Chemical and immunological properties of lipophorins from seven insect orders

The major insect hemolymph lipoprotein, lipophorin, was isolated from adults of eight insect species representing seven insect orders. Sodium dodecyl sulfate polyacrylamide gel electrophoresis was used to compare their respective apoprotein components. In all species examined lipophorin was composed of at least two apoproteins, apolipophorin I (M_r ～ 250,000) and apolipophorin II (M_r ～ 78,000), and two species had a third apoprotein, apolipophorin III (M_r ～ 17,000). The density of each isolated lipophorin was determined from the refractive index of KBr following density gradient centrifugation. Immunoblotting with anti-larval Manduca sexta apolipophorin I and II of the apoproteins separated by SDS-PACE indicated cross reactivity between anti-M sexta apoLp-ll and apoLp-ll in all species tested. Anti-M sexta apoLp-l exhibited no cross reactivity for any species tested. Fluorescent lectin staining of the apoproteins separated on SDS-PAGE gels revealed the presence of covalently bound carbohydrate residues.     

Molecular characteristics of lipophorin,the juvenile hormone-binding protein in the hemolymph of the Colorado potato beetle

Lipophorin, the protein that specifically binds juvenile hormone in the hemolymph of the Colorado potato beetle, Leptinotarsa decemlineata, is a high-density lipoprotein of M_r ～ 574,000. Lipophorin contains 43% lipid and is composed of two apoproteins: apolipophorin I (M_r ～ 251,000) and apolipophorin II (M_r ～ 78,000). Both apoproteins contain mannose residues. Carotenoids make up a substantial part of the lipid fraction. Lipophorin constitutes about 25% of the total hemolymph proteins. Its concentration in the hemolymph (26 μM in 4-day-old long-day and 40 μM in 4-day-old short-day beetles) changes with different physiological conditions concomitant with changes in total protein content. Lipophorin specifically binds 10R-juvenile hormone III with high affinity. The dissociation constant for 10R-juvenile hormone III is 12 ± 2 nM. One lipophorin molecule contains one specific juvenile hormone-binding site. The concentration of binding sites therefore equals that of lipophorin in hemolymph.     

Expression of 5α-reductase in bacteria as a trp E fusion protein and its use in the production of antibodies for immunocytochemical localization of 5α-reductase

A cDNA encoding a full-length rat 5α-reductase was isolated using female rat liver mRNA and the polymerase chain reaction, and fused to the Escherichia coli trp E gene in a pATH expression vector. The trp E-5α-reductase fusion protein expressed in bacteria and a synthetic oligopeptide corresponding to the C-terminus of rat 5α-reductase were used as antigens to produce rabbit polyclonal antibodies to 5α-reductase. Antibodies to the 5α-reductase portion of the fusion protein and to the peptide were purified by affinity chromatography. Antibodies against the 5α-reductase fusion protein reacted with a single component of rat liver microsomes with M_r 26,000 on Western blots, consistent with the size of 5α-reductase predicted from its cDNA, and with a M_r 23,000 component on Western blots of detergent extracts of rat ventral prostate nuclei; other rat ventral prostate cellular fractions (mitochondrial, microsomal, cytosol) bound little or no antibody. Antibody against the synthetic peptide reacted with a M_r 26,000 component of rat liver microsomes as well as with several components in various cellular fractions of rat ventral prostate. With anti-5α-reductase fusion protein antibodies, specific immunocytochemical staining was observed in the epithelial cell nuclei of the rat ventral prostate, seminal vesicle, epididymis and other accessory sex glands. This nuclear staining was specific, since antibodies from non-immunized rabbits did not give nuclear staining and preincubation of the anti-5α-reductase fusion protein antibodies with the trp E-5α-reductase fusion protein eliminated nuclear staining. Incubation of antibodies with trp E (without the 5α-reductase fusion) had no effect on nuclear staining. Specific staining was not detected in the cytoplasm of these epithelial cells. Little or no specific staining was observed in stromal cells in these rat tissuess. Human prostate was also immunocytochemically stained with this antibody. Specific staining was found in both epithelial and stromal cell nuclei.     

