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121.
122.
Effects of lithium on phosphoinositide metabolism in vivo 总被引:12,自引:0,他引:12
All of the known pathways for metabolizing the phospholipase C (EC 3.1.4.10) products of phosphoinositide metabolism eventually lead to myo-inositol monophosphates and products that are hydrolyzed by myo-inositol 1-phosphatase (EC 3.1.3.25). That enzyme is inhibited by lithium (Ki about 1 mM). In animals treated with LiCl, elevations of myo-inositol 1-phosphate (1-IP) occur in brain that appear to result from endogenous neural activity for they are diminished by the anesthetics halothane and pentobarbital. Lithium is thus a useful tool for assessing endogenous in vivo cerebral phosphoinositide metabolism. The 1-IP elevation is also useful for revealing in vivo central nervous system (CNS) receptor activity that is stimulated by endogenous or exogenous processes such as the effects of centrally acting drugs and of seizures. Stimulation of the CNS in the presence of lithium causes myo-inositol to be sequestered in 1-IP in proportion to the amount of stimulation. Thus if the inositol level falls sufficiently resynthesis of the phosphoinositides may be compromised and receptor response to stimuli may be reduced. Evidence for such an occurrence would support the theory that this is one mechanism by which lithium acts in the therapy of manic illness. We extended our efforts to identify such a lowering of phosphoinositide levels to mice where cerebral metabolism can be halted more rapidly than in rats. However, the only change detected was a small elevation in phosphatidylinositol 4-phosphate. We were successful, however, in causing all of the phosphoinositides to be reduced in rat cerebral cortex by pilocarpine stimulation after lithium treatment, a procedure that causes seizures. The same procedure causes the largest reduction in cortical myo-inositol levels that we have observed, and thus may represent the point where the inositol decrement is sufficient to interfere with resynthesis of the lipids. 相似文献
123.
DNA and RNA sequencing utilizing phosphorothioate chemistry 总被引:1,自引:0,他引:1
A method for nucleic acid sequencing has been developed based on the observation that phosphorothioate diesters are hydrolysed by treatment with 2-iodoethanol in a solution of aqueous ethanol. For DNA sequencing, primed single-stranded M13 DNA is polymerised with the Klenow fragment of DNA polymerase I in the presence of the three normal deoxyribonucleotide triphosphates and one alpha-phosphorothioate derivative. This is followed by treatment with 2-iodoethanol, precipitation of the DNA fragments and analysis by polyacrylamide electrophoresis. RNA transcribed from plasmids containing the SP6 RNA polymerase promoter is sequenced by including the alpha-phosphorothioate derivative of the ribonucleotide triphosphates in the polymerisation and treating the product with iodoethane. The cleavage reaction involves alkylation of the sulfur atom to form the phosphorothioate triester and hydrolysis catalysed by an adjacent hydroxyl group. 相似文献
124.
Jennifer Yinuo Cao Kathy Shire Cameron Landry Gerald D. Gish Tony Pawson Lori Frappier 《Molecular and cellular biology》2014,34(2):246-258
Casein kinase 2 (CK2) regulates multiple cellular processes and can promote oncogenesis. Interactions with the CK2β regulatory subunit of the enzyme target its catalytic subunit (CK2α or CK2α′) to specific substrates; however, little is known about the mechanisms by which these interactions occur. We previously showed that by binding CK2β, the Epstein-Barr virus (EBV) EBNA1 protein recruits CK2 to promyelocytic leukemia (PML) nuclear bodies, where increased CK2-mediated phosphorylation of PML proteins triggers their degradation. Here we have identified a KSSR motif near the dimerization interface of CK2β as forming part of a protein interaction pocket that mediates interaction with EBNA1. We show that the EBNA1-CK2β interaction is primed by phosphorylation of EBNA1 on S393 (within a polyserine region). This phosphoserine is critical for EBNA1-induced PML degradation but does not affect EBNA1 functions in EBV replication or segregation. Using comparative proteomics of wild-type (WT) and KSSR mutant CK2β, we identified an uncharacterized cellular protein, C18orf25/ARKL1, that also binds CK2β through the KSSR motif and show that this involves a polyserine sequence resembling the CK2β binding sequence in EBNA1. Therefore, we have identified a new mechanism of CK2 interaction used by viral and cellular proteins. 相似文献