Regulated enzymes of aromatic amino acid synthesis: control, isozymic nature, and aggregation in Bacillus subtilis and Bacillus licheniformis

Several regulated enzymes involved in aromatic amino acid synthesis were studied in Bacillus subtilis and B. licheniformis with reference to organization and control mechanisms. B. subtilis has been previously shown (23) to have a single 3-deoxy-d-arabinoheptulosonate 7-phosphate (DAHP) synthetase but to have two isozymic forms of both chorismate mutase and shikimate kinase. Extracts of B. licheniformis chromatographed on diethylaminoethyl (DEAE) cellulose indicated a single DAHP synthetase and two isozymic forms of chorismate mutase, but only a single shikimate kinase activity. The evidence for isozymes has been supported by the inability to find strains mutant in these activities, although strains mutant for the other activities were readily obtained. DAHP synthetase, one of the isozymes of chorismate mutase, and one of the isozymes of shikimate kinase were found in a single complex in B. subtilis. No such complex could be detected in B. licheniformis. DAHP synthetase and shikimate kinase from B. subtilis were feedback-inhibited by chorismate and prephenate. DAHP synthetase from B. licheniformis was also feedback-inhibited by these two intermediates, but shikimate kinase was inhibited only by chorismate. When the cells were grown in limiting tyrosine, the DAHP synthetase, chorismate mutase, and shikimate kinase activities of B. subtilis were derepressed in parallel, but only DAHP synthetase and chorismate mutase were derepressible in B. licheniformis. Implications of the differences as well as the similarities between the control and the pattern of enzyme aggregation in the two related species of bacilli were discussed.     

Developmental changes in the modification of lysosomal enzymes in Dictyostelium discoideum

Evidence has been found for a generalized change in the post-translational modification of lysosomal enzymes during development of Dictyostelium discoideum. The physical and antigenic properties of four developmentally regulated lysosomal enzymes, N-acetylglucosaminidase, beta-glucosidase, alpha-mannosidase, and acid phosphatase, have been examined throughout the life cycle. In vegetative cells, a single major isoelectric species is detected for each enzymatic activity on native nonequilibrium isoelectric focusing gels. Between 6 and 10 hr of development, all activities, including the preformed enzyme, become less negatively charged, resulting in a modest but reproducible shift in the isoelectric focusing pattern. This alteration is not detected by native gel electrophoresis at constant pH. As development continues, the specific activity of beta-glucosidase, alpha-mannosidase, and acid phosphatase continues to increase and coincidentally, new, less acidic isozymic bands of activity can be observed on both gel systems. Some of these new isozymes accumulate preferentially in anterior cells, while others accumulate preferentially in posterior cells of migrating slugs. N-Acetylglucosaminidase does not increase in specific activity late in development and no new isozymic species appear. Using a monoclonal antibody that reacts with sulfated N-linked oligosaccharides shared by vegetative lysosomal enzymes in D. discoideum, the antigenicity of the developmental isozymes has been characterized. All of the enzymatic activity present during vegetative growth and early development is immunoprecipitable. However, the less negatively charged isozymes that accumulate after aggregation are not recognized by the antibody. Nonantigenic acid phosphatase and alpha-mannosidase are found in both anterior and posterior cells from migrating pseudoplasmodia. Since each enzyme is coded by a single structural gene, these results suggest that the isozymes present late in development arise from the synthesis of the same polypeptides with altered post-translational modifications. The appearance of anterior and posterior specific isozymes is likely to be the result of cell type specific changes in the glycoprotein modification pathway for newly synthesized proteins.     

Phytohormonal regulation of S-adenosylmethionine synthetase by gibberellic acid in wheat aleurones.

