HPLC purification and preparation of antibodies to cholic acid-inducible polypeptides from Eubacterium sp. V.P.I. 12708

The role of bile acid-inducible polypeptides in 7-dehydroxylation was investigated in Eubacterium sp. V.P.I. 12708. Cholic acid-inducible bile acid 7 alpha-, 7 beta-dehydroxylase, and delta 6 reductase activities co-eluted from a gel filtration high performance liquid chromatography (HPLC) column. Antibody (Ab) was prepared to these enzymatically active fractions, immunoadsorbed with uninduced cell extract coupled to Sepharose 4B, and used for immunoprecipitation of [35S]-methionine-labeled polypeptides. Ab immunoprecipitated polypeptides with molecular weights of 45,000, 27,000, and 23,500 from induced but not uninduced cell extracts. Immunoinhibition experiments showed that this Ab preparation inhibited (60%) bile acid 7 alpha-dehydroxylase activity in cell extracts. The 45,000 mol wt polypeptide was purified by (NH4)2SO4 fractionation, HPLC gel filtration, and HPLC-DEAE chromatography. Ab prepared to the 45,000 mol wt polypeptide immunoprecipitated only that polypeptide. This Ab, however, did not inhibit bile acid 7 alpha-dehydroxylase activity. Ab specific for the 27,000 mol wt polypeptide was prepared by partial purification and immunoadsorption with uninduced cell extracts. Immunochemical staining, following SDS-PAGE of crude cell extracts, shows a single immunoreactive protein band at 27,000 daltons. This Ab immunoprecipitated the 27,000 mol wt polypeptide as well as small amounts of the 45,000 and 23,000 mol wt polypeptides. Immunoinhibition studies showed that this Ab preparation inhibited (25%) 7 alpha-dehydroxylase activity. These data suggest that the 27,000 mol wt polypeptide is involved in enzyme catalysis. This does not, however, eliminate some role for the 45,000 and 23,500 mol wt polypeptides in bile acid metabolism in this organism.     

Developmental Changes in Polypeptide Composition of, and Precursor Incorporation into, Cellular and Subcellular Fractions of Rat Cerebral Cortex

Abstract: Neuronal-enriched and glial-enriched fractions from rat cerebral cortex at 2. 5, 9, 14 and 23 days postnatally, and subcellular fractions from 2, 14 and 46 day old rat were prepared. The polypeptide composition of all fractions was analysed by sodium dodecyl sulphate (SDS) polyacrylamide gel electro-phoresis and quantified by densitometry. Fifty-nine polypeptides (mol. wts., 13,200–251,000) were resolved in the cell fractions of which the majority remained unchanged throughout postnatal development. Three polypeptides (mol. wts., 102,000, 56,000, 53,700) were found to increase in amount devel-opmentally in both cellular fractions, the latter two showing a peak in relative amount on day 14 and a subsequent decline. Three polypeptides (mol. wts., 47,000, 28,200, 17,400) were found to be common to the glial-enriched fraction as well as the myelin fraction, and all showed a developmental increase. The neuronal-enriched fraction was found to be enriched in five polypeptides of which one (mol. wt., 51,900) showed a developmental increase after ten days postnatally, the others (mol. wts., 178,700, 142,000, 109,000, 24,000) showing a decrease. In vitro incorporation of [³⁵S]-methionine into the glial-enriched fraction was carried out, and a developmental decline was observed in the labelling of a polypeptide of 42,000 mol. wt.     

PROTEINS OF THE POSTSYNAPTIC DENSITY

An analysis was made of the protein composition of a fraction of postsynaptic densities (PSDs) prepared from rat brain. Protein makes up 90% of the material in the PSD fraction. Two major polypeptide fractions are present, based on sodium dodecyl sulfate polyacrylamide gel electrophoresis. The major polypeptide fraction has a molecular weight of 53,000, makes up about 45% of the PSD protein, and comigrates on gels with a major polypeptide of the synaptic plasma membrane. The other polypeptide band has a molecular weight of 97,000, accounts for 17% of the PSD protein, and is not a prominent constituent of other fractions. Six other polypeptides of higher molecular weight (100,000–180,000) are consistently present in small amounts (3–9% each). The PSD fraction contains slightly greater amounts of polar amino acids and proline than the synaptic plasma membrane fraction, but no amino acid is usually prominent. The PSD apparently consists of a structural matrix formed primarily by a single polypeptide or class of polypeptides of 53,000 molecular weight. Small amounts of other specialized proteins are contained within this matrix.     