Immunological comparison of the starch branching enzymes from potato tubers and maize kernels

Starch branching enzyme was purified from potato (Solanum tuberosum L.) tubers as a single species of 79 kilodaltons and specific antibodies were prepared against both the native enzyme and against the gel-purified, denatured enzyme. The activity of potato branching enzyme could only be neutralized by antinative potato branching enzyme, whereas both types of antibodies reacted with denatured potato branching enzyme. Starch branching enzymes were also isolated from maize (Zea mays L.) kernels. All of the denatured forms of the maize enzyme reacted with antidenatured potato branching enzyme, whereas recognition by antinative potato branching enzyme was limited to maize branching enzymes I and IIb. Antibodies directed against the denatured potato enzyme were unable to neutralize the activity of any of the maize branching enzymes. Antinative potato branching enzyme fully inhibited the activity of maize branching enzyme I; the neutralized maize enzyme was identified as a 82 kilodalton protein. It is concluded that potato branching enzyme (M_r = 79,000) shares a high degree of similarity with maize branching enzyme I (M_r = 82,000), in the native as well as the denatured form. Cross-reactivity between potato branching enzyme and the other forms of maize branching enzyme was observed only after denaturation, which suggests mutual sequence similarities between these species.     

Functional characterization of single-chain factor X from rat liver

¹⁴C-Labeled single-chain factor X prepared by vitamin K-dependent carboxylation in vitro was partially purified by adsorption to BaSO₄ and chromatography on DEAE-Sephacel. Known activators of factor X were analyzed for their effect on the single-chain molecule. ¹⁴C-Labeled factor X antigens were recovered immunochemically from incubation mixtures and characterized by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Incubation with trypsin resulted in the generation of factor Xa clotting activity, and the ¹⁴C-labeled product migrated after reduction with an apparent molecular weight of 22,500 ± 1500 (mean ± 1 SD). The light chain produced by factor Xa was similar to that produced by trypsin (M_r 24,500 ± 1500; mean ± 1 SD). Incubation of single-chain factor X with factor VII and thromboplastin, factor IXa, or the factor X activating enzyme from Russell's viper venom gave a reducible product with a light chain of higher apparent molecular weight (M_r 37,000–38,000). Incubation with factor VII and thromboplastin also resulted in the generation of factor Xa clotting activity. Incubation of single-chain factor X with platelets resulted in the binding of about 20% of the ¹⁴C. The bound ¹⁴C-labeled factor X antigen released by freezing and thawing in the presence of EDTA was reduced to give a ¹⁴C-labeled polypeptide with M_r 31,000. Walker 256 tumor cells bound about 30% of the ¹⁴C. The bound material, after reduction, gave a ¹⁴C-labeled polypeptide with M_r 23,000.     

Identification and Purification of a Derepressible Alkaline Phosphatase from Anacystis nidulans R2

We have examined the increase in alkaline phosphatase activity in the cyanobacterium Anacystis nidulans R2 upon phosphate deprivation. Much of the activity is released into the medium when A. nidulans is osmotically shocked, indicating that the enzyme is located either in the periplasmic space or is loosely bound to the cell wall. The polypeptide associated with phosphatase activity has been identified as a single species of M_r 160,000. Several lines of evidence demonstrate that this polypeptide is responsible for alkaline phosphatase activity: (a) It is absent when cells are grown in the presence of phosphate and specifically accumulates during phosphate deprivation. (b) It is the major periplasmic polypeptide extracted by osmotic shock. (c) It represents over 90% of the protein in a fraction of periplasmic polypeptides enriched for phosphatase activity. (d) Antibodies raised against the purified species of M_r 160,000 inhibit phosphatase activity by approximately 70%.     

