

Kreslavski V.D., Carpentier R., Klimov V.V., Allakhverdiev S.I. (2009) Transduction mechanisms of photoreceptor signaling in plant cell. Journal of Photochemistry and Photobiology, C: Photochemistry Reviews 10: 63-80.

101.

Kurashov V.N., Allakhverdiev S.I., Zharmukhamedov S.K., Nagata N., Klimov V.V., Semenov A.Yu., Mamedov M.D. (2009) Electrogenic reactions on the donor side of Mn-depleted photosystem II core particles in the presence of MnCl2 and synthetic trinuclear Mn-complexes. Photochem. Photobiol. Sci. 8: 162-166.

100.

Allakhverdiev S.I., Kreslavski V.D., Thavasi V., Zharmukhamedov S.K., Klimov V.V., Nagata T., Nishihara H., Ramakrishna S. (2009) Hydrogen photoproduction by use of photosynthetic organisms and biomimetic systems. Photochem. Photobiol. Sci. 8: 148-156.

99.

Nagata T., Kikuzawa Y., Nagasawa T., Allakhverdiev S.I. (2009) Single-molecular quinine pools: a synthetic model of biochemical energy transducer. Transactions of the Materials Research Society (MRS) of Japan 34: 505-508.

98.

Allakhverdiev S.I., Casal J., Nagata T. (2009) Photosynthesis from molecular perspectives: towards future energy production.Photochem. Photobiol. Sci. 8: 137-138.

97.

Nagasawa T., Allakhverdiev S.I., Kimura Y., Nagata T. (2009) Photooxidation of alcohols by a porphyrin/quinone/TEMPO system. Photochem. Photobiol. Sci. 8: 174-180.

96.

Allakhverdiev S.I. (2008) Resent perspectives of photosystem II: structure, function and dynamics. Photosynth. Res. 98: 1-5.

95.

Allakhverdiev S.I., Murata N. (2008) Salt stress inhibits photosystems II and I in cyanobacteria. Photosynth. Res. 98: 529-539.

94.

Basharov M.A., Allakhverdiev S.I. (2008) Expedience of protein folding modeling during progressive elongation of polypeptide chain. The Open Structural Biology Journal 2: 31-33.

93.

Shutova T., Kenneweg H., BuchtaJ., Nikitina J., Terentyev V., Chernyshov S., Andersson B., Allakhverdiev S.I.,Klimov V.V., Dau H., Junge W., Samuelsson G. (2008) The photosystem II-associated Cah3 in Chlamydomonas enhances the O2evolution rate by proton removal. EMBO J.27: 782-791.

92.

Allakhverdiev S.I., Kreslavski V.D., Klimov V.V., Los D.A., Carpentier R., Mohanty P. (2008) Heat stress: An overview of molecular responses in photosynthesis. Photosynth. Research 98: 541-550.

91.

Nagata T., Zharmukhamedov S.K., Khorobrykh A.A., Klimov V.V., Allakhverdiev S.I. (2008) Reconstitution of thewater-oxidizing complex in manganese-depleted photosystem II preparations using synthetic Mn-complexes: a fluorine-19NMR study of the reconstitution process. Photosynth. Research 98: 277-284.

90.

Jajoo A., Sahay A.,  Singh P., Mathur S., Zharmukhamadev S.K., Klimov V.V., Allakhverdiev S.I.,Bharti S. (2008) Elucidating the site of action of oxalate in photosynthetic electron transport chain in spinach thylakoid membranes. Photosynth. Res. 97: 177-184.

89.

Allakhverdiev S.I., Los D.A., Mohanty P., Nishiyama Y., Murata N. (2007) Glycinebetaine alleviates the inhibitory effect of moderate heat stress on the repair of photosystem II during photoinhibition. Biochim. Biophys. Acta (Bioenergetics)1767: 1363-1371.

88.

Nagata T., Nagasawa T., ZharmukhamedovS., Klimov V.V., Allakhverdiev S.I. (2007) Reconstitution of the water-oxidizing complex in manganese-depleted photosystem II preparations using synthetic binuclear Mn(II) and Mn(IV) complexes: production of hydrogen peroxide. Photosynth. Res. 93: 133-138.

