The Intermediate Electron Acceptor A₁ of Photosystem I Phylloquinone (Vitamin K₁)

1. R Malkin (1995) Photosystem I electron transfer reactions Components and kinetics.In: DR Ort and CF Yocum (eds) Oxygenic Photosynthesis: The Light Reactions, pp. 313–332. Kluwer AcadPubl

   Google Scholar 

2. K Brettel (1997) Electron transfer and arrangement of the redox cofactors in photosystem I. Biochim Biophys Acta 1318: 322–373

   CAS  Google Scholar 

References

1. H Dam (1941) Vitamin K, its chemistry and physiology. Adv Enzymol 2: 285–324

   Google Scholar 

2. HK Lichtenthaler (1962) Vergleichende Bestimmungen der Vitamin K₁-gehalt in Bl ttern.Planta 57:731–753

   Article  CAS  Google Scholar 

3. HK Lichtenthaler and RB Park (1963) Chemical composition of chloroplast lamellae from spinach. Nature 198: 1070–1072

   CAS  Google Scholar 

4. H Dam and J Glavind (1964) Vitamin K in the plant. Biochem J 32: 485–487

   Google Scholar 

5. M Tevini and HK Lichtenthaler (1970) Untersuchungen ber die Pigment-und Lipochinonausstatung der zwei photosynthetischen Pigmentsysteme. Z Pflanzenphysiol 62:17–32

   CAS  Google Scholar 

6. E Interschick-Niebler and HK Lichtenthaler (1981) Partition of phylloquinone K1 between digitonin particles and chlorophyll-proteins of chloroplast membranes from Nicotiana tabacum. Z Naturforsch 36C: 276–283

   Google Scholar 

7. H-U Schoeder and W Lockau (1986) Phylloquinone copurifies with the large subunit of photosystem I. FEBS Lett 199: 23–27

   Article  CAS  Google Scholar 

8. Y Takahashi, K Hirota and S Katoh (1985) Multiple forms of P700-chlorophyll a-protein complexes from Synechococcus sp.: The iron, quinone and carotenoid contents. Photosynthesis Res 6: 183–192

   CAS  Google Scholar 

9. R Malkin (1986) On the function of two vitamin K₁molecules in the PS-l electron acceptor complex. FEBS Lett 208: 343–346

   CAS  Google Scholar 

10. J Petersen, D Stehlik, P Gast and MC Thurnauer (1987) Comparison of the electron spin polarized spectrum found in plant photosystem I and in iron-depleted bacterial reaction centers with time-resolved K-band EPR; Evidence that the photosystem I acceptor A₁is a quinone. Photosynthesis Res 14: 15–29

    CAS  Google Scholar 

11. RR Rustandi, SW Snyder, LL Feezel, TJ Michalski, JR Norris, MC Thurnauer and J Biggins (1992) Contribution of vitamin K₁to the electron spin polarization in spinach photosystem I. Biochemistry 29: 8030–8031

    Google Scholar 

12. H Bottin and P SØtif(1991) Inhibition of electron transport from A_oto A₁in photosystem I after treatment in darkness at low redox potential. Biochim Biophys Acta 1057: 331–336

    CAS  Google Scholar 

13. SW Snyder, RR Rustandi, J Biggins, JR Norris and MC Thurnauer (1991) Direct assignment of vitamin K₁as the secondary acceptor A₁in photosystem I. Proc Nat Acad Sci, USA 88: 9895–9896

    CAS  Google Scholar 

14. P SØtif, P Mathis and T V nng rd (1984) Photosystem I photochemistry at low temperature. Heterogeneity in pathways for electron transfer to the secondary acceptors and for recombination processes. Biochim Biophys Acta 767: 404–414

    Google Scholar 

15. K Brettel, P SØtif and P Mathis (1986) Flash-induced absorption changes in photosystem I at low temperature: evidence that the electron acceptor A₁is vitamin K₁. FEBS Lett 203: 220–224

    Article  CAS  Google Scholar 

16. B Ke (1972) The risetime of photoreduction, difference spectrum and oxidation-reduction potential of P430. Arch Biochem Biophys 152: 70–77

    Article  PubMed  CAS  Google Scholar 

17. RW Mansfield and MCW Evans (1986) UV optical difference spectrum associated with the reduction of electron acceptor A₁in photosystem I of higher plants. FEBS Lett 203: 225–229

    Article  CAS  Google Scholar 

18. PV Warren, JH Golbeck and JT Warden (1993) Charge recombination between P700⁺and A ^-₁ occurs directly to the ground state of P700 in a photosystem I core devoid of F_x,F_Band F_A. Biochemistry 32: 849–857

    PubMed  CAS  Google Scholar 

19. K Brettel and JH Golbeck (1995) Spectral and kinetic characterization of electron acceptor A₁in a photosystem I core devoid of iron-sulfur centers F_X,F_Band F_A. Photosynthesis Res 45: 183–193

    CAS  Google Scholar 

20. P SØtif and K Brettel (1993) Forward electron transfer from phylloquinone-A₁to iron-sulfur centers in spinach photosystem I. Biochemistry 32: 7846–7854

