团头鲂的胚胎及成体组织中八种同工酶系统的研究

用垂直的淀粉凝胶电泳方法分析了胚胎发育阶段(0—105小时)和成体6种组织中的乳酸脱氢酶(LDH)、苹果酸脱氢酶(MDH)、谷氨酸脱氢酶(GDH)、葡萄糖—6—磷酸脱氢酶(G6PD)、醇脱氢酶(ADH)、异柠檬酸脱氢酶(IDH)、酯酶(EST)和碱性磷酸酶(AKP)等8种同工酶系统的酶带。共约有23个基因座位在其胚胎发育期和成体组织中表达。所分析的大多数同工酶在团头鲂个体发生过程中表达的情况大致可分为3种类型：①胚胎发育期间持续存在的同工酶类,它们在成体组织中无特异性分布;②到胚胎发育后期才开始表达的同工酶类,它们往往和特定的组织或器官的形态发生或机能分化紧密相关,并在成体组织中呈特异性分布;③在成体组织中都没有被发现而只在胚胎发育期所特有的同工酶。团头鲂的MDH同工酶类之间以及它们和G6PD同工酶活性变化之间存在着相关性,二者可能存在共同的调控机制。与许多其他鱼类不同,团头鲂的GDH同工酶在整个胚胎发育过程中都有活性,但在其成体组织中无特异性分布。基因调控系统的时空精确性是保证团头鲂胚胎发育正常代谢活动的必要条件。     

驼背鲈不同组织5种同工酶表达的差异

运用聚丙烯酰胺垂直梯度凝胶电泳法研究了驼背鲈(Cromileptes altivelis)6种组织(肌肉、心脏、肝脏、肾脏、脑、脾脏)中的5种同工酶(酯酶、乳酸脱氢酶、苹果酸脱氢酶、苹果酸酶、天门冬氨酸氨基转移酶),并对其同工酶位点及其酶谱表型进行了分析。结果表明,驼背鲈的5种同工酶系统具有不同程度的组织特异性。酯酶检测到3条酶带,由3个基因座位编码。乳酸脱氢酶检测到5条酶带,由3个基因座位编码,其中C位点具有组织特异性。苹果酸脱氢酶检测到3条酶带,由1个基因座位编码,6组织均有相同的3条酶带,组织差异性不显著,而且只发现了上清液型,线粒体型的苹果酸脱氢酶没有发现。苹果酸酶有4条酶带,由2个基因座位编码。天门冬氨酸氨基转移酶在6种组织都有发现,只有一条酶带。     

家鸽不同组织同工酶的初步研究

利用聚丙烯酰胺凝胶电泳方法对家鸽不同组织的酯酶同工酶、乳酸脱氢酶同工酶的酶谱进行了观察和试验分析。计算了家鸽8种组织酯酶同工酶各自酶带的Rf值。显示出家鸽8种组织的酯酶同工酶酶带和7种组织的乳酸脱氢酶同工酶酶谱分布特征具有明显的组织特异性。初步分析了基因位点与酶谱带型之间的相互关系,对于鸟类的生化分析和遗传研究有参考作用。     

臭鼩酯酶和苹果酸脱氢酶同工酶的电泳研究

用聚丙烯酰胺凝胶薄层(o.5毫米)等电聚焦电泳分析了臭鼩(Suncus m．murinus) 心肌、骨骼肌、肾脏、脾脏、肝脏和脑6种组织器官的酯酶和苹果酸脱氢酶同工酶。结果表明臭鼩6种组织的酯酶同工酶分别具有11—24条酶带,存在着明显的组织特异性。实验还发现其酯酶同工酶存在异型酶。臭鼩6种组织的苹果酸脱氢酶同工酶则未发现存在明显的组织特异性。     

云南高背鲫鱼不同组织同工酶分析

采用聚丙烯酰胺凝胶电泳技术,分析了滇池中云南高背鲫鱼(Carassius auratus)的脑、眼睛、肝脏、心脏、肌肉5种组织中的酯酶(EST)、超氧化物歧化酶(SOD)和乳酸脱氢酶(LDH)3种同工酶的表达模式,并对各种酶的同工酶酶谱表型进行了分析。结果表明,云南高背鲫鱼的同工酶系统具有明显的组织特异性,且同工酶的种类与活性变化与其功能相适应。     

