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71.
Homma Kosuke Akashi Nobuhiro Abe Tomoyuki Hasegawa Mikio Harada Kenichi Hirabuki Yoshihiko Irie Kiyoshi Kaji Mikio Miguchi Hideo Mizoguchi Noriyasu Mizunaga Hiromi Nakashizuka Tohru Natume Syunji Niiyama Kaoru Ohkubo Tatsuhiro Sawada Shin-ichi Sugita Hisashi Takatsuki Seiki Yamanaka Norikazu 《Plant Ecology》1999,140(2):129-138
The causes and timing of seed death in early regeneration process of Siebold's beech (Fagus crenata Blume) was studied at 15 sites along a snowfall gradient in Japan, in order to clarify why the seedling density of the species has geographic difference remarkably. Seed production did not significantly differ along the snowfall gradient. Pre-dispersal seed mortality by insect damage was higher at sites with light snowfall than at sites with heavy snowfall, but this only seemed to be a minor factor influencing the population. A large proportion of the viable nuts that fall in autumn ware killed in winter before germination. Winter mortality was much higher at sites with thin snow cover than that at sites with thick snow cover, and this factor was strongly correlated with the geographic variation of seedling regeneration probability. There was little seed mortality by winter desiccation. The main factor contributing to the geographic difference seemed to be a seed predation by rodents in winter. Deep snow cover may reduce the success of rodents finding seeds in winter. Thus the observed relationship between snowpack depth and early mortality may be due to an indirect effect through the process of seed predation.p> 相似文献
72.
It is hard to construct theories for the folding of globular proteins because they are large and complicated molecules having enormous numbers of nonnative conformations and having native states that are complicated to describe. Statistical mechanical theories of protein folding are constructed around major simplifying assumptions about the energy as a function of conformation and/or simplifications of the representation of the polypeptide chain, such as one point per residue on a cubic lattice. It is not clear how the results of these theories are affected by their various simplifications. Here we take a very different simplification approach where the chain is accurately represented and the energy of each conformation is calculated by a not unreasonable empirical function. However, the set of amino acid sequences and allowed conformations is so restricted that it becomes computationally feasible to examine them all. Hence we are able to calculate melting curves for thermal denaturation as well as the detailed kinetic pathway of refolding. Such calculations are based on a novel representation of the conformations as points in an abstract 12-dimensional Euclidean conformation space. Fast folding sequences have relatively high melting temperatures, native structures with relatively low energies, small kinetic barriers between local minima, and relatively many conformations in the global energy minimum's watershed. In contrast to other folding theories, these models show no necessary relationship between fast folding and an overall funnel shape to the energy surface, or a large energy gap between the native and the lowest nonnative structure, or the depth of the native energy minimum compared to the roughness of the energy landscape. Proteins 32:425–437, 1998. © 1998 Wiley-Liss, Inc. 相似文献
73.
74.
Sumino M Ohkubo A Taguchi H Seio K Sekine M 《Bioorganic & medicinal chemistry letters》2008,18(1):274-277
5-Carboxy-2'-deoxycytidine (dC(COO-)) was synthesized as an anion-carrier to seek a new possibility of modified oligodeoxynucleotides capable of stabilization of duplexes and triplexes. The base pairing properties of this compound were evaluated by use of ab initio calculations. These calculations suggest that the Hoogsteen-type base pair of dC(COO-)-G is less stable than that of the canonical C+-G pair and the Watson-Crick-type base pair of dC(COO-)-G is slightly more stable than the natural G-C base pair. The modified cytosine base showed a basicity similar to that of cytosine (pKa 4.2). It turned out that oligodeoxynucleotides 13mer and 14mer incorporating dC(COO-) could form duplexes with the complementary DNA oligomer, which were more stable than the unmodified duplex. In contrast, it formed a relatively unstable triplex with the target ds DNA. 相似文献
75.
Seio K Mizuta M Tasaki K Tamaki K Ohkubo A Sekine M 《Bioorganic & medicinal chemistry》2008,16(17):8287-8293
We report the synthesis and properties of oligonucleotides incorporating N(6)-[N-(pyren-1-ylmethyl)carbamoyl]-deoxyadenosine (dA(pymcm)). We designed the ODN which incorporated two consecutive dA(pymcm) residues. It was revealed that on hybridization with the target DNA and RNA oligomers, the fluorescence spectra of ODNs having two consecutive dA(pymcm) molecules near the 5'-terminal position can change from the pyrene monomer emission to the excimer, depending on the chain length of the target DNA and RNA. These results indicated that dA(pymcm)-modified ODNs can be used as interesting hybridization sensors that are sensitive to the size of the target strand. 相似文献
76.