Tetranectin-like protein in vertebrate serum: a comparative immunochemical analysis

The glycoprotein tetranectin (TN) found in human serum is a 90-kDa homotrimeric C-type lectin binding Ca²⁺, heparin and plasminogen kringle 4. TN is suggested as being implicated in tissue remodelling. The antigenic reactivity of putative TN was examined in serum from 14 different animal species using three sandwich enzyme immunoassays for human TN. Crab-eating macaque serum showed the strongest reaction, followed by horse and cat. Serum from cow, goat, pig, mouse and chicken reacted weakly, while dog, trout, and the amphibian and the reptile species did not react. The TN-like protein from macaque, horse and cat serum bound heparin and showed the same dependence on Ca²⁺ for interaction with the monoclonal antibodies as human TN. Gel filtration of sera from the three animal species showed that the TN-like protein eluted as single peaks with a M_r of 70–90 kDa. Western blotting of horse and cat TN-like protein electrophoresed under reducing conditions showed that the antibodies against human TN reacted with a single band with an approximate M_r of 30 kDa, indicating that the TN-like protein is also a homotrimer. Horse and cat TN-like protein interacted with human kringle 4-sepharose. Most likely, the reacting protein represents crab-eating macaque, horse and cat homologues of human TN.     

A carbene-generating photoaffinity probe for beta-adrenergic receptors

A new radioiodinated (2.2 Ci/μmol) iodocyanopindolol derivative carrying a 4-(3-trifluoromethyldiazirino)benzoyl residue has been synthesized. The long-wavelength absorption of the diazirine permits formation of the carbene by photolysis under very mild conditions. [¹²⁵I]ICYP-diazirine binds with high affinity (K_d = 60 pM) to β-receptors from turkey erythrocyte membranes. Upon irradiation, [¹²⁵I]ICYP-diazirine is covalently incorporated in a M_r 40 000 protein. Stereoselective inhibition of photolabeling by the (?)enantiomers of alprenolol and isoproterenol indicated that the M_r 40 000 protein contains a β-adrenergic binding site. The yield of specific labeling was up to 8.2% of total β-receptor binding sites. The M_r 40 000 protein photolabeled in the membrane could be solubilized at comparable yield with either digitonin or Triton X-100. Irradiation of digitonin-solubilized turkey erythrocyte membranes with [¹²⁵I]ICYP-diazirine resulted in specific labeling of two proteins with M_r 40 000 and 50 000. In guinea-pig lung membranes, at least five proteins were photolabeled, of which one (with approximate M_r 67 000) was labeled specifically.     

Phosphorus nuclear magnetic resonance studies of phosphoglucomutase and its metal ion complexes.

The ³¹P nuclear magnetic resonance of the covalently bound phosphate group at the active site of phosphoglucomutase has been examined by means of Fourier transform nuclear magnetic resonance spectroscopy. At a pD of 7.9, the chemical shift of the ³¹P nucleus is 3.8 ± 0.1 ppm downfield from 85% H₃PO₄; this shift is close to that of phosphoserine (dianionic form). Proton decoupling experiments suggest that the phosphorus of the enzymic phosphate group is coupled to protons with chemical shifts similar to those of phosphoserine. In D₂O, with proton decoupling, the ratio of the longitudinal and transverse diamagnetic relaxation times in solutions of 1.6 mm phosphoenzyme yields an approximate correlation time of 10^?7s for the ³¹P nucleus of the enzyme. This is within the range of values expected for tumbling of the entire protein molecule and suggests that the covalently attached phosphate group is immobilized or “frozen” at the active site of the enzyme by means of noncovalent interactions with adjacent groups. Consistent with this, the pK_a of the enzymic phosphate is significantly lower than that of phosphoserine. Binding of the diamagnetic activator, Mg²⁺, causes little or no change in the chemical shift of the resonance of the enzymic phosphorus from pD = 5.3 to 7.6, a downfield shift (?0.5 ± 0.1 ppm) at pD = 8.6, but an upfield shift (0.8 ±0.1 ppm) for that of phosphoserine, suggesting that bound Mg²⁺ is not coordinated to the enzymic phosphate. Independent evidence against direct coordination is provided by the paramagnetic effects of Ni²⁺ bound at the active site on the relaxation rates of the enzymic phosphorus. By assessing the paramagnetic effect of bound Ni²⁺ on both the longitudinal and transverse relaxation rates of the observed resonance, and by using correlation times determined for water proton relaxation induced by the Ni²⁺ complex, a range of Ni²⁺ to phosphorus distances of 4 to 6 Å is calculated. These distances suggest a second sphere interaction between the enzyme-bound metal and the enzymic phosphate group. Bound Ni²⁺ also markedly decreases the integrated intensity of the ³¹P resonance. Although the reason for this intensity decrease is incompletely explained, the present data establish the close proximity of the bound metal ion and the active site phosphoserine on phosphoglucomutase.     

