蛋白激酶C的分离纯化及其性质研究

 本文由兔脑细胞质可溶部分分离纯化了蛋白激酶C,测得该酶分子量为79.2kD,最适pH为6.5,最适反应温度为20℃,热不稳定,即使在4℃下,24h就丧失活力50％,同时观察了蛋白激酶C的抑制剂H_7对酶活力的影响。     

Partial Purification and Characterization of a Ca2+-Dependent Protein Kinase from Pea Nuclei

Almost all the Ca²⁺-dependent protein kinase activity in nuclei purified from etiolated pea (Pisum sativum, L.) plumules is present in a single enzyme that can be extracted from chromatin by 0.3 molar NaCl. This protein kinase can be further purified 80,000-fold by salt fractionation and high performance liquid chromatography, after which it has a high specific activity of about 100 picomoles per minute per microgram in the presence of Ca²⁺ and reaches half-maximal activation at about 3 ×10⁻⁷ molar free Ca²⁺, without calmodulin. It is a monomer with a molecular weight near 90,000. It can efficiently use histone III-S, ribosomal S6 protein, and casein as artificial substrates, but it phosphorylates phosvitin only weakly. Its Ca²⁺-dependent kinase activity is half-maximally inhibited by 0.1 millimolar chlorpromazine, by 35 nanomolar K-252a and by 7 nanomolar staurosporine. It is insensitive to sphingosine, an inhibitor of protein kinase C, and to basic polypeptides that block other Ca²⁺-dependent protein kinases. It is not stimulated by exogenous phospholipids or fatty acids. In intact isolated pea nuclei it preferentially phosphorylates several chromatin-associated proteins, with the most phosphorylated protein band being near the same molecular weight (43,000) as a nuclear protein substrate whose phosphorylation has been reported to be stimulated by phytochrome in a calcium-dependent fashion.     

Partial Purification and Characterization of a Ca2+-Dependent Protein Kinase from the Green Alga, Dunaliella salina

A calcium-dependent protein kinase was partially purified and characterized from the green alga Dunaliella salina. The enzyme was activated at free Ca²⁺ concentrations above 10⁻⁷ molar. and half-maximal activation was at about 3 × 10⁻⁷ molar. The optimum pH for its Ca²⁺-dependent activity was 7.5. The addition of various phospholipids and diolein had no effects on enzyme activity and did not alter the sensitivity of the enzyme toward Ca²⁺. The enzyme was inhibited by calmodulin antagonists, N-(6-aminohexyl)-1-naphthalene sulfonamide and N-(6-aminohexyl)-5-chloro-1-naphthalene sulfonamide in a dose-dependent manner while the protein kinase C inhibitor, sphingosine, had little effect on enzyme activity up to 800 micromolar. Immunoassay showed some calmodulin was present in the kinase preparations. However, it is unlikely the kinase was calmodulin regulated, since it still showed stimulation by Ca²⁺ in gel assays after being electrophoretically separted from calmodulin by two different methods. This gel method of detection of the enzyme indicated that a protein band with an apparent molecular weight of 40,000 showed protein kinase activity at each one of the several steps in the purification procedure. Gel assay analysis also showed that after native gel isoelectric focusing the partially purified kinase preparations had two bands with calcium-dependent activity, at isoelectric points 6.7 and 7.1. By molecular weight, by isoelectric point, and by a comparative immunoassay, the Dunaliella kinase appears to differ from at least some of the calcium-dependent, but calmodulin and phospholipid independent kinases described from higher plants.     

Partial Purification and Characterization of a Calcium-Dependent Protein Kinase and an Inhibitor Protein Required for Inactivation of Spinach Leaf Nitrate Reductase

Evidence is accumulating that the activity of spinach (Spinacia oleracea L.) leaf NADH:nitrate reductase (NR) is modulated both in vitro and in vivo by protein phosphorylation. From the present study we report the partial purification of the two protein factors needed for NR inactivation. We identified NR-protein kinase (NR-PK) as a calcium-dependent and metabolite-regulated protein kinase and have provided additional evidence that phosphorylation of NR is necessary but not sufficient to inactivate the enzyme. The inhibitor protein required for inactivation of phospho-NR was purified 625-fold by polyethylene glycol fractionation and sequential column chromatography. Using partially purified inhibitor protein and NR-PK, we characterized NR inactivation (increased sensitivity to Mg2+ inhibition) in a reconstituted in vitro system. NR-PK activity was inhibited by a variety of metabolic phosphate esters including di-hydroxyacetone phosphate, glucose-6-phosphate, and fructose-1,6-bisphosphate. Light-to-dark transition experiments with a starchless tobacco (Nicotiana sylvestris) mutant, which accumulates phosphate esters during the photoperiod, indicated that NR inactivation in vivo might, indeed, be down-regulated by metabolites. Additionally, we postulate that cytosolic free calcium could play an important role in the regulation of NR activity in vivo.     