87.

Murata N., Takahashi S., Nishiyama Y., Allakhverdiev S.I. (2007) Photoinhibition of photosystem II under environmental stress.Biochim. Biophys. Acta (Bioenergetics) 1767: 414-421.

86.

Dudoladova MV., Kupriyanova EV., Markelova AG., Sinetova MP., Allakhverdiev S.I., Pronina N. (2007) The thylakoid carbonic anhydrase associated with photosystem II is the component of inorganic carbon accumulating system in cells of halo- and alkaliphilic cyanobacterium Rhabdoderma lineare.    Biochim. Biophys. Acta (Bioenergetics) 1767: 616-623.

85.

Mohanty P., Allakhverdiev S.I., Murata N. (2007) Application of low temperatures during photoinhibition allows characterization of individual steps in photodamage and the repair of photosystem II. Photosynth. Res. 94: 217-224.

84.

Allakhverdiev S.I., Shuvalov V.A., Klimov V.V. (2007) Structure and function of photosystems. Biochim. Biophys. Acta (Bioenergetics)1767: 401-403.

83.

Nishiyama Y., Allakhverdiev S.I., Murata N. (2006) A new paradigm for the action of reactive oxygen species in the photoinhibition of photosystem II. Biochim. Biophys. Acta (Bioenergetics) 1757: 742-749.

82.

Zsiros O., Allakhverdiev S.I., Higashi S., Watanabe M., Nishiyama Y., Murata N. (2006) Very strong UV-A light temporally separates the photoinhibition of photosystem II into light-induced inactivation and repair. Biochim. Biophys. Acta (Bioenergetics) 1757: 123-129.

81.

Allakhverdiev S.I., Tsvetkova N., Mohanty P., Szalontai B., Moon B.Y., Debreczeny M., Murata N. (2005) The irreversible photoinhibition of photosystem II is caused by impaired processing of the precursor to D1 protein in Synechocystis. Biochim. Biophys. Acta (BBA-Bioenergetics) 1708: 342-351.

80.

Ohnishi N., Allakhverdiev S.I., Takahashi S., Higashi S., Watanabe M., Nishiyama Y., Murata N. (2005) Two-step mechanism of photodamage to photosystem II: Step 1 occurs at the oxygen-evolving complex and Step 2 occurs at the photochemical reaction center. Biochemistry (USA) 44: 8494-8499.

79..

Allakhverdiev S.I., Nishiyama Y., Takahashi S., Miyairi S., Suzuki I., Murata N. (2005) Systematic analysis of the contributions of ATP synthesis and electron transport to the photodamage and repair of photosystem II in Synechocystis. Plant Physiol. 137: 263-273.

78.

Shapiguzov A., Lyukevich A.A., Allakhverdiev S.I., Sergeyenko T.V., Suzuki I., Murata N., Los D.A. (2005) Osmotic shrinkage of cells of Synechocystis sp. PCC 6803 by water efflux via aquaporins regulates the osmostress-inducible gene expression. Microbiology 151: 447-455.

77.

Nishiyama Y., Allakhverdiev S.I., Murata N. (2005) Inhibition of the repair of photosystem II by oxidative stress in cyanobacteria. Photosynth. Res. 84: 1-7.

76.

Allakhverdiev S.I., Klimov V.V., Hagemann M. (2005) Cellular energization protects the photosynthetic machinery against salt-induced inactivation in Synechococcus. Biochim. Biophys. Acta (BBA-Bioenergetics) 1708: 201-208.

75.

Nishiyama Y., Allakhverdiev S.I., Yamamoto H., Hayashi H., Murata N. (2004) Singlet oxygen inhibits the repair of Photosystem II by suppressing the translation elongation of the D1 protein inSynechocystis sp. PCC 6803. Biochemistry (USA) 43: 11321-11330.

74.

