Separation of PP2A core enzyme and holoenzyme with monoclonal antibodies against the regulatory A subunit: abundant expression of both forms in cells.

Protein phosphatase 2A (PP2A) holoenzyme is composed of a catalytic subunit, C, and two regulatory subunits, A and B. The A subunit is rod shaped and consists of 15 nonidentical repeats. According to our previous model, the B subunit binds to repeats 1 through 10 and the C subunit binds to repeats 11 through 15 of the A subunit. Another form of PP2A, core enzyme, is composed only of subunits A and C. It is generally believed that core enzyme does not exist in cells but is an artifact of enzyme purification. To study the structure and relative abundance of different forms of PP2A, we generated monoclonal antibodies against the native A subunit. Two antibodies, 5H4 and 1A12, recognized epitopes in repeat 1 near the N terminus and immunoprecipitated free A subunit and core enzyme but not holoenzyme. Another antibody, 6G3, recognized an epitope in repeat 15 at the C terminus and precipitated only the free A subunit. Monoclonal antibodies against a peptide corresponding to the N-terminal 11 amino acids of the A alpha subunit (designated 6F9) precipitated free A subunit, core enzyme, and holoenzyme. 6F9, but not 5H4, recognized holoenzymes containing either B, B', or B" subunits. These results demonstrate that B subunits from three unrelated gene families all bind to repeat 1 of the A subunit, and the results confirm and extend our model of the holoenzyme. By sequential immunoprecipitations with 5H4 or 1A12 followed by 6F9, core enzyme and holoenzyme in cytoplasmic extracts from 10T1/2 cells were completely separated and they exhibited the expected specificities towards phosphorylase a and retinoblastoma peptide as substrates. Quantitative analysis showed that under conditions which minimized proteolysis and dissociation of holoenzyme, core enzyme represented at least one-third of the total PP2A. We conclude that core enzyme is an abundant form in cells rather than an artifact of isolation. The biological implications of this finding are discussed.     

Multiple forms of ADP-glucose pyrophosphorylase from tomato fruit.

ADP-glucose pyrophosphorylase (AGP) was purified from tomato (Lycopersicon esculentum Mill.) fruit to apparent homogeneity. By sodium dodecyl sulfate-polyacrylamide gel electrophoresis the enzyme migrated as two close bands with molecular weights of 50,000 and 51,000. Two-dimensional polyacrylamide gel electrophoresis analysis of the purified enzyme, however, revealed at least five major protein spots that could be distinguished by their slight differences in net charge and molecular weight. Whereas all of the spots were recognized by the antiserum raised against tomato fruit AGP holoenzyme, only three of them reacted strongly with antiserum raised against the potato tuber AGP large subunit, and the other two spots (with lower molecular weights) reacted specifically with antisera raised against spinach leaf AGP holoenzyme and the potato tuber AGP small subunit. The results suggest the existence of at least three isoforms of the AGP large subunit and two isoforms of the small subunit in tomato fruit in vivo. The native molecular mass of the enzyme determined by gel filtration was 220 +/- 10 kD, indicating a tetrameric structure for AGP from tomato fruit. The purified enzyme is very sensitive to 3-phosphoglycerate/inorganic phosphate regulation.     

Biochemical and immunological heterogeneity of 100 A filament subunits from different chick cell types.

The 100 A filament subunit proteins of chick fibroblasts and gizzard smooth muscle were compared. These proteins are major cellular components in these cell types, constituting up to 98% of the cell's total protein. Co-electrophoresis of cytoskeletal fractions of fibroblasts and smooth muscle revealed that the subunit proteins differed in their molecular weights: 58,000 daltons in fibroblasts and 55,000 daltons in smooth muscle. Cytoskeletal fractions from other cell types were also examined: chondroblasts contained the 58,000 dalton subunit, and cytoskeletons of skeletal muscle and cardiac muscle contained both 55,000 and 58,000 dalton proteins. Chick skin and rat kangaroo Pt K2 cells had more complex subunit patterns which resemble prekeratin. The peptide patterns resulting from proteolytic digestion of the 58,000 dalton protein of fibroblasts, the 55,000 dalton proteins of smooth muscle and PT K2 cells, and chick brain tubulin differed from one another. Two-dimensional electrophoresis of reconstituted gizzard smooth muscle 100 A filaments showed the 55,000 dalton subunit to be composed of two major components, differing in their isoelectric points. Antibodies prepared against electrophoretically purified 55,000 dalton subunit protein reacted in immunodiffusion against the original smooth muscle antigen and cytoskeletal fractions from skeletal and cardiac muscle, but not from fibroblasts, brain, liver, or skin cells. A specific antigenic determinant common to subunit proteins in smooth, skeletal, and cardiac muscle, is therefore indicated. A previously described antibody against fibroblast subunit protein reacted weakly against smooth muscle filament protein in immunodiffusion revealing the presence of a common antigenic determinant between the two subunit proteins. These data demonstrate striking antigenic and primary structural differences in 100 A filament subunits from even such closely related cell types as fibroblasts on the one hand and muscle cells on the other.     

