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131.
Fukui K Nakagawa N Kitamura Y Nishida Y Masui R Kuramitsu S 《The Journal of biological chemistry》2008,283(48):33417-33427
DNA recombination events need to be strictly regulated, because an increase in the recombinational frequency causes unfavorable alteration of genetic information. Recent studies revealed the existence of a novel anti-recombination enzyme, MutS2. However, the mechanism by which MutS2 inhibits homologous recombination has been unknown. Previously, we found that Thermus thermophilus MutS2 (ttMutS2) harbors an endonuclease activity and that this activity is confined to the C-terminal domain, whose amino acid sequence is widely conserved in a variety of proteins with unknown function from almost all organisms ranging from bacteria to man. In this study, we determined the crystal structure of the ttMutS2 endonuclease domain at 1.7-angstroms resolution, which resembles the structure of the DNase I-like catalytic domain of Escherichia coli RNase E, a sequence-nonspecific endonuclease. The N-terminal domain of ttMutS2, however, recognized branched DNA structures, including the Holliday junction and D-loop structure, a primary intermediate in homologous recombination. The full-length of ttMutS2 digested the branched DNA structures at the junction. These results indicate that ttMutS2 suppresses homologous recombination through a novel mechanism involving resolution of early intermediates. 相似文献
132.
Pyruvate dehydrogenase (PDH), branched-chain 2-oxo acid dehydrogenase (BCDH) and 2-oxoglutarate dehydrogenase (OGDH) are multienzyme complexes that play crucial roles in several common metabolic pathways. These enzymes belong to a family of 2-oxo acid dehydrogenase complexes that contain multiple copies of three different components (E1, E2 and E3). For the Thermus thermophilus enzymes, depending on its substrate specificity (pyruvate, branched-chain 2-oxo acid or 2-oxoglutarate), each complex has distinctive E1 (E1p, E1b or E1o) and E2 (E2p, E2b or E2o) components and one of the two possible E3 components (E3b and E3o). (The suffixes, p, b and o identify their respective enzymes, PDH, BCDH and OGDH.) Our biochemical characterization demonstrates that only three specific E3*E2 complexes can form (E3b*E2p, E3b*E2b and E3o*E2o). X-ray analyses of complexes formed between the E3 components and the peripheral subunit-binding domains (PSBDs), derived from the corresponding E2-binding partners, reveal that E3b interacts with E2p and E2b in essentially the same manner as observed for Geobacillus stearothermophilus E3*E2p, whereas E3o interacts with E2o in a novel fashion. The buried intermolecular surfaces of the E3b*PSBDp/b and E3o*PSBDo complexes differ in size, shape and charge distribution and thus, these differences presumably confer the binding specificities for the complexes. 相似文献
133.
Kagesawa T Nakamura Y Nishikawa M Akiyama Y Kajiwara M Matsuno K 《Mechanisms of development》2008,125(11-12):1020-1032
Homoplasy is a phenomenon in which organisms in different phylogenetic groups independently acquire similar traits. However, it is largely unknown how developmental mechanisms are altered to give rise to homoplasy. In the genus Drosophila, all species of the subgenus Sophophora, including Drosophila (D.) melanogaster, have eggshells with two dorsal appendages (DAs); most species in the subgenus Drosophila, including D. virilis, and in the subgenus Dorsilopha, have four-DAs. D. melanica belongs to the Drosophila subgenus, but has two-DAs, and phylogenetic analyses suggest that it acquired this characteristic independently. The patterning of the DAs is tightly regulated by epidermal growth factor receptor (EGFR) signaling in D. melanogaster. Previous studies suggested that a change in the EGFR signal activation pattern could have led to the divergence in DA number between D. melanogaster and D. virilis. Here, we compared the patterns of EGFR signal activation across the Drosophila subgenera by immunostaining for anti-activated MAP kinase (MAPK). Our analysis revealed distinct patterns of EGFR signal activation in each subgenus that was consistent with their phylogenetic relationship. In addition, the number of DAs always corresponded to the number of EGFR signaling activation domains in two, three, and four-DA species. Despite their common two-DA characteristic, the EGFR signaling activation pattern in D. melanica diverged significantly from that of species in the subgenus Sophophora. Our results suggest that acquisition of the homoplastic two-DA characteristic could be explained by modifications of the EGFR signaling system in the genus Drosophila that occurred independently and at least twice during evolution. 相似文献
134.
Ozawa Keita Nemoto Atsushi Imai Ei-ichi Honda Hajime Hatori Kuniyuki Matsuno Koichiro 《Origins of life and evolution of the biosphere》2004,34(5):465-471
Phosphorylation of AMP into ADP and ATP, that can outrun their hydrolysis, was made possible in a simulated hydrothermal environment when trimetaphosphate was used as the phosphate source. The best yields of phosphorylated products were obtained when the reaction fluids whose temperature was set at about 100 degrees centigrade was injected into the cold environment maintained at 0 degree in a recycling manner. Hydrothermal environments in the primitive ocean could also have served as prebiotic sites for phosphorylation, among others. 相似文献
135.