Allakhverdiev S.I., Murata N. (2004) Environmental stress inhibits the synthesis de novo of proteins involved in the photodamage-repair cycle of photosystem II in Synechocystis sp. PCC 6803. Biochim. Biophys. Acta (BBA-Bioenergetics)1657: 23-32.

73.

Klimov V.V., Allakhverdiev S.I., Nishiyama Y., Khorobrykh A.A., Murata N. (2003) Stabilization of the oxygen-evolving complex of photosystem II by bicarbonate and glycinebetaine in thylakoid and subthylakois preparations. Functional Plant Biology 30(7): 797-803.

72.

Allakhverdiev S.I., Mohanty P., Murata N. (2003) Dissection of photodamage at low temperature and repair in darkness suggests the existence of an intermediate form of photodamaged photosystem II. Biochemistry (USA) 42: 14277-14283.

71.

Allakhverdiev S.I., Hayashi H., Nishiyama Y., Ivanov A.G., Aliev Ja.A., Klimov V.V., Murata N., Carpentier R. (2003) Glycinebetaine protects theD1/D2/Cytb559 complex of photosystem II against photo-induced and heat-induced inactivation. J. Plant Physiol. 160: 41-49.

70.

Kanesaki Y., Suzuki I., Allakhverdiev S.I., Mikami K., Murata N. (2002) Salt stress and hyperosmotic stress regulate the expression of different sets of genes in Synechocystis sp. PCC 6803. Biochem. Biophys. Res. Commun. 290: 339-348.

69.

Пронина Н.А., Аллахвердиев С.И., Куприянова Е.В., Клячко-Гурвич Г.Л., Климов В.В. (2002) Локализация карбоангидразы в субхлоропластных частицах гороха. Физиология растений 49: 341-349.

68.

Allakhverdiev S.I., Nishiyama Y., Miyairi S., Yamamoto Y., Inagaki N., Kanesaki Y., Murata N. (2002) Salt stress inhibitsthe repair of photodamagedphotosystem II by suppressing the transcription and translation of psbA genes inSynechocystis. Plant Physiol. 130: 1443-1433.

67.

Nishiyama Y., Yamamoto H., Allakhverdiev S.I., Inaba M., Yokota A., Murata N. (2001) Oxidative stress inhibits the repair of photodamage to the photosynthetic machinery. EMBO J. 20: 5587-5594.

66.

Allakhverdiev S.I., Kinoshita M., Inaba M., Suzuki I., Murata N. (2001) Unsaturation of fatty acids in membrane lipids protects the photosynthetic machinery against the salt-induced damage in Synechococcus.Plant Physiol. 125: 1842-1853.

65.

Allakhverdiev S.I., Sakamoto A., Nishiyama Y., Murata N. (2000) Inactivation of photosystems I and II in response to osmotic stress in Synechococcus: Contribution of water channels. Plant Physiol. 122: 1201-1208.

64.

Allakhverdiev S.I., Sakamoto A., Nishiyama Y., Inaba M., Murata N. (2000) Ionic and osmotic effects of NaCl-induced inactivation of photosystems I and II in Synechococcussp. Plant Physiol. 123: 1047-1056.

63.

Hotchandani S., Ozdemir U., Allakhverdiev S.I.,Karacan N., Klimov V.V., Kamat P.V., Carpentier R. (2000) Redox characteristics of manganese and cobalt complexes obtained from pyridine N-oxide. Bioelectrochemistry 51: 175-180.

62.

Hotchandani S., Ozdemir U., Nasr, C., Allakhverdiev S.I.,Karacan N., Klimov V.V., Kamat P.V., Carpentier R. (1999) Redox characterization of schiff base manganese and cobalt complexes related to water-oxidizing complex of photosynthesis. Bioelectrochem. Bioenerg. 48: 53-59.

61.

Allakhverdiev S.I., Nishiyama Y., Suzuki I., Tasaka Y., Murata N. (1999) Genetic engineering of the unsaturation of fatty acids in membrane lipids alters the tolerance of Synechocystis to salt stress. Proc. Natl. Acad. Sci. USA 96: 5862-5867.

60.

