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31.
The stem bark of Ochna afzelii furnished three biflavonoids among which two are new. Their structures were established from spectroscopic and chemical evidences. 相似文献
32.
33.
Cell migration is central to many biological and pathological processes, including embryogenesis, tissue repair and regeneration as well as cancer and the inflammatory response. In general, cell migration can be usefully conceptualized as a cyclic process. The initial response of a cell to a migration-promoting agent is to polarize and extend protrusions in the direction of migration. These protrusions can be large, broad lamellipodia or spike-like filopodia, are usually driven by actin polymerization, and are stabilized by adhering to the extracellular matrix (ECM) via transmembrane receptors of the integrin family linked to the actin cytoskeleton. These adhesions serve as traction sites for migration as the cell moves forward over them, and they must be disassembled at the cell rear, allowing it to detach. The mechanisms of rear detachment and the regulatory processes involved are not well understood. The disassembly of adhesions that is required for detachment depends on a coordinated interaction of actin and actin-binding proteins, signaling molecules and effector enzymes including proteases, kinases and phosphatases. Originally, the biochemically regulated processes leading to rear detachment of migrating cells were thought not to be necessarily accompanied by any loss of cell material. However, it has been shown that during rear detachment long tubular extensions, the retracting fibers, are formed and that "membrane ripping" occurs at the cell rear. By this process, a major fraction of integrin-containing cellular material is left behind forming characteristic migration tracks that exactly mark the way a cell has taken. 相似文献
34.
Differential modulation of the human liver conjugate transporters MRP2 and MRP3 by bile acids and organic anions 总被引:9,自引:0,他引:9
Bodo A Bakos E Szeri F Varadi A Sarkadi B 《The Journal of biological chemistry》2003,278(26):23529-23537
The multidrug resistance proteins MRP2 (ABCC2) and MRP3 (ABCC3) are key primary active transporters involved in anionic conjugate and drug extrusion from the human liver. The major physiological role of MRP2 is to transport conjugated metabolites into the bile canaliculus, whereas MRP3 is localized in the basolateral membrane of the hepatocytes and transports similar metabolites back to the bloodstream. Both proteins were shown to interact with a large variety of transported substrates, and earlier studies suggested that MRPs may work as co-transporters for different molecules. In the present study we expressed the human MRP2 and MRP3 proteins in insect cells and examined their transport and ATPase characteristics in isolated, inside-out membrane vesicles. We found that the primary active transport of estradiol-17-beta-d-glucuronide (E217betaG), a major product of human steroid metabolism, was differently modulated by bile acids and organic anions in the case of human MRP2 and MRP3. Active E217betaG transport by MRP2 was significantly stimulated by the organic anions indomethacin, furosemide, and probenecid and by several conjugated bile acids. In contrast, all of these agents inhibited E217betaG transport by MRP3. We found that in the case of MRP2, ATP-dependent vesicular bile acid transport was increased by E217betaG, and the results indicated an allosteric cross-stimulation, probably a co-transport of bile acids and glucuronate conjugates through this protein. There was no such stimulation of bile acid transport by MRP3. In conclusion, the different transport modulation of MRPs by bile acids and anionic drugs could play a major role in regulating physiological and pathological metabolite fluxes in the human liver. 相似文献
35.
Fernandez-Capetillo O Liebe B Scherthan H Nussenzweig A 《The Journal of cell biology》2003,163(1):15-20
The histone H2A variant H2AX is phosphorylated in response to DNA double-strand breaks originating from diverse origins, including dysfunctional telomeres. Here, we show that normal mitotic telomere maintenance does not require H2AX. Moreover, H2AX is dispensable for the chromosome fusions arising from either critically shortened or deprotected telomeres. However, H2AX has an essential role in controlling the proper topological distribution of telomeres during meiotic prophase I. Our results suggest that H2AX is a downstream effector of the ataxia telangiectasia-mutated kinase in controlling telomere movement during meiosis. 相似文献
36.
Recently [Marquardt et al. (2000) Gene 255: 257–265], we isolated a gene encoding a polypeptide of the light-harvesting complex
of Photosystem I (LHC I) of the red alga Galdieria sulphuraria. By screening a G. sulphuraria cDNA library with a DNA probe coding for the conserved first transmembrane helix of this protein we isolated four additional
genes coding for LHC I polypeptides. The deduced preproteins had calculated molecular masses of 24.6–25.6 kDa and isoelectric
points of 8.09–9.82. N-terminal sequencing of a LHC I polypeptide isolated by gel electrophoresis allowed us to determine
the cleavage site of the transit peptide of one of the deduced polypeptides. The mature protein has a calculated molecular
mass of 20.6 kDa and an isoelectric point of 7.76. The genes were amplified from nuclear G. sulphuraria DNA by polymerase chain reaction (PCR) using oligonucleotides annealing in the regions of the start and stop codons as primers.