Marinus J.A. Werger Tadaki Hirose Heinjo J. During Gerrit W. Heil Kouki Hikosaka Takehiko Ito U.G. Nachinshonhor Dai Nagamatsu Katsuhiko Shibasaki Seiki Takatsuki Jan W. van Rheenen Niels P.R. Anten 《植被学杂志》2002,13(5):615-626
Abstract. We studied canopy structure, shoot architecture and light harvesting efficiencies of the species (photon flux captured per unit above‐ground plant mass) in a series of exclosures of different age (up to 4.5 yr) in originally heavily grazed grassland in N Japan.Vegetation height and Leaf Area Index (LAI) increased in the series and Zoysia japonica, the dominant in the beginning, was replaced by the much taller Miscanthus sinensis. We showed how this displacement in dominance can be explained by inherent constraints on the above‐ground architecture of these two species. In all stands light capture of plants increased with their above‐ground biomass but taller species were not necessarily more efficient in light harvesting. Some subordinate species grew disproportionally large leaf areas and persisted in the shady undergrowth. Some other species first grew taller and managed to stay in the better‐lit parts of the canopy, but ultimately failed to match the height growth of their neighbours in this early successional series. Their light harvesting efficiencies declined and this probably led to their exclusion. By contrast, species that maintained their position high in the canopy managed to persist in the vegetation despite their relatively low light harvesting efficiencies. In the tallest stands ‘later successional’ species had higher light harvesting efficiencies for the same plant height than ‘early successional’ species which was mostly the result of the greater area to mass ratio (specific leaf area, SLA) of their leaves. This shows how plant stature, plasticity in above‐ground biomass partitioning, and architectural constraints determine the ability of plants to efficiently capture light, which helps to explain species replacement in this early successional series. 相似文献
136.
Mutated SEA-D227A-conjugated antibodies greatly enhance antitumor activity against MUC1-expressing bile duct carcinoma 总被引:8,自引:0,他引:8
Hideaki Kodama Masanori Suzuki Yu Katayose Masao Shinoda Naoki Sakurai Shin-ichi Takemura Hiroshi Yoshida Hisaaki Saeki Masahiko Ichiyama Kohei Tsumoto Ryutaro Asano Izumi Kumagai Kohzoh Imai Yuji Hinoda Seiki Matsuno Toshio Kudo 《Cancer immunology, immunotherapy : CII》2001,50(10):539-548
For the purpose of establishing a new adoptive immunotherapy for bile duct carcinoma (BDC), we have directed our attention to superantigens (SAgs), the most potent known activators of T lymphocytes. In our previous study, staphylococcal enterotoxin A (SEA) was conjugated chemically with MUSE11 mAb, which recognizes the MUC1 cancer-associated antigen, and shown to enhance the specific cytotoxic activity of T-LAK cells against MUC1-expressing BDC cells (TFK-1) in vitro and in vivo. However, it is probable that SEA might cause side-effects because of nonspecific binding to class II positive cells. In order to overcome these, we generated mutated SEA (mSEA) by changing Asp at position 227 of native SEA to Ala, which has reduced affinity to MHC class II molecules, but retains the potential for T cell activation. When mSEA-D227A was administered to rabbits to examine effects on blood pressure, 500 times more mSEA-D227A was tolerated than native SEA. This prompted us to construct a mSEA-D227A-conjugated mAb, reactive with MUC1. It augmented the antitumor activity of T-LAK cells significantly, and furthermore, mSEA-D227A could be conjugated to two bispecific antibodies, BsAb (anti-MUC1 x anti-CD3) and BsAb (anti-MUC1 x anti-CD28), which in combination had greater enhancing effects than mSEA-D227A-conjugated anti-MUC1 mAb, and combination of unconjugated BsAbs. These findings indicate a utility of mSEA-D227A-conjugated antibodies for targeted cancer immunotherapy. 相似文献
137.
Masato Nikaido Fumio Matsuno Hideaki Abe Mitsuru Shimamura Healy Hamilton Hisashi Matsubayashi Norihiro Okada 《Mammalian genome》2001,12(12):909-915
Short interspersed repetitive elements (SINEs) are a kind of retroposons dispersed among the eukaryotic genomes. Previously,
we isolated and characterized a new SINE family, named CHR-2, members of which are distributed in the genomes of cetaceans,
hippopotamuses, and ruminants. We analyzed systematically more than a hundred members of the CHR-2 SINEs, which were isolated
from the genomes of cetaceans and cow, together with the additional data available in the DNA databases, and showed that these
SINEs are divided into at least five distinct subfamilies that share diagnostic nucleotides and/or deletions. A hybridization
analysis clearly demonstrated that, among these five subfamilies, two subfamilies, named CD and CDO, are specific to cetaceans
and toothed whales, respectively. We reconstruct the evolutionary history of the CHR-2 SINEs during evolution of cetartiodactyl
genomes.
Received: 13 June 2001 / Accepted: 12 July 2001 相似文献
138.
T Matsuno T Maoka M Katsuyama T Hirono Y Ikuno M Shimizu T Komori 《Comparative biochemistry and physiology. B, Comparative biochemistry》1986,85(1):77-80
New luteins, lutein F [(3R,3'R,6'S)-beta,epsilon-carotene-3, 3'-diol] and lutein G [(3S,3'R,6'S)-beta,epsilon-carotene-3,3'-diol] have been isolated from marine fishes. 相似文献
139.
Koichiro Matsuno 《Biosemiotics》2008,1(1):131-144
Molecular imprints of organisms serving as both the agents and the products of the underlying sign activities are quantum
mechanical in their origins. In particular, molecules in any reaction networks constituting a biological organism are semiotic
or context-dependent in the sense that their activities reside within the proper coordination of the entire networks. The
origin of life could have been related to a specific aspect of molecular semiotics, especially in the transition from molecules
as the physical symbols of material units to molecules as the semiotic signs having the capacity of pointing to something
else other than the molecules themselves. Quantum mechanical underpinning of the molecular imprints leading to the emergence
of life is in the appraisal of the material capacities of both coherent assimilation and decoherent dissociation already latent
in the imprints. One empirical evidence suggesting the likelihood of both coherent assimilation and decoherent dissociation
in prebiotic settings could have been found in synthetic chemical reactions running in hydrothermal circulation of seawater
through hot vents in the Haedean ocean on the primitive Earth. 相似文献
140.