An Immunoblot Study of Neurofilament Degradation In Situ and During Calcium-Activated Proteolysis

The degradation of neurofilament (NF) proteins was examined by immunoblot methods to identify, characterize, and monitor the appearance of immunoreactive breakdown products during the loss of NF triplet proteins. Individual NF proteins and their breakdown products were identified using polyclonal and monoclonal antibodies to NF proteins. NF degradation was compared during calcium-activated proteolysis of isolated rat NF, during an experimental influx of calcium into excised rat spinal nerve roots, and during NF breakdown in transected rat peripheral nerve. These different experimental conditions produced similar patterns of NF fragmentation, including the transient appearance of NF immunobands between Mr 150,000-200,000 and 110,000-120,000 as well as the appearance and accumulation of NF immunobands between Mr 45,000 and 65,000. Most immunoreactive NF fragments remained Triton-insoluble. Low levels of the same immunoreactive fragments were present in control neural tissues, suggesting that calcium-activated proteolysis may be operative in the turnover and/or processing of NF proteins in vivo. Very similar patterns of NF degradation during experimental calcium influxes into different CNS and PNS tissues are indicative of the widespread distribution of calcium-activated NF protease in neural tissues.     

Chemical and structural changes of neurofilaments in transected rat sciatic nerve

The sequence of changes occurring in transected rat sciatic nerve was examined by electron microscopy and by sodium dodecyl sulfate (SDS) polyacrylamide disc gel electrophoresis. Representative segments of transected nerves were processed for ultrastructural examinations between 0 and 34 days after the transection of sciatic nerves immediately below the sacro-sciatic notch. The remainder of the transected nerves and the intact portions of sciatic nerves were desheathed and immediately homogenized in 1 percent SDS containing 8 M urea and 50 mM dithioerythritol. Solubilized proteins were analyzed on 12 percent gels at pH 8.3 in a discontinuous electrophoretic system. Initial changes were limited to the axons of transected nerve fibers and were characterized by the loss of microtubules and neurofilaments and their replacement by an amorphous floccular material. These changes became widespread between 24 and 48 h after transection. The disruption of neurofilaments during this interval occurred in parallel with a selective loss of 69,000, 150,000 and 200,000 mol wt proteins from nerve homogenates, thus corroborating the view that these proteins represent component subunits of mammalian neurofilaments. Furthermore, the selective changes of neurofilament proteins in transected nerves indicate their inherent lability and suggest their susceptibility to calcium-mediated alterations. Electrophoretic profiles of nerve proteins during the 4-34-day interval after nerve transection reflected the breakdown and removal of myelin, the proliferation of Schwann cells and the deposition of endoneurial collagen. A marked increase of intermediate-sized filaments within proliferating Schwann cell processes was not accompanied by the appearance of neurofilamentlike proteins in gels of nerve homogenates.     

Cross-Reaction of Anti-Rat B-50: Characterization and Isolation of a "B-50 Phosphoprotein" from Bovine Brain

Abstract: Antibodies to the phosphoprotein B-50 of rat brain were used to trace cross-reacting brain proteins of vertebrates. With the SDS-gel-immunoperoxidase method, a cross-reacting protein (CP) of apparent M_r 53,000 was demonstrated in the homogenate and the synaptic plasma membrane fraction of bovine brain. Sequence 1–24 of adrenocorticotropin (ACTH_1-24) (10⁻⁵ M and 10⁻⁴ M ) inhibited endogenous phosphorylation of CP in synaptic plasma membranes. The protein was partially characterized and purified to homogeneity from bovine brain by procedures previously described for rat B-50. CP was enriched in ammonium sulfate precipitated protein (ASP) fractions and phosphorylated by an endogenous protein kinase. Two-dimensional gel analysis of bovine and rat ASP showed that the cross-reacting protein had an isoelectric point less acidic than B-50. Limited proteolysis by Staphylococcus aureus protease yielded a "peptide map" analogous to B-50. Two major fragments of M_r 30,000 and 17,000 were produced. In addition, CP exhibited other similarities to rat B-50: phosphorylation by rat brain protein kinase C, microheterogeneity observed after isoelectric focusing, and possibly degradation by endogenous proteolysis. Cross-reaction of proteins in brain homogenates of other mammalian species and of chicken was demonstrated: the M_r of the proteins ranged from 47,000 to 53,000. We conclude that (1) the cross-reacting bovine protein is a "B-50 protein," and (2) the M _r of the "B-50 protein" varies from species to species.     

