Sho Ichi Higashi scite author profile

Using tobacco plants that had been transformed with the cDNA for glycerol-3-phosphate acyltransferase, we have demonstrated that chilling tolerance is affected by the levels of unsaturated membrane lipids. In the present study, we examined the effects of the transformation of tobacco plants with cDNA for glycerol-3-phosphate acyltransferase from squash on the unsaturation of fatty acids in thylakoid membrane lipids and the response of photosynthesis to various temperatures. Of the four major lipid classes isolated from the thylakoid membranes, phosphatidylglycerol showed the most conspicuous decrease in the level of unsaturation in the transformed plants. The isolated thylakoid membranes from wild-type and transgenic plants did not significantly differ from each other in terms of the sensitivity of photosystem II to high and low temperatures and also to photoinhibition. However, leaves of the transformed plants were more sensitive to photoinhibition than those of wild-type plants. Moreover, the recovery of photosynthesis from photoinhibition in leaves of wild-type plants was faster than that in leaves of the transgenic tobacco plants. These results suggest that unsaturation of fatty acids of phosphatidylglycerol in thylakoid membranes stabilizes the photosynthetic machinery against low-temperature photoinhibition by accelerating the recovery of the photosystem II protein complex.The sensitivity of higher plants to chilling is closely correlated with the degree of unsaturation of the fatty acids in the thylakoid membranes of their chloroplasts (1-4). We have demonstrated that both the unsaturation of thylakoid membrane lipids and chilling sensitivity are significantly affected upon transformation of tobacco plants with cDNAs for glycerol-3-phosphate acyltransferases from squash andArabidopsis (5). In particular, the extent of unsaturation of phosphatidylglycerol (PG) was most effectively modified, and this change appears responsible for modification of the ability to tolerate low temperatures.Photosynthesis at low temperature is impeded when plants are exposed to light (6). This phenomenon is known as low-temperature photoinhibition. The main target for photoinhibition is the photosystem (PS) II protein complex (7). Impairment of electron transport is caused by irreversible damage to the Dl protein, which is one of the heterodimeric polypeptides of the PS II reaction center complex (8, 9).Using a cyanobacterial transformation system (10-13), we have demonstrated that a decrease in the unsaturation of membrane lipids by mutation of fatty-acid desaturases enhances the sensitivity to chilling of cyanobacterial cells. This phenomenon is explained by the depression of photoinhibition in vivo as a result of the unsaturation of membrane lipids. This inference was confirmed in another cyanobacterial system in The publication costs of this article were defrayed in part by page charge payment. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. §1734 solely to indicate this fac...

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Equal-quantum Action Spectra Indicate Fluence-rate–selective Action of Multiple Photoreceptors for Photomovement of the Thermophilic Cyanobacterium Synechococcus elongatus¶

Kondou

Nakazawa²,

Higashi

et al. 2001

Photochem Photobiol

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Unicellular thermophilic cyanobacterium Synechococcus elongatus displayed phototaxis on agar plate at 55 degrees C. Equal-quantum action spectra for phototactic migration were determined at various fluence rates using the Okazaki Large Spectrograph as the light source. The shapes of the action spectra drastically changed depending on the fluence rate of the unilateral monochromatic irradiation: at a low fluence rate (3 mumol/m2/s), only lights in the red region had significant effect; at a medium fluence rate (10 mumol/m2/s), four major action peaks were observed at 530 nm (green), 570 nm (yellow), 640 nm (red) and 680 nm (red). At high fluence rates (30-90 mumol/m2/s), the former two peaks remained, while red peaks at 640 nm and 680 nm disappeared and, interestingly, an action peak around 700-740 nm (far-red) newly appeared. These results indicate that two or more distinct photoreceptors are involved in the phototaxis and that suitable photoreceptors are selectively active in response to the stimulus of light fluence rates. Far-red or red background lights irradiated vertically from above drastically inhibited phototaxis toward red light or far-red light, respectively. These results indicate involvement of some phytochrome(s).

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Untitled

Yokoi

Higashi

Kishitani

et al. 1998

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Somatic cell mutations caused by 365 nm LED-UVA due to DNA double-strand breaks through oxidative damage

Fang

Ide

Higashi

et al. 2014

Photochem Photobiol Sci

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Evidence is accumulating indicating that UVA (320-400 nm ultraviolet light) plays an important role in photo-carcinogenesis. UVA is thought to produce reactive oxygen species in irradiated cells through photo-activation of inherent photosensitizers, and was recently reported to cause DNA double-strand breaks (DSBs) in exposed cells. We have investigated the involvement of UVA in mutations and DNA damage in somatic cells using Drosophila melanogaster larvae. Using the Okazaki Large Spectrograph, we previously observed that longer wavelength UVA (>330 nm) was more mutagenic in post-replication repair-deficient D. melanogaster (mei-41) than in the nucleotide excision repair-deficient strain (mei-9). LED-light has recently been developed as a high-dose-rate UVA source. LED-UVA light (365 nm) was also more mutagenic in mei-41 than in mei-9. The mei-41 gene was shown to be an orthologue of the human ATR gene, which is involved in the repair of DSBs through phosphorylation of histone H2AX. In order to estimate the extent to which oxidative damage contributes to mutation, we established a new D. melanogaster strain (urate-null mutant) that is sensitive to oxidative damage and has a marker to detect somatic cell mutations. When somatic cell mutations were examined using this strain, LED-UVA was mutagenic in the urate-null strain at doses that were non-mutagenic in the urate-positive strain. In an effort to investigate the generation of DSBs, we examined the presence of phosphorylated histone H2AvD (H2AX D. melanogaster homologue). At high doses of LED-UVA (>800 kJ m(-2)), levels of phosphorylated H2AvD (γ-H2AvD) increased significantly in the urate-null strain. Moreover, the level of γ-H2AvD increased in the excision repair-deficient strain but not in the ATR-deficient strain following UVA-irradiation. These results supported the notion that the generation of γ-H2AvD was mediated by the function of the mei-41 gene. It was reported that ATR functions on DSB repair in D. melanogaster. Taken together, we propose a possible pathway for UVA-induced mutation, whereby DNA double-strand breaks resulting from oxidative stress might be responsible for UVA-induced mutation in somatic cells of D. melanogaster larvae.

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Sho Ichi Higashi

Unsaturation of the membrane lipids of chloroplasts stabilizes the photosynthetic machinery against low-temperature photoinhibition in transgenic tobacco plants.

Equal-quantum Action Spectra Indicate Fluence-rate–selective Action of Multiple Photoreceptors for Photomovement of the Thermophilic Cyanobacterium Synechococcus elongatus¶

Untitled

Somatic cell mutations caused by 365 nm LED-UVA due to DNA double-strand breaks through oxidative damage

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