Thymidine Kinase 1(TK1)重组蛋白的表达、纯化及鉴定

为获得具有免疫原性的TK1重组蛋白。通过构建能够表达TK1蛋白的重组菌BL21-pET32a-TK1,采用大肠杆菌pET32a表达系统,优化IPTG浓度、诱导温度、诱导时间使BL21-pET32a-TK1重组菌表达目的蛋白的作用条件最佳。表达产物用镍离子亲和层析纯化获得TK1蛋白,并用SDS-PAGE和Western blot进行检测。用TK1重组蛋白免疫BALB/c小鼠制备单克隆抗体,检测蛋白质免疫原性。实验结果表明,成功构建能够表达TK1蛋白的重组菌BL21-pET32aTK1,在37℃条件下,IPTG浓度为0.2mmol/L、诱导6h时重组蛋白TK1表达量最高。镍离子亲和层析梯度洗脱在80mmol/L咪唑条件下TK1蛋白纯度最大,灰度分析为87.3%,浓缩后蛋白质浓度为5.96mg/ml。用该蛋白质制备杂交瘤共获得10株稳定分泌TK1抗体的阳性单克隆细胞株,表明TK1重组蛋白具有较好的免疫原性。成功获得可溶性、抗原活性高、免疫原性强的TK1重组蛋白,为肿瘤科学及临床应用研究提供物质支撑。     

Overexpression, Purification, and Characterization of Glutaminase-Interacting Protein, a PDZ-Domain Protein from Human Brain

A human brain cDNA clone coding for a novel PDZ-domain protein of 124 amino acids has been previously isolated in our laboratory. The protein was termed GIP (glutaminase-interacting protein) because it interacts with the C-terminal region of the human brain glutaminase L. Here we report the heterologous expression of GIP as a histidine-tagged fusion protein in Escherichia coli cells. The induction conditions (temperature and isopropyl beta-d-thiogalactopyranoside concentrations) were optimized in such a way that GIP accounted for about 20% of the total E. coli protein. A simple and rapid procedure for purification was developed, which yielded 17 mg of purified GIP per liter of bacterial cell culture. The apparent molecular mass of the protein by SDS-PAGE was 16 kDa, whereas in native form it was determined to be 28 kDa, which suggests dimer formation. The nature and integrity of the recombinant protein were verified by mass spectrometry analysis. The functionality of the GIP protein was tested with an in vitro activity assay: after being pulled down with glutathione S-transferase-glutaminase, GIP was revealed by Western blot using anti-GIP antibodies. Furthermore, the glutaminase activity in crude rat liver extracts was inhibited by the presence of recombinant purified GIP protein.     

重组酿酒酵母腺苷激酶的表达、纯化和鉴定

腺苷激酶 (adenosinekinase ,AK)是控制细胞中腺苷浓度的一种关键酶 ,在许多细胞和组织中发挥着重要的生理效应子作用。从酿酒酵母 (Saccharomycescerevisiae)中克隆了腺苷激酶基因 (ak) ,并将其接入大肠杆菌pET16b表达质粒中进行表达。重组蛋白质经部分纯化后 ,测定其酶动力学常数 ,结果表明该酶对腺苷的Km 值为 (3.5± 0 .2 ) μmol L ,对ATP的Km 值为(10 0 .0± 11.0 ) μmol L ,对腺苷的kcat值为 (15 30± 2 0 )min- 1 ,对ATP的kcat值为 (14 4 8± 2 5 )min- 1 。该酶对其他核苷和脱氧核苷的Km 值测定数据表明 ,从酵母中克隆得到的该重组腺苷激酶具有较高的底物特异性。     

Regulation of Protein Synthesis in Plant Embryo by Protein Phosphorylation : I. Purification and Characterization of a cAMP-Independent Protein Kinase and Its Endogenous Substrate

A cyclic AMP-independent protein kinase, which strongly inhibits in vitro protein synthesis, was purified to homogeneity from barley embryo by affinity and ion exchange chromatography. The M_r of the purified enzyme is 95,000 with two nonidentical subunits of M_r 58,000 and 39,000. The enzyme activity is not stimulated by cAMP, cGMP, or calmodulin. The endogenous phosphate acceptor of this kinase is a protein of M_r 52,000, was isolated by purified protein kinase immobilized Sepharose column. Using antibodies raised against this protein kinase, the levels of the enzyme during embryogenesis and germination are determined. An inverse relationship has been observed between protein kinase level and rate of protein synthesis.     