滇池高背鲫和方正银鲫酯酶、乳酸脱氢酶同工酶的比较研究

本研究以方正银鲫(Carassius auratus gibelio Bloch)普通鲫(Carassius auratus)和滇池高背鲫(Carassius sp.)的各种组织器官为材料,进行酯酶(Esterase)和乳酸脱氢酶(LDH)同工酶电泳图谱的分析比较。结果表明:9种不同组织中酯酶同工酶谱带各不相同,有明显的组织特异性。滇池高背鲫的酯酶谱图有3种表型。方正银鲫和滇池高背鲫同一组织的LDH同工酶酶谱也有明显差异。等电聚焦凝胶电泳(T=7.5％,C=5％)的结果又表明这二种鱼的肝脏、脑、卵的酯酶同工酶酶谱及电泳扫描图亦有差异。这些结果揭示滇池高背鲫与方正银鲫至少在生化水平上已有明显的分化,很可能起源于不同的地区,由不同的祖先,独立演化而形成。滇池高背鲫与云南普通鲫的LDH酶谱较为接近,这说明滇池高背鲫最可能起源于云南本地的普通鲫。     

树鼩组织乳酸脱氢酶同工酶的研究

对云南树鼩(Tupaia belangeri chinensis)心肌、肺、颌下腺、脾脏、肾脏、肾上腺、骨骼肌和大脑8种组织乳酸脱氢酶(LDH)同工酶进行琼脂糖凝胶电泳分析。结果表明,8种组织均呈现为LDH-M型和LDH-H型两种亚基组合而成的5种不同分子形式同工酶。采用分光光度比色定量法测得5种同工酶组分的相对酶活性。对其H亚基和M亚基百分率以及H/M亚基比率进行了统计分析。并就不同酶谱特征与基因表达状况进行了分析讨论。     

滇池高背鲫和方正银鲫酯酶和乳酸脱氢酶的比较研究

本研究以方正银鲫酯酶(Carassius auratus gibelio Bloch)普通鲫(Carassius auratus)和滇池高背鲫(Carassius sp.)的各种组织器官为材料, 进行酯酶(Esterase)和乳酸脱氢酶(LDH)同工酶电泳图谱的分析比较.结果表明:9种不同组织中酯酶同工酶谱带各不相同,有明显的组织特异性.滇池高背鲫的酯酶谱图有3种表型.正方银鲫和滇池高悲鲫同一组织的LDH同工酶谱也有明显差异. 等电聚焦凝胶电泳(T=7.5%,C=5%)的结果又表明这二种鱼的肝脏, 脑, 卵的酯酶同工酶谱及电泳扫描图有差异. 这些结果揭示滇池高背鲫与方正银鲫至少在生化水平上已有明显的分化, 很可能起源于不同的地区,由不同的祖先,独立演化而形成. 滇池高背鲫与云南普通鲫的LDH酶谱较为接近,这说明滇池高背鲫最可能起源于云南本地的普通鲫.     

中国大鲵及鳖不同组织LDH同工酶的比较研究

采用聚丙烯酰胺薄层垂直板状凝胶电泳、特异性的组织化学染色及光密度薄层扫描研究的心、肝、肾、眼球、小肠、胸肌、脾脏、卵巢、胰腺、胃肌、血浆等12种组织的乳酸脱氢酶(LDH)同工酶的酶谱。并与爬行类动物鳖不同组织的LDH同工酶作了比较。结果表明中国大鲵的胸肌、肝脏、肾脏具有LDH~(100)、LDH~(60)、LDH~(50)3种同工酶;胃肌有LDH~(100)、LDH~(70)、LDH~(60)同工酶,其它组织只有LDH~(100)、LDH~(60)2种。故按组织特异性区分,大鲵组织的LDH同工酶具有3种谱型,它们的含量及相对活力也有很大的差异。鳖的LDH同工酶迁移率比大鲵的低,是一组阴极性同工酶,其等电点比大鲵的高,但其LDH同工酶与中国大鲵的有很大的差异,且两种动物都具有LDH~(50)。     