Characterization of a soybean leaf protein that is related to the seed lectin and is increased with pod removal

Levels of several polypeptides in addition to the vegetative storage protein (VSP) increase in soybean leaves following depodding. Two of these polypeptides interact specifically with antibodies raised against the seed lectins of Phaseolus vulgaris and soybean. The two polypeptides, which had apparent molecular masses of 29,000 daltons and 33,000 daltons, were present in the sink-deprived plants but not in control podded plants and were the subunit polypeptides of a glycoprotein designated lectin-related protein (LRP). Soybean LRP was purified to near homogeneity by a combination of ammonium sulfate precipitation and gel filtration. Dialysis of the resuspended ammonium sulfate precipitate caused LRP to reprecipitate, and LRP was soluble only in the presence of molar NaCl. The native relative molecular mass of LRP was 119,000 daltons, a size consistent with a tetrameric organization of the two polypeptides. LRP precipitated during dialysis in association with a 28,000 dalton polypeptide. The protein coprecipitating with LRP was identified as the dimer of the 28,000 dalton subunit of VSP, one of three native isomeric forms of VSP occurring in leaves of depodded plants. Although the specific association between LRP and VSP was intriguing, an in vivo interaction between LRP and VSP was doubtful. LRP was shown to be immunologically similar to soybean agglutinin but did not have detectable hemagglutinating activity. LRP also was shown to be made up of polypeptides distinct from soybean agglutinin.     

Proteins Produced during Salt Stress in Tobacco Cell Culture

The protein pattern of cultured tobacco (Nicotiana tabacum L. var Wisconsin 38) cells that have become adapted to a medium containing 10 grams NaCl per liter was compared to that of unadapted cells on one-dimensional sodium dodecyl sulfate gels. Two protein bands (32,000 and 20,000 daltons) were much more abundant in the salt-adapted cells, and one protein (26,000 daltons) was unique to the salt cells. This protein pattern did not change during the growth cycle of the cells. When salt-adapted cells are transferred to control medium, their ability to grow in the salt-containing medium returns to that of control cells after one passage in the control medium (Hasegawa, Bressan, Handa 1980 Plant Cell Physiol 21: 1347). Within this time the levels of the 32,000 and 20,000 dalton proteins also return to that of the control cells, but the 26,000 dalton protein does not disappear until after at least two passages in control medium. Amino acid analyses of these three proteins revealed that they all contain some hydroxyproline.     

Histochemical characterization of an antigen specific for the great alveolar cell in the mouse lung

Previous papers reported on a specific antigenic marker for the great alveolar (type-II) cell of the mouse lung and described its recognition by a specific rabbit anti-adult mouse lung serum. In the present study light- and electron-microscopical immunohistochemistry on fixed mouse lung sections showed the presence of the marker on the alveolar surface. The antigenic determinants recognized by the antibody were further characterized by immunoblotting and immunoprecipitation studies after in vitro translation of mouse lung messenger RNA. Immunoblots of a surfactant-enriched pellet of a bronchoalveolar lavage fraction of mouse lung showed that the antibody reacted with surfactant-associated proteins having apparent molecular weights of about 27,000, 32,000, and 38,000 daltons in SDS gels. Immunoblots of mouse-lung homogenate revealed the presence of 27,000, 30,000, 39,000, and 41,000 daltons proteins, presumably also surfactant-associated proteins. Immunoprecipitation after in vitro translation of mouse-lung mRNA showed specific reactivity only with a 12,000 dalton polypeptide, a component of the cell marker we were unable to relate to surfactant. Our findings indicate that the 12,000 dalton component of the antigenic marker for the great alveolar cell is a polypeptide whose synthesis is a lung-specific process and that the immunoreaction of the larger and surfactant-associated components is due to post-translational modifications.     

