植物磷酸烯醇式丙酮酸羧化酶的可逆胍变性

纯化的高梁叶片磷酸烯醇式丙酮酸羧化酶(PEP羧化酶)经不同浓度的盐酸胍处理变性失活后,在试验的蛋白浓度范围内,它的失活时间进程的动力学分析表明为一级反应。0.4 M盐酸胍处理25分钟后(O℃),酶的催化活性完全丧失,酶蛋白的远紫外圆二色性光谱、内源荧光光谱及免疫特异性等测定均表明酶的结构发生了深刻变化。甘油及PEP羧化酶的变构效应剂G6P和甘氨酸对酶在盐酸胍溶液中的变性作用有一定的保护效果。变性酶用复性缓冲液稀释20倍后,在最佳条件下,再经30分钟保温,酶的催化活性能恢复70％以上。G6P和甘氨酸能促进变性酶的复性,甘油亦有明显效果。随着酶活性的恢复,它的远紫外圆二色性、内源荧光及免疫特异性也随之恢复,变性酶的复性速率在常温下(25℃)比在低温下(0℃)要快得多。     

磷酸烯醇式丙酮酸羧化酶的分子结构研究进展

磷酸烯醇式丙酮酸羧化酶(PEPC)广泛存在于高等植物、藻类及大多数细菌中,催化C4光合作用固定CO2的第一步反应。在过去的10年中关于PEPC分子的一级结构研究已取得显著的进展,最近,通过X-射线衍射分析阐明了大肠杆菌和玉米C4型PEPC分子的三维结构,就这些研究进展进行总结。     

蓝藻磷酸烯醇式丙酮酸羧化酶的生物信息学分析

应用NCBI、Expasy等在线生物信息学网站对蓝藻磷酸烯醇式丙酮酸羧化酶(PEPC)与其他物种进行序列同源比对,分析相同的保守序列及催化活性位点,构建分子进化树;预测跨膜结构、疏水性/亲水性、二级结构、功能域和模体等.结果显示,蓝藻PEPC与高等植物、细菌、真核藻PEPC同源性都比较低(约为33%),但是它们含有两个类似的活性部位和相同的催化活性位点;该蛋白质是非跨膜的亲水性不稳定蛋白,二级结构以a-螺旋和无规则卷曲为主,舍有一个功能结构域,主要的功能是参与氨基酸的合成.     

光/暗对高粱叶片磷酸烯醇式丙酮酸羧化酶基因表达的调节

高粱幼苗黄化叶片经照光转绿后,其PEP-Case活性提高4～15倍,mRNA含量提高了1.03倍,并测定出PEPCase mRNA的分子量为3.4kb。以等量的总RNA及mRNA进行体外翻译,发现转绿后PEPCase专一性翻译活性提高了51％～53％。这表明光照可以在转录水平上调节PEP-Case的基因表达。     

高等植物中的磷酸烯醇式丙酮酸羧激酶

简要介绍了近年来有关高等植物中磷酸烯醇式丙酮酸羧激酶（ＰＥＰＣＫ）的研究进展,并讨论了此酶的结构、功能和调节等方面的问题。     

水分胁迫对露花磷酸烯醇式丙酮酸羧化酶表达水平及特性的影响

水分胁迫能引进露花叶片ＰＥＰ羧化酶的活力,酶蛋白和ｍＲＮＡ水平的提高。复水后,叶片ＰＥＰ羧化酶表达量降低,茎中的ＰＥＰ羧化酶在水分胁迫和恢复水分供应过程中变化情况与叶片相似,兼性ＣＡＭ植物的碳代谢类型转变发生在植物的绿色组织中。     