    Google Scholar 

21. K Brettel (1988) Electron transfer from A ^-₁ to an iron-sulfur center with t_1/2=200 ns at room temperature in photosystem I. Characterization by flash absorption spectroscopy. FEBS Lett 239: 93–98

    Article  CAS  Google Scholar 

22. K Brettel and MH Vos (1999) Spectroscopic resolution of the picosecond reduction kinetics of the secondary electron acceptor A₁in photosystem I. FEBS Lett 447: 315–317

    Article  PubMed  CAS  Google Scholar 

23. D Mi, S Lin and RE Blankenship (1999) Picosecond transient absorption spectroscopy in the blue spectral region of photosystem I. Biochemistry 38: 15231–15237

    Article  PubMed  CAS  Google Scholar 

24. P Mathis and P SØtif (1988) Kinetic studies on the function of A₁in the photosystem I reaction center. FEBS Lett 237: 65–68

    Article  CAS  Google Scholar 

25. Lagoutte, P SØtif and J Duranton (1984) Tentative identification of the apoproteins of iron-sulfur centers of photosystem I. FEBS Lett 174: 24–29

    Article  CAS  Google Scholar 

26. P SØtif and K Brettel (1993) Forward electron transfer from phylloquinone A₁to iron-sulfur centers in spinach photosystem I. Biochemistry 32: 7846–7854

    Google Scholar 

27. J Lneberg, P Fromme, P Jekow and E Schlodder (1994) Spectroscopic characterization of PS I core complexes from thermophilic Synechococcus sp. Identical reoxidation kinetics of A ^-₁ before and after removal of the iron-sulfur clusters F_Aand F_B. FEBS Lett 338: 197–202

    Google Scholar 

28. N Krauß W Hinrichs, I Witt, P Fromme, W Pritzkow, Z Dauter, C Betzel, KS Wilson, HT Witt and W Saenger (1993) Three-dimensional structure of system I of photosynthesis at 6^-resolution, Nature 361: 326–330

    Google Scholar 

29. W Leibl, B Toupance and J Breton (1995) Photoelectric characterization of forward electron transfer to ironsulfur centers in photosystem I. Biochemistry 34: 10237–10244

    Article  PubMed  CAS  Google Scholar 

30. P Mo^onne-Loccoz, P Heathcote, DJ Maclachlan, MC Berry, IH Davis, and MCW Evans (1994) Path of electron transfer in photosystem I: Direct evidence of forward electron transfer from A ^Ò₁ to Fe-S_x Biochemistry 33: 10037–10042

    Google Scholar 

31. A vd Est, C Bock, J Golbeck, K Brettel, P SÒtif, and D Stehlik (1994) Electron transfer from the acceptor A₁to the iron-sulfur centers in photosystem I as studied by transient EPR spectroscopy. Biochemistry 33:11789–11797

    PubMed  Google Scholar 

32. CH Bock, A vd Est, K Brettel, and D Stehlik (1989) Nanosecond electron transfer kinetics in photosystem I as obtained from transient EPR at room temperature. FEBS Lett 247: 91–96

    Article  CAS  Google Scholar 

33. I Sieckman, A vd Est, H Bottin, P SØtif and D Stehlik (1991) Nanosecond electron transfer kinetics in photosystem I following substitution of quinones for vitamin K1 as studied by time resolved EPR. FEBS Lett 284: 98–102

    Article  PubMed  CAS  Google Scholar 

34. S Itoh, M Iwaki and I Ikegami (1987) Extraction of vitamin K₁from photosystem I particles by treatment with diethyl ether and its effect on the A ^-₁ EPR signal and system I photochemistry. Biochim Biophys Acta 893: 508–516

    CAS  Google Scholar 

35. RW Mansfield, JAM Hubbard, JHA Nugent and MCW Evans (1987) Extraction of electron acceptor A₁from pea photosystem I. FEBS Lett 220:74–78

    Article  CAS  Google Scholar 

36. P SØtif, I Ikegami and J Biggins (1987) Light-induced charge separation in photosystem I at low temperature is not influenced by vitamin K-1. Biochim biophys Acta 894: 146–156

    Google Scholar 

37. J Biggins and P Mathis (1988) Functional role of vitamin K₁in photosystem I of the cyanobacterium Synechocystis 6803. Biochemistry 27: 1494–1500

    Article  PubMed  CAS  Google Scholar 

38. M Iwaki and S Itoh (1989) Electron transfer in spinach photosystem I reaction center containing benzo-, naphtho-and anthraquinones in place of phylloquinone. FEBS Lett 256:11–16

    Article  CAS  Google Scholar 

39. J Biggins (1990) Evaluation of selected benzoquinones, naphthoquinones, and anthraquinones as replacement for phylloquinone in the A₁acceptor site of the photosystem I reaction center. Biochemistry 29: 7259–7264

    Article  PubMed  CAS  Google Scholar 

40. S Itoh and M Iwaki (1991) Full replacement of the function of the secondary electron acceptor phylloquinone (=vitemin K₁) by non-quinone carbonyl compounds in green plant photosystem I photosynthetic reaction centers. Biochemistry 30: 5340–5346

    Article  PubMed  CAS  Google Scholar 

Download references