Nucleotide sequence of ompV, the gene for a major Vibrio cholerae outer membrane protein

Summary The nucleotide sequence of the ompV gene of Vibrio cholerae was determined. The product of the gene is a 28,000 dalton protein which, after the removal of a 19 amino acid signal sequence, produces a mature outer membrane protein of 26,000 daltons. The cleavage site was determined by amino-terminal amino acid sequencing of the purified mature protein. The DNA upstream of the gene shows the presence of a typical promoter region as judged from the Escherichia coli consensus information; however, the Shine-Dalgarno sequence is associated with a region capable of forming a secondary structure in the mRNA. The formation of this structure would inhibit binding of the mRNA to the ribosome and reduce translation. It is proposed that this structure is recognized by a positive activator in V. cholerae and because of its absence in E. coli ompV is poorly expressed. The distribution of rare codons within ompV suggests that they may serve to slow down the translation of particular domains such that the nascent polypeptide has an opportunity to take up its conformation without interference from the later formed regions. Such a mechanism could aid localization of the protein if export were by a cotranslational secretion system.     

抗尿激酶单克隆抗体识别相应抗原决定簇的研究

 尿激酶是一种纤溶酶原激活剂,临床上用于治疗血栓。为了有效地用单克隆抗体亲和柱纯化尿激酶,我们对一组抗尿激酶单克隆抗体识别相应抗原决定簇的特性进行了研究。Western Blotting试验表明:S_(13)、S_(26)、N_(14)、N_(30)、N_(17-2)、N_(34)、N_(36)七个单克隆抗体主要抗54000道尔顿的高分子量尿激酶(HUK)。除N_(30)外,其余抗体还同时不同程度地抗33000道尔顿的低分子量尿激酶(LUK)。N_(30)除识别HUK外,还识别分子量为18000道尔顿的多肽链。竞争性结合试验证明:七个单克隆抗体分别抗五个不同的抗原决定簇,但它们都不抗尿激酶的活力中心。     

In vitro translation of rat lung surfactant apoprotein mRNA

Rat pulmonary surfactant contains apoproteins of molecular weights 38,000, 32,000, 26,000 and 10,000-12,000. The structural and metabolic interrelationships of these proteins are not clear as yet. In order to investigate if they arise from a single or multiple precursor protein (s), we isolated total poly(A)RNA from rat lungs, performed its translation in vitro in the presence of [35s]-methionine and reticulocyte lysate, immunoprecipitated the translation products with anti-rat surfactant antibody, and analyzed them by SDS-polyacrylamide gel electrophoresis and autoradiography. A single translation product of molecular weight 35,000 was detected. Since the antibody used in the immunoprecipitation recognizes the 38,000, 32,000 and 26,000 dalton proteins, it is concluded that at least these three proteins arise from the 35,000 dalton precursor by post-translational modifications.     

Purification and characterization of the glycogen-bound protein phosphatase from rat liver

Glycogen-bound protein phosphatase G from rat liver was transferred from glycogen to beta-cyclodextrin (cycloheptaamylose) linked to Sepharose 6B. After removal of the catalytic subunit and of contaminating proteins with 2 M NaCl, elution with beta-cyclodextrin yielded a single protein on native polyacrylamide gel electrophoresis and two polypeptides (161 and 54 kDa) on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Several lines of evidence indicate that the latter polypeptides are subunits of the protein phosphatase G holoenzyme. First, these polypeptides were also present, together with the catalytic subunit, in the extensively purified holoenzyme. Also, polyclonal antibodies against these polypeptides were able to bind the holoenzyme. Further, while bound to cyclodextrin-Sepharose, the polypeptides were able to recombine with separately purified type-1 (AMD) catalytic subunit, but not with type-2A (PCS) catalytic subunit. The characteristics of the reconstituted enzyme resembled those of the nonpurified protein phosphatase G. At low dilutions, the spontaneous phosphorylase phosphatase activity of the reconstituted enzyme was about 10 times lower than that of the catalytic subunit, but it was about 1000-fold more resistant to inhibition by the modulator protein (inhibitor-2). In contrast with the free catalytic subunit, the reconstituted enzyme co-sedimented with glycogen, and it was able to activate purified liver glycogen synthase b. Also, the synthase phosphatase activity was synergistically increased by a cytosolic phosphatase and inhibited by physiological concentrations of phosphorylase alpha and of Ca2+.     