A high molecular weight diapause-associated protein from the stem-borer Busseola fusca: Purification and properties

The hemolymph of diapausing larvae of the stem borer, Busseola fusca Fuller (Lepidoptera: Noctuidae), contains an electrophoretically distinct protein band on nondenaturing polyacrylamide gels. The protein, called the Busseola diapause protein (BDP), was purified by a combination of density gradient ultracentrifugation, gel permeation, and affinity chromatography. It is a high molecular weight protein (M_r ～5 × 10⁵; pl = 6.1) that is composed of two subunits, I (M_r ～88,000 ± 4,000) and II (M_r ～79,000 ± 1,000), which are not linked by disulfide bridges. The protein contains both lipids (2%) as well as covalently bound carbohydrates (1%). The inability to stain the fluorescein isothiocyanate-conjugated concanavalin A (FITC-Con A) suggests that the carbohydrate moiety of BDP is not of the high mannose type. Amino acid analysis showed a high tyrosine plus phenylalanine content (16 mol%). Labeling studies using [³⁵S]-methionine showed that de novo synthesis by the fat body tissue occurs only in diapausing larval insects. It is proposed that the BDP could serve a storage function by providing the amino acids needed for the synthesis of pupal and adult structures.     

Immunolocalization of the 110,000 molecular weight cytoskeletal protein of intestinal microvilli

The core structures of microvilli from absorptive cells of the intestinal epithelium are primarily composed of calmodulin (M_r 16,000), actin (M_r 43,000), villin (M_r 95,000) and a protein of M_r 110,000. We have isolated this protein and raised antibodies against it. The antibodies interact specifically with villin and M_r 110,000 polypeptides present in isolated microvilli or brush borders. However, after absorption on an immobilized villin preparation, these antibodies still immunoprecipitate the M_r 110,000 protein but not villin. Thus, these two proteins appear to share some antigenic determinants but also contain other determinants specific for each protein. Immunolocalization studies have been performed using specific antibodies against the M_r 110,000 protein. Immunofluorescent studies on thin frozen sections of intestinal cells show that this protein is located in the brush border and at the basolateral faces of these polarized cells. Immunoferritin studies on rat brush borders demembranated with the detergent Triton X-100 show the association of the M_r 110,000 protein with core filaments of microvilli, as well as with some filaments localized in the terminal web network.Using sealed, right-side-out vesicles prepared from pig intestinal mucosa in the presence of Ca²⁺ and Mg²⁺, a polypeptide of M_r 140,000 was found to be a major component of the Triton X-100 insoluble pellet. This protein is a minor component of an equivalent pellet obtained from isolated microvilli prepared in the presence of EDTA. The significance of this M_r 140,000 polypeptide associated with the core residue of intestinal microvilli is discussed.     

Photoaffinity labelling of the nucleoside transporter of cultured mouse lymphoma cells

Nitrobenzylthioniosine (NBMPR), a potent and specific inhibitor of nucleoside transport, is bound reversibly by high affinity sites on nucleoside transporter proteins of erythrocyte membranes and, upon photoactivation, NBMPR molecules become covalently bonded to the sites. This study showed that [³H]NBMPR molecules reversibly bound to intact S49 and L5178Y mouse lymphoma cells became covalently bound upon exposure to UV light. Electrophoretic analysis of plasma membrane fractions from the labelled cells showed that ³H was present in polypeptides which migrated as a major band with an apparent M_r of 45000–65000.     

