Abbreviations
- LHCI:
-
Light harvesting complex I
- PSI:
-
Photosystem I
- PSII:
-
Photosystem II
References
Andersson B, Aro EM (1997) Proteolytic activities and proteases of plant chloroplasts. Physiol Plant 100:780–793
Aroca R, Irigoyen JJ, Sànchez-Diaz M (2001) Photosynthetic characteristics and protective mechanisms against oxidative stress during chilling and subsequent recovery in two maize varieties differing in chilling sensitivity. Plant Sci 161:719–726
Ben-Shem A, Frolow F, Nelson N (2003) Crystal structure of plant photosystem I. Nature 426:630–635
Brettel K, Leibl W (2001) Electron transfer in photosystem I. Biochim Biophys Acta 1507:100–114
Bukhov NG, Govindachary S, Rajagopal S, Joly D, Carpentier R (2004) Enhanced rates of P700+ dark-reduction in leaves of Cucumis sativus L. photoinhibited at chilling temperature. Planta 218:852–861
Burnap RL (2004) D1 protein processing and Mn cluster assembly in light of the emerging photosystem II structure. Phys Chem Chem Phys 6:4803–4809
Choi SM, Jeong SW, Jeong WJ, Kwon SY, Chow WS, Park Y-I (2002) Chloroplast Cu/Zn-superoxide dismutase is a highly sensitive site in cucumber leaves chilled in the light. Planta 216:315–324
Endo T, Shikanai T, Takabayashi A, Asada K, Sato F (1999) The role of chloroplastic NAD(P)H dehydrogenase in photoprotection. FEBS Lett 457:5–8
Havaux M, Davaud A (1994) Photoinhibition of photosynthesis in chilled potato leaves is not correlated with a loss of Photosystem-II activity. Preferential inactivation of Photosystem I. Photosynth Res 40:75–92
Havaux M, Kloppstech K (2001) The protective functions of carotenoid and flavonoid pigments against excess visible radiation at chilling temperature investigated in Arabidopsis npq and tt mutants. Planta 213:953–966
Havaux M, Dall’Osto L, Cuiné S, Giuliano G, Bassi R (2004) The effect of zeaxanthin as the only xanthophyll on the structure and function of the photosynthetic apparatus in Arabidopsis thaliana. J Biol Chem 279:13878–13888
Hwang HJ, Kim J-H, Eu Y-J, Moon BY, Cho SH, Lee C-H (2004) Photoinhibition of photosystem I is accelerated by dimethyldithiocarbamate, an inhibitor of superoxide dismutase, during light-chilling of spinach leaves. J Photochem Photobiol B Biol 73:79–85
Ivanov AG, Morgan RM, Gray GR, Velitchkova MY, Huner NPA (1998) Temperature/light dependent development of selective resistance to photoinhibition of Photosystem I. FEBS Lett 430:288–292
Jakob B, Heber U (1996) Photoproduction and detoxification of hydroxyl radicals in chloroplasts and leaves and relation to photoinactivation of photosystems I and II. Plant Cell Physiol 37:629–635
Jensen PE, Haldrup A, Rosgaard L, Scheller HV (2003) Molecular dissection of photosystem I in higher plants: topology, structure and function. Physiol Plant 119:313–321
Jordan P, Fromme P, Witt HT, Klukas O, Saenger W, Krauss N (2001) Three-dimensional structure of cyanobacterial photosystem I at 2.5 Å resolution. Nature 411:909–917
Klimmek F, Ganeteg U, Ihalainen JA, van Roon H, Jensen PE, Scheller HV, Dekker JP, Jansson S (2005) The structure of higher plant LHCI—in vivo characterization and structural interdependence of the Lhca proteins. Biochemistry (in press)
Kudoh H, Sonoike K (2002) Irreversible damage to photosystem I by chilling in the light: cause of the degradation of chlorophyll after returning to normal growth temperature. Planta 215:541–548
Long SP, Humphries S, Falkowski PG (1994) Photoinhibition of photosynthesis in nature. Annu Rev Plant Physiol Plant Mol Biol 45:633–662
Melis A (1999) Photosystem-II damage and repair cycle in chloroplasts: what modulates the rate of photodamage in vivo? Trends Plant Sci 4:130–135
Munekage Y, Hojo M, Meurer J, Endo T, Tasaka M, Shikanai T (2002) PGR5 is involved in cyclic electron flow around photosystem I and is essential for photoprotection in Arabidopsis. Cell 110:361–371
Pfannschmidt T, Nilsson A, Allen JF (1999) Photosynthetic control of chloroplast gene expression. Nature 397:625–628
Sonoike K (1996) Degradation of PsaB gene product, the reaction centre subunit of photosystem I, is caused during photoinhibition of photosystem I: possible involvement of active oxygen species. Plant Sci 115:157–164
Sonoike K, Terashima I, Iwaki M, Itoh S (1995) Destruction of photosystem I iron–sulphur centres in leaves of Cucumis sativus L. by weak illumination at chilling temperatures. FEBS Lett 362:235–238
Sonoike K, Kamo M, Hihara Y, Hiyama T, Enami I (1997) The mechanism of the degradation of PsaB gene product, one of the photosynthetic reaction centre subunits of photosystem I, upon photoinhibition. Photosynth Res 53:55–63
Teicher HB, Møller BL, Scheller HV (2000) Photoinhibition of photosystem I in field-grown barley (Hordeum vulgare L.): induction, recovery and acclimation. Photosynth Res 64:53–61
Terashima I, Funayama S, Sonoike K (1994) The site of photoinhibition in leaves of Cucumis sativus L. at low temperatures is photosystem I, not photosystem II. Planta 193:300–306
Tjus SE, Møller BL, Scheller HV (1998) Photosystem I is an early target of photoinhibition in barley illuminated at chilling temperatures. Plant Physiol 116:755–764
Tjus SE, Møller BL, Scheller HV (1999) Photoinhibition of photosystem I damages both reaction centre proteins PSI-A and PSI-B and acceptor-side located small photosystem I polypeptides. Photosynth Res 60:75–86
Tjus SE, Scheller HV, Andersson B, Møller BL (2001) Active oxygen produced during selective excitation of photosystem I is damaging not only to photosystem I but also to photosystem II. Plant Physiol 125:2007–2015
Zhang S, Scheller HV (2004) Photoinhibition of PSI at chilling temperature and subsequent recovery in Arabidopsis thaliana. Plant Cell Physiol (in press)
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Scheller, H.V., Haldrup, A. Photoinhibition of photosystem I. Planta 221, 5–8 (2005). https://doi.org/10.1007/s00425-005-1507-7
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00425-005-1507-7