The group C adenovirus tumor antigens: identification in infected and transformed cells and a peptide map analysis.

Serum from hamsters bearing group C adenovirus-induced tumors can be divided into two classes: first, a broad spectrum serum that contains antibodies to several early adenovirus proteins, immunoprecipitated from virus-infected cell extracts, with molecular weights of 72,000, 58,000, 44,000 and 17,000 daltons; and second, a narrow spectrum serum that contains antibodies to the 58,000 dalton protein from virus-infected cell extracts. Both types of sera have been used to immunoprecipitate specifically the 58,000 dalton protein from a type 2 adenovirus-transformed hamster cell line and a type 2 adenovirus-SV40 nondefective hybrid (Ad2⁺ND-1) transformed hamster cell line. In addition, the broad spectrum serum immunoprecipitates or co-precipitates a late adenovirus protein of 120,000 daltons from virus-infected, but not virus-transformed cells.Peptide maps of the 120,000 dalton antigen and the virus hexon structural protein (120,000 daltons) demonstrate that these proteins are closely related. The 72,000 dalton antigen has been shown to be the adenovirus single-strand-specific DNA binding protein. Peptide maps of this 72,000 dalton antigen demonstrate that it contains all the peptides found in the 44,000 dalton antigen. The 72,000 dalton antigen contains two additional peptide fragments not detected in the 44,000 dalton protein, indicating that this 44,000 dalton antigen is a proteolytic breakdown product of the 72,000 dalton protein. The 58,000 dalton adenovirus tumor antigen has a peptide map which is completely distinct from the 120,000, 72,000 and 44,000 dalton proteins. These data demonstrate that the 58,000 dalton antigen is chemically distinct from the 72,000–44,000 dalton early adenovirus proteins.     

Histochemical characterization of an antigen specific for the great alveolar cell in the mouse lung

Summary Previous papers reported on a specific antigenic marker for the great alveolar (type-II) cell of the mouse lung and described its recognition by a specific rabbit antiadult mouse lung serum. In the present study light- and electron-microscopical immunohistochemistry on fixed mouse lung sections showed the presence of the marker on the alveolar surface. The antigenic determinants recognized by the antibody were further characterized by immunoblotting and immunoprecipitation studies after in vitro translation of mouse lung messenger RNA.Immunoblots of a surfactant-enriched pellet of a bronchoalveolar lavage fraction of mouse lung showed that the antibody reacted with surfactant-associated proteins having apparent molecular weights of about 27,000, 32,000, and 38,000 daltons in SDS gels. Immunoblots of mouse-lung homogenate revealed the presence of 27,000, 30,000, 39,000, and 41,000 dalton proteins, presumably also surfactant-associated proteins. Immunoprecipitation after in vitro translation of mouse-lung mRNA showed specific reactivity only with a 12,000 dalton polypeptide, a component of the cell marker we were unable to relate to surfactant. Our findings indicate that the 12,000 dalton component of the antigenic marker for the great alveolar cell is a polypeptide whose synthesis is a lung-specific process and that the immunoreaction of the larger and surfactant-associated components is due to post-translational modifications.     

On the nature of tetracycline resistance controlled by the plasmid pSC101.

In vitro enzymatic alteration of plasmid phenotype and in vitro construction of recombinant plasmids containing genetic information derived from the plasmid pSC101 have been used to investigate the mechanism of function of tetracycline resistance determined by the plasmid pSC101. The resistance has been shown to be inducible and involves the increased synthesis of membrane-associated polypeptides of 34,000, 26,000 and 14,000 daltons that are encoded for by the plasmid. The 34,000 dalton polypeptide along with another plasmid-encoded polypeptide of 18,000 daltons function in an ATP-independent manner to prevent the accumulation of tetracycline by the cell. These polypeptides are sufficient for resistance. A second component of plasmid-determined resistance involves the 14,000 dalton polypeptide and reduces the initial adsorption of tetracycline by sensitive cells, but is not alone sufficient for the generation of resistance. The role of the 26,000 dalton polypeptide in tetracycline resistance has not been identified.     