Gibberellic acid (GA3) brought about a 3-fold stimulation of AdoMet synthetase activity in wheat aleurones. At the qualitative level, three isozymes of AdoMet synthetase were observed by DE-52 chromatography in GA3-treated wheat aleurones. In contrast, the control wheat aleurones showed a single isozyme. Thus the phytohormone (GA3, 1 microM) induced two additional isozymes of AdoMet synthetase in wheat aleurones. The activity of all the three isozymes in GA3-treated aleurones was considerably decreased by the simultaneous presence of abscisic acid (ABA, 10 microM). Cycloheximide (20 micrograms/ml) also significantly lowered the levels of the three isozymes of AdoMet synthetase in Ga3-treated aleurones, thereby suggesting the requirement of de-novo protein synthesis for the complete induction of isozymes. However, wheat aleurones excised from embryonated wheat seeds, did not require the application of GA3 for the induction of two additional isozymes of AdoMet synthetase. Apparently, the transport of GA3 from the embryo to aleurones induced two new isozymes of AdoMet synthetase. Three isozymes of AdoMet synthetase were also observed in wheat embryos excised from germinated wheat grains, without exogenous application of GA3. The molecular weight of all the three isozymes of AdoMet synthetase in wheat system is 181,000. The molecular weight of the subunit of the enzyme is 84,000. The dimeric nature of AdoMet synthetase was established by SDS-PAGE analysis of the purified enzyme. In-vitro hybridization of two flanking isozymic peaks I and III by NaCl-freeze-thaw method resulted in the appearance of an additional middle activity peak (isozyme II). However, no additional isozymic peaks were generated when isozymic peaks I and III were individually given a freeze-thaw treatment. Thus the flanking isozymic peaks I and III represent homodimers that differed in their net charge. In contrast, the middle isozymic activity peak II, when subjected to NaCl-freeze-thaw treatments yielded two additional isozymic peaks, I and III, thereby suggesting its heterodimeric nature. We envisage that the three isozymes in GA3-treated wheat aleurone layers are formed by the random dimerization of two classes of enzyme subunits. The two enzyme subunits which differ in their net charge could be the product of two genes of AdoMet synthetase (SAM1 and SAM2). Based on this assumption, we propose that a single isozyme I in water imbibed control wheat aleurones is the product of SAM1 gene of AdoMet synthetase. The occurrence of three isozymes in GA3-treated aleurones could be ascribed to the expression of an alternate gene of AdoMet synthetase (SAM2 gene).(ABSTRACT TRUNCATED AT 400 WORDS)     

A study of hexokinase isoenzymes in rat sarcoma M-1

Using a wide spectrum of criteria, the isozyme composition of hexokinase from sarcoma M-1 reinoculated to rat m. gastrocnemius was studied. The structural, physicochemical and functional properties of the homogeneous enzyme which is represented in sarcoma M-1 by one molecular form, were investigated. Some properties of the enzyme (amino acid composition, resistance to mild proteolysis, Mr, pH-dependence of enzyme activity, electrophoretic mobility, kinetic behaviour) indicate that sarcoma M-1 hexokinase is a specific form of the enzyme which differs markedly from other known isozymes of mammalian hexokinase. The observed peculiarities of sarcoma M-1 hexokinase are discussed in terms of present-day concepts on the structure of isozymic spectra of enzymes in neoplastic tissues.     

Conversion of glutathione to glutathione disulfide, a catalytic function of gamma-glutamyl transpeptidase.

A purification procedure, based on that previously used for rat kidney gamma-glutamyl transpeptidase, was used for the purification of glutathione oxidase (which converts glutathione to gluthathione disulfide). The two activities co-purified, the ratio of the activities remaining constant through all steps of the isolation procedure. The purified enzyme was separable into 12 isozymic species by isoelectric focusing. All 12 isozymes exhibited a constant ratio of transpeptidase to glutathione oxidase activities, strongly supporting the conclusion that conversion of glutathione to glutathione disulfide is a catalytic function of gamma-glutamyl transpeptidase. Modulation of oxidase activity by inhibitors and acceptor substrates of transpeptidase is discussed in relation to the possible glutathione binding sites involved in gamma-glutamyl transfer and oxidase activities of the enzyme.     

Purification and characterization of human prostatic acid phosphatase.

Human prostatic acid phosphatase (orthophosphoric monoester phosphohydrase, EC 3.1.3.2) is purified to homogeneity by standard procedures which include CM-Sephadex, Con A affinity chromatography and gel filtration. The purified enzyme is antigenically specific and has a M.W. of 100,000 with subunit M.W. of 48,000. However, the enzyme exhibited charge heterogeneity. Two major electrophoretic or chromatographic isozymic forms of PAP were separated by DEAE-Sephadex chromatography and their immunochemical identity was studied by immunodiffusion before and after the neuraminidase digestion. Quantitative precipitin and inhibition experiments showed immunological identity of the two chromatographic isozymes. Immunologic specificity of this enzyme resides on the protein moiety rather than the carbohydrate residue, although the latter group is mostly responsible for the charge group heterogeneity of the enzyme.     