Characterization and immunocytochemical demonstration of glucocorticoid receptor using antisera specific to transformed receptor

Cytosolic and nuclear forms of the glucocorticoid receptor were characterized using immunochemical techniques. Antibodies were raised in rabbits to an M_r 58,000 fragment of the transformed (DNA-binding) glucocorticoid receptor purified from rat liver cytosol by DNA-cellulose chromatography and polyacrylamide gel electrophoresis. Antibodies reacted with the transformed receptor form in a radioimmunoassay for glucocorticoid receptor. Western blot analysis of antibody reactivity revealed a single M_r 185,000 receptor form in rat liver cytosol but a smaller M_r 85,000 form in nucleosol, indicating the M_r 85,000 form is the transformed receptor. Furthermore, western blot analysis indicates that the M_r 185,000 receptor undergoes proteolysis during receptor purification and in vitro transformation processes by generating immunochemically similar proteins of smaller molecular weights. An identical M_r 185,000 glucocorticoid receptor was detected in cytosols of four rat tissues; liver, brain, adrenal medulla, and thymus. The glucocorticoid receptor was localized to the cytoplasm and nucleus of rat adrenal medulla cells by immunohistochemistry, demonstrating the existence in vivo of the transformed receptor and translocation of the receptor from cytoplasm to nucleus.     

Characterization of the Hepatic Glucagon Receptor

Abstract

The hepatic glucagon receptor was covalently labeled with [¹²⁵I-Tyr¹⁰]-monoiodoglucagon by use of the heterobifunctional crosslinker hydroxysuccini-midyl-p-azidobenzoate and analyzed by SDS-gel electrophoresis. The autoradio-gram of the gel showed one band at M_r=63,000 that was sensitive to excess unlabeled glucagon and GTP. The labeled receptor was solubilized with Lubrol-PX and the hydrodynamic characteristics of the receptor were determined. The molecular parameters of the solubilized receptor are S_{20, w} = 4.3 ± 0.1, Stokes radius = 6.3 ± 0.1 nm, frictional coefficient f/f° = 1.8 and a calculated M_r = 33,000 fragment, that retains guanine nucleotide sensitivity. Elastase treatment of vacant receptors results in a M_r = 24,000 fragment that binds hormone in a GTP-sensitive manner. The M_r = 24,000 fragment is contained within the M_r = 33,000 fragment. The M_r = 63,000 receptor upon treatment with endo-β-N-acetylglucosamine F for 4 h yields four fragments of apparent M_r = 61,000, 56,000, 51,000, and 45,000; 24 h treatment results in the accumulation of the last two fragments. Neither M_r = 33,000 and 24,000 fragment appear to be substrates for endo-β-N-acetylglucosaminidase F.

These data allow us to conclude that the hepatic glucagon receptor in the membrane is a dimer of ～ 60,000 dalton hormone binding subunit which is a glycoprotein containing at least four N-linked glycans accounting for 18,000 daltons of its mass. Both the hormone binding function and the capacity for the interaction with the stimulatory regulator of adenylyl cyclase are contained within a fragment of only ～ 21,000 daltons that does not contain any N-linked glycans.     