Changes in the bovine zona pellucida induced by plasmin or embryonic plasminogen activator

Effects of bovine plasmin and plasminogen activator recovered from bovine embryo-conditioned medium (bePA) on the polypeptide profile and solubility of bovine zonae pellucidae (ZP) were evaluated. ZP were isolated from bovine ovarian oocytes and incubated at 39°C with 0, 100, or 200 μg/ml plasmin for 0, 24, or 48 hr or bePA with 0 or 100 μg/ml human plasminogen for 0 or 48 hr. ZP were evaluated either by SDS-PAGE or for changes in solubility using a zona pellucida dissolution time (ZPDT) assay. Two prominent polypeptides, molecular weight (MW) 76,000 and 65,000, and two minor polypeptides, MW 23,000 and 22,000, were resolved by SDS-PAGE. No changes occurred in the polypeptide profile for ZP incubated with 0 μg/ml plasmin for 0, 24, or 48 hr, and ZPDT did not differ (P > 0.10). Treatment with 100 or 200 μg/ml plasmin induced reductions in the MW 76,000, 23,000, and 22,000 polypeptides and the appearance of MW 45,000 and <10,000 polypeptides. ZPDT were less (P < 0.05) in 100 and 200 μg/ml compared with 0 μg/ml plasmin. Polypeptide profiles and ZPDT for ZP incubated with bePA were similar (P > 0.10) to ZP incubated with unconditioned medium. Addition of human plasminogen to ZP incubated with bePA reduced the MW 76,000, 23,000, and 22,000 polypeptides, caused the appearance of MW 45,000 and 20,000 polypeptides, and decreased ZPDT (P < 0.05). These results demonstrate that bovine plasmin is capable of proteolytically degrading the bovine ZP and that bePA can indirectly affect the ZP by converting plasminogen to plasmin. Mol. Reprod. Dev. 51:330–338, 1998. © 1998 Wiley-Liss, Inc.     

Subcellular distribution of the different platelet proteins phosphorylated on exposure of intact platelets to ionophore A23187 or to prostaglandin E1. Possible role of a membrane phosphopolypeptide in the regulation of calcium-ion transport.

Exposure of 32P-labelled human platelets to ionophore A23187 results in an increased incorporation of 32P into polypeptides with apparent mol.wts. of 47 000 (P47) and 20 000 (P20), whereas exposure to prostaglandin E1 results in increased labelling of polypeptides with apparent mol.wts. of 24 000 (P24) and 22 000 (P22) [Haslam, Lynham & Fox (1979) Biochem. J. 178, 397-406]. Labelled platelets that had been incubated with ionophore A23187 or prostaglandin E1 were sonicated and rapidly separated into three fractions by differential centrifugation. Electron microscopy and measurement of marker enzymes indicated that the 1300-19 000 gav. particulate fraction was enriched in granules, mitochondria and plasma membranes, that the 19 000-90 000 gav. particulate fraction was enriched in both intracellular and plasma membranes and that the 90 000 gav. supernatant contained only soluble proteins. 32P-labelled phosphopolypeptide P47 was present almost exclusively in the 90 000 gav. supernatant, whereas phosphopolypeptide P20 was largely dephosphorylated under fractionation conditions that protected other phosphopolypeptides. 32P-labelled phosphopolypeptide P24 was enriched in both particulate fractions, but particularly in the 19 000-90 000 gav. fraction, and may therefore be present in both the intracellular and plasma membranes. Phosphopolypeptide P22 appeared to be similarly distributed. Both particulate fractions were capable of the ATP-dependent oxalate-stimulated uptake of Ca2+. When the 19 000-90 000 gav. membrane fraction was prepared from platelets that had been incubated with ionophore A23187, active uptake of Ca2+ did not occur, but when this fraction was isolated from platelets that had been exposed to prostaglandin E1, uptake of Ca2+ was significantly greater than observed with the corresponding membranes from control platelets. It is suggested that phosphorylation of polypeptide P24 (or P22) by a cyclic AMP-dependent protein kinase may promote the active transport of Ca2+ out of the platelet cytosol.     