Cell age dependent decay of human erythrocytes glucose-6-phosphate isomerase

Glucose-6-phosphate isomerase shows a biphasic decay pattern during red blood cell aging, which is very fast during the first part of cell's life span in circulation. This decay is not due to accumulation of inactive enzyme molecules, as shown by immunological studies, but is accompanied by the formation of secondary isozymes (i.e., chemically modified forms). Electrophoretic and ion-exchange chromatographic experiments show that glucose-6-phosphate isomerase (D-glucose-6-phosphate ketol-isomerase, EC 5.3.1.9) consists of only one isozymic form in young erythrocytes but is present in two components, with different electric charge, in mature and old cells. This secondary isozyme is more stable to heat treatment and is inactivated by IgG anti-glucose-6-phosphate isomerase with a lower affinity than the native isozyme. In vitro incubation of homogeneous human glucose-6-phosphate isomerase under conditions known to produce enzyme deamination does not reproduce the isozymic pattern found in erythrocytes, suggesting that one or more mechanisms other than those previously described to explain glucose-6-phosphate isomerase microheterogeneity occur in the human erythrocyte.     

草鱼同工酶发育遗传学研究——Ⅰ.不同组织器官的同工酶分析

采用垂直淀粉凝胶电泳及特异性组织化学染色技术,研究了草鱼成体脑、眼、心、肾、肌、肝等6种组织中的6种同工酶系统(LDH、MDH、GDH、ADH、LDH、EST)的分化表达谱式。结果表明,草鱼的同工酶系统具有明显的组织特异性。与绝大多数硬骨鱼类相比,草鱼的LDH、m-MDH和ADH同工酶具有特殊的表达谱式:m-MDH和ADH均由两个基因座位编码;肾脏在LDH-A_3B与LDH-A_2B_3之间多出1条LDH酶带(LDH-X)。本文还讨论了草鱼同工酶的遗传基础和亚基组成,以及本实验的某些结果与其他作者的结果不相符的原因。     

乳酸脱氢酶与酯酶同工酶同板染色法

介绍一种在同一块凝胶板上染乳酸脱氢酶(LDH)与酯酶(EST)的染色方法. 该同板染色法利用两种同工酶显色反应互不干扰和颜色不同的特点, 先染LDH, 后染EST, 可以在同一块胶板上得到两种同工酶清晰的酶带, 每一种酶的酶带与单板染色的酶带完全一样. 这种染色法, 能节省同工酶分析所需的试剂、时间和经费, 也便于样品的鉴定与比较, 是一种经济有效的方法. 此方法, 同样适用于苹果酸脱氢酶(MDH)与酯酶等同工酶的同板染色.     

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 and differentiation

We have tried to define "isozymes" and "differentiation" because these words are often used in a too vague sense. We have noted that the physiological role of isozymes is far from being clearly understood, even for the most studied enzyme with multiple molecular forms, lactic dehydrogenase. But we have pointed out that some isozymes are specific for some adult tissues, especially liver and muscle. They constitute consequently true "markers" of differentiation. Some mechanisms of this differentiation have been made clearer by the experiments of cell hybridization. The role of isozymes in differentiation is also illustrated by the selective disappearance of isozymic markers in some pathologycal conditions, for example : cancer and muscular diseases.     

On the ontogeny and interactions of phosphofructokinase in mouse tissues

The distribution and interactions of phosphofructokinase isozymes with cellular structure have been studied in the major tissues of the mouse during development. The ontogenic patterns of isozymes which were obtained were consistent with those observed for other species and are interpreted in terms of the presence of three genes and three homotetrameric forms of the enzyme (A4, B4 and C4) in the tissues of the mouse. In addition, the data provides a clear indication that interactions between the enzyme and cellular structure are appreciable in all major tissues and at all stages of development, with all isozyme types exhibiting such interactions. The significance of the study of subcellular interactions of these isozymes in contributing to a comprehensive physiological rationale for this mammalian enzyme and its multiple forms is discussed.     

