Identification of genes encoding photoconvertible (Class I) water-soluble chlorophyll-binding proteins from <i>Chenopodium ficifolium</i>

Takahashi, Shingo; Abe, Eriko; Nakayama, Katsumi; Satoh, Hiroyuki

doi:10.1080/09168451.2014.972326

Cited by 3 publications

(5 citation statements)

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“…Subsequently, similar photoconvertible WSCPs were isolated from various plants of Chenopodiaceae, Amaranthaceae and Polygonaceae (Takamiya ; Takahashi et al . ). In addition to these photoconvertible WSCPs, Murata et al .…”

Section: Introductionmentioning

confidence: 97%

“…Class I WSCPs are members of the Domain Unknown Function (DUF) 538 superfamily (Takahashi et al . , ), while Class II WSCPs are members of the Kunitz‐type trypsin inhibitor family (Satoh et al . ; Bektas et al .…”

Section: Introductionmentioning

confidence: 99%

“…Chenopodium album WSCP (CaWSCP) had a unique photoconvertibility. Subsequently, similar photoconvertible WSCPs were isolated from various plants of Chenopodiaceae, Amaranthaceae and Polygonaceae (Takamiya 1973;Takahashi et al 2014a). In addition to these photoconvertible WSCPs, found a non-photoconvertible WSCP in cauliflower (Brassica oleracea var.…”

Section: Introductionmentioning

confidence: 99%

“…Class I WSCPs are members of the Domain Unknown Function (DUF) 538 superfamily (Takahashi et al 2013b(Takahashi et al , 2014a, while Class II WSCPs are members of the Kunitz-type trypsin inhibitor family (Satoh et al 1998;Bektas et al 2012;Takahashi et al 2012Takahashi et al , 2013a. There is no homology between Class I and Class II WSCPs.…”

Section: Introductionmentioning

confidence: 99%

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Are tyrosine residues involved in the photoconversion of the water‐soluble chlorophyll‐binding protein ofChenopodium album?

et al. 2015

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Non-photosynthetic and hydrophilic chlorophyll (Chl) proteins, called water-soluble Chl-binding proteins (WSCPs), are distributed in various species of Chenopodiaceae, Amaranthaceae, Polygonaceae and Brassicaceae. Based on their photoconvertibility, WSCPs are categorised into two classes: Class I (photoconvertible) and Class II (non-photoconvertible). Chenopodium album WSCP (CaWSCP; Class I) is able to convert the chlorin skeleton of Chl a into a bacteriochlorin-like skeleton under light in the presence of molecular oxygen. Potassium iodide (KI) is a strong inhibitor of the photoconversion. Because KI attacks tyrosine residues in proteins, tyrosine residues in CaWSCP are considered to be important amino acid residues for the photoconversion. Recently, we identified the gene encoding CaWSCP and found that the mature region of CaWSCP contained four tyrosine residues: Tyr13, Tyr14, Tyr87 and Tyr134. To gain insight into the effect of the tyrosine residues on the photoconversion, we constructed 15 mutant proteins (Y13A, Y14A, Y87A, Y134A, Y13-14A, Y13-87A, Y13-134A, Y14-87A, Y14-134A, Y87-134A, Y13-14-87A, Y13-14-134A, Y13-87-134A, Y14-87-134A and Y13-14-87-134A) using site-directed mutagenesis. Amazingly, all the mutant proteins retained not only chlorophyll-binding activity, but also photoconvertibility. Furthermore, we found that KI strongly inhibited the photoconversion of Y13-14-87-134A. These findings indicated that the four tyrosine residues are not essential for the photoconversion.

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Section: Introductionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Are tyrosine residues involved in the photoconversion of the water‐soluble chlorophyll‐binding protein ofChenopodium album?

et al. 2015

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“…2−4) Based on their photoconvertibility, WSCPs can be categorized into two classes, Class I (photoconvertible type) and Class II (non-photoconvertible type). 1) Sequence analyses revealed that Chenopodium album WSCP (CaWSCP), a Class I WSCP, is a member of the domain unknown function 538 superfamily 5,6) while all Class II WSCPs belong to the Kunitz-type trypsin inhibitor family. 1,3,7−10) There have been various studies on the biochemical and physicochemical properties of Class I WSCPs, including CaWSCP.…”

mentioning

confidence: 99%

Effect of near-infrared irradiation on photoconversion of the water-soluble chlorophyll-binding protein ofChenopodium album

Takahashi

Uchida

Nakayama

et al. 2015

Bioscience, Biotechnology, and Biochemistry

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We investigated the effects of near-infrared irradiation on the photoconversion of Chenopodium album water-soluble chlorophyll-binding protein (CaWSCP) in the presence of sodium hydrosulfite and found a further photoconversion from CP742 to CP763, a novel form of CaWSCP. Interestingly, one-third of the absorption peak at 668 nm was recovered in CP763, but re-irradiation under oxidative conditions eliminated the photo convertibility of CaWSCP.

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Water-soluble chlorophyll-binding proteins from Arabidopsis thaliana and Raphanus sativus target the endoplasmic reticulum body

et al. 2015

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BackgroundNon-photosynthetic chlorophyll (Chl) proteins called water-soluble Chl-binding proteins are distributed in Brassicaceae plants. Brassica oleracea WSCP (BoWSCP) and Lepidium virginicum WSCP (LvWSCP) are highly expressed in leaves and stems, while Arabidopsis thaliana WSCP (AtWSCP) and Raphanus sativus WSCP (RshWSCP) are highly transcribed in floral organs. BoWSCP and LvWSCP exist in the endoplasmic reticulum (ER) body. However, the subcellular localization of AtWSCP and RshWSCP is still unclear. To determine the subcellular localization of these WSCPs, we constructed transgenic plants expressing Venus-fused AtWSCP or RshWSCP.ResultsOpen reading frames corresponding to full-length AtWSCP and RshWSCP were cloned and ligated between the cauliflower mosaic virus 35S promoter and Venus, a gene encoding a yellow fluorescent protein. We introduced the constructs into A. thaliana by the floral dip method. We succeeded in constructing a number of transformants expressing Venus-fused chimeric AtWSCP (AtWSCP::Venus) or RshWSCP (RshWSCP::Venus). We detected fluorescence derived from the chimeric proteins using a fluorescence microscope system. In cotyledons, fluorescence derived from AtWSCP::Venus and RshWSCP::Venus was detected in spindle structures. The spindle structures altered their shape to a globular form under blue light excitation. In true leaves, the number of spindle structures was drastically reduced. These observations indicate that the spindle structure was the ER body.ConclusionsAtWSCP and RshWSCP have the potential for ER body targeting like BoWSCP and LvWSCP.

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Identification of genes encoding photoconvertible (Class I) water-soluble chlorophyll-binding proteins from Chenopodium ficifolium

Cited by 3 publications

References 30 publications

Are tyrosine residues involved in the photoconversion of the water‐soluble chlorophyll‐binding protein ofChenopodium album?

Are tyrosine residues involved in the photoconversion of the water‐soluble chlorophyll‐binding protein ofChenopodium album?

Effect of near-infrared irradiation on photoconversion of the water-soluble chlorophyll-binding protein ofChenopodium album

Water-soluble chlorophyll-binding proteins from Arabidopsis thaliana and Raphanus sativus target the endoplasmic reticulum body

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