Analysis of Biomphalaria glabrata (Gastopoda) hemolymph by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, high-performance liquid chromatography, and immunoblotting

Cell-free hemolymph (serum) of the gastropod mollusc Biomphalaria glabrata was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoreis (SDS-PAGE), high-performance liquid chromatography (HPLC), and immunoblotting. In SDS-PAGE gels, hemoglobin (Hb; apparent molecular weight (aMW) = 160 kDa) was found to be the dominant protein. There were also many subtending polypeptides in the 31,000 to 116,000 aMW range. In order to deplete B. glabrata serum of Hb it was ultracentrifuged by a standard procedure. The supernatant (Hb depleted) and pellet (Hb enriched) were then subjected to SDS-PAGE and HPLC. The polypeptide profile of the Hb-enriched fraction was virtually indistinguishable from whole serum whereas few major proteins were observed in the Hb-depleted fraction. Only by subjecting a large sample to SDS-PAGE followed by the very sensitive silver-staining procedure were several, faintly staining polypeptides observed in the Hb-depleted fraction in the aMW range of 10 to 116 kDa. Similarly, when the Hb-depleted fraction was subjected to HPLC, virtually no peaks were observed. In comparison, several peaks were discriminated from 9 to 12.5 min during chromatography with Hb producing a sharp spike at 13 min. When serum was separated by HPLC and the various fractions were subjected to SDS-PAGE, nearly all samples gave a polypeptide profile similar to whole serum. Rabbits were next used to raise antibodies to whole B. glabrata serum (anti-serum) and the 160-kDa polypeptide (anti-Hb). Rabbit antisera was then tested against whole snail serum and the Hb-depleted and enriched fractions in immunoblot assays. Both antisera gave similar results with reactivity against whole blood and the Hb-enriched fraction being virtually identical. In comparison, both anti-Hb and anti-serum reacted only with the 160-kDa polypeptide as well as two bands at approximately 55 kDa when tested against the Hb-depleted fraction. When the blots were counterstained, no other protein bands were visualized, indicating that each antisera was recognizing all of the proteins present. When the antibodies were tested against serum fractions separated by HPLC, nearly all fractions reacted in a manner similar to whole serum. No other polypeptides were observed when these blots were counterstained. From these experiments, it appears that Hb and Hb subunits comprise the majority of the serum proteins in B. glabrata.     

Different keratin polypeptides in epidermis and other epithelia of human skin: a specific cytokeratin of molecular weight 46,000 in epithelia of the pilosebaceous tract and basal cell epitheliomas

Cytokeratin polypeptides of human epidermis, of epithelia microdissected from various zones of the pilosebaceous tract (outer root-sheath of hair follicle, sebaceous gland), and of eccrine sweat-glands have been separated by one- and two-dimensional gel electrophoresis and characterized by binding of cytokeratin antibodies and by peptide mapping. The epithelium of the pilosebaceous tract has three major keratin polypeptides in common with interfollicular epidermis (two basic components of mol wts 58,000 and 56,000 and one acidic polypeptide of mol wt 50,000); however, it lacks basic keratin polypeptides in the mol wt range of 64,000-68,000 and two acidic keratin-polypeptides of mol wts 56,000 and 56,500 and contains an additional characteristic acidic cytokeratin of mol wt 46,000. Another cytokeratin polypeptide of mol wt 48,000 that is prominent in hair-follicle epithelium is also found in nonfollicular epidermis of foot sole. Both epidermis and pilosebaceous tract are different from eccrine sweat-gland epithelium, which also contains two major cytokeratins of mol wts 52,500 and 54,000 (isoelectric at pH 5.8-6.1) and a more acidic cytokeratin of mol wt 40,000. A striking similarity between the cytokeratins of human basal-cell epitheliomas and those of the pilosebaceous tract has been found: all three major cytokeratins (mol wts 58,000; 50,000; 46,000) of the tumor cells are also expressed in hair-follicle epithelium. The cytokeratin of mol wt 46,000, which is the most prominent acidic cytokeratin in this tumor, is related, by immunological and peptide map criteria, to the acidic keratin-polypeptides of mol wts 48,000 and 50,000, but represents a distinct keratin that is also found in other human tumor cells such as in solid adamantinomas and in cultured HeLa cells. The results show that the various epithelia present in skin, albeit in physical and ontogenic continuity, can be distinguished by their specific cytokeratin-polypeptide patterns and that the cytoskeleton of basal-cell epitheliomas is related to that of cells of the pilosebaceous tract.     