Structural evidence for two isozymic forms and the carbohydrate attachment site of human gastric cathepsin E

The amino acid sequences in the NH2-terminal region and some other parts of human gastric cathepsin E were investigated. The NH2-terminal sequencing revealed that the cathepsin E preparation which had been activated at pH 4.0 contained one major and one minor isozymes in an approximate molar ratio of 3:1. The NH2-terminal sequence of the former was very similar to but partly different from that predicted from cDNA sequencing by Azuma et al., whereas the latter had an NH2-terminal sequence identical with the predicted sequence. These results provide structural evidence for the presence of at least two isozymic forms in human gastric cathepsin E. In addition, the site of carbohydrate attachment was elucidated by isolation and analysis of a glycopeptide fraction from an enzymatic digest of cathepsin E. A single carbohydrate chain was deduced to be attached to the asparagine residue at position 34 in the major isozyme and to the corresponding asparagine residue in the minor isozyme.     

Purification and characterization of two highly different group II phospholipase A2 isozymes from a single viperid (Eristocophis macmahoni) venom

Two phospholipase A2 isozymes have been purified from leaf-nosed viper by gel permeation chromatography followed by reverse-phase HPLC and cation-exchange FPLC. Both enzymes contain seven pairs of half-cystine, typical of group II phospholipase A2. Surprisingly large differences, affecting both N- and C-terminal regions, exist between the two isozymes purified from the same snake venom. Exchanges occur at no less than 27 of 121 positions (22%), suggesting the possible existence of two genes for phospholipase A2. The residue identity with the enzymes from other Viperidae species is also low, only 44-48%, indicating extensive variations of this protein structure at large. Functionally, the present isozymes do not possess the cationic regions ascribed to myotoxicity and anti-coagulant effects of the enzyme.     

The primary structure of muskrat pancreatic ribonuclease.

Pancreatic ribonuclease from muskrat (Ondatra zibethica) was isolated and its amino acid sequence was determined from tryptic digests of the performic acid-oxidized and the reduced and aminoethylated enzyme. The peptides have been positioned in the sequence by homology with other ribonucleases. This could be done unambiguously for all peptides except Arg-Arg (tentative position 32-33) and Ser-Arg (tentative position 75-76). The amino acid sequences of the peptides were determined by the dansyl-Edman method, with the exception of residues 23-25 and 99-102, which were positioned by homology. The enzyme differs in 38 positions from the enzyme from rat and in 31-42 positions from other mammalian pancreatic ribonucleases, while rat ribonuclease differs at 44-52 positions from the other enzymes. These data point to a common ancestry of the enzymes from muskrat and rat and an increased evolution rate of rat ribonuclease after divergence of the ancestors of both species. Muskrat ribonuclease contains no carbohydrate, although the enzyme possesses a recognition site for carbohydrate attachment in the sequence Asn-Val-Thr (62-64).     

Endogenous substrates of rat heart protein kinase C type I, II, and III isozymic forms in cardiac sarcolemma.

The endogenous substrate proteins of rat cardiac protein kinase C type I, II, and III isozymic forms were studied in rat cardiac sarcolemma. The 19-, 21-, 29-, 35-, and 95-kDa proteins were phosphorylated by both types II and III, but not type I. The extent of phosphorylation by individual protein kinase C isozymic forms was additive and equal to the extent of phosphorylation observed when a mixture of isozymic forms was employed. The extent of phosphorylation of the 21-kDa protein by type III was much higher than that by type II. These results suggest that the protein kinase C isozymes have preferences for specific endogenous substrate proteins. The phosphorylation of these endogenous substrate proteins by protein kinase C isozymes probably plays a role in cardiac cell functions.     

NH2-terminal sequence analyses of four rat hepatic microsomal cytochromes P-450

Cytochromes P-450f, P-450g, P-450h, and P-450i are four hepatic microsomal hemoproteins that have been purified from adult rats. Whereas cytochromes P-450g and P-450h appear to be male-specific hemoproteins, cytochrome P-450i is apparently a female-specific enzyme purified from untreated adult female rats. Cytochrome P-450f has been purified from adult male and female rats with equivalent recoveries. Amino-terminal sequence analyses of the first 15-20 amino acid residues of each of these cytochromes P-450 has been accomplished in the current investigation. Each protein possesses a hydrophobic leader sequence consisting of 65-87% hydrophobic amino acids, and only one charged amino acid (Asp) in the amino-terminal region. Although differences in the amino-terminal sequences of cytochromes P-450f, P-450g, P-450h, and P-450i are identified, these hemoproteins all begin with Met-Asp, and marked structural homology is observed among certain of these enzymes. Cytochromes P-450g and P-450h, two male-specific proteins, have 11-12/15 identical residues with cytochrome P-450i, a female-specific isozyme. Cytochromes P-450f and P-450h have 16/20 identical amino-terminal residues. Only limited sequence homology is observed between the amino-terminal sequences of cytochromes P-450f-i compared to rat liver cytochromes P-450a-e. The results demonstrate that cytochromes P-450f, P-450g, P-450h, and P-450i are isozymic to each other and five additional rat hepatic microsomal cytochrome P-450 isozymes (P-450a-e).     

