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61.
S. I. Allakhverdiev V. D. Kreslavski S. K. Zharmukhamedov R. A. Voloshin D. V. Korol’kova T. Tomo J.-R. Shen 《Biochemistry. Biokhimii?a》2016,81(3):201-212
The finding of unique Chl d- and Chl f-containing cyanobacteria in the last decade was a discovery in the area of biology of oxygenic photosynthetic organisms. Chl b, Chl c, and Chl f are considered to be accessory pigments found in antennae systems of photosynthetic organisms. They absorb energy and transfer it to the photosynthetic reaction center (RC), but do not participate in electron transport by the photosynthetic electron transport chain. However, Chl d as well as Chl a can operate not only in the light-harvesting complex, but also in the photosynthetic RC. The long-wavelength (Qy) Chl d and Chl f absorption band is shifted to longer wavelength (to 750 nm) compared to Chl a, which suggests the possibility for oxygenic photosynthesis in this spectral range. Such expansion of the photosynthetically active light range is important for the survival of cyanobacteria when the intensity of light not exceeding 700 nm is attenuated due to absorption by Chl a and other pigments. At the same time, energy storage efficiency in photosystem 2 for cyanobacteria containing Chl d and Chl f is not lower than that of cyanobacteria containing Chl a. Despite great interest in these unique chlorophylls, many questions related to functioning of such pigments in primary photosynthetic processes are still not elucidated. This review describes the latest advances in the field of Chl d and Chl f research and their role in primary photosynthetic processes of cyanobacteria. 相似文献
62.
63.
Schmitt Franz-Josef Campbell Züleyha Yenice Bui Mai Vi Hüls Anne Tomo Tatsuya Chen Min Maksimov Eugene G. Allakhverdiev Suleyman I. Friedrich Thomas 《Photosynthesis research》2019,139(1-3):185-201
Photosynthesis Research - The phototrophic cyanobacterium Halomicronema hongdechloris shows far-red light-induced accumulation of chlorophyll (Chl) f, but the involvement of the pigment in... 相似文献
64.
Hosoe T Nozawa K Kawahara N Fukushima K Nishimura K Miyaji M Kawai K 《Mycopathologia》1999,146(1):9-12
An indole derivative, schizocommunin, was isolated along with indigotin (indigo), indirubin, isatin, and tryptanthrin, from
the liquid culture medium in which a culture of Schizophyllum commune, isolated from the bronchus of a human patient with allergic bronchopulmonary mycosis, had been grown. The structure of schizocommunin
was established by spectroscopic investigation. Schizocommunin showed the strong cytotoxicity against murine lymphoma cells.
The assignments of the 1H- and 13C-NMR signals of indigotin were also listed.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
65.
Botelho MV Orlandi JM de Melo FL Mantovani MS Linhares RE Nozawa C 《Letters in applied microbiology》2004,39(2):174-177
AIMS: Chlorophyllin (CHLN) is a synthetic derivative of chlorophyll that possesses antimutagenic activity against several environmental contaminants. In the present study, CHLN was assayed for its capacity to prevent nuclear fragmentation (NF) in HEp-2 cells infected with poliovirus. METHODS AND RESULTS: CHLN was assayed at concentrations of 0.5 and 2.5 microg ml(-1), and NF was monitored using the comet assay and acridine orange staining. We demonstrated that CHLN reduced the percentage of NF in poliovirus-infected HEp-2 cells, when cells were treated with drug before infection or exposed continuously to drug. However, the highest degree of protection was achieved when the virus was exposed to CHLN before infection followed by protocol where infected cultures were continuously exposed to the drug after infection. CONCLUSIONS: It is suggested that CHLN primarily binds to the virus which inhibits cell penetration, thereby maintaining nuclear integrity. SIGNIFICANCE AND IMPACT OF THE STUDY: Considering that CHLN has several beneficial properties and no significant toxic effects in humans and animals, it would be an ideal candidate drug to test for antiviral activity. 相似文献
66.
Fujii N Nozawa T Igawa A Kato B Igarashi N Nonomura M Asanoi H Tazawa S Inoue M Inoue H 《American journal of physiology. Heart and circulatory physiology》2004,287(2):H760-H766
Abnormalities in energy metabolism may play an important role in the development of hypertensive heart failure. However, the transition from compensated hypertrophy to heart failure is not fully understood in terms of energy metabolism. In Dahl salt-sensitive (DS) and salt-resistant (DR) rats, myocardial fatty acid and glucose uptake values were determined using (131)I- or (125)I-labeled 9-methylpentadecanoic acid ((131)I- or (125)I-9MPA), and [(14)C]deoxyglucose ([(14)C]DG), fatty acid beta-oxidation was identified using thin-layer chromatography, and insulin-stimulated glucose-uptake was observed using a euglycemic hyperinsulinemic glucose clamp. Six-week-old rats were fed a diet that contained 8% NaCl, which resulted in development of compensated hypertrophy in DS rats at 12 wk of age and ultimately led to heart failure by 18 wk of age. Uptake of [(14)C]DG increased markedly with age in the DS rats, whereas (131)I-9MPA uptake was marginally but significantly increased only in animals aged 12 wk. The ratio of (125)I-9MPA beta-oxidation metabolites to total uptake in the DS rats was significantly lower (P < 0.05) at 12 (37%) and 18 (34%) wk compared with at 6 (45%) wk. Insulin increased [(14)C]DG uptake more than twofold in the DS rats at 6 wk, although this increase was markedly attenuated at 12 and 18 wk (11 and 8%, respectively). Our data suggest that in a hypertrophied heart before heart failure, fatty acid oxidation is impaired and the capacity to increase glucose uptake during insulin stimulation is markedly reduced. These changes in both glucose and fatty acid metabolism that occur in association with myocardial hypertrophy may have a pathogenic role in the subsequent development of heart failure. 相似文献
67.