Allakhverdiev S.I., Ozdemir U., Harnois J., Karacan N., Hotchandani S., Klimov. V.V., Murata N., Carpentier R. (1999) Reconstruction of the water-oxidizing complex in manganese depleted photosystem II preparations using mononuclear manganese complexes. Photochem. Photobiol. 70: 57-63.

59.

Allakhverdiev S.I., Klimov V.V. (1998) Photoreduction of NADP+ in photosystem II. J. Exp.Biol. 36: 535-538.

58.

Hulsebosch R.J., Allakhverdiev S.I., Klimov V.V., Picorel R., Hoff A. (1998) Effect of bicarbonate on the S2 multiline EPR signal of the oxygen-evolving complex in photosystem II membrane fragments. FEBS Lett. 424: 146-148.

57.

Yruela I., Allakhverdiev S.I., Ibara J.V., Klimov V.V. (1998) Bicarbonate binding to the water-oxidizing complex in thephotosystem II. A Fourier transform infrared spectroscopy study. FEBS Lett. 425: 396-400.

56.

Allakhverdiev S.I., Yruela Y., Picorel R., Klimov V.V. (1997) Bicarbonate is an essential constituent of the water-oxidizing complex of photosystem II. Proc. Natl. Acad. Sci. USA 94: 5050-5054.

55.

Allakhverdiev S.I., Klimov V.V., Carpentier R. (1997) Evidence for the involvement of cyclic electron transport in the protection of photosystem II against photoinactivation: influence of a new phenolic compound. Biochemistry (USA) 36: 4149-4154.

54.

Klimov V.V., Baranov S.V., Allakhverdiev S.I. (1997) Bicarbonate protects the donor side of photosystem II against photoinhibition and thermoinactivation. FEBS Lett. 418: 243-246.

53.

Allakhverdiev S.I., Feyziev Y.M., Ahmed A., Hayashi H., Aliev Ja.A., Klimov V.V., Murata N., Carpentier R. (1996) Stabilization of oxygen evolution and primary electron transport reactions in photosystem II against heat stress with glycine­betaine and sucrose. J. Photochem. Photobiol. 34: 149-157.

52.

Klimov V.V., Hulsebosch B., Allakhverdiev S.I., Wincencjusz H., van Gorkom H.J., Hoff A. (1997) Bicarbonate may be required for ligation of manganese in the oxygen-evolving complex of photosystem II. Biochemistry(USA) 36: 16277-16281.

51.

Wincencjusz H., Allakhverdiev S.I.,Klimov V.V., van Gorkom H.J. (1996) Bicarbonate-reversible formate inhibition at the donor side of photosystem II. Biochim. Biophys. Acta 1273: 1-3.

50.

Klimov V.V., Allakhverdiev S.I., Feyziev Y.M., Baranov S.V. (1995) Bicarbonate requirement for the donor side of photosystem II. FEBS Letters 363: 251-255.

49.

Klimov V.V., Allakhverdiev S.I., Baranov S.B., Feyziev Y.M. (1995) Effects of bicarbonate and formate on the donor side of photosystem II. Photosynth. Res. 46: 219-225.

48.

Жармухамедов С.К., Климов В.В., Аллахвердиев С.И. (1995) Отсутствие конкуренции за место связывания между диуроном и новыми ингибиторами переноса электрона в фотосистеме 2 – производными перфторизопропилдинитробензола. Биохимия 60: 962-969.

47.

Климов В.В., Фейзиев Я.М., Аллахвердиев С.И., Клеваник А.В. (1994) Миллисекундная замедленная люминесценция хлорофилла фотосистемы 2 в восстановительных условиях. 1. Условия выявления, время жизни и энергия активации. Биологические мембраны 11: 140-147.

46.

Allakhverdiev S.I., Karacan M.S., Somer G., Karacan N., Khan E.M., Rane S.Y., Padhye S., Klimov V.V., Renger G. (1994) Binuclear manganese(III) complexes as electron donors in D1/D2/cytochrome b559 preparations isolated from spinach photosystem II membrane fragments. Z. Naturforsch. 49C: 587-592.

45.