Identification of the vitellogenin proteins in the newt Pleurodeles waltl (urodele amphibian)

Vitellogenin derived from the blood of estrogen-treated Pleurodeles waltl was identified by immunochemical and electrophoretic analyses, using an antiserum against plasma vitellogenin isolated by dimethylformamide precipitation. Pleurodeles vitellogenin migrates as four bands on native PAGE, designated alpha-, beta-, gamma- and delta- VTG, with apparent mol. wts of 250,000, 270,000, 280,000 and 520,000 respectively. In the plasma, from estrogen-treated males like from ovariectomized estrogen-treated females, an additional band (mu-VTG) was found by native PAGE, never observed in estrogen-treated female plasma. It has a mol. wt of about 380,000 and shows complete immunological cross-reactivity with the vitellogenin antiserum. At least two polypeptides, termed VTG-I and VTG-II (mol. wt = 180,000 and 210,000) were identified by SDS-PAGE. Rocket immunoelectrophoresis displays three distinct precipitate lines indicating major immunological differences between the plasma vitellogenins.     

PROTEIN COMPOSITION OF AXONS and MYELIN FROM RAT and HUMAN PERIPHERAL NERVES

Abstract— Proteins of rat and human peripheral nerves were studied in whole nerve homogenates and in purified myelin and axonal preparations of peripheral nerve. Both myelin and axonal fractions were obtained from desheathed and minced nerve segments by flotation and sedimentation, respectively, in 0.85 m -sucrose following hypotonic treatment. The purity of myelin and axonal preparations was confirmed by electron microscopic examination of pelleted material. Nerve proteins were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis at pH 8.3 and 7.4. Major protein bands of fresh whole nerve homogenates corresponded to polypeptide bands of either the purified myelin or axon preparations. The most prominent electrophoretic band in peripheral nerve was identified as a myelin glycoprotein with molecular weight of 27,000. The major polypeptides of axon preparations had molecular weights of 200,000, 150,000, 69,000, 55,000 and 27,000. The latter two proteins were believed to represent tubulin and residual major myelin protein, respectively. The three largest axonal polypeptides were believed to be derived from neurofilaments, which represented the predominant organelle of the purified axons. Collagen was also seen in whole nerve homogenates and in purified axons but could be distinguished by its metachromatic staining with Coomassie blue.     

Biosynthesis and molecular nature of the T3 antigen of human T lymphocytes

Immunoprecipitates of the T3 antigen prepared from HPB-ALL cells by using the monoclonal antibody UCH-T1 were analysed by SDS-polyacrylamide gel electrophoresis. Cells which had been biosynthetically labelled for up to 4 h gave a major polypeptide of mol. wt. 19 000 plus two weaker, more diffuse bands of mol. wts. 21 000 and 23 000, whereas surface labelled cells gave a prominent band of mol. wt. 19 000, a major band of 21 000 and a weaker diffuse band of approximately 26 000. As judged from their sensitivity to proteinase-K digestion, all the above polypeptides possess a transmembrane orientation. Digestion with endoglycosidases H and F (endo-H and endo-F), and tunicamycin treatment indicate that all the polypeptides, except that of 19 000 mol. wt. are N-glycosylated. The 21 000 and 23 000 mol. wt. chains possess both immature and mature oligosaccharide units, whereas the 26 000 mol. wt. band apparently has mature units only. Pulse chase experiments combined with digestion by endo-F and endo-H suggest that the N-glycosylated polypeptides are derived from two polypeptides of mol. wts. 14 000 and 16 000. It is concluded that the T3 antigen is derived from three different non-glycosylated polypeptides two of which are subsequently N-glycosylated to give the 21 000, 23 000 and 26 000 forms. The cell surface T3 antigen most probably comprises at least two distinct, non-covalently associated polypeptides, but the number and types of polypeptides giving rise to the whole molecule and whether different complexes exist is at present unclear.     