秦岭地区大林姬鼠的酯酶和苹果酸脱氢酶同工酶的研究

用聚丙烯酰胺凝胶等电聚焦电泳分析了大林姬鼠(Apodemus peninsulae)心、肝、脾、肾和腿肌的 α-酯酶,β-酯酶和苹果酸脱氢酶同工酶。结果表明3种同工酶的活性在5种器官组织中均有明显差异,其中以肝组织的酯酶活性最高,不同器官组织的酶谱也有明显差别,如脾的β一酯酶仅有B区带,同一器官组织通常以α-酯酶活性高于β-酯酶。苹果酸脱氢酶在碱性溶液中染色,肝组织有明显的AB医。心肌与腿肌的苹果酸脱氢酶活性略高于其他组织。     

草鱼同工酶发育遗传学研究——Ⅱ.早期发育过程中的同工酶分析

采用淀粉凝胶电泳技术研究了草鱼早期发育过程中(受精后0—200小时)6种同工酶系统(LDH、MDH、GDH、ADH、IDH、EST)的表达谱式。除了ADH以外,其余5种同工酶系统均具有明显的发育变化谱式。根据早期发育过程中同工酶的变化谱式及其组织分布,草鱼的同工酶可分为三大类型:(1)在未受精卵及早期发育过程中一直存在,并常有较广泛的组织分布;(2)未受精卵及早期发育过程中均不存在,一般仅分布于少数几种组织中;(3)未受精卵及胚胎发育早期不存在,直到早期发育过程中某一特定时期才开始出现。     

Isozymes as biochemical and cytochemical markers in embryogenic callus cultures of maize (Zea mays L.)

Isozyme analyses were carried out on protein extracts of non-embryogenic and embryogenic callus fromZea mays L., using polyacrylamide gel electrophoresis. We examined the isozyme patterns of glutamate dehydrogenase, peroxidase and acid phosphatase for their utility as biochemical markers of maize embryogenic callus cultures. These isozyme systems were also used to examine possible correlations between isozymes and different stages of regeneration. The zymograms of peroxidase and glutamate dehydrogenase differed for non-embryogenic and embryogenic callus. Further, some isozymes were correlated with the morphological appearance of the tissue while others seemed to be involved with the duration of the culture period. Using the same enzyme assays on fresh tissue samples we were able to test the three enzymes as cytochemical markers in embryogenic cultures. Glutamate dehydrogenase proved to be most successful to discriminate embryogenic from non-embryogenic cells.     

Physarum polycephalum malate dehydrogenase: inhibitor analyses of the mitochondrial and supernatant isozymes

The effects of naturally occurring metabolites were tested on the malate dehydrogenase (L-malate: NAD+oxidoreductase, EC 1.1.1.37) isozymes from the eucaryotic protist Physarum polycephalum. Several of the Krebs cycle intermediates were inhibitors for each isozyme indicating that a similar catalytic process was involved for both forms. The metabolites ATP, ADP, and AMP were inhibitors competitive with NAD for the mitochondrial isozyme but not the supernatant form. Several other nucleoside phosphates had no effects. Tests of protein sulfhydryl, arginine- and tyrosine-modifying reagents revealed a similar functional sensitivity by both isozymes to these reagents. Those results are compared with data on isozymes from more complex tissue with comments on the physiological significance of those combined data.     

A multilocus system for studying tissue and subcellular specialization. The pH and temperature dependence of the two major NADP-dependent isocitrate dehydrogenase isozymes of the fish Fundulus heteroclitus