Еланская И.В., Аллахвердиев С.И., Бойченко В.А., Климов В.В., Деметер Ш., Тимофеев К.Н., Шестаков С.В. (1994) Фотохимические характеристики мутантов цианобактерии  Synechocystis sp. PCC 6803 с нарушениями белков фотосистемы 2. Биохимия 59: 1245-1253.

44.

Allakhverdiev S.I., Ahmed A., Tajmir-Riahi H.-A., Klimov V.V., Carpentier R. (1994) Light-induced Fourier transform infrared spectrum of the cation radical P680+. FEBS Lett. 339: 151-154.

43.

Allakhverdiev S.I., Karacan M.S., Somer G., Karacan N., Khan E.M., Rane S.Y., Padhye S., Klimov V.V., Renger G. (1994)Reconstitution of the water oxidizing complex in manganese depleted photosystem II complexes by using synthetic binuclear manganese complexes. Biochemistry (USA) 33: 12210-12214.

42.

Allakhverdiev S.I., Klimov V.V., Carpentier R. (1994) Variable thermal emission and chlorophyll fluorescence in photosystem II particles. Proc. Natl.Acad. Sci. USA 91: 281-285.

41.

Климов В.В., Жармухамедов С.К., Аллахвердиев С.И., Колобанова Л.П., Баскаков Ю.А. (1993) Новая группа ингибиторов переноса электрона в фотосистеме 2 растений. 1. Химическая структура и эффективность ингибирования.Биологические мембраны 10: 565-570.

40.

Allakhverdiev S.I., Komenda J., Feyziev Y.M., Nedbal L., Klimov V.V. (1993) Photoinactivation of isolated D1/D2/cytochrome b559 complex under aerobic andanaerobic conditions. Photosynthetica 28: 281-288.

39.

Alakhverdiev S.I, Hayashi H., Fujimura Y., Klimov V.V., Murata N. (1993) Inactivation of photosynthetic oxygen evolution by o-phenantroline and LiClO4 in photosystem II of the pea. Photosynth. Res. 35: 345-349.

38.

Аллахвердиев С.И., Пронина Н.А., Фалькович Т.Н., Климов В.В., Семененко В.Е. (1993) Фотоинактивация фотохимической активности препаратов фотосистемы 2, изолированных из клеток Dunaliella salina.Физиология растений 40: 199-203.

37.

Аллахвердиев С.И., Деметер Ш., Климов В.В. (1993) Влияние химической модификации тирозина и гистидина на полосы термолюминесценции ТЛ-55 и ТЛ-25 в препаратах фотосистемы 2 высших растений. Биологические мембраны 10: 483-493.

36.

Аллахвердиев С.И., Мальцев С.В., Фейзиев Я.М., Климов В.В. (1992) Повышение термоустойчивости фотохимических реакций субхлоропластных препаратов фотосистемы 2 после полного удаления марганца. Биологические мембраны 9: 12-18.

35.

Allakhverdiev S.I., Klimov V.V., Demeter S. (1992) Thermoluminescence evidence for light-induced oxidation of tyrosine and histidine residues in manganese depleted photosystem II particles. FEBS Lett., 297: 51-54.

34.

Аллахвердиев С.И., Козлов Ю.Н., Ель-Шейх М.М., Деметер Ш., Климов В.В. (1992) Влияние химической модификации тирозина и гистидина в изолированном реакционном центре фотосистемы 2 на термолюминесценцию ТЛ55.Биологические мембраны 9: 904-914.

33.

Allakhverdiev S.I., Klimov V.V. (1992) Photoreduction of NADP+ in photosystem II of higher plants: requirement for manganese. Z. Naturforsch. 47c: 57-62.

32.

Климов В.В., Жармухамедов С.К., Аллахвердиев С.И., Колобанова Л.П., Баскаков Ю.А. (1992) Новые фенольные ингибиторы переноса электрона в фотосистеме 2 растений. Биологические мембраны 9: 565-575.

31.