Multiple zeins from maize endosperms characterized by reversed-phase high performance liquid chromatography

The major storage proteins of maize (Zea mays L.) endosperm are located in protein bodies, and may be separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) into two major classes and four minor classes of polypeptides. The two major classes (commonly known as zeins) have been separated previously into a large number of components by isoelectric focusing (IEF). Reversed-phase high performance liquid chromatography (HPLC) further separated the major classes into additional components, and gave distinctive peaks for each minor zein class. Some IEF bands produced two or more HPLC fractions, while some HPLC fractions produced two or more IEF bands. Apparently identical IEF bands from different inbreds may appear in different fractions after HPLC. Thus the total number of zeins revealed by separations based on apparent size (SDS-PAGE), net charge (IEF), and hydrophobicity (HPLC) is very large. Different laboratories have developed diverse nomenclatures which cause much confusion. A key is presented to provide a flexible and expandable nomenclature for this complex group of proteins.     

Comparative study on human milk and serum biotinidase

Biotinidase was purified from human breast milk (4,000-fold), and was compared with human serum biotinidase (enriched 30,000-fold). The molecular weight of milk enzyme was 68,000 Da as determined by SDS-PAGE. It was definitely smaller than that of serum biotinidase (Mr = 76,000). Isoelectric point of milk biotinidase was 4.6, whereas that of serum biotinidase was 4.3. Sialic acid content in milk biotinidase was less than that found in serum enzyme. N-Acetyl-galactosamine was present in milk enzyme, whereas it was absent in serum enzyme. Milk biotinidase is O-glycosylated, whereas serum biotinidase is N-glycosylated. These differences in glycosylation suggest the existence of different types of excretion mechanisms between milk and serum biotinidase. Both biotinidases were found to be thiol-type enzyme, however, the extent of activation of the enzyme by 2-mercaptoethanol was 13-fold in milk, whilst the serum enzyme was activated only 1.5-fold. Km for biotinyl-4-amino-benzoate was 22 microM in milk enzyme and 50 microM in serum enzyme. Competitive inhibition by biotin (Ki) of milk enzyme was 43 microM and 1.3 mM for serum enzyme. These results suggest the structural differences at or near the active site of the each enzyme.     

The polypeptides of isolated brain 10nm filaments and their association with polymerized tubulin.

Brain 10 nm filaments were isolated from bovine, rabbit and rat brains by a modification of an existing procedure. The overall polypeptide composition of these preparations was similar to that previously reported for brain neurofilaments. In addition to the major polypeptide component, which has mol. wt. approx. 50 000, three other polypeptides with chain mol. wts. approx. 210 000, 155 000 and 70 000, which correspond to peripheral-nerve neurofilament polypeptides, were consistently found to be present. The mol. wt.-50 000 species was found to be heterogeneous and may contain a component derived from the mol. wt. 70 000 polypeptide. The three higher-molecular-weight polypeptides did not appear to be obviously homologous or to be homologous with myosin or Myxicola neurofilament polypeptides. These same three higher-molecular-weight components were shown to be identical with the polypeptides probably responsible for the 10 nm filaments formed during the early cycles of the tubulin-purification protocol.     

