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971.
972.
Yohei Takahashi Haruaki Ishiyama Takaaki Kubota Jun’ichi Kobayashi 《Bioorganic & medicinal chemistry letters》2010,20(14):4100-4103
A new β-carboline alkaloid, eudistomidin G (1), has been isolated from the Okinawan marine tunicate Eudistoma glaucus, and the structure was elucidated from spectroscopic data. Furthermore, the structure of eudistomidin B (2), which has been isolated from the same tunicate, was revised from 2a to 2b by detailed analyses of spectroscopic data. Asymmetric synthesis of the revised structure (2b) of eudistomidin B (2) and its (1S,10S)-diastereomer (2c) has been accomplished with the Noyori catalytic asymmetric hydrogen-transfer reaction. The absolute configuration of eudistomidin B (2) was confirmed to be 2b possessing (1R,10S)-configuration, from comparison of the 1H NMR data, CD spectra, [α]D values, and HPLC analysis of 2b, 2c, and natural eudistomidin B. 相似文献
973.
Jin‐Shu Yang Hiromichi Nagasawa Yoshihiro Fujiwara Shinji Tsuchida Wei‐Jun Yang 《Zoologica scripta》2010,39(6):621-630
Yang, J.‐S., Nagasawa, H., Fujiwara, Y., Tsuchida, S. & Yang, W.‐J. The complete mitogenome of the hydrothermal vent crab Gandalfus yunohana (Crustacea: Decapoda: Brachyura): a link between the Bythograeoidea and Xanthoidea. —Zoologica Scripta, 39, 621–630. Metazoan mitochondrial genomes (mitogenomes) are often used for all‐level phylogenetic analyses and evolution modelling. Although mitochondrial fragments facilitate studying the occurrence and dispersal of hydrothermal‐vent species, few complete mitogenomes have been determined for comprehensive analyses. We determined the complete nucleotide sequence of the bythograeid crab Gandalfus yunohana. The G. yunohana mitogenome is 15 567 bp in length and with an AT content of 69.9%. A putative control region of 625 bp was identified due to its position (between rrnS and trnI) and AT richness (72.8%), which exhibits high similarity with that of the Australian giant crab Pseudocarcinus gigas. The mitochondrial gene order is identical to the typical brachyuran mode. Codon usage, nucleotide composition and bias are well conserved as the Brachyura. Phylogenetic analyses from protein‐coding genes indicated its closest relationship with P. gigas. All the results support the close evolution distance between the Bythograeoidea and Xanthoidea, which might imply the possible origin that the only superfamily of vent crabs underwent. The G. yunohana mitogenome exhibits highly conserved characteristics with those of other decapods, especially its close relative brachyurans. A recent origin rather than the relic fauna was suggested. The present study will supply considerable data of use for both genomics and evolutionary research on hydrothermal vent ecosystems. 相似文献
974.
Downregulation of the voltage-dependent calcium channel (VDCC) beta-subunit mRNAs in pancreatic islets of type 2 diabetic rats 总被引:1,自引:0,他引:1
Iwashima Y Abiko A Ushikubi F Hata A Kaku K Sano H Eto M 《Biochemical and biophysical research communications》2001,280(3):923-932
The present study was undertaken to determine whether altered expression of the VDCC beta-subunits in pancreatic beta-cells could play a role in the changes in beta-cell sensitivity to glucose that occur with diabetes. Application of competitive RT-PCR procedure revealed that in normal Wistar rats, LETO and prediabetic OLETF rats, the beta(2)-subunit mRNA levels were 60-200-fold greater than the levels for the beta(3)-subunit. These findings suggest that the beta(2)-subunit as well as the beta-cell type VDCC1 alpha(1)-subunit may be the predominant form of the VDCC expressed in pancreatic beta-cells. The levels of mRNA encoding the beta-subunits and the beta-cell type alpha(1)-subunit as well as insulin were significantly reduced in diabetic rats. Perfusion experiments revealed that diabetic rats showed the higher basal insulin secretion and profoundly impaired insulin secretory responses to glucose compared with non-diabetic rats. Alternatively, impaired insulin secretory responses to glucose in high dose glucose-infused rats were recovered partly with the elevation of mRNA levels of the VDCC beta(2)- and beta(3)-subunits as well as the alpha(1)-subunit by the treatment with diazoxide. Thus, considering the possibility that the most striking effect of the VDCC alpha(1) beta-subunit coexpression in pancreatic beta-cells might occur on activation kinetics like the skeletal muscle, the impairment of further activation of the VDCCs to acute glucose challenge caused by the reduced expressions of the alpha(1) beta-subunits mRNAs in type 2 diabetic animals might be at least partly associated with the alterations in beta-cell sensitivity to glucose. 相似文献
975.
The ATP hydrolysis mechanism of myosin was studied using quantum chemical (QM) and molecular dynamics calculations. The initial model compound for QM calculations was constructed on the basis of the energy-minimized structure of the myosin(S1dc)-ATP complex, which was determined by molecular mechanics calculations. The result of QM calculations suggested that the ATP hydrolysis mechanism of myosin consists of a single elementary reaction in which a water molecule nucleophilically attacked gamma-phosphorus of ATP. In addition, we performed molecular dynamics simulations of the initial and final states of the ATP hydrolysis reaction, that is, the myosin-ATP and myosin-ADP.Pi complexes. These calculations revealed roles of several amino acid residues (Lys185, Thr186, Ser237, Arg238, and Glu459) in the ATPase pocket. Lys185 maintains the conformation of beta- and gamma-phosphate groups of ATP by forming the hydrogen bonds. Thr186 and Ser237 are coordinated to a Mg(2+) ion, which interacts with the phosphates of ATP and therefore contributes to the stabilization of the ATP structure. Arg238 and Glu459, which consisted of the gate of the ATPase pocket, retain the water molecule acting on the hydrolysis at the appropriate position for initiating the hydrolysis. 相似文献
976.