Affinity labeling of high-affinity α-thrombin binding sites on the surface of hamster fibroblasts

The serine proteinase α-thrombin potently stimulates reinitiation of DNA synthesis in quiescent Chinese hamster fibroblasts (CCL39 line). ¹²⁵I-labeled α-thrombin binds rapidly and specifically to CCL39 cells with high affinity (K_d ≈ 4 nM). Binding at 37°C was found to remain stable for 6 h or more during which time no receptor down-regulation, ligand internalization and/or degradation could be detected. The structure of α-thrombin receptors on CCL39 cells was identified by covalently coupling ¹²⁵I-α-thrombin to intact cells using a homobifunctional cross-linking agent, ethylene glycol bis(succinimidyl succinate). By resolution in sodium dodecyl sulfate polyacrylamide gel electrophoresis we observed the specific labeling of a major α-thrombin-binding site of M_r ≈ 150 000 revealed as a ¹²⁵I-α-thrombin cross-linked complex of M_r ≈ 180 000. Independent of chemical cross-linking, ¹²⁵I-α-thrombin also formed a covalent complex with a minor, 35 000 M_r, membrane component identified as protease nexin. Two derivatives of α-thrombin modified at the active site are 1000-fold less than α-thrombin for mitogenicity. These two non-mitogenic derivatives bound to cells with similar affinity and maximal binding capacity as native α-thrombin, and affinity-labeled the receptor subunit of M_r 150 000. When present in large excess, during incubation of cells with α-thrombin, these binding antagonists were ineffective in blocking α-thrombin-induced DNA synthesis. These data suggest that the specific 150 000 M_r binding sites that display high affinity for α-thrombin do not mediate induction of the cellular mitogenic response.     

Detection of Sendai virus fusion with human erythrocytes by fluorescence photobleaching recovery

The subunit stoichiometry of the ATP synthetase (CF₁-CF₀) immunoprecipitated from Triton X-100 extracts of chloroplast thylakoid membranes was determined to be α₃, β₃, γ, δ, ? (CF₁) and I_0.3, II_0.6–0.9, III₄₍₆₎ (CF₀). Antibodies against the polypeptides α, β, γ, δ, I, II and ? combined specifically with the isolated subunits as analysed by the protein blotting method. Applying this technique, antibodies against the CF₁ subunits were found to form complexes with the corresponding polypeptides of thylakoids, whereas those against I (M_r 20 000) and II (M_r 17 000) combined with M_r 26 000 and M_r 24 500 membrane polypeptides, respectively. The M_r 26 000 polypeptide was identified as the major subunits of the light-harvesting chlorophyll a/b-protein (LHCP) complex and the M_r 24 500 component seems to be functionally connected with this complex. From the results it is concluded that the chloroplast ATP synthetase consists of the subunit of the α, β, γ, δ, ? and III (proteolipid only and that proteolytically altered LHCP polypeptides bind artifically to the protein complex during isolation.     

Purification and Properties of Methanol Dehydrogenase and Aldehyde Dehydrogenase from Methylobacillus glycogenes

Methanol dehydrogenase (MDH) and aldehyde dehydrogenase (ALDH) were purified to a homogenous state from Methylobacillus glycogenes, an obligate methylotroph. MDH (M_r 140,000) was composed of two different subunits (M_r 60,000 and 9,000) forming an α₂β₂ structure. MDH was indicated as a metalloquinoprotein containing one atom of calcium (Ca) per enzyme molecule. Binding of Ca was so tight that it was hard to remove Ca completely without denaturation of enzyme protein. A partially resolved enzyme resumed its original enzyme activity upon exogenous addition of Ca. Purified ALDH (M_r 144,000) was composed of two identical subunits of molecular mass of 72,000. ALDH was proved to be a quinoprotein in which PQQ is bound covalently.     