露花磷酸烯醇式丙酮酸羧化酶同功酶及其四级结构

PEPC的多态性在许多植物中都有报告。在CAM植物中,许多实验结果表明PEPC有两种分子量稍有不同的亚基（Hoffner等1989,Nimmo等1986,Muller和 Kludge1983,Muller等1982）。近年来,PEPC的多态性在基因水平也得到证实（Chollet等1996,Gehrig等1995）。冰叶日中花（Mesembtwcmptallinuzn）中,编码两个不同分子量PEPC多肽的基因已被克隆（Chollet等1996）。但这两个亚基究竟是相互结合而成异二聚体,还是以同聚方式各自缔合为两个同聚体酶目前尚有不同观点。有报告在有的CAM植物中,PEPC的聚合度有昼夜的变化,且这种变化引…     

色氨酸残基在磷酸烯醇式丙酮酸羧化酶催化功能中的作用

在pH7.5条件下,用NBS对PEP羧化酶中色氨酸残基进行共价修饰表明,PEP羧化酶中48个色氨酸残基均能被NBS修饰。用邹承鲁图解法求得,其中4个残基为酶表现催化活性所必需的。 PEP羧化酶的变构效应剂G6P、Gly及Mal分别与酶预保温后,再经NBS修饰,前两种处理中,同样浓度的NBS所用修饰的色氨酸残基数和处理后的残存酶活与对照相比有很大的差异,而用Mal处理的,两者与对照相差无几。     

磷酸烯醇式丙酮酸羧化酶和磷酸烯醇式丙酮酸羧激酶介导的草酰乙酸回补途径对谷氨酸棒杆菌V1氨基酸代谢的影响

【目的】谷氨酸棒杆菌是工业生产氨基酸的主要菌株,以缬氨酸高产菌株谷氨酸棒杆菌V1为研究对象,探讨磷酸烯醇式丙酮酸羧化酶(PEPC)和磷酸烯醇式丙酮酸羧激酶(PCK)介导的草酰乙酸回补途径对菌株生理特性以及主要氨基酸代谢流量的影响。【方法】通过基因工程手段,在谷氨酸棒杆菌V1中过表达pepc(编码PEPC)和pck(编码PCK),比较重组菌与出发菌关键酶活性、发酵特性以及主要氨基酸积累量变化。【结果】构建两株重组菌V1-pepc(强化草酰乙酸回补途径)和V1-pck(弱化草酰乙酸回补途径),重组菌生长均较出发菌延缓,总生物量、葡萄糖和硫酸铵消耗基本不变;过表达pck,PCK活性提高22.8%,丙氨酸、缬氨酸、谷氨酸、精氨酸积累量分别提高了11.8%、17.2%、27.8%和19.5%;过表达pepc,PEPC活性提高27.5%,同时PC活性降低12.9%,天冬氨酸族和谷氨酸族氨基酸的整体流量变化不大,丙氨酸族氨基酸的整体流量降低了14.7%。【结论】丙氨酸族氨基酸受此回补途径影响较大,天冬氨酸族氨基酸受此影响较小。     

高等植物磷酸烯醇式丙酮酸羧化酶聚合态可逆变化的数学模型及其定性分析

磷酸烯醇式丙酮酸羧化酶（PEPCase）是高等植物生理代谢中一个极为重要的酶类,其一个重要特征是PEPCase的聚合呈现解离─聚合的周期性振荡行为。本文提出了一个PEPCase可逆解离─聚合反应的数学模型。通过对该模型的定性分析给出了极限环解存在的条件,并由此指出了目前生理学研究中应注意的若干问题。     

Artifacts in the assay of maize leaf phosphoenolpyruvate carboxylase activity due to its instability