Purification and Characterization of a Ca2+-Dependent Protein Kinase from the Halotolerant Green Alga Dunaliella tertiolecta

A Ca²⁺-dependent protein kinase (CDPK) that has been partiallypurified and characterized previously [Yuasa and Muto (1992)Arch. Biochem. Biophys. 296: 175] was further purified to about20,000-fold from the soluble fraction of Dunaliella tertiolecta.The enzyme preparation contained 60- and 52-kDa polypeptidesboth of which phosphorylated casein as a substrate. Both polypeptidesshowed a Ca²⁺-dependent increase in mobility during SDS-PAGEand ⁴⁵Ca²⁺-binding activity after SDS-PAGE and electroblottingonto a nitrocellulose membrane, suggesting that both the 60-and 52-kDa CDPKs directly bind Ca²⁺. The protein kinase inhibitors,K-252a and staurosporine, inhibited the CDPK competitively withrespect to ATP. An antibody raised against the 60-kDa CDPK crossreactedwith both the 60- and 52-kDa polypeptides. Both molecular specieswere autophosphorylated in the presence of Ca²⁺, and a highlyphosphorylated 80-kDa band appeared in addition to these phosphorylatedbands at 60 and 52 kDa in SDS-PAGE. However, the specific activityof CDPK was not changed by prior autophosphorylation when theautophosphorylated enzyme was assayed as a mixture of thesephosphorylated molecular species. Only the 60-kDa polypeptidewas immunodetected in subcellular fractions of Dunaliella cells.The 52-kDa polypeptide increased during storage of the enzyme.These results suggest that the 52-kDa polypeptide is a proteolyticartifact produced during purification. Immunoreactive bandsof 60-kDa were detected in extracts of several green algae butnot in extracts of higher plants or a brown alga. ¹This research was partly supported by Grants-in-Aid from theMinistry of Education, Science and Culture, Japan (No. 06454013and 06304023) and Research Fellowship of the Japan Society forthe Promotion of Science for Young Sciencists. ²Research Fellow (PD) of the Japan Society for the Promotionof Science.     

重组I型cAMP依赖的蛋白激酶调节亚基的表达,纯化和鉴定

Ｉ型蛋白激酶的调节亚基（ＲＩ）具有两个ｃＡＭＰ结合位点,对ｃＡＭＰ具有很高亲和力和特异性,我们从人神经细胞中克隆人ＲＩ亚基ｃＤＮＡ片段（编码氨基酸残基９３－３８１）并将其亚克隆至ｐＥＴ３０ａ原核表达载体,实验表明该表达质粒在大肠杆菌ＢＬ２１中,在ＩＰＴＧ诱导下,表达产生大量带聚组氨酸标记的重组ＲＩ亚基。这些蛋白质以可溶性蛋白形式存在,经组氨酸结合金属螯合树脂亲和柱层析纯化后,每０．１升培养菌可制备     

Analysis of the Chloroplast Protein Kinase Stt7 during State Transitions

State transitions allow for the balancing of the light excitation energy between photosystem I and photosystem II and for optimal photosynthetic activity when photosynthetic organisms are subjected to changing light conditions. This process is regulated by the redox state of the plastoquinone pool through the Stt7/STN7 protein kinase required for phosphorylation of the light-harvesting complex LHCII and for the reversible displacement of the mobile LHCII between the photosystems. We show that Stt7 is associated with photosynthetic complexes including LHCII, photosystem I, and the cytochrome b₆f complex. Our data reveal that Stt7 acts in catalytic amounts. We also provide evidence that Stt7 contains a transmembrane region that separates its catalytic kinase domain on the stromal side from its N-terminal end in the thylakoid lumen with two conserved Cys that are critical for its activity and state transitions. On the basis of these data, we propose that the activity of Stt7 is regulated through its transmembrane domain and that a disulfide bond between the two lumen Cys is essential for its activity. The high-light–induced reduction of this bond may occur through a transthylakoid thiol–reducing pathway driven by the ferredoxin-thioredoxin system which is also required for cytochrome b₆f assembly and heme biogenesis.     

