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An alpha-C-iodoethynylglucose derivative was coupled with an L-serine-derived zinc-copper reagent to give alpha-C-glucosylpropargyl glycine, which underwent palladium catalyzed-heteroannulation with o-iodoaniline to give not alpha-C-glucosyl-tryptophan but alpha-C-glucosyl-iso-tryptophan. This is the first observation of complete reverse regioselectivity to Larock's proposal. 相似文献
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Myosin phosphatase negatively regulates nonmuscle myosin II through dephosphorylation of the myosin regulatory light chain (MRLC). Its regulatory myosin-binding subunit, MBS, is responsible for regulating the catalytic subunit in response to upstream signals and for determining the substrate specificity. DMBS, the Drosophila homolog of MBS, was identified to study the roles of myosin phosphatase in morphogenesis. The embryos defective for both maternal and zygotic DMBS demonstrated a failure in dorsal closure. In the mutant embryos, the defects were mainly confined to the leading edge cells which failed to fully elongate. Ectopic accumulation of phosphorylated MRLC was detected in lateral region of the leading edge cells, suggesting that the role of DMBS is to repress the activation of nonmuscle myosin II at the subcellular location for coordinated cell shape change. Aberrant accumulation of F-actin within the leading edge cells may correspond to the morphological aberrations of such cells. Similar defects were seen in embryos overexpressing Rho-kinase, suggesting that myosin phosphatase and Rho-kinase function antagonistically. The genetic interaction of DMBS with mutations in the components of the Rho signaling cascade also indicates that DMBS functions antagonistically to the Rho signal transduction pathway. The results indicate an important role for myosin phosphatase in morphogenesis. 相似文献
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Tatebayashi K Doi M Kawai Y 《Journal of gravitational physiology : a journal of the International Society for Gravitational Physiology》2002,9(1):P101-P102
Effects of head-down tilt on intracranial pressure were studied in anesthetized and conscious rabbits. Adult Japanese white rabbits of both sexes, weighing 2.5-3.5 kg, were used in the experiments. Experiment 1. Animals were anesthetized with pentobarbital, and ICP was monitored through a catheter inserted into the subarachnoid space. ICP elevated immediately after the onset of 45 degrees HDT and gradually reduced toward the baseline level in the next 8 hours. Experiment 2. Each rabbit was exposed to 45 degrees HDT for 24 hours and the ICP was measured through a catheter which had been implanted 7 days before. In the conscious rabbits, ICP increased about 4 mmHg after the onset of 45 degrees HDT, further increased gradually to the peak at 11 hours of HDT, and then started to return to the baseline. These results suggest that the time course of the change in ICP during HDT is considerably different between anesthetized and conscious rabbits. 相似文献
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Identification of a chromosome-targeting domain in the human condensin subunit CNAP1/hCAP-D2/Eg7 下载免费PDF全文
Ball AR Schmiesing JA Zhou C Gregson HC Okada Y Doi T Yokomori K 《Molecular and cellular biology》2002,22(16):5769-5781
CNAP1 (hCAP-D2/Eg7) is an essential component of the human condensin complex required for mitotic chromosome condensation. This conserved complex contains a structural maintenance of chromosomes (SMC) family protein heterodimer and three non-SMC subunits. The mechanism underlying condensin targeting to mitotic chromosomes and the role played by the individual condensin components, particularly the non-SMC subunits, are not well understood. We report here characterization of the non-SMC condensin component CNAP1. CNAP1 contains two separate domains required for its stable incorporation into the complex. We found that the carboxyl terminus of CNAP1 possesses a mitotic chromosome-targeting domain that does not require the other condensin components. The same region also contains a functional bipartite nuclear localization signal. A mutant CNAP1 missing this domain, although still incorporated into condensin, was unable to associate with mitotic chromosomes. Successful chromosome targeting of deletion mutants correlated with their ability to directly bind to histones H1 and H3 in vitro. The H3 interaction appears to be mediated through the H3 histone tail, and a subfragment containing the targeting domain was found to interact with histone H3 in vivo. Thus, the CNAP1 C-terminal region defines a novel histone-binding domain that is responsible for targeting CNAP1, and possibly condensin, to mitotic chromosomes. 相似文献
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Kagawa Y Yanagisawa Y Hasegawa K Suzuki H Yasuda K Kudo H Abe M Matsuda S Ishikawa Y Tsuchiya N Sato A Umetsu K Kagawa Y 《Biochemical and biophysical research communications》2002,295(2):207-222
The "thrifty" genotype and phenotype that save energy are detrimental to the health of people living in affluent societies. Individual differences in energy metabolism are caused primarily by single nucleotide polymorphisms (SNPs), some of which promote the development of obesity/type 2 diabetes mellitus. In this review, four major questions are addressed: (1) Why did regional differences in energy metabolism develop during evolution? (2) How do genes respond to starvation and affluence? (3) Which SNPs correspond to the hypothetical "thrifty genes"? (4) How can we cope with disease susceptibility caused by the "thrifty" SNPs? We examined mtDNA and genes for energy metabolism in people who live in several parts of Asia and the Pacific islands. We included 14 genes, and the SNP frequencies of PPAR gamma 2, LEPR, and UCP3-p and some other genes differ significantly between Mongoloids and Caucasoids. These differences in SNPs may have been caused by natural selection depending on the types of agriculture practiced in different regions. Interventions to counteract the adverse effects of "thrifty" SNPs have been partially effective. 相似文献
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