When the assay of maize leaf phosphoenolpyruvate carboxylase (EC 4.1.1.31) activity is started with phosphoenolpyruvate, much lower reaction rates are obtained as compared to the enzyme-initiated reaction. The difference is due to the lability of the dilute enzyme in the absence of its substrate and is increased with incubation time in the absence of substrate or stabilizers. The activation of the enzyme by glucose-6-phosphate is overestimated with the substrate-initiated assay since a part of the apparent activation is due to stabilization of the enzymic activity by this effector during the minus-substrate preincubation. In contrast, the inhibitory effect of malate is underestimated when the reaction is started with the substrate. The enzyme-initiated assay is recommended provided that the necessary corrections for apparent activity in the absence of substrate and for inactivation during the assay at low substrate levels are made.Abbreviations DTT dithiothreitol - G-6-P glucose-6-phosphate - MDH malate dehydrogenase - PEP phosphoenolpyruvate - PEPCase phosphoenolpyruvate carboxylase - PVP polyvinylpyrrolidone     

Inhibition of maize leaf phosphoenolpyruvate carboxylase by diethyl oxaloacetate

Diethyl oxaloacetate was found to be a competitive inhibitor of maize leaf phosphoenolpyruvate carboxylase activity with respect to the substrate phosphoenolpyruvate. The K_i values, based on total diethyl oxaloacetate, decreased with increasing pH, while the K_i values, based on the enol tautomer (average of 4 M), were similar and independent of pH. The results suggest that inhibition is dependent on the enol tautomer. Diethyl oxaloacetate was a weak inhibitor following treatment of the enzyme with dithiothreitol; inhibition could be restored by treatment with diamide, indicating inhibition depends on the reduction state of thiol groups on the enzyme.Abbreviations DTT dithiothreitol - HPLC high performance liquid chromatography - EDTA ethylenediaminetetraacetic acid - Hepes 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid - MES 2-(N-morpholino)ethanesulfonic acid - MOPS 3-(N-morpholino)propanesulfonic acid - Tricine N-tris(hydroxymethyl)methylglycine     

磷酸烯醇式丙酮酸羧化酶基因的敲除对北京棒杆菌PD-67的生理代谢的影响

【目的】为了优化L-色氨酸合成的前体供应,构建北京棒杆菌PD-67(Corynebacterium pekinense PD-67)磷酸烯醇式丙酮酸羧化酶(EC:4.1.1.31,phosphoenolpyruvate carboxylase,PEPCx)基因ppc敲除的菌株,并研究ppc基因敲除对菌株生理特性的影响。【方法】运用PCR技术扩增ppc基因的上游和下游序列,构建带有目标基因内部缺失的基因整合载体。通过同源重组技术将C.pekinense PD-67的ppc基因敲除,构建ppc基因缺陷突变株C.pekinense PD-67-Δppc。通过摇瓶发酵研究突变株的生理特性,并测定突变株丙酮酸激酶和丙酮酸羧化酶的活性。【结果】PCR验证和PEPCx活性分析结果表明,筛选到ppc缺陷的突变株。摇瓶发酵结果表明,与出发菌株相比,突变株的生长速率下降,生物量降低20%,L-色氨酸积累降低62%,丙酮酸激酶活力提高,而丙酮酸羧化酶活力下降。【结论】C.pekinense PD-67的ppc基因敲除以后,对菌株的代谢影响较大。仅通过阻断PEPCx催化的回补途径,减少磷酸烯醇式丙酮酸的分支代谢,不能提高该菌株L-色氨酸的积累。     

Nodule phosphoenolpyruvate carboxylase: a review

Recent data concerning the fixation of CO₂ and the functioning of phosphoenolpyruvate (PEP) carboxylase (EC 4.1.1.31) in legume, nodules are reviewed. The activites of N₂ fixation (acctylene reduction) and PEP carboxylase are correlated Activities of PEP carboxylase are always higher in nodules than in roots. PEP carboxylase is located in the cytosol of the plant part of the nodules. When nodules are fed with ¹⁴CO₂, radioactivity appears predominantly in malate and aspartate. The resolution of isoenzymes of PEP carboxylase shows one more band in nodules than in related roots. The role of PEP carboxylase in nodule metabolism is discussed.     