Subunit Structure Differences in RNA Polymerase II Purified from Ungerminated versus Germinated Wheat Embryos

DNA-dependent RNA polymerase II (RNAP II) was purified from wheat embryos germinated for 0, 12, 24, and 36 hours and examined with several polyacrylamide gel electrophoretic systems. A changing electrophoretic pattern of RNAP II was observed on nondenaturing polyacrylamide gels. Subunit structure analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) indicated that from ungerminated embryos, RNAP IIA was almost exclusively obtained which has a subunit structure identical to that established for wheat germ RNAP II previously (Jendrisak, Burgess 1977 Biochemistry 16: 1959-1964). Twelve polypeptides with molecular weights × 10⁻³ of 220, 140, 42, 40, 27, 25, 21, 20, 17.8, 17.0, 16.3, and 16.0 were routinely found to be associated with the purified enzyme. From embryos germinated for 36 hours, RNAP IIB was almost exclusively obtained which has a largest subunit of 180,000 mol wt instead of 220,000. From embryos germinated for 24 hours, an approximately equimolar mixture of RNAP IIA and IIB was obtained. Peptide maps of the 220,000 and 180,000 mol wt polypeptides of RNAP IIA and IIB were virtually identical, indicative of a precursor-product relationship for the two polypeptides. In addition to these results, SDS-PAGE indicated that the stoichiometry of the 27,000 mol wt polypeptide increased at the expense of the 25,000 mol wt polypeptide during germination and concomitantly with the appearance of the 180,000 molecular weight polypeptide. No modifications (e.g. gain, loss, or altered mobilities on analytical gels) in any of the other RNAP II subunits were observed in enzyme purified from embryos after various times of germination as determined by a variety of electrophoretic analyses under denaturing conditions.     

Biochemical and Cytological Studies During Seed Development in Somaclones of Lathyrus sativus

Soluble proteins in six somaclones and the parent at three different stages of development of Lathyrus sativus seeds showed polypeptides of mol wts ranging from 20–165 kD on SDS-PAGE. Immature seeds showed eight distinct esterase bands and two peroxidase bands. Pattern for both the enzymes among somaclones was almost similar. During maturation a new isoform of peroxidase with high mobility appeared in all the somaclones, while one new isoform of intermediate mobility was visible in somaclones Bio L-08 and Bio I-08. Cytological analysis of all the somaclones confirmed the stability of the chromosome count of 2n=14. At metaphase I seven distinct bivalents and at anaphase I and II univalents showing complements of the seven chromosomes were visible. No structural or chromosomal aberration were observed among somaclones.     

Isolation and characterization of factor X activator from the venom of Vipera aspis aspis

1. A factor X activator was isolated from the venom of Vipera aspis aspis (Aspic viper) by gel filtration and ion-exchange chromatography. 2. The purified activator has a mol. wt of 75,000 and an isoelectric point of 4.6. Upon reduction, this activator migrated as two bands with mol. wts of 16,000 and 14,000 in sodium dodecyl sulfate polyacrylamide gel electrophoresis. 3. The activator from V. a. aspis venom shortened activated partial thromboplastin time (APTT) of normal plasma and factor IX-deficient plasma from humans. 4. Factor X incubated with isolated activator and calcium ions drastically shortened APTT of factor X-deficient plasma and expressed hydrolytic activity against synthetic substrates for factor Xa, however no hydrolytic activity was detected with the activator alone, indicating that the activator converted factor X to the active form.     

The quaternary structure of bovine brain kinesin.

In the present work we have studied the subunit composition of kinesin, the microtubule-activated, mechanochemical ATPase, isolated from bovine brain. Polypeptides with mol. wts of 120 and 62 kd are the major components of the kinesin preparation. These polypeptides could not be separated by electrophoresis under nondenaturing conditions or by FPLC on a MonoQ column, and are therefore assumed to form a tight complex. As shown by immunoblotting with polyclonal and monoclonal antibodies to the 120-kd polypeptide and by one-dimensional peptide mapping, the 62-kd polypeptide does not appear to be a proteolytic product of the 120-kd component. Densitometric scanning of polyacrylamide-SDS gels shows that these polypeptides are present in a complex in a 1:1 molar ratio. The mol. wt of native kinesin was studied by sedimentation equilibrium and was found to be 386 +/- 14 kd. A comparison of the mol. wts of individual polypeptides with the mol. wt of the intact molecule indicates that the native molecule contains two 120-kd subunits and two 62-kd subunits.     

