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  1. phyA-GFP is spectroscopically and photochemically similar to phyA and comprises both its native types, phyA’ and phyA”
  2. Tyrosine 263 in Cyanobacterial Phytochrome Cph1 Optimizes Photochemistry at the prelumi‐R→lumi‐R Step
  3. Fern Adiantum capillus-veneris phytochrome 1 comprises two native photochemical types similar to seed plant phytochrome A
  4. Protein Phosphatase Activity and Acidic/Alkaline Balance as Factors Regulating the State of Phytochrome A and its Two Native Pools in the Plant Cell
  5. Spectroscopy and a High-Resolution Crystal Structure of Tyr263 Mutants of Cyanobacterial Phytochrome Cph1
  6. Spectroscopic and Photochemical Characterization of the Red-Light Sensitive Photosensory Module of Cph2 from Synechocystis PCC 6803
  7. Fluorescence and Photochemical Investigations of Phytochrome in Higher Plants
  8. Extreme dehydration of plant tissues irreversibly converts the major and variable phyA′ into the minor and conserved phyA″
  9. Functional and Biochemical Analysis of the N-terminal Domain of Phytochrome A
  10. Two Native Pools of Phytochrome A in Monocots: Evidence from Fluorescence Investigations of Phytochrome Mutants of Rice
  11. Polymorphism of Phytochrome A and Its Functional Implications
  12. The jasmonate-free rice mutant hebiba is affected in the response of phyA′/phyA″ pools and protochlorophyllide biosynthesis to far-red light
  13. Two modes of the light-induced phytochrome A decline – with and without changes in the proportion of its isoforms (phyA′ and phyA″): evidence from fluorescence investigations of mutant phyA-3D pea
  14. PKS1 and PKS2 affect the phyA state in etiolated Arabidopsis seedlings
  15. Phytochrome A: functional diversity and polymorphism
  16. Up-regulation by phytochrome A of the active protochlorophyllide, Pchlide655, biosynthesis in dicots under far-red light
  17. Fluorescence investigation of the recombinant cyanobacterial phytochrome (Cph1) and its C-terminally truncated monomeric species (Cph1Δ2): implication for holoprotein assembly, chromophore–apoprotein interaction and photochemistry
  18. Fluorescence and photochemical properties of phytochromes in wild‐type wheat and a transgenic line overexpressing an oat phytochrome A (PHYA) gene: functional implications
  19. Recombinant Phytochrome A in Yeast Differs by its Spectroscopic and Photochemical Properties from the Major phyA′ and is Close to the Minor phyA″: Evidence for Posttranslational Modification of the Pigment in Plants¶
  20. Fluorescence and photochemical characterization of phytochromes A and B in transgenic potato expressing Arabidopsis phytochrome B
  21. Recombinant phytochrome of the moss Ceratodon purpureus (CP2): fluorescence spectroscopy and photochemistry
  22. Fluorescence Analysis of Oat phyA Deletion Mutants Expressed in Tobacco Suggests that the N‐Terminal Domain Determines the Photochemical and Spectroscopic Distinctions between phyA′ and phyA″†
  23. Fluorescence and photochemical properties of phytochromes A and B in etiolated pea seedlings
  24. Phytochromes: molecular structure, photoreceptor process and physiological function
  25. Fluorescence Analysis of Oat phyA Deletion Mutants Expressed in Tobacco Suggests that the N-Terminal Domain Determines the Photochemical and Spectroscopic Distinctions between phyA′ and phyA′′
  26. Fluorescence and Photochemistry of Recombinant Phytochrome from the Cyanobacterium Synechocystis
  27. Fluorescence spectroscopy and photochemistry of phytochromes A and B in wild-type, mutant and transgenic strains of Arabidopsis thaliana
  28. Fluorescence and Photochemistry of Recombinant Phytochrome from the Cyanobacterium Synechocystis
  29. Comparative investigations of the effect of 5-aminolevulinate feeding on phytochrome and protochlorophyll(ide) content in dark-grown seedlings of barley, cucumber and cress
  30. Phytochrome states in transgenic potato plants with altered phytochrome A levels
  31. Fluorescence and photochemical characterization of phytochrome in de-etiolated pea mutant lip
  32. Evidence for the existence of two phytochrome A populations
  33. Photobiophysics and photobiochemistry of the heterogeneous phytochrome system
  34. EVIDENCE FOR THE EXISTENCE OF MEMBRANE‐ASSOCIATED PHYTOCHROME IN THE CELL
  35. Fluorometric characterization of pigments associated with isolated flagella of Euglena gracilis: Evidence for energy migration
  36. TWO SPECTROSCOPICALLY AND PHOTOCHEMICALLY DISTINGUISHABLE PHYTOCHROMES IN ETIOLATED SEEDLINGS OF MONOCOTS AND DICOTS *
  37. PHYTOCHROME STATES IN ETIOLATED PEA SEEDLINGS: FLUORESCENCE AND PRIMARY PHOTOREACTIONS AT LOW TEMPERATURES
  38. FLUORESCENCE SPECTROSCOPY OF STABLE AND LABILE PHYTOCHROME IN STEMS AND ROOTS OF ETIOLATED CRESS SEEDLINGS*
  39. Different photoactive states of the red phytochrome form in the cells of etiolated pea and oat seedlings
  40. Fluorescence studies of phytochrome in the cells of etiolated oat seedlings and 124-kDa phytochrome isolated from them
  41. FLUORESCENCE OF PHYTOCHROME IN THE CELLS OF DARK-GROWN PLANTS AND ITS CONNECTION WITH THE PHOTOTRANSFORMATIONS OF THE PIGMENT
  42. Photoreceptor electric potential in the phototaxis of the alga Haematococcus pluvialis
  43. Luminescence of bacteriorhodopsin from Halobacterium halobium and its connection with the photochemical conversions of the chromophore
  44. Molecular Organization of Chlorophyll and Energetics of the Initial Stages in Photosynthesis
  45. CHLOROPHYLL a AND CAROTENOID AGGREGATES AND ENERGY MIGRATION IN MONOLAYERS AND THIN FILMS