Клеваник А.В., Фейзиев Я.М., Аллахвердиев С.И., Шувалов В.А., Климов В.В. (1991) О природе переменной флуоресценции хлорофилла фотосистемы 2 высших растений. Биологические мембраны 8: 1053-1065.

30.

Ладыгин В.Г., Аллахвердиев С.И., Четвериков А.Г. (1990) Влияиние редукции светособирающего комплекса на величину фотосинтетической единицы и число реакционных центров фотосистем у мутантов Chlamydomonas reinhardtii. Биофизика 35: 280-284.

29.

Klimov V.V., Shafiev M.A., Allakhverdiev S.I. (1990) Photoinactivation of reactivation capacity of photosystem 2 in the subchloroplast particles after a complete removal of manganese. Photosynth. Res. 23: 59-65.

28.

Аллахвердиев С.И., Климов В.В. (1990) Фотовосстановление NADP+ в субхлоропластных препаратах фотосистемы 2 высших растений. Биологические мембраны  7: 497-505.

27.

Setlik I., Allakhverdiev S.I., Nedbal L., Setlikova E., Klimov V.V. (1990) Three types of photosystem 2 photoinactivation. I. Damaging processes on the acceptor side. Photosynth. Res. 23: 39-48.

26.

Губанова О.В., Аллахвердиев С.И., Киселев Б.А., Климов В.В. (1989) Окислительно-восстановительное взаимодействие ионола (butylated hydroxytoluole) с фотосистемы 2. Докл. АН СССР 306: 991-995.

25.

Аллахвердиев С.И., Куликов А.В., Климов В.В., Богатыренко В.Р., Лихтенштейн Г.И. (1989) Определение глубины погружения хлорофилла П680, феофитина и вторичного донора электрона в субхлоропластных препаратах фотосистемы 2 гороха. Биофизика 34: 434-438.

24.

Аллахвердиев С.И., Жармухамедов С.К., Климов В.В., Васильев С.С., Корватовский Б.Н., Пащенко В.З. (1989) Влияние диносеба и других фенольных соединений на кинетику затухания флуоресценции хлорофилла фотосистемы 2 высших растений. Биологические мембраны 6: 1147-1153.

23.

Климов В.В., Аллахвердиев С.И., Жармухамедов С.К. (1989) Окислительно-восстановительное взаимодействие фенольного гербицида диносеба с парой [П680 Фф] в реакционном центре фотосистемы 2 растений. Физиология растений 36: 770-778.

22.

Климов В.В., Шафиев М.А., Аллахвердиев С.И. (1989) Фотоинактивация фотосистемы 2 в субхлоропластных частицах после полного удаления марганца. Физиология растений 36: 1073-1079.

21.

Allakhverdiev S.I., Muzafarov E.N., Klimov V.V. (1989) Effect of quercetin on electron transfer in photosystem II and photosystem I of pea chloroplasts. Photosynthetica 34: 517-523.

20.

Аллахвердиев С.И., Климов В.В., Ладыгин В.Г. (1988) Фотовосстановление феофитина в реакционных центрах фотосистемы 2 целых клеток зеленых водорослей и цианобактерий в анаэробных условиях. Биофизика  33: 442-447.

19.

Аллахвердиев С.И., Климов В.В., Проскуряков И.И. (1988) Сигнал ЭПР фотосистемы 2 после полного удаления марганца из субхлоропластных частиц. Биофизика 33: 600-603.

18.

Maltsev S.V., Allakhverdiev S.I., Klimov V.V., Krasnovsky A.A. (1988) Hydrogen evolution by subchloroplast preparations of photosystemII from pea and spinach. FEBS Lett. 240: 1-5.

17.

Ладыгин В.Г., Аллахвердиев С.И., Ананьев Г.М., Климов В.В., Мальцев С.В., Четвериков А.Г. (1988) Функциональная характеристика фотосистемы II мутантов Chlamydomonas reinhardii, не содержащих светособирающего комплекса и фотосистемы I. Физиология растений 35: 14-23.

16.

Шафиев М.А., Ананьев Г.М., Аллахвердиев С.И., Смолова Т.Н., Климов В.В. (1988) Реактивация функции выделения кислорода после полного удаления марганца из препаратов фотосистемы 2. Биофизика 33: 61-65.