Alfalfa root nodule phosphoenolpyruvate carboxylase: characterization of the cDNA and expression in effective and plant-controlled ineffective nodules

Phosphoenolpyruvate carboxylase (PEPC) plays a key role in N₂ fixation and ammonia assimilation in legume root nodules. The enzyme can comprise up to 2% of the soluble protein in root nodules. We report here the isolation and characterization of a cDNA encoding the nodule-enhanced form of PEPC. Initially, a 2945 bp partial-length cDNA was selected by screening an effective alfalfa nodule cDNA library with antibodies prepared against root nodule PEPC. The nucleotide sequence encoding the N-terminal region of the protein was obtained by primer-extension cDNA synthesis and PCR amplification. The complete amino acid sequence of alfalfa PEPC was deduced from these cDNA sequences and shown to bear striking similarity to other plant PEPCs. Southern blots of alfalfa genomic DNA indicate that nodule PEPC is a member of a small gene family. During the development of effective root nodules, nodule PEPC activity increases to a level that is 10- to 15-fold greater than that in root and leaf tissue. This increase appears to be the result of increases in amount of enzyme protein and PEPC mRNA. Ineffective nodules have substantially less PEPC mRNA, enzyme protein and activity than do effective nodules. Maximum expression of root nodule PEPC appears to be related to two signals. The first signal is associated with nodule initiation while the second signal is associated with nodule effectiveness. Regulation of root nodule PEPC activity may also involve post-translational processes affecting enzyme activity and/or degradation.     

Kinetic properties of phosphoenolpyruvate carboxylase from lupin nodules and roots

The kinetic properties of two forms of phosphoenolpyruvate carboxylase (PEPC I and PEPC II, EC 4.1, 1.31) from lupin ( Lupinus luteus L. cv. Ventus) nodules and one enzyme form (PEPC III) from roots were studied. The Michaelis constant (K_m) values for PEP, Mg²⁺ and especially HCO₃⁻were lower for PEPC I. Kinetic studies showed that aspartate is a competitive inhibitor at pH 7.2 and inhibitor constant (K_i) values are different for the three forms of PEPC. Malate is a competitive inhibitor for PEPC I and PEPC III and shows mixed-type inhibition for PEPC II. Malate inhibition is dependent upon the pH of the assay. Different effect of several metabolites was also observed. The temperature optimum was near 39°C for PEPC I and around 43°C for PEPC II and PEPC III. PEPC I appeared to be the most thermolabile. It is suggested that PEPC I from lupin nodules is closely associated with N₂ fixation.     

反义RNA及其在植物基因工程领域的应用

随着反义RNA的发现及对其研究的深入,反义RNA技术已被广泛应用于基因调控的研究中。本介绍了反义RNA的概念,并就反义RNA的作用机理和在植物基因工程领域的应用进行了综述。其作用机理包括：在原核生物中反义RNA与引物RNA前体及mRNA分子5′的不同区域进行互补,从而抑制其复制、转录和翻译;在其核生物中反义RNA影响mRNA前体拼接、转移及mRNA分子5′和3′正常修饰。在植物基因工程领域,反义RNA主要应用于抑制果实成熟、抗病、作为反向筛选标记基因、控制花色、控制淀粉合成、控制油料种子中脂肪酸的合成、控制雄性不育等方面。     

Estimation of Sorghum leaf phosphoenolpyruvate carboxylase protein using an immunoadsorbent column

The present work describes a very simple technique for the isolation within 2-3 hr of inactive phosphoenolpyruvate carboxylase protein starting from a crude extract of Sorghum leaves by using an immunoadsorbent column prepared with a glutaraldehyde- activated gel. The conditions for the total elution of the enzyme protein are optimized. For quantitative determinations cyanogen bromide-activated gels should be avoided as the release of fixed immunoglobulin G (IgG) has been observed during washing with the acidic buffer needed to elute the enzyme. In that respect, glutaraldehyde-activated gel does not lose antibodies and consequently gives accurate results.