Human RIF1 and protein phosphatase 1 stimulate DNA replication origin licensing but suppress origin activation 下载免费PDF全文
Shin‐ichiro Hiraga Tony Ly Javier Garzón Zuzana Hořejší Yoshi‐nobu Ohkubo Akinori Endo Chikashi Obuse Simon J Boulton Angus I Lamond Anne D Donaldson 《EMBO reports》2017,18(3):403-419
The human RIF1 protein controls DNA replication, but the molecular mechanism is largely unknown. Here, we demonstrate that human RIF1 negatively regulates DNA replication by forming a complex with protein phosphatase 1 (PP1) that limits phosphorylation‐mediated activation of the MCM replicative helicase. We identify specific residues on four MCM helicase subunits that show hyperphosphorylation upon RIF1 depletion, with the regulatory N‐terminal domain of MCM4 being particularly strongly affected. In addition to this role in limiting origin activation, we discover an unexpected new role for human RIF1‐PP1 in mediating efficient origin licensing. Specifically, during the G1 phase of the cell cycle, RIF1‐PP1 protects the origin‐binding ORC1 protein from untimely phosphorylation and consequent degradation by the proteasome. Depletion of RIF1 or inhibition of PP1 destabilizes ORC1, thereby reducing origin licensing. Consistent with reduced origin licensing, RIF1‐depleted cells exhibit increased spacing between active origins. Human RIF1 therefore acts as a PP1‐targeting subunit that regulates DNA replication positively by stimulating the origin licensing step, and then negatively by counteracting replication origin activation. 相似文献
77.
78.
Tavoosi N Davis-Harrison RL Pogorelov TV Ohkubo YZ Arcario MJ Clay MC Rienstra CM Tajkhorshid E Morrissey JH 《The Journal of biological chemistry》2011,286(26):23247-23253
Many regulatory processes in biology involve reversible association of proteins with membranes. Clotting proteins bind to phosphatidylserine (PS) on cell surfaces, but a clear picture of this interaction has yet to emerge. We present a novel explanation for membrane binding by GLA domains of clotting proteins, supported by biochemical studies, solid-state NMR analyses, and molecular dynamics simulations. The model invokes a single "phospho-L-serine-specific" interaction and multiple "phosphate-specific" interactions. In the latter, the phosphates in phospholipids interact with tightly bound Ca(2+) in GLA domains. We show that phospholipids with any headgroup other than choline strongly synergize with PS to enhance factor X activation. We propose that phosphatidylcholine and sphingomyelin (the major external phospholipids of healthy cells) are anticoagulant primarily because their bulky choline headgroups sterically hinder access to their phosphates. Following cell damage or activation, exposed PS and phosphatidylethanolamine collaborate to bind GLA domains by providing phospho-L-serine-specific and phosphate-specific interactions, respectively. 相似文献
79.
Maiko Inaba Kaeko Murota Miki Nikawadori Erika Kishino Risa Matusda Mika Takagi Takeshi Ohkubo Tamotsu Tanaka Junji Terao Akira Tokumura 《Biochimica et Biophysica Acta (BBA)/Molecular and Cell Biology of Lipids》2014,1841(1):121-131
Glycerophospholipids are known to be hydrolyzed in the intestinal lumen into free fatty acids and lysophospholipids that are then absorbed by the intestinal epithelial cells. A monolayer of enterocyte-differentiated Caco-2 cell is often used to assess the intestinal bioavailability of nutrients. In this study, we examined how differentiated Caco-2 cells process lysoglycerolipids such as lysophosphatidylcholine (LPC). Our findings were twofold. (1) Caco-2 cells secreted both a lysophospholipase A-like enzyme and a glycerophosphocholine-phosphodiesterase enzyme into the apical, but not basolateral, lumen, suggesting that food-derived LPC is converted to a free fatty acid, sn-glycerol-3-phosphate, and choline through two sequential enzymatic reactions in humans. The release of the latter enzyme was differentiation-dependent. (2) Fatty acid-releasing activities toward exogenous fluorescent LPC, lysophosphatidic acid and monoacylglycerol were shown to be higher on the apical membranes of Caco-2 cells than on the basolateral membranes. These results suggest that human intestinal epithelial cells metabolize lysoglycerolipids by two distinct mechanisms involving secreted or apical-selective expression of metabolic enzymes. 相似文献
80.
Shigeru Shimamoto Hiroko Maruo Takuya Yoshida Tadayasu Ohkubo 《Biomolecular NMR assignments》2014,8(1):129-132
Lipocalin-type Prostaglandin D synthase (L-PGDS) acts as the PGD2-synthesizing enzyme in the brain of various mammalian species. It belongs to the lipocalin superfamily and is the first member of this family to be recognized as an enzyme. Although the solution and crystal structure of L-PGDS has been determined to understand the molecular mechanism of catalytic reaction, the structural analysis of L-PGDS in complex with its substrate remains to be performed. Here, we present the nearly complete assignment of the backbone and side chain resonances of L-PGDS/substrate analog (U-46619) complex. This study lays the essential basis for further understanding the substrate recognition mechanism of L-PGDS. 相似文献