15.

Куликов А.В., Юданова Е.И., Лихтенштейн Г.И., Аллахвердиев С.И., Климов В.В. (1988) Изучение процесса выделения кислорода в хлоропластах гороха методом спиновых меток. Биофизика 33: 984-989.

14.

Allakhverdiev S.I., Setlikova E., Klimov V.V., Setlik I. (1987) In photoinhibited photosystem II particles pheophytin photoreduction remains unimpaired. FEBS Lett. 226: 186-190.

13.

Klimov V.V., Allakhverdiev S.I., Ladygin V.G. (1987) Photoreduction of pheophytin in photosystem II reaction centers under anaerobic conditions. Proc. Indian Natl. Sci. Acad. B53: 385-389.

12.

Бойченко В.А., Аллахвердиев С.И., Ладыгин В.Г., Климов В.В. (1986) Функциональное сопряжение гидрогеназы с фотосистемой 2 в целых клетках мутантов Chlamydomonas reinhardii.Докл. АН СССР 290: 995-998.

11.

Klimov V.V., Allakhverdiev S.I., Ladygin V.G. (1986) Photoreduction of pheophytin in photosystem II of the whole cells of green algae and cyanobacteria. Photosynth. Res. 10: 355-361.

10.

Allakhverdiev S.I., Shafiev M.A., Klimov V.V. (1986) Effect of reversible extraction of manganese on photooxidation of chlorophyll P680 in photosystem II preparations. Photobiochem. Photobiophys. 12: 61-65.

9.

Klimov V.V., Allakhverdiev S.I., Shafiev M.A., Demeter S. (1985) Effect of complete extraction and re-addition of manganese on thermoluminescence of pea photosystem II preparations. Biochim. Biophys. Acta 809: 414-420

8.

Аллахвердиев С.И., Шафиев М.А., Климов В.В. (1985) Влияние экстрагирования и последующего добавления ионов марганца на фотоокисление хлорофилла П680 в препаратах фотосистемы 2. Биофизика 31: 223-226.

7.

Аллахвердиев С.И., Клеваник А.В., Климов В.В., Шувалов В.А., Красновский А.А. (1983) Определение число атомов марганца, функционируюших в донорной части фотосистемы 2. Биофизика 28: 5-8.

6.

Куликов А.В., Богатыренко В.Р.. Лихтенштейн Г.И., Аллахвердиев С.И., Климов В.В., Шувалов В.А., Красновский А.А. (1983) Магнитное взаимодействие марганца с анион-радикалом феофитина и катион-радикалом хлорофилла в реакционных центрах фотосистемы 2. Биофизика 28: 357-363.

5.

Klimov V.V., Allakhverdiev S.I., Shuvalov V.A., Krasnovsky A.A. (1982) Effect of extraction and re-addition of manganese on light reactions of photosystem II preparations. FEBS Lett. 148: 307-312.

4.

Климов В.В., Аллахвердиев С.И., Шутилова Н.И., Красновский А.А. (1980) Исследование фотовосстановления феофитина и фотоокисления хлорофилла П680 на препаратах фотосистемы 2 из хлоропластов гороха и Chlamydomonas reinhardi. Физиология растений 27: 315-326.

3.

Климов В.В., Аллахвердиев С.И., Красновский А.А. (1979) Сигнал ЭПР при фотовосстановление феофитина в реакционных центрах фотосистемы 2 хлоропластов. Докл. АН СССР 249: 485-488.

2.

Климов В.В., Аллахвердиев С.И., Деметер Ш., Красновский А.А. (1979) Фотовосстановление феофитина в фотосистеме 2 хлоропластов в зависимости от окислительно-восстановительного потенциала среды. Докл. АН СССР 249: 227-230.

1.

Климов В.В., Аллахвердиев С.И., Пащенко В.З. (1978) Измерение энергии активации и времени жизни флуоресценции хлорофилла фотосистеме 2. Докл. АН СССР 242: 1204-1205.