Precursor of a mitochondrial enzyme accumulates in the cytoplasm of preen glands for a specialized function

Malonyl-CoA decarboxylase in the mitochondria of the liver of goose is immunologically identical with the decarboxylase in the cytoplasm of the uropygial gland (Buckner et al. (1978) $\text{Arch. Biochem. Biophys.}$ 186, 152–163). Messenger RNA was isolated from the liver and the uropygial gland and translated in a rabbit reticulocyte system. Specific immunoprecipitation of the translation products with anti malonyl-CoA decarboxylase showed that in both cases the primary translation product was a 50 K dalton peptide identical in size to the cytoplasmic enzyme in the gland. Specific immunoprecipitation of malonyl-CoA decarboxylase from liver slices which had been incubated with [³⁵S]methionine showed that the mature mitochondrial enzyme was a 47 K dalton peptide, 3 K daltons smaller than the primary translation product and the isolated cytoplasmic enzyme. These results suggest that the decarboxylase is proteolytically processed during transport into the mitochondria and that the large amount of the cytoplasmic decarboxylase found in the gland represents accumulation of the unprocessed precursor form of the normally mitochondrial enzyme.     

Production of EGF-containing polypeptides in Xenopus oocytes microinjected with submaxillary gland mRNA.

The biosynthesis of epidermal growth factor (EGF), a 6045 dalton mitogen produced in the mouse submaxillary gland under androgen regulation, was studied using Xenopus oocytes. Microinjection of total, unfractionated gland mRNA together with [35S]cysteine resulted in the production of a secretory polypeptide of approximately 9000 daltons, specifically immunoprecipitable with anti-EGF antibodies. A minor amount of a similarly immunoreactive 9000 dalton secretory polypeptide was produced from the sucrose gradient 9S fraction of gland mRNA. Other, more intensely labeled polypeptides, a cytoplasmic 125 000 dalton and a secretory 110 000 dalton protein were immunoprecipitated from oocytes injected with the greater than 25S mRNA fraction. The biosynthesis of both can hardly be detected in oocytes injected with unfractionated mRNA. All three polypeptides are produced under androgen regulation and share common immunoreactive properties. Northern blot analysis using a 76 nucleotide synthetic EGF cDNA probe revealed hybridization with a single 28S mRNA species. This, and the apparent interrelation between the three polypeptides, suggest that a gland-specific processing protein, encoded by a 9S mRNA, is required to produce the 9000 dalton pro-EGF from the nascent translation product of EGF mRNA.     

Triiodothyronine increases translatable albumin messenger RNA in Rana catesbeiana tadpole liver

The effects of both 3,5,3'-triiodo-L-thyronine and spontaneous metamorphosis on Rana catesbeiana liver mRNA were studied using in vitro translation of isolated liver poly(A)+ RNA in a rabbit reticulocyte lysate system. Conventional phenol extraction methods yielded degraded RNA due to high levels of endogenous ribonucleases released upon homogenization of Rana catesbeiana liver. Isolation of intact total RNA was achieved using the potent ribonuclease denaturant, guanidinium thiocyanate. Adult bullfrog serum albumin was purified to homogeneity and a monospecific antibody was elicited against it. A serum protein of 23,000 daltons that migrated near serum albumin on a 6% native gel was also purified to homogeneity. A monospecific antibody was also raised against this protein. Both antibodies were used to quantitatively immunoprecipitate the in vitro translation products of poly(A)+ RNA isolated at intervals following a single injection of triiodothyronine or during various stages of spontaneous amphibian metamorphosis. Triiodothyronine caused a sevenfold increase in translatable albumin mRNA and a threefold increase in translatable mRNA for the 23,000 dalton protein. These increases are consistent with a nuclear initiated mechanism for thyroid hormone action during amphibian metamorphosis.     

Identification of antigens of Trypanosoma cruzi which induce antibodies during experimental Chagas' disease