Characterization of a Baculovirus-Encoded ATP-Dependent DNA Ligase

Sequence analysis of the Lymantria dispar multicapsid nucleopolyhedrovirus (LdMNPV) genome identified an open reading frame (ORF) encoding a 548-amino-acid (62-kDa) protein that showed 35% amino acid sequence identity with vaccinia virus ATP-dependent DNA ligase. Ligase homologs have not been reported from other baculoviruses. The ligase ORF was cloned and expressed as an N-terminal histidine-tagged fusion protein. Incubation of the purified protein with [α-³²P]ATP resulted in formation of a covalent enzyme-adenylate intermediate which ran as a 62-kDa labeled band on a sodium dodecyl sulfate-polyacrylamide gel. Loss of the radiolabeled band occurred upon incubation of the intermediate with pyrophosphate, poly(dA) · poly(dT)_12–18, or poly(rA) · poly(dT)_12–18, characteristics of a DNA ligase II or III. The protein was able to ligate a double-stranded synthetic DNA substrate containing a single nick and inefficiently ligated a 1-nucleotide (nt) gap but did not ligate a 2-nt gap. It was able to ligate short, complementary overhangs but not blunt-ended double-stranded DNA. In a transient DNA replication assay employing six plasmids containing the LdMNPV homologs of the essential baculovirus replication genes, a plasmid containing the DNA ligase gene was neither essential nor stimulatory. All of these results are consistent with the activity of type III DNA ligases, which have been implicated in DNA repair and recombination.     

Isolation, Purification, and Characterization of a Killer Protein from Schwanniomyces occidentalis

The yeast Schwanniomyces occidentalis produces a killer toxin lethal to sensitive strains of Saccharomyces cerevisiae. Killer activity is lost after pepsin and papain treatment, suggesting that the toxin is a protein. We purified the killer protein and found that it was composed of two subunits with molecular masses of approximately 7.4 and 4.9 kDa, respectively, but was not detectable with periodic acid-Schiff staining. A BLAST search revealed that residues 3 to 14 of the 4.9-kDa subunit had 75% identity and 83% similarity with killer toxin K2 from S. cerevisiae at positions 271 to 283. Maximum killer activity was between pH 4.2 and 4.8. The protein was stable between pH 2.0 and 5.0 and inactivated at temperatures above 40°C. The killer protein was chromosomally encoded. Mannan, but not β-glucan or laminarin, prevented sensitive yeast cells from being killed by the killer protein, suggesting that mannan may bind to the killer protein. Identification and characterization of a killer strain of S. occidentalis may help reduce the risk of contamination by undesirable yeast strains during commercial fermentations.     

Direct Measurement of ATP-Dependent Proton Concentration Changes and Characterization of a K+-Stimulated ATPase in Pea Chloroplast Inner Envelope Vesicles

An important question concerning the role of carboxyarabinitol 1-phosphate (CA1P) metabolism in the light-dependent regulation of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) activity is the extent to which CA1P is bound to Rubisco in vivo. We report here the development of an extraction procedure using ammonium sulfate that stabilizes CA1P bound to Rubisco. This procedure exploits the ability of sulfate to bind at the catalytic site of Rubisco and to competitively balance the binding and release of CA1P from Rubisco. In darkened bean leaves about 75% of the Rubisco catalytic sites were found to be bound with CA1P. This confirms previous indirect estimates from gas exchange measurements. We have used this extraction procedure to examine CA1P-Rubisco interactions in bean during a natural transition from darkness to light. With increasing light intensity following sunrise, CA1P degradation proceeded in two distinct phases: first, a majority of the unbound CA1P pool was degraded at very low light levels ([less than or equal to]30 [mu]mol quanta m-2 s-1); second, CA1P initially bound to Rubisco was then degraded at increasing light levels (>30 [mu]mol quanta m-2 s-1). These results indicate that there is a low-fluence activation of CA1P phosphatase that can occur prior to CA1P release by Rubisco activase. This activation may be mediated by NADPH. During sunrise in bean, the level of the catalytically competent form of Rubisco was regulated by CA1P metabolism.     