In the teleost fish Fundulus heteroclitus, there are three NADP-dependent isocitrate dehydrogenase isozymes. IDH-B2 is the only cytoplasmic isozyme, and IDH-C2 dominates the mitochondria of all tissues other than liver, where IDH-A2 is expressed. Since fish are ectotherms, their intracellular temperature and pH change directly with environmental temperature. In order to evaluate the influence of these environmental parameters on a model fish NADP-isocitrate dehydrogenase system, the major cytoplasmic (IDH-B2) and mitochondrial (IDH-C2) isozymes were kinetically evaluated as a function of pH and temperature. Whereas Vfmax and KmISOCm (where ISOC is isocitrate) were pH-independent, the Km for NADP was pH-dependent for both isozymes. The cytoplasmic isozyme (IDH-B2) had smaller KmNADP values between pH 7.0 and pH 8.0 than the mitochondrial form (IDH-C2). Vfmax and Km for substrate and coenzyme were temperature-dependent. Energy of activation for IDH-B2 and IDH-C2 was 10.6 and 12.8 kcal/mol, respectively. Both proteins had delta G not equal to values of about 15.8 kcal/mol, with significantly different distributions between delta H not equal to and delta S not equal to. The cytoplasmic isozyme (IDH-B2) appears to have a greater rate of catalysis than the mitochondrial enzyme (IDH-C2) at temperatures less than 30 degrees C. Moreover, the IDH-B2 isozyme had lower KmNADP values than the IDH-C2 isozyme at all temperatures, whereas the KmISOC values for the two isozymes were indistinguishable. Our data suggest that the two major NADP-dependent isocitrate dehydrogenase isozymes have unique physiological and metabolic functions that are adapted to the tissues and cellular compartments in which they are expressed.     

Superoxide dismutase in the housefly,Musca domestica (L.)

Four superoxide dismutase (SOD) (E.C. 1.15.1.1) isozymes were present in whole tissue homogenates of Musca domestica when examined by polyacrylamide gel electrophoresis. One of the isozymes contained manganese, and the other three contained copper and zinc. All were observed in each of the body tagma (head, abdomen, and thorax) and at each developmental stage (egg to adult). The copper- and zinc-containing isozymes purified from newly emerged, adult M. domestica had a relative molecular weight of 34,800 as determined by gel filtration chromatography but consisted of two equal-size subunits of 16,000 as measured by sodium dodecylsulfate polyacrylamide gel electrophoresis. An isoelectric point between 4.8 and 5.1 was measured. Approximately 2 mol each of copper and zinc were present per dimer. The three copper, zinc isozymes were identified as charge variants. The amino acid composition of the enzyme was similar to that of copper, zinc-containing superoxide dismutases from other sources. Purified housefly copper, zinc superoxide dismutase was neither deactivated nor able to protect lactic dehydrogenase against deactivation in the presence of light and rose bengal, a known generator of singlet oxygen. The role of SOD in the phototoxic reaction involving rose bengal is discussed.     

中国大鲵乳酸脱氨酶同工酶研究I组织分布

采用垂直板聚丙烯酰胺凝胶电泳和紫外分光光度法分析大鲵１５种组织的乳酸脱氢酶（ＬＤＨ）同工酶后发现：在正常生理条件下,大鲵体内只有Ｈ４和Ｍ４两种同工酶,红细胞只有Ｍ４一种同工酶;大鲵体内ＬＤＨ同工酶中,以Ｍ４占绝对优势;除生殖腺及脑外,在幼体至成体的发育过程中,ＬＤＨ同工酶未见变化;大鲵体内各组织ＬＤＨ含量及前述两种同工酶相对含量不同。     

The malate dehydrogenase isoforms from Trypanosoma brucei: subcellular localization and differential expression in bloodstream and procyclic forms

Trypanosoma brucei procyclic forms possess three different malate dehydrogenase isozymes that could be separated by hydrophobic interaction chromatography and were recognized as the mitochondrial, glycosomal and cytosolic malate dehydrogenase isozymes. The latter is the only malate dehydrogenase expressed in the bloodstream forms, thus confirming that the expression of malate dehydrogenase isozymes is regulated during the T. brucei life cycle. To achieve further biochemical characterization, the genes encoding mitochondrial and glycosomal malate dehydrogenase were cloned on the basis of previously reported nucleotide sequences and the recombinant enzymes were functionally expressed in Escherichia coli cultures. Mitochondrial malate dehydrogenase showed to be more active than glycosomal malate dehydrogenase in the reduction of oxaloacetate; nearly 80% of the total activity in procyclic crude extracts corresponds to the former isozyme which also catalyzes, although less efficiently, the reduction of p-hydroxyphenyl-pyruvate. The rabbit antisera raised against each of the recombinant isozymes showed that the three malate dehydrogenases do not cross-react immunologically. Immunofluorescence experiments using these antisera confirmed the glycosomal and mitochondrial localization of glycosomal and mitochondrial malate dehydrogenase, as well as a cytosolic localization for the third malate dehydrogenase isozyme. These results clearly distinguish Trypanosoma brucei from Trypanosoma cruzi, since in the latter parasite a cytosolic malate dehydrogenase is not present and mitochondrial malate dehydrogenase specifically reduces oxaloacetate.     

