Reconstitution of chlorophyllide formation by isolated etioplast membranes

Griffiths, W. T.

doi:10.1042/bj1740681

Cited by 330 publications

(289 citation statements)

References 27 publications

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“…This NADPH-linked enzyme requires an excited protochlorophyllide substrate as part of its reaction mechanism (Griffiths, 1978). Thus, continuous illumination is required for continuous chlorophyll(ide) synthesis.…”

Section: Chlorophyll Synthesis Is Light-dependent In Most Angiospermsmentioning

confidence: 99%

Regulation of photosynthesis by reversible phosphorylation of the light-harvesting chlorophyll a/b protein

Bennett¹

1983

Biochemical Journal

272

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Section: Chlorophyll Synthesis Is Light-dependent In Most Angiospermsmentioning

confidence: 99%

Regulation of photosynthesis by reversible phosphorylation of the light-harvesting chlorophyll a/b protein

Bennett¹

1983

Biochemical Journal

272

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“…Griffiths and his coworkers [4,5] successfully used this sensitivity to establish the basic framework of relationships existing between the different ternary complexes formed between POR, PChlide/Chlide and NADP(H). The proposed relationship between the different POR complexes referred to in this paper, based on the generally accepted scheme of Oliver & Griffiths [5], is summarized in Fig.…”

Section: Different Spectral Forms Of Pormentioning

confidence: 99%

“…The NADPH binding properties of the photoconverted enzyme at pH 7.5 were investigated using the red-shift in the Chlide absorption maximum accompanying the displacement of bound NADP + by NADPH [4,5]. The samples were first photoconverted in the absence of excess NADPH to form the NADP + -bound enzyme.…”

Section: Nadph Binding Studiesmentioning

confidence: 99%

“…Isolated PLB show a similar pattern of spectroscopic changes immediately following illumination. The presence of excess NADPH, however, is required to ensure the replacement of the NADP + by NADPH and drive the absorption peak shift from 678 to 684 nm [4,5]. Under these conditions, no Shibata shift occurs and the PLB lack the ability to undergo the compositional and morphological changes seen in vivo.…”

mentioning

confidence: 99%

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The effects of low pH on the properties of protochlorophyllide oxidoreductase and the organization of prolamellar bodies of maize (Zea mays)

Selstam

Schelin

Brain

et al. 2002

European Journal of Biochemistry

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Prolamellar bodies (PLB) contain two photochemically active forms of the enzyme protochlorophyllide oxidoreductase POR-PChlide 640 and POR-PChlide 650 (the spectral forms of POR-Chlide complexes with absorption maxima at the indicated wavelengths). Resuspension of maize PLB in media with a pH below 6.8 leads to a rapid conversion of POR-PChlide 650 to POR-PChlide 640 and a dramatic re-organization of the PLB membrane system. In the absence of excess NADPH, the absorption maximum of the POR complex undergoes a further shift to about 635 nm. This latter shift is reversible on the re-addition of NADPH with a half-saturation value of about 0.25 mM NADPH for POR-PChlide 640 reformation. The disappearance of PORPChlide 650 and the reorganization of the PLB, however, are irreversible. Restoration of low-pH treated PLB to pH 7.5 leads to a further breakdown down of the PLB membrane and no reformation of POR-PChlide 650 . Related spectral changes are seen in PLB aged at room temperature at pH 7.5 in NADPH-free assay medium. The reformation of PORPChlide 650 in this system is readily reversible on re-addition of NADPH with a half-saturation value about 1.0 lM. Comparison of the two sets of changes suggest a close link between the stability of the POR-PChlide 650 , membrane organization and NADPH binding.The low-pH driven spectral changes seen in maize PLB are shown to be accelerated by adenosine AMP, ADP and ATP. The significance of this is discussed in terms of current suggestions of the possible involvement of phosphorylation (or adenylation) in changes in the aggregational state of the POR complex.Keywords: protochlorophyllide oxidoreductase; prolamellar body; protochlorophyllide; oxidoreductase; chlorophyllide.Plant prolamellar bodies (PLB) found in the etioplasts of dark-grown (etiolated) seedlings, are the precursors of the chloroplast thylakoid membrane. The PLB membrane is dominated by the presence of a single protein species, protochlorophyllide oxidoreductase (EC 1.3.1.33) (POR) that catalyses the light-driven, NADPH-dependent reduction of protochlorophyllide (PChlide) to chlorophyllide (Chlide). Analyses of the absorption spectrum of PLB [1] and low-temperature fluorescence spectra of etioplast inner membrane preparations (EPIM) and PLB [2], indicate the presence of three major pools of PChlide; a nonphotoconvertible form PChlide 628)633 and two photoconvertible forms PChlide 640)645 and PChlide 650)657 . The suffix numbers relate to the wavelengths of the absorption and emission maxima, respectively. To emphasize the fact that the two photoconvertible forms are bound to POR, they will be referred to here to as POR-PChlide 640 and POR-PChlide 650 .Under in vivo conditions, exposure of etioplasts to a flash of bright white light leads to a conversion of the photoconvertible PChlide pigments to Chlide resulting in a rapid shift of the main absorption maximum from 650 nm, initially to about 678 nm and then to 684 nm. Over a period of about 20 min, this absorption maximum shifts back to 672 nm. This latter shift, r...

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“…To determine the effect of chlorophyll on GFP fluorescence, 1 mg of high-performance liquid chromatography (HPLC)-purified chlorophyll a or b (Sigma, St Louis, MO, USA) was dissolved in 2 ml methanol containing 20 mg ml − 1 sodium (Na) cholate (Griffiths, 1978), dried in a Speed Vac Concentrator (Savant, Milford, MA, USA), and resolublized in 2 ml TE buffer. Various amounts of chlorophyll solution were then mixed with 1 µg of standard enhanced green fluorescent protein (EGFP) (Clontech) in a total volume of 1 ml TE buffer containing 20 mg ml − 1 Na cholate.…”

Section: Gfp Fluorometrymentioning

confidence: 99%

The dark side of green fluorescent protein

et al. 2005

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Summary• Here, severe interference of chlorophyll with green fluorescent protein (GFP) fluorescence is described for medicago ( Medicago truncatula ), rice ( Oryza sativa ) and arabidopsis ( Arabidopsis thaliana ). This interference disrupts the proportional relationship between GFP content and fluorescence that is intrinsic to its use as a quantitative reporter.• The involvement of chlorophyll in the loss of GFP fluorescence with leaf age was shown in vivo , by the removal of chlorophyll through etiolation or by ethanol extraction, and in vitro , by titration of a GFP solution with chlorophyll solutions of various concentrations.• A substantial decrease in fluorescence in early development of medicago and rice leaves correlated with chlorophyll accumulation. In all three species tested, removal of chlorophyll yielded up to a 10-fold increase in fluorescence. Loss of GFP fluorescence in vitro was 4-fold greater for chlorophyll b than for chlorophyll a.• Differences exist between plant species for the discrepancy between apparent GFP fluorescence and its actual level in green tissues. Substantial errors in estimating promoter activity from GFP fluorescence can occur if pigment interference is not considered.

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Reconstitution of chlorophyllide formation by isolated etioplast membranes

Cited by 330 publications

References 27 publications

Regulation of photosynthesis by reversible phosphorylation of the light-harvesting chlorophyll a/b protein

Regulation of photosynthesis by reversible phosphorylation of the light-harvesting chlorophyll a/b protein

The effects of low pH on the properties of protochlorophyllide oxidoreductase and the organization of prolamellar bodies of maize (Zea mays)

The dark side of green fluorescent protein

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