Amino acid sequence of high-redox-potential ferredoxin (HiPIP) isozymes from the extremely halophilic purple phototrophic bacterium, Ectothiorhodospira halophila

The amino acid sequences of high-redox-potential ferredoxin (HiPIP) isozymes from Ectothiorhodospira halophila have been determined. These are: isozyme I, EPRAEDGHAHDYVNEAADPSHGRYQEGQLCENCAFWGEAVQDGWGRCTHPDFDEVLVKAEGWCSVYAPA S, and isozyme II, GLPDGVEDLPKAEDDHAHDYVNDAADTDHARFQEGQLCENCQFWVDYVNGWGYCQHPDFTDVLVRGEGW CSVYAPA. Isozyme II is the major form of HiPIP produced by the bacterium (65-80%) and is the most acidic of the known HiPIPs. The two isozymes are 72% identical to one another and require only a single residue deletion for alignment. Comparison of these HiPIPs with seven previously determined sequences revealed only 27% average identity. Both E. halophila HiPIP isozymes are likely to be functional since their sequences are equally distant from those of other species. The E. halophila HiPIP sequences show that H-bonding patterns recognized in Chromatium vinosum HiPIP are likely to be conserved and therefore cannot explain the unusually low redox potentials which have been reported.     

Plant triose phosphate isomerase isozymes : purification, immunological and structural characterization, and partial amino Acid sequences

We report the first complete purifications of the cytosolic and plastid isozymes of triose phosphate isomerase (TPI; EC 5.3.1.1) from higher plants including spinach (Spinacia oleracea), lettuce (Lactuca sativa), and celery (Apium graveolens). Both isozymes are composed of two isosubunits with approximate molecular weight of 27,000; in spinach and lettuce the plastid isozyme is 200 to 400 larger than the cytosolic isozyme. The two isozymes, purified from lettuce, had closely similar amino acid compositions with the exception of methionine which was four times more prevalent in the cytosolic isozyme. Partial amino acid sequences from the N-terminus were also obtained for both lettuce TPIs. Nine of the 13 positions sequenced in the two proteins had identical amino acid residues. The partial sequences of the plant proteins showed high similarity to previously sequenced animal TPIs. Immunological studies, using antisera prepared independently against the purified plastid and cytosolic isozymes from spinach, revealed that the cytosolic isozymes from a variety of species formed an immunologically distinct group as did the plastid isozymes. However, both plastid and cytosolic TPIs shared some antigenic determinants. The overall similarity of the two isozymes and the high similarity of their partial amino acid sequences to those of several animals indicate that TPI is a very highly conserved protein.     

Isolation of trypsin isozymes from the mosquito Aedes aegypti (L.)

Trypsin has been isolated from midgut homogenates of blood-fed females of Aedes aegypti by a simple two-step purification procedure: ion-exchange chromatography followed by affinity chromatography. The resulting mosquito trypsin contains a number of isozymes, among which 5 major SDS-PAGE bands are recognized with molecular weights of 26.7, 28.5, 29.7, 31.0 and 32.0 kdaltons, as are some minor bands above and below this range. The isozymic pattern is comparable to that in crude homogenates. Isoelectric focussing of purified trypsin however, revealed over 20 tryptic isozymes, demonstrating that several isozymes segregate into subforms. A high correlation between TAME-active fractions and their DFP equivalent was demonstrated by using ³H-labelled DFP as a marker for trypsin on native acrylamide gels.The purification factor and the specific activities are discussed with respect to the unusual amounts of protein of dietary origin present in the midgut homogenates. Interference of blood-borne coagulation factors of a tryptic nature is unlikely.