Purification and Characterization of a Ca2+- and Calmodulin-Dependent Protein Kinase from Rat Brain

Abstract: A Ca²⁺- and calmodulin-dependent protein kinase was purified from rat brain cytosol fraction to apparent homogeneity at approximately 800-fold and with a 5% yield. The purified enzyme had a molecular weight of 640,000 as determined by gel filtration analysis on Sephacryl S-300 and a sedimentation coefficient of 15.3 S by sucrose density gradient centrifugation, and resulted in a single protein band of MW 49,000 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. These results suggest that the native enzyme has a large molecular weight and consists of 11 to 14 identical subunits. The purified enzyme exhibited K _m values of 109 and 30 μM for ATP and chicken gizzard myosin light chain, respectively, and K _a values of 12 n M and 1.9 μM for brain calmodulin and Ca²⁺, respectively. In addition to myosin light chain, myelin basic protein, casein, arginine-rich histone, microtubule protein, and synaptosomal proteins were phosphorylated by the enzyme in a Ca²⁺- and calmodulin-dependent manner. The purified enzyme was phosphorylated without the addition of the catalytic subunit of cyclic AMP-dependent protein kinase. Our findings indicate that there is a multifunctional Ca²⁺- and calmodulin-dependent protein kinase in the brain and that this enzyme may regulate the reactions of various endogenous proteins.     

Characterization of ATM Expression, Localization, and Associated DNA-dependent Protein Kinase Activity

Ataxia telangiectasia–mutated gene (ATM) is a 350-kDa protein whose function is defective in the autosomal recessive disorder ataxia telangiectasia (AT). Affinity-purified polyclonal antibodies were used to characterize ATM. Steady-state levels of ATM protein varied from undetectable in most AT cell lines to highly expressed in HeLa, U2OS, and normal human fibroblasts. Subcellular fractionation showed that ATM is predominantly a nuclear protein associated with the chromatin and nuclear matrix. ATM protein levels remained constant throughout the cell cycle and did not change in response to serum stimulation. Ionizing radiation had no significant effect on either the expression or distribution of ATM. ATM immunoprecipitates from HeLa cells and the human DNA-dependent protein kinase null cell line MO59J, but not from AT cells, phosphorylated the 34-kDa subunit of replication protein A (RPA) complex in a single-stranded and linear double-stranded DNA–dependent manner. Phosphorylation of p34 RPA occurred on threonine and serine residues. Phosphopeptide analysis demonstrates that the ATM-associated protein kinase phosphorylates p34 RPA on similar residues observed in vivo. The DNA-dependent protein kinase activity observed for ATM immunocomplexes, along with the association of ATM with chromatin, suggests that DNA damage can induce ATM or a stably associated protein kinase to phosphorylate proteins in the DNA damage response pathway.     

Purification and Characterization of a Novel Brain-Specific 14-kDa Protein

A new acidic protein specifically present in the brain was purified to homogeneity from bovine brain. The apparent molecular mass was estimated to be 14 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and 57 kDa by gel filtration, a finding suggesting that it exists as a tetramer under physiological conditions. The protein had a high content of Glu and Pro, and its pI was 4.3. The first six amino acid residues of the protein were Met-Asp-Val-Phe-Met-Lys, and the amino terminal was blocked. The distribution of the protein examined by Ouchterlony gel immunodiffusion indicates that it is present specifically in brain, including rat, human, and bovine, but could not be detected in 10 other rat tissues examined. The protein was absent in Purkinje cell bodies, as examined by electron microscopic immunocytochemistry, but was present in nerve terminals that make synapse-like contacts with Purkinje cells and in neurons with dark granules in the globus pallidus of the rat.     

Purification and Characterization of Echinonectin, a Carbohydrate-Binding Protein from Sea Urchin Eggs

A galactose-specific carbohydrate binding protein has been identified in eggs and embryos of the sea urchin Lytechinus variegatus . This protein, named echinonectin (Alliegro et al., 1988, J. Cell Biol. 107; 2319–2327) has been described as a cell-substrate adhesion protein functioning during embryonic development. The purified protein has an apparent molecular weight of 220 kDa and exists as a dimer of apparently identical 110 kDa subunits. The carbohytrate specificity of the purified protein was examined through the use of competition assays. The protein has a marked specificity for galactose and fucose and a higher affinity for polymers of galactose or galactose sulfate such as carrageenan.