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51.
Nodal flow and the generation of left-right asymmetry 总被引:3,自引:0,他引:3
The establishment of left-right asymmetry in mammals is a good example of how multiple cell biological processes coordinate in the formation of a basic body plan. The leftward movement of fluid at the ventral node, called nodal flow, is the central process in symmetry breaking on the left-right axis. Nodal flow is autonomously generated by the rotation of cilia that are tilted toward the posterior on cells of the ventral node. These cilia are built by transport via the KIF3 motor complex. How nodal flow is interpreted to create left-right asymmetry has been a matter of debate. Recent evidence suggests that the leftward movement of membrane-sheathed particles, called nodal vesicular parcels (NVPs), may result in the activation of the non-canonical Hedgehog signaling pathway, an asymmetric elevation in intracellular Ca(2+) and changes in gene expression. 相似文献
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Higashi N Uchino A Mizuguchi Y Niwa M 《International journal of biological macromolecules》2006,38(2):120-125
The interaction of novel oligo(L-lysine)-shelled dendrimers (G3-PLL) with DNA was studied by means of circular dichroism spectroscopy, dynamic light scattering, and melting behavior of double-stranded DNA. G3-PLLs having various oligo(L-lysine) (PLL) segment (n = 5-40) were successfully synthesized by graft-polymerization of L-lysine NCA initiated with amino groups at the 3rd-generation poly(amidoamine) dendrimer surface. The ionization property of the newly prepared G3-PLLs were first examined. The evaluated pK(a) values (8.3-8.5) for G3-PLLs were found to be significantly lower than those (9.2-9.4) for the corresponding linear PLLs, probably due to alignment of PLL segments on the three-dimensional core surface. The binding experiments of G3-PLLs to DNA showed that double-stranded DNAs were fairly strongly bound to G3-PLLs primarily through electrostatic interactions. In addition, G3-PLLs served as a DNA cross-linker. A longer PLL-containing G3-PLL was found to interact with DNA more effectively than a shorter one. 相似文献
54.
Yamaguchi T Saneyoshi M Takahashi H Hirokawa S Amano R Liu X Inomata M Maruyama T 《Nucleosides, nucleotides & nucleic acids》2006,25(4-6):539-551
Telomerase, responsible for telomere synthesis, is expressed in approximately 90% of human tumor cells but seldom in normal somatic cells. In this study, inhibition by carbocyclic oxetanocin G triphosphate (C. OXT-GTP) and its analogues was investigated in order to clarify the susceptibility of telomerase to various nucleotide analogues. C. OXT-GTP competitively inhibited telomerase activity with respect to dGTP However, C. OXT-GTP had a potent inhibitory effect on DNA polymerase alpha. It was examined whether the nucleoside (C. OXT-G) was able to alter telomere length in cultured human HL60 cells. Contrary to expectation, long-term treatment with 10 microM C. OXT-G was found to cause telomere lengthening. 相似文献
55.
A common peripheral neuropathy, Charcot-Marie-Tooth disease, progressively develops with distal muscle atrophy. Several genes expressed in Schwann cells and neurons have been identified to be responsible for this hereditary disease, and used in generating transgenic and knockout mice. Such mice are good disease models for cell biological and therapeutic studies. 相似文献
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The establishment of left-right asymmetry during development of vertebrate embryos depends on leftward flow in the nodal cavity. The flow is produced by the rotational movement of the posteriorly tilted nodal cilia. However, it remains poorly understood how the nodal cilia are tilted posteriorly, and how the directionality of the flow is translated into gene expression patterns in the embryo. Recent studies have identified signaling molecules involved in these processes. First, planar cell polarity signaling has been shown to be involved in the posterior positioning of the basal bodies of nodal cilia, which leads to the posterior tilting of their rotation axes. Second, identification of putative receptors and signaling molecules suggests a link between the signaling molecules delivered by the nodal flow, and downstream signaling in the cells surrounding the nodal cavity and the lateral plate mesoderm. 相似文献
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Ribosome recycling factor (RRF), elongation factor G (EF-G) and GTP split 70S ribosomes into subunits. Here, we demonstrated that the splitting was transient and the exhaustion of GTP resulted in re-association of the split subunits into 70S ribosomes unless IF3 (initiation factor 3) was present. However, the splitting was observed with sucrose density gradient centrifugation (SDGC) without IF3 if RRF, EF-G and GTP were present in the SDGC buffer. The splitting of 70S ribosomes causes the decrease of light scattering by ribosomes. Kinetic constants obtained from the light scattering studies are sufficient to account for the splitting of 70S ribosomes by RRF and EF-G/GTP during the lag phase for activation of ribosomes for the log phase. As the amount of 70S ribosomes increased, more RRF, EF-G and GTP were necessary to split 70S ribosomes. In the presence of a physiological amount of polyamines, GTP and factors, even 0.6 μM 70S ribosomes (12 times higher than the 70S ribosomes for routine assay) were split. Spermidine (2 mM) completely inhibited anti-association activity of IF3, and the RRF/EF-G/GTP-dependent splitting of 70S ribosomes. 相似文献
60.
D Nakai S Yuasa M Takahashi T Shimizu S Asaumi K Isono T Takao Y Suzuki H Kuroyanagi K Hirokawa H Koseki T Shirsawa 《Biochemical and biophysical research communications》2001,289(2):463-471
coq7/clk-1 was isolated from a long-lived mutant of Caenorhabditis elegans, which showed sluggish behavior and an extended life span. Mouse coq7 is homologous to Saccharomyces cerevisiae coq7/cat5 that is required for biosynthesis of coenzyme Q (CoQ), an essential cofactor in mitochondrial respiration. Here we generated COQ7-deficient mice to investigate the biological role of COQ7 in mammals. COQ7-deficient mouse embryos failed to survive beyond embryonic day 10.5, exhibiting small-sized body and delayed embryogenesis. Morphological studies showed that COQ7-deficient neuroepithelial cells failed to show the radial arrangement in the developing cerebral wall, aborting neurogenesis at E10.5. Electron microscopic analysis further showed the enlarged mitochondria with vesicular cristae and enlarged lysosomes filled with disrupted membranes, which is consistent with mitochondriopathy. Biochemical analysis demonstrated that COQ7-deficient embryos failed to synthesize CoQ(9), but instead yielded demethoxyubiquinone 9 (DMQ(9)). Cultured embryonic cells from COQ7-deficient mice were rescued by adding bovine fetal serum in vitro, but exhibited slowed cell proliferation, which resembled to the phenotype of clk-1 with delayed cell divisions. The result implied the essential role of coq7 in CoQ synthesis, maintenance of mitochondrial integrity, and neurogenesis in mice. 相似文献