Nameki N Yoneyama M Koshiba S Tochio N Inoue M Seki E Matsuda T Tomo Y Harada T Saito K Kobayashi N Yabuki T Aoki M Nunokawa E Matsuda N Sakagami N Terada T Shirouzu M Yoshida M Hirota H Osanai T Tanaka A Arakawa T Carninci P Kawai J Hayashizaki Y Kinoshita K Güntert P Kigawa T Yokoyama S 《Protein science : a publication of the Protein Society》2004,13(8):2089-2100
GCN2 is the alpha-subunit of the only translation initiation factor (eIF2alpha) kinase that appears in all eukaryotes. Its function requires an interaction with GCN1 via the domain at its N-terminus, which is termed the RWD domain after three major RWD-containing proteins: RING finger-containing proteins, WD-repeat-containing proteins, and yeast DEAD (DEXD)-like helicases. In this study, we determined the solution structure of the mouse GCN2 RWD domain using NMR spectroscopy. The structure forms an alpha + beta sandwich fold consisting of two layers: a four-stranded antiparallel beta-sheet, and three side-by-side alpha-helices, with an alphabetabetabetabetaalphaalpha topology. A characteristic YPXXXP motif, which always occurs in RWD domains, forms a stable loop including three consecutive beta-turns that overlap with each other by two residues (triple beta-turn). As putative binding sites with GCN1, a structure-based alignment allowed the identification of several surface residues in alpha-helix 3 that are characteristic of the GCN2 RWD domains. Despite the apparent absence of sequence similarity, the RWD structure significantly resembles that of ubiquitin-conjugating enzymes (E2s), with most of the structural differences in the region connecting beta-strand 4 and alpha-helix 3. The structural architecture, including the triple beta-turn, is fundamentally common among various RWD domains and E2s, but most of the surface residues on the structure vary. Thus, it appears that the RWD domain is a novel structural domain for protein-binding that plays specific roles in individual RWD-containing proteins. 相似文献
68.
Akao Y Seki N Nakagawa Y Yi H Matsumoto K Ito Y Ito K Funaoka M Maruyama W Naoi M Nozawa Y 《Bioorganic & medicinal chemistry》2004,12(18):4791-4801
Approaches to protection against neurodegenerative diseases, in which oxidative stress and inflammation are implicated, should be based on the current concept on the etiology of these diseases. Recently, a new therapeutic strategy has been proposed to protect neurons from cell death by attenuating the apoptotic signal transduction. Lignin, a durable aromatic network polymer second to cellulose in abundance, was able to be converted into highly active lignophenol derivatives with antioxidant activity by using our newly developed phase-separation technique. These lignophenol derivatives were found to show the potent neuroprotective activity against oxidative stress. Among the compounds examined, a lignocresol derivative from bamboo (lig-8) exhibited the most potent neuroprotective activity against hydrogen peroxide (H(2)O(2))-induced apoptosis in human neuroblastoma cell line SH-SY5Y by preventing the caspase-3 activation via either caspase-8 or caspase-9. Furthermore, it was found that lig-8 exerted the antiapoptotic effect by inhibiting dissipation of the mitochondrial membrane permeability transition induced by H(2)O(2) or by the peripheral benzodiazepin receptor ligand PK11195. Lig-8 was also shown to be potent in the antioxidant activity in the cells exposed to H(2)O(2), as assessed by flow cytometry using 5-(and-6)-chloromethyl-2',7'-dichlorodihydrofluorescein diacetate and in vitro reactive oxygen species-scavenging potency. These data suggest that lig-8 is a promising neuroprotector, which affects the signaling pathway of neuronal cell death and that it would be of benefit to delay the progress of neurodegenerative diseases. 相似文献
69.
The D1 protein of the photosystem II reaction center turns over the most rapidly of all the proteins of the thylakoid membrane under illumination in vivo. In vitro, the D1 protein sustained cleavage in a surface-exposed loop (DE loop) or cross-linking with another reaction center protein, the D2 protein or cytochrome b(559), under illumination. We found that the D1 protein was damaged in essentially the same way in vivo, although the resultant fragments and cross-linked adducts barely accumulated due to digestion by proteases. In vitro studies detected a novel stromal protease(s) that digested the adducts but not the monomeric D1 protein. These observations suggest that, in addition to cleavage, the cross-linking reactions themselves are processes involved in complete degradation of the D1 protein in vivo. Peptide mapping experiments located the cross-linking sites with the D2 protein among residues 226-244, which includes the cross-linking site with cytochrome b(559) [Barbato, R., et al. (1995) J. Biol. Chem. 270, 24032-24037], in the N-terminal part of the DE loop, while N-terminal amino acid sequencing of the fragment located the cleavage site around residue 260 in the C-terminal part of the loop. We propose a model explaining the occurrence of simultaneous cleavage and cross-linking and discuss the mechanisms of complete degradation of the D1 protein in vivo. 相似文献
70.
Nozawa Y 《Journal of biochemistry》2002,131(3):283-284