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排序方式: 共有917条查询结果,搜索用时 15 毫秒
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Selective translocation of beta II-protein kinase C to the nucleus of human promyelocytic (HL60) leukemia cells. 总被引:11,自引:0,他引:11
The promyelocytic leukemia (HL60) cell line differentiates into monocyte-like cells after treatment with phorbol dibutyrate (PBt2). In contrast, bryostatin 1 (bryo), a structurally distinct protein kinase C (PKC) activator, does not induce differentiation and blocks the cytostatic effect of PBt2. The divergent responses to these agents correlate with activation of a PKC-like activity at the nucleus in response to bryo but not PBt2 (Fields, A. P., Pettit, G. R., and May, W.S. (1988) J. Biol. Chem. 263, 8253-8260). In the present study, this nuclear PKC-like activity (termed PKCn) was isolated from HL60 cells and shown to phosphorylate its known nuclear substrate, lamin B. PKCn-mediated phosphorylation of nuclear envelope-associated lamin B in vitro is calcium-dependent and is stimulated by bryo and 1,2-dioctanoylglycerol (DiC8), but not PBt2. In contrast, PKCn-mediated phosphorylation of histone IIIS is stimulated equally by all three activators. PKCn mediates calcium- and phosphatidylserine-dependent phosphorylation of both histone IIIS and partially purified lamin B. PKCn activity can be inhibited by an anti-PKC monoclonal antibody which specifically inhibits PKC. Isotype-specific PKC antibodies identify PKCn as beta II-PKC. Immunoblot analysis indicates that HL60 cells express both alpha- and beta II-PKC but no beta I- or gamma-PKC. Treatment of intact cells with bryo for 30 min leads to complete translocation of both alpha- and beta II-PKC from the cytosol to the membrane fractions. Approximately 8-10% of the total beta II-PKC (and less than 0.3% of the alpha-PKC) is found associated with the nuclear membrane of bryo-treated cells. In contrast, PBt2 treatment leads to complete translocation of alpha-PKC, but only partial translocation of beta II-PKC to the plasma membrane fraction. Neither PKC isotype is found associated with the nuclear membrane of PBt2-treated cells. These data demonstrate that alpha- and beta II-PKC differ with respect to activator responsiveness, intracellular distribution, and substrate specificity and indicate that their selective activation at distinct intracellular sites, including the nucleus, can have a dramatic effect on resulting cellular responses. 相似文献
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Matthew G. Gold Douglas M. Fowler Christopher K. Means Catherine T. Pawson Jason J. Stephany Lorene K. Langeberg Stanley Fields John D. Scott 《The Journal of biological chemistry》2013,288(24):17111-17121
PKA is retained within distinct subcellular environments by the association of its regulatory type II (RII) subunits with A-kinase anchoring proteins (AKAPs). Conventional reagents that universally disrupt PKA anchoring are patterned after a conserved AKAP motif. We introduce a phage selection procedure that exploits high-resolution structural information to engineer RII mutants that are selective for a particular AKAP. Selective RII (RSelect) sequences were obtained for eight AKAPs following competitive selection screening. Biochemical and cell-based experiments validated the efficacy of RSelect proteins for AKAP2 and AKAP18. These engineered proteins represent a new class of reagents that can be used to dissect the contributions of different AKAP-targeted pools of PKA. Molecular modeling and high-throughput sequencing analyses revealed the molecular basis of AKAP-selective interactions and shed new light on native RII-AKAP interactions. We propose that this structure-directed evolution strategy might be generally applicable for the investigation of other protein interaction surfaces. 相似文献
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Jianxi Xiao Rayna M. Addabbo Janelle L. Lauer Gregg B. Fields Jean Baum 《The Journal of biological chemistry》2010,285(44):34181-34190
The mechanism by which enzymes recognize the “uniform” collagen triple helix is not well understood. Matrix metalloproteinases (MMPs) cleave collagen after the Gly residue of the triplet sequence Gly∼[Ile/Leu]-[Ala/Leu] at a single, unique, position along the peptide chain. Sequence analysis of types I-III collagen has revealed a 5-triplet sequence pattern in which the natural cleavage triplets are always flanked by a specific distribution of imino acids. NMR and MMP kinetic studies of a series of homotrimer peptides that model type III collagen have been performed to correlate conformation and dynamics at, and near, the cleavage site to collagenolytic activity. A peptide that models the natural cleavage site is significantly more active than a peptide that models a potential but non-cleavable site just 2-triplets away and NMR studies show clearly that the Ile in the leading chain of the cleavage peptide is more exposed to solvent and less locally stable than the Ile in the middle and lagging chains. We propose that the unique local instability of Ile at the cleavage site in part arises from the placement of the conserved Pro at the P3 subsite. NMR studies of peptides with Pro substitutions indicate that the local dynamics of the three chains are directly modulated by their proximity to Pro. Correlation of peptide activity to NMR data shows that a single locally unstable chain at the cleavage site, rather than two or three labile chains, is more favorable for cleavage by MMP-1 and may be the determining factor for collagen recognition. 相似文献
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Eight Danish Holstein cows were milked with a 1-mm thick specially designed soft liner on their right rear teat and a standard
liner mounted under extra high tension on their left rear teat. Four of the animals were overmilked for 5 min. Rear teats
were subjected to ultrasound examination on the first day and to infrared thermography on the second day. Teats were submersed
in ethanol 20 min post-milking on the second day. Ultrasonography measurements showed that teat canal length increased by
30–41% during milking. Twenty minutes after milking, teats milked with modified standard liners still had elongated teat canals
while teats milked with the soft liner were normalized. Overmilking tended to increase teat wall thickness. Approximately
80% of variability in teat canal length, from before teat preparation to after milking, could be explained by changes during
teat preparation. Thermography indicated a general drop in teat temperature during teat preparation. Teat temperature increased
during milking and continued to increase until the ethanol challenge induced a significant drop. Temperatures approached pre-challenge
rather than pre-milking temperatures within 10 minutes after challenge. Teat temperatures were dependent on type of liner.
Mid-teat temperatures post-challenge relative to pre-teat preparation were dependent on overmilking. Thermography and ultrasound
were considered useful methods to indirectly and non invasively evaluate teat tissue integrity. 相似文献
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The bending stiffness of double-stranded DNA (dsDNA) at high curvatures is fundamental to its biological activity, yet this regime has been difficult to probe experimentally, and literature results have not been consistent. We created a ‘molecular vise’ in which base-pairing interactions generated a compressive force on sub-persistence length segments of dsDNA. Short dsDNA strands (<41 base pairs) resisted this force and remained straight; longer strands became bent, a phenomenon called ‘Euler buckling’. We monitored the buckling transition via Förster Resonance Energy Transfer (FRET) between appended fluorophores. For low-to-moderate concentrations of monovalent salt (up to ∼150 mM), our results are in quantitative agreement with the worm-like chain (WLC) model of DNA elasticity, without the need to invoke any ‘kinked’ states. Greater concentrations of monovalent salts or 1 mM Mg2+ induced an apparent softening of the dsDNA, which was best accounted for by a kink in the region of highest curvature. We tested the effects of all single-nucleotide mismatches on the DNA bending. Remarkably, the propensity to kink correlated with the thermodynamic destabilization of the mismatched DNA relative the perfectly complementary strand, suggesting that the kinked state is locally melted. The molecular vise is exquisitely sensitive to the sequence-dependent linear and nonlinear elastic properties of dsDNA. 相似文献