The effect of inorganic salts on the hydrolysis of starch in a microwave field was investigated and it was found that some inorganic salts can effectively accelerate the acid hydrolysis of starch. The yield of D-glucose reached 111 wt% (equal to the theoretical yield). 相似文献
977.
Hamatani T Sasaki H Ishihara K Hida N Maruyama T Yoshimura Y Hata J Umezawa A 《Biochimica et biophysica acta》2001,1518(1-2):137-144
We have investigated the epigenetic mark in the human H19 gene. The H19 promoter is methylation-free in human sperm, but it is methylated in the paternally derived allele of most adult tissues. Consequently, the H19 gene is exclusively transcribed from the maternal allele. It was demonstrated that the differentially methylated region (DMR) located 2 kb upstream from mouse H19 is essential for the imprinting of H19. A 39 bp sequence in DMR has a high degree of similarity between humans, mice and rats. The highly conserved 15 bp core region of the consensus sequence contains four methylatable sites, and thus has been proposed as a potential imprinting mark region. In this study, fine epigenetic sequencing analysis was performed on the sperm DNA in comparison with other adult organs. Interestingly, the conserved sequence of the potential mark region was methylated in almost all the sperm genomes analyzed. Furthermore, the single dinucleotide CpG, whose methylation affects the accessibility of the element to CTCF, was methylated in the conserved core in the human sperm. These results suggest that the human core sequences may act as an imprinting center in the reciprocal monoallelic expression of H19. 相似文献
978.
The ribonuclease III superfamily represents a structurally related group of double-strand (ds) specific endoribonucleases which play key roles in diverse prokaryotic and eukaryotic RNA maturation and degradation pathways. A dsRNA-binding domain (dsRBD) is a conserved feature of the superfamily and is important for substrate recognition. RNase III family members also exhibit a "catalytic" domain, in part defined by a set of highly conserved amino acids, of which at least one (a glutamic acid) is important for cleavage but not for substrate binding. However, it is not known whether the catalytic domain requires the dsRBD for activity. This report shows that a truncated form of Escherichia coli RNase III lacking the dsRBD (RNase III[DeltadsRBD]) can accurately cleave small processing substrates in vitro. Optimal activity of RNase III[DeltadsRBD] is observed at low salt concentrations (<60 mM Na(+)), either in the presence of Mg(2+) (>25 mM) or Mn(2+) ( approximately 5 mM). At 60 mM Na(+) and 5 mM Mn(2+) the catalytic efficiency of RNase III[DeltadsRBD] is similar to that of RNase III at physiological salt concentrations and Mg(2+). In the presence of Mg(2+) RNase III[DeltadsRBD] is less efficient than the wild-type enzyme, due to a higher K(m). Similar to RNase III, RNase III[DeltadsRBD] is inhibited by high concentrations of Mn(2+), which is due to metal ion occupancy of an inhibitory site on the enzyme. RNase III[DeltadsRBD] retains strict specificity for dsRNA, as indicated by its inability to cleave (rA)(25), (rU)(25), or (rC)(25). Moreover, dsDNA, ssDNA, or an RNA-DNA hybrid are not cleaved. Low (micromolar) concentrations of ethidium bromide block RNase III[DeltadsRBD] cleavage of substrate, which is similar to the inhibition seen with RNase III and is indicative of an intercalative mode of inhibition. Finally, RNase III[DeltadsRBD] is sensitive to specific Watson-Crick base-pair substitutions which also inhibit RNase III. These findings support an RNase III mechanism of action in which the catalytic domain (i) can function independently of the dsRBD, (ii) is dsRNA-specific, and (iii) participates in cleavage site selection. 相似文献
979.
Ikemoto A Ohishi M Sato Y Hata N Misawa Y Fujii Y Okuyama H 《Journal of lipid research》2001,42(10):1655-1663
Rats fed a semipurified diet supplemented with 3% (w/w) safflower oil [Saf, n-3 fatty acid deficient, high linoleic acid (18:2n-6)] through two generations exhibit decreased correct response ratios in a brightness-discrimination learning test compared with rats fed 3% perilla oil [Per, high alpha-linolenic acid (18:3n-3)]. This is associated with a decreased DHA (22:6n-3)-to-arachidonic acid (20:4n-6) ratio in brain lipids. In the first set of experiments, dietary oil was shifted from Saf to a mixture of 2.4% safflower oil plus 0.6% DHA after weaning (Saf-DHA), but all parameters measured in the learning test were essentially unchanged. Brain 22:6n-3 content of the Saf-DHA group reached that of the Per group but the levels of 20:4n-6 and docosatetraenoic acid (22:4n-6) did not decrease to those of the Per group at the start of the test. In the second set of experiments, dietary oil was shifted to a mixture of 0.6% safflower oil plus 1.2% oleic acid (OA) plus 1.2% DHA (Saf-OA-DHA group) with 18:2n-6 content comparable to that of the Per group. The Saf-OA-DHA group exhibited a learning performance similar to that of the Per group; brain 22:6n-3, 20:4n-6, and 22:4n-6 contents were also comparable to those of the Per group. These results indicate that the altered learning behavior associated with a long-term n-3 fatty acid deficiency is reversed by supplementing 22:6n-3 after weaning, when the levels of competing n-6 fatty acids in the diet and brain lipids are limited. 相似文献
980.