Fractionation of desmosomes and comparison of the polypeptide composition of desmosomes prepared from two bovine epithelial tissues

Desmosomes isolated from bovine tongue mucosa or muzzle epidermis appeared identical by ultrastructural analyses but had some differences in their polypeptide compositions as determined by SDS-PAGE. These preparations were extracted in 9 M urea, 10 mM Tris-HCl (pH 9), and 25 mM B-mercaptoethanol and then centrifuged at 240,000g for 30 min. The urea-soluble and insoluble fractions were analyzed by SDS-PAGE. The urea soluble fractions of both tongue and muzzle desmosomes were enriched in polypeptides of 240, 210, 81, and 75 kDa and also polypeptides (40 to 70 kDa) that were keratin-like, as determined by immunoblotting analyses with keratin antisera. The urea insoluble fraction of tongue desmosomes contained glycoproteins of 165, 160, 140, 110, and 100 kDa, while this fraction from muzzle contained glycoproteins of 165, 115, and 105 kDa. Ultrastructural examinations of insoluble pellets obtained from urea extracted tongue and muzzle desmosomes showed that most of the components at the cytoplasmic faces of the desmosomes were removed, while the membrane regions of the desmosomes resisted the treatment. The urea soluble proteins were dialyzed against 10 mM Tris-HCl (pH 7.6), and the resulting preparation was pelleted by centrifugation and examined by electron microscopy. Ultrastructural examination of this material revealed that it had assembled into a fibrillar meshwork, similar to the fibrillar region adjacent to the submembranous plaque of isolated desmosomes. Thus, treatment of isolated desmosomes with 9 M urea allowed the fractionation of membrane-associated desmosomal proteins from cytoplasmic desmosomal proteins. A comparison of these fractions from tongue and muzzle indicated that the polypeptide compositions of the desmosomes varied between tissues, especially with respect to the fractions enriched in either glycoproteins or keratin.     

Association of two pertussis toxin-sensitive G-proteins with the D2-dopamine receptor from bovine striatum.

The solubilized D2-dopamine receptor from bovine striatum exhibits high and low affinity states for dopaminergic agonists. Guanine nucleotides and pertussis toxin convert the solubilized receptor from a high affinity state to a low one. A D2-receptor preparation partially purified by affinity chromatography on a haloperidol adsorbent, exhibited agonist-stimulated GTPase activity. [32P]ADP-ribosylation by pertussis toxin of this receptor preparation resulted in the specific labeling of two protein bands corresponding to mol. wts of 39 and 41 kd, in SDS-PAGE. Association of these G-proteins with the receptor was specifically inhibited by Gpp(NH)p. Immunoblot analysis of these G-proteins indicated that the 41- and 39-kd protein bands are analogous to brain Gi and Go respectively. These experiments demonstrate that two distinct pertussis toxin-sensitive G-proteins are functionally associated with bovine striatum D2-dopamine receptor.     

Accumulation of Dehydrins and ABA-Inducible Proteins in Wheat Seedlings during Low-Temperature Acclimation

Using one-dimensional SDS-PAGE and immunochemical methods, we detected the presence and estimated the content of dehydrins and ABA-inducible (RAB) polypeptides in etiolated seedlings of four spring and three winter wheat (Triticum aestivum L.) cultivars differing in frost hardiness. We hardened three-day-old seedlings at 4°C for nine days or grew them at 22°C for a day (control seedlings). We established that heat-stable cold-regulated (COR) polypeptides with mol wts of 209, 196, 169, 66, 50, and 41 kD, which are characteristic of hardened wheat seedlings, were homologous to polypeptides from a dehydrin family and polypeptides with mol wts of 209, 196, 66, 50, and 41 kD were immunologically related to RAB-proteins. We supposed that these COR polypeptides were involved in the prevention of local protein dehydration and denaturation during hypothermia. Analysis of the relative content of COR proteins revealed a close correlation between the cultivar frost hardiness and the concentration of these proteins. It seems evident that different accumulation of dehydrins and RAB polypeptides in different cultivars of a single species is one of the causes for different plant frost hardiness.