Monoclonal antibodies directed against protoplasts of soybean cells

Splenocytes, derived from mice that had been immunized with protoplasts prepared from suspension cultures of root cells of Glycine max (L.) Merr. (SB-1 cell line), were fused with a murine myeloma cell line. The resulting hybridoma cultures were screened for the production of antibodies directed against the soybean protoplasts and were then cloned. One monoclonal antibody, designated MVS-1, was found to bind to the outer surface of the plasma membrane on the basis of several criteria: (a) agglutination of the protoplasts; (b) binding of fluorescence-labeled immunoglobulin on protoplasts yielding a ring staining pattern with prominent intensity at the edges; and (c) saturable binding by protoplasts of ¹²⁵I-labeled Antibody MVS-1. The antigenic target of Antibody MVS-1, identified by immunoblotting techniques, contained a polypeptide of relative molecular mass (M_r) approx. 400000 under both reducing and non-reducing conditions. When the antigenic target of Antibody MVS-1 was chromatographed in potassium phosphate buffer, the position of elution corresponded to that of a high-molecular-weight species (M_r 400000). These results provide the protein characterization required for the analysis of the mobility of Antibody MVS-1 bound to the plasma membrane of SB-1 cells.Abbreviations D diffusion coefficient - M_r relative molecular mass - PBS phosphate-buffered saline (8.00 g NaCl, 1.15 g Na₂HPO₄, 0.20 g NaH₂PO₄ per 1 L, pH 7.2) - TPBS phosphate-buffered saline containing 0.5% Tween-20 - TX-100, TX-114 Triton X-100, X-114 - SDS sodium dodecyl sulfate     

Phosphorylation of the Mr = 34,000 protein in normal and Rous sarcoma virus-transformed rat fibroblasts

Antiserum was raised against the M_r = 34,000 chick cell protein which may serve as a substrate for the Rous sarcoma virus transforming gene product. The antiserum specifically immunoprecipitated 2 proteins from [³⁵S]methionine labeled Rous sarcoma virus-transformed rat cell extracts (a M_r = 35,000 and a M_r = 38,000 protein). Partial protease treatment revealed these two proteins to be very closely related. The protein of apparent M_r = 38,000 was phosphorylated and the phosphate was present exclusively on tyrosine residues. The effect of epidermal growth factor on phosphorylation of the M_r = 35,000 protein was examined in several normal rat fibroblast cell lines. EGF treatment had no effect on phosphorylation of the M_r = 35,000 protein for any normal cell line and also failed to elevate overall levels of phosphotyrosine.     

Subunit structure of three glyceraldehyde 3-phosphate dehydrogenases of some flowering plants.

A procedure is described for the purification of three glyceraldehyde phosphate dehydrogenases from a batch of beet leaves. Glyceraldehyde 3-phosphate:NADP⁺ reductase, nonphosphorylating (EC 1.2.1.9) has been purified over 1500-fold. The M_r of this enzyme is 190,000 and its subunits have an M_r of 53,000, suggesting a tetramer as the active form. Its pI is 6.0. Cytosolic glyceraldehyde 3-phosphate dehydrogenase, NAD dependent (EC 1.2.1.12), has an M_r of 145,000 and subunits of M_r 37,000. It is dissociated to inactive dimers by ATP, whereas NAD⁺ in the presence of reductant promotes its reactivation. The amino acid composition is related to glyceraldehyde 3-phosphate dehydrogenases from animal sources and is most similar to pea seed glyceraldehyde 3-phosphate dehydrogenase. The enzyme exhibits a range of pI values from 5 to 7, but a second electrofocusing in the presence of dithioerythritol results in a single main form with pI 5.33, consistent with the behavior in polyacrylamide and cellulose acetate gel electrophoresis. Chloroplast NAD(P)-glyceraldehyde 3-phosphate dehydrogenase (EC 1.2.1.13) has been obtained from beet, pea, Ranunculus, Arum, and maize leaves. The stable form is an oligomer of about 800,000 M_r (±10%), while a minor, possibly damaged fraction elutes as a retarded peak from agarose columns. The M_r 800,000 form is reversibly dissociated to protomers of M_r 160,000 by NADP⁺, with increase of apparent NADP-dependent activity. Two subunits are present in similar amounts in all association states and after all treatments: α with M_r 36,000, and β with M_r 41,000. The form found in density gradient ultracentrifugation has an M_r of 390,000. Isoelectric points of the various forms lie between pH 4.1 and 4.7 for all species, with a main peak usually at pI 4.45. The amino acid composition of beet chloroplast glyceraldehyde phosphate dehydrogenase is not closely related to that of beet leaf NAD-dependent glyceraldehyde 3-phosphate dehydrogenase.