Characterisation and Molecular Identification of Adrenomedullin Binding Sites in the Rat Spinal Cord: A Comparison with Calcitonin Gene-Related Peptide Receptors

Abstract: Calcitonin gene-related peptide (CGRP) and its receptors are found in mammalian spinal cord. We show, for the first time, binding sites for the novel related peptide adrenomedullin in rat spinal cord microsomes. ¹²⁵I-Adrenomedullin binding showed high affinity ( K _D = 0.45 ± 0.06 n M ) and sites were abundant ( B _max = 723 ± 71 fmol/mg of protein). CGRP, amylin, and calcitonin did not compete at these sites ( K _i > 10 µ M ). High-affinity CGRP binding sites ( K _D = 0.18 ± 0.01 n M ) were much less numerous ( B _max = 17.7 ± 2.4 fmol/mg of protein) and showed competition by unlabeled adrenomedullin ( K _i = 34.6 ± 2.4 n M ). Chemical cross-linking revealed a major band for ¹²⁵I-adrenomedullin of M_r = 84,400 ± 1,200 and a minor band of M_r = 122,000 ± 8,700. ¹²⁵I-CGRP cross-linking showed bands of lower molecular weight (M_r = 74,500 ± 5,000 and 61,000 ± 2,200). Enzymic deglycosylation of the adrenomedullin binding site showed a considerable carbohydrate content. Neither adrenomedullin nor CGRP was able to increase cyclic AMP in spinal cord. Adrenomedullin mRNA was present in spinal cord, at one-third of its level in lung, and adrenomedullin immunoreactivity was present, at a low concentration (40 fmol/g of tissue). Thus, the presence of abundant binding sites and adrenomedullin mRNA and immunoreactivity anticipate an as yet undefined function for this peptide in spinal cord.     

ADP-Ribosylation of Membrane Proteins in Cholinergic Nerve Terminals

Abstract: Lysed Torpedo synaptosomes or washed synaptosomal membranes were incubated with [³²P]NAD⁺ and subjected to electrophoresis on SDS-polyacrylamide gels. More than eight membrane proteins were ADP-ribosylated. The most intensely labeled proteins were those of M_r= 62,000 and 82,000. Radiolabeling was more intense in synaptosomes than in other subcel-lular fractions. Cholera toxin caused ribosylation of additional synaptosomal proteins with M_r= 42,000 and (in some preparations) 49,000. Neither endogenous nor cholera toxin-catalyzed ADP-ribosylation required added guanyl nu-cleotides. Cholera toxin increased the adenylate cyclase activity of synaptosomal membranes, suggesting that the cholera toxin substrates are regulatory components of adenylate cyclase in these synaptosomes.     

Dopamine D1 Agonist SKF 38393 Increases the State of Phosphorylation of ARPP-21 in Substantia Nigra

Abstract: ARPP-21 is a cyclic AMP-regulated phosphoprotein (M_r= 21,000) that has a distribution in brain similar to that of DARPP-32 (dopamine- and cyclic AMP-regulated phosphoprotein, M_r= 32,000). It is enriched in the medium-sized spiny neurons in the striatum and in the striatonigral nerve terminals in the pars reticulata of the substantia nigra. The present study shows that dopamine D₁ agonist SKF 38393 increases the state of phosphorylation of ARPP-21 by 26% in nigral slices and that pretreatment of the slices with D₁ antagonist SCH 23390 blocks this effect. These results demonstrate that ARPP-21 is a dopamine-regulated phosphoprotein. Because D₁ receptors are localized on nerve terminals of striatonigral pathway, the phosphorylation of ARPP-21 is likely to mediate some of the intracellular effects of dopamine on these terminals.     

Characterization of Nervana, a Drosophila melanogaster Neuron-Specific Glycoprotein Antigen Recognized by Anti-Horseradish Peroxidase Antibodies

Abstract: Antibodies to the plant glycoprotein horseradish peroxidase (HRP) are used extensively to identify neurons in Drosophila and other insects. We are interested in characterizing the gene product(s) recognized by anti-HRP antibodies because it may be important for nervous system function and/or development. Here we identify and purify from adult Drosophila heads an anti-HRP-reactive M_r 42K glycoprotein that is likely to be the major contributor to neuronal specific anti-HRP staining. Several different monoclonal antibodies to the purified 42K glycoprotein recognize up to three proteins with distinct mobilities between M_r 38K and 42K that vary as a function of developmental age. We have collectively named these components Nervana (nerve antigen), because the monoclonal antibodies also specifically stain cultured neurons and embryonic nervous system with a pattern indistinguishable from anti-HRP staining. Western blots indicate the presence of immunologically similar proteins in a wide variety of insect species and in nac (neurally altered carbohydrate) mutant Drosophila flies that lack anti-HRP staining in adult nervous system. It should now be possible to undertake a full biochemical and functional characterization of Nervana in Drosophila .     

L-Asparaginase activity in Leptosphaeria michotii. Isolation and properties of two forms of the enzyme

The properties of L-asparaginase (EC 3.5.1.1) in Leptosphaeria michotii (West) Sacc., which has previously been shown to have an activity rhythm, were analyzed. Two forms of L-asparaginase were isolated from acetic acid and ammonium sulfate fractionations followed by DEAE-Sephacel chromatography. The activity of L-asparaginase changed rhythmically with the same period as that of crude extracts, but the rhythