Mamoru Nango scite author profile

Cyanobacteria are the only bacterial species found to have a circadian clock. We used DNA microarrays to examine circadian expression patterns in the cyanobacterium Synechocystis sp. strain PCC 6803. Our analysis identified 54 (2%) and 237 (9%) genes that exhibited circadian rhythms under stringent and relaxed filtering conditions, respectively. The expression of most cycling genes peaked around the time of transition from subjective day to night, suggesting that the main role of the circadian clock in Synechocystis is to adjust the physiological state of the cell to the upcoming night environment. There were several chromosomal regions where neighboring genes were expressed with similar circadian patterns. The physiological functions of the cycling genes were diverse and included a wide variety of metabolic pathways, membrane transport, and signal transduction. Genes involved in respiration and poly(3-hydroxyalkanoate) synthesis showed coordinated circadian expression, suggesting that the regulation is important for the supply of energy and carbon source in the night. Genes involved in transcription and translation also followed circadian cycling patterns. These genes may be important for output of the rhythmic information generated by the circadian clock. Our findings provided critical insights into the importance of the circadian clock on cellular physiology and the mechanism of clock-controlled gene regulation.Circadian rhythm is a self-sustaining oscillation whose period length coincides with the 24-h day-night cycle. Many biological activities show circadian patterns, allowing organisms to adapt to daily fluctuations in the environment. Circadian rhythms are widespread and involve functions as diverse as human sleep-wake cycles and cyanobacterial nitrogen fixation. The molecular basis of circadian rhythms involves negative and positive feedback regulation of clock genes (16).Cyanobacteria are the only bacterial species found to have a circadian clock. Three clock genes, kaiA, kaiB, and kaiC, have been identified in Synechococcus sp. strain PCC 7942 (25). kaiB and kaiC form an operon and are coordinately transcribed, while kaiA is transcribed independently. All of the kai genes show circadian rhythms of expression. Continuous overexpression of kaiC represses expression of kaiBC, but overexpression of kaiA enhances expression of kaiBC. This suggests that kaiC is regulated by a negative feedback autoregulatory loop and that KaiA activates kaiBC expression, thus sustaining the cyclical expression of kaiBC (25).In cyanobacteria, activities as diverse as cell division, amino acid uptake, nitrogen fixation, respiration, and carbohydrate synthesis are under circadian control (18), but a clear mechanistic link between physiological rhythms and the regulation of output genes is still lacking. Promoter trap analyses were performed with two cyanobacterial species, Synechococcus sp. strain PCC 7942 (33) and Synechocystis sp. strain PCC 6803 (4). The percentage of rhythmic clones was lower in Synechocystis organisms (77...

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Enzymic and chemical cleavage of the core light-harvesting polypeptides of photosynthetic bacteria: Determination of the minimal polypeptide size and structure required for subunit and light-harvesting complex formation

Meadows¹,

Iida²,

Tsuda³

et al. 1995

Biochemistry

135

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To ascertain the minimal structural requirements for formation of the subunit and core light-harvesting complex (LH1), the alpha- and beta-polypeptides of the LH1 from three purple photosynthetic bacteria were enzymatically or chemically truncated or modified. These polypeptides were then used in reconstitution experiments with bacteriochlorophyll a (BChla), and the formation of subunit and LH1 complexes was evaluated using absorbance and circular dichroism spectroscopies. Truncation or modification outside of the conserved core sequence region of the polypeptides had no effect on subunit or LH1 formation. However, the extent of formation and stability of the subunit and LH1 decreased as the polypeptide was shortened inside the core region within the N-terminal domain. This behavior was suggested to be due to the loss of potential ion-pairing and/or hydrogen-bonding interactions between the polypeptides. While the spectroscopic properties of the subunit complexes generated using truncated polypeptides were analogous to those obtained using native polypeptides, in some cases the resulting LH1 complex absorption was blue-shifted relative to the control. Thus, truncation within the N-terminal domain may have long-range effects on the immediate BChla binding environment, since the putative BChla binding site resides near the C-terminal end of the polypeptides. It was also demonstrated that the His located within the membrane-spanning domain on the N-terminal end of the beta-polypeptide is not participating in ligation of the BChla in the reconstituted subunit and therefore probably not in LH1.

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Polycation liposomes, a novel nonviral gene transfer system, constructed from cetylated polyethylenimine

et al. 2000

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A novel gene transfer system was developed by using liposomes modified with cetylated polyethylenimine (PEI, MW 600). This polycation liposome, PCL, showed remarkable transfection efficiency as monitored by the expression of the GFP reporter gene. Most conventional cationic liposomes require phosphatidylethanolamine or cholesterol as a component, although PCLs did not. Egg yolk phosphatidylcholine-and dipalmitoylphosphatidylcholine-based PCL were as effective as dioleoylphosphatidylethanolaminebased PCLs for gene transfer. Concerning the cytotoxicity against COS-1 cells and hemolytic activity, the PCL was superior to conventional cationic liposome preparations. Fur-

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Self-Assembled Monolayer of Light-Harvesting Core Complexes from Photosynthetic Bacteria on a Gold Electrode Modified with Alkanethiols

et al. 2007

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Light-harvesting antenna core (LH1-RC) complexes isolated from Rhodoseudomonas palustris were self-assembled on a gold electrode modified with self-assembled monolayers (SAMs) of the alkanethiols NH2(CH2)nSH, n = 2, 6, 8, 11; HOOC(CH2)7SH; and CH3(CH2)7SH, respectively. Adsorption of the LH1-RC complexes on the SAMs depended on the terminating group of the alkanethiols, where the adsoption increased in the following order for the terminating groups: amino groups > carboxylic acid groups > methyl groups. Further, the adsorption on a gold electrode modified with SAMs of NH2(CH2)nSH, n = 2, 6, 8, 11, depended on the methylene chain length, where the adsorption increased with increasing the methylene chain length. The presence of the well-known light-harvesting and reaction center peaks of the near infrared (NIR) absorption spectra of the LH1-RC complexes indicated that these complexes were only fully stable on the SAM gold electrodes modified with the amino group. In the case of modification with the carboxyl group, the complexes were partially stable, while in the presence of the terminal methyl group the complexes were extensively denatured. An efficient photocurrent response of these complexes on the SAMs of NH2(CH2)nSH, n = 2, 6, 8, 11, was observed upon illumination at 880 nm. The photocurrent depended on the methylene chain length (n), where the maximum photocurrent response was observed at n = 6, which corresponds to a distance between the amino terminal group in NH2(CH2)6SH and the gold surface of 1.0 nm.

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Mamoru Nango

Global Analysis of Circadian Expression in the CyanobacteriumSynechocystissp. Strain PCC 6803

Enzymic and chemical cleavage of the core light-harvesting polypeptides of photosynthetic bacteria: Determination of the minimal polypeptide size and structure required for subunit and light-harvesting complex formation

Polycation liposomes, a novel nonviral gene transfer system, constructed from cetylated polyethylenimine

Self-Assembled Monolayer of Light-Harvesting Core Complexes from Photosynthetic Bacteria on a Gold Electrode Modified with Alkanethiols

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