All genomic sequences were 80–300 base pairs longer than the PCR products obtained from the respective cDNA clones, pointing
to the existence of 1–5 introns per gene. The G. sulphuraria genes form a homogeneous gene family with overall pairwise amino acid identities of 46.0–56.6%. Homology to two diatom, one
cryptophytic and two higher plant light-harvesting polypeptides was lower with pairwise identities of 21.1–34.1%. Only one
diatom polypeptide showed a higher degree of identity of up to −39.3%.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
37.
Accumulation of the proteolytic marker peptide ubiquitin in the trophoblast of mammalian blastocysts
Sutovsky P Motlik J Neuber E Pavlok A Schatten G Palecek J Hyttel P Adebayo OT Adwan K Alberio R Bagis H Bataineh Z Bjerregaard B Bodo S Bryja V Carrington M Couf M de la Fuente R Diblik J Esner M Forejt J Fulka J Geussova G Gjorret JO Libik M Hampl A Hassane MS Houshmand M Hozak P Jezova M Kania G Kanka J Kandil OM Kishimoto T Klima J Kohoutek J Kopska T Kubelka M Lapathitis G Laurincik J Lefevre B Mihalik J Novakova M Oko R Omelka R Owiny D Pachernik J Pacholikova J Peknicova J Pesty A 《Cloning and stem cells》2001,3(3):157-161
Ubiquitination is a universal protein degradation pathway in which the molecules of 8.5-kDa proteolytic peptide ubiquitin are covalently attached to the epsilon-amino group of the substrate's lysine residues. Little is known about the importance of this highly conserved mechanism for protein recycling in mammalian gametogenesis and fertilization. The data obtained by the students and faculty of the international training course Window to the Zygote 2000 demonstrate the accumulation of ubiquitin-cross-reactive structures in the trophoblast, but not in the inner cell mass of the expanding bovine and mouse blastocysts. This observation suggests that a major burst of ubiquitin-dependent proteolysis occurs in the trophoblast of mammalian peri-implantation embryos. This event may be important for the success of blastocyst hatching, differentiation of embryonic stem cells into soma and germ line, and/or implantation in both naturally conceived and reconstructed mammalian embryos. 相似文献
38.
39.
Auxin controls the orientation of cortical microtubules in maize coleoptile segments. We used tyrosinylated alpha-tubulin as a marker to assess auxin-dependent changes in microtubule turnover. Auxin-induced tyrosinylated alpha-tubulin, correlated with an elevated sensitivity of growth to antimicrotubular compounds such as ethyl-N-phenylcarbamate (EPC). We determined the affinity of alpha-tubulin to EPC and found that it was dramatically increased when the tubulin was de-tyrosinylated. By proteolytic cleavage of the carboxy terminal tyrosine, such an increased affinity could be induced in vitro. Thus, the auxin-induced sensitivity of growth to EPC is not caused by an increased affinity for this inhibitor, but caused by a reduced microtubule turnover. Double visualization assays revealed that the transverse microtubules induced by auxin consist predominantly of tyrosinylated alpha-tubulin, whereas the longitudinal microtubules induced by auxin depletion contain de-tyrosinylated alpha-tubulin. The results are discussed in terms of direction-dependent differences in the lifetime of microtubules. 相似文献
40.
The role of the N-terminal domains of corticotropin-releasing factor (CRF) and CRF-like peptides in receptor subtype selectivity, ligand affinity and biological potency was investigated. Therefore, human CRF(12-41), human URP(12-38) and antisauvagine-30 (aSvg) were N-terminally prolonged by consecutive addition of one or two amino acids. The peptides obtained were tested for their binding affinities to rat CRF1 and murine CRF(2beta) receptor, and their capability to stimulate cAMP-release by HEK cells producing either receptor.It was observed that human CRF N-terminally truncated by eight residues was bound with high affinity to CRF2 receptor (Ki=5.4nM), whereas affinity for CRF1 receptor was decreased (Ki=250 nM). A similar shift of affinity was found with sauvagine (Svg) analogs. Truncation of human URP analogs did not affect their preference for CRF(2beta) receptor, but reduced their affinity. Changes in affinity were positively correlated with changes in potency. These results indicated that CRF1 receptor was more stringent in its structural requirements for ligands to exhibit high affinity binding than CRF(2beta) receptor. 相似文献