Origin of cytokinin-and auxin-autonomy and changes in specific proteins in tobacco callus tissue

On the basis of earlier data it was suggested that the induction of cytokinin autonomy might be accompanied by disorders in plastid function and a decrease in cytokinin utilization. In the work presented below the formation of chlorophyll and the isozyme patterns of nine enzymes, some of which are known to be localized in plastids, were compared in tobacco callus tissues differing in their hormonal requirements. Tissues either not requiring cytokinin or both auxin and cytokinin for their growth, contained a lower amount of chlorophyll than the cytokinin-and auxin-dependent strain. The number of isozymes of glucose-6-phosphate and NADP-malate dehydrogenase (i.e. enzymes which are known to be located in plastids) was reduced from four in the cytokinin-and auxin-dependent strain to two and one in the two cytokinin-autonomous strains, respectively. The fully habituated tissue contained an additional isozyme of NADP-malate dehydrogenase. The total number of isozymes of the remaining enzymes (NAD-malate dehydrogenase, peroxidase, esterase and a-and β-galactosidase) either was decreased or not changed in the cytokinin autonomous strains. The exception was an additional anodic peroxidase in one strain. The number of these isozymes in tissue habituated with respect to both auxin and cytokinin either remained the same or increased. Tobacco callus strains with altered requirements for growth regulators contained some new isozymes which were not present in any other strain and some isozymes present in other strains were absent. These differences are discussed in relation to the possible role of plastid function disorder associated with habituation.     

The subcellular location of isozymes of NADP-isocitrate dehydrogenase in tissues from pig, ox and rat

Antibodies against purified NADP-isocitrate dehydrogenase from pig liver cytosol and pig heart were raised in rabbits. The purified enzymes from these sources are different proteins, as demonstrated by differences in electrophoretic mobility and absence of crossreactivity by immunotitration and immunodiffusion. The NADP-isocitrate dehydrogenase in the soluble supernatant homogenate fraction from pig liver, kidney cortex, brain and erythrocyte hemolyzate was identical with the purified enzyme from pig liver cytosol, as determined by electrophoretic mobility and immunological techniques. The enzyme in extracts of mitochondria from pig heart, kidney, liver and brain was identical with the purified pig heart enzyme by the same criteria. However, the 'mitochondrial' isozyme was the major component also in the soluble supernatant fraction of pig heart homogenate. The 'cytosolic' isozyme accounted for only 1-2% of total NADP-isocitrate dehydrogenase in pig heart, as determined by separation of the isozymes with agarose gel electrophoresis and immunotitration. The mitochondrial isozyme was also the predominant NADP-isocitrate dehydrogenase in porcine skeletal muscle. The ratio of cytosolic/mitochondrial isozyme for porcine whole tissue extract, determined by immunotitration, was about 2 for liver and 1 for kidney cortex and brain. The distribution of isozymes in cell homogenate fractions from ox and rat tissues corresponded to that observed in organs of porcine origin. The mitochondrial and cytosolic isozymes from ox and rat tissues exhibited crossreactivity with the antibodies against the pig heart and pig liver cytosol enzyme, respectively, and the electrophoretic migration patterns were similar qualitatively to those found for the isozymes in porcine tissues. Nevertheless, there were species specific differences in the characteristics of each of the corresponding isozymes. NAD-isocitrate dehydrogenase was not inhibited by the antibodies, confirming that the protein is distinct from that of either isozyme of NADP-isocitrate dehydrogenase.     

黄颡鱼不同组织中同工酶的表达模式

采用聚丙烯酰胺凝胶电泳(PAGE)及特异性组织化学染色技术,研究了黄颡鱼成体眼、心脏、肾脏、肝脏、肌肉及尾鳍等6种组织中的4种同工酶(LDH、MDH、SOD、EST)分化表达模式。结果表明,黄颡鱼的同工酶EST、SOD、MDH具有明显的组织特异性,LDH无明显的组织差异,并对同工酶的组织表达特异性的生理意义进行分析和讨论。