Experiments were conducted to identify antigens of Trypanosoma cruzi (Brazil strain) to which antibodies are directed during the course of experimental Chagas' disease in C3H(He) (susceptible) and C57BL/6J (resistant) female mice. An extract of culture forms of the parasite was subjected to SDS-polyacrylamide gel electrophoresis, transferred to a solid phase matrix of nitrocellulose and used as antigens to detect antibodies in the sera of infected mice. Reactive antibodies were detected using an avidin-biotin peroxidase test. Two antigens were consistently detected with sera of normal, uninfected C57BL/6 and C3H(He) mice (51,000 and 44,000; and 53,000 and 46,000 daltons, respectively). A total of 32 antigens with m.w. of 230,000 to 25,000 daltons reacted with antibodies in sera of C3H mice infected for 25 days. Both the number of antigens detected and intensity of reactions increased with time of infection in C3H mice. An early (day 5), rapid, although weak response was observed to antigens of 85,000, 56,000, 53,000, 46,000 and 41,000 daltons. Throughout infection intense responses to antigens of 75,000, 67,000, 45,000, 41,000 and 36,000 daltons were detected. A similar number of components (a total of 34) with m.w. of 210,000 to 20,000 daltons were detected as being antigenic during the course of T. cruzi infection of C57BL/6 mice. A high number of antigens (25) was observed early in infection of C57BL/6 mice by day 10, including components with m.w. of 90,000, 85,000 and 70,000 daltons. Only minor changes were detected, however, after day 20 until day 120, when increases in the number of antigens and the intensity of certain reactions (e.g., antigens of 75,000, 46,000 and 26,000 daltons) were detected.(ABSTRACT TRUNCATED AT 250 WORDS)     

Antiserum against the catalytic subunit of adenosine 3'':5''-cyclic monophosphate-dependent protein kinase. Reactivity towards various protein kinases.

An antiserum against the catalytic subunit C of cyclic AMP-dependent protein kinase, isolated from bovine heart type II protein kinase, was produced in rabbits. Reaction of the catalytic subunit with antiserum and separation of the immunoglobulin G fraction by Protein A-Sepharose quantitatively removed the enzyme from solutions. Comparative immunotitration of protein kinases showed that the amount of antiserum required to eliminate 50% of the enzymic activity was identical for pure catalytic subunit, and for holoenzymes type I and type II. The reactivity of the holoenzymes with the antiserum was identical in the absence or the presence of dissociating concentrations of cyclic AMP. Most of the holoenzyme (type II) remains intact when bound to the antibodies as shown by quantification of the regulatory subunit in the supernatant of the immunoprecipitate. Titration with the antibodies also revealed the presence of a cyclic AMP-independent histone kinase in bovine heart protein kinase I preparations obtained by DEAE-cellulose chromatography. Cyclic AMP-dependent protein kinase purified from the particulate fraction of bovine heart reacted with the antiserum to the same degree as the soluble enzyme, whereas two cyclic AMP-independent kinases separated from the particle fraction neither reacted with the antiserum nor influenced the reaction of the antibodies with the cyclic AMP-dependent protein kinase. Immunotitration of the protein kinase catalytic subunit C from rat liver revealed that the antibodies had rather similar reactivities towards the rat liver and the bovine heart enzyme. This points to a relatively high degree of homology of the catalytic subunit in mammalian tissues and species. Broad applicability of the antiserum to problems related to cyclic AMP-dependent protein kinases is thus indicated.     

Expression and purification of the alpha and beta subunits of Drosophila casein kinase II using a baculovirus vector.

Two recombinant baculoviruses that express the alpha and beta subunits of Drosophila melanogaster casein kinase II, respectively, have been constructed. The expressed proteins are similar to the authentic Drosophila subunits in size and are recognized by antisera raised against the Drosophila holoenzyme. Extracts derived from cells infected with the alpha subunit-expressing virus display elevated casein kinase II activity in vitro. This activity is markedly enhanced in extracts of cells infected with both viruses, or when alpha and beta subunit-containing extracts are mixed in vitro following lysis. Recombinant holoenzyme and the alpha subunit were purified to near homogeneity using phosphocellulose column chromatography. The specific activity of the purified recombinant holoenzyme was very similar to that of the native enzyme, and was fivefold higher than that of the purified free alpha subunit. The Stokes radius of the recombinant holoenzyme was estimated to be 50 A, a value similar to that reported for the native enzyme, whereas the alpha subunit demonstrated a Stokes radius of 26.5 A. Studies using sucrose density gradient centrifugation showed that, under conditions of high ionic strength, the quaternary structure of the purified holoenzyme was tetrameric (like the native enzyme), whereas the structure of the alpha subunit was monomeric. At lower ionic strength the recombinant holoenzyme had a significantly higher sedimentation coefficient, characteristic of the formation of filaments found for the native enzyme. Interestingly, the purified catalytic subunit also displayed a higher S value under conditions of low ionic strength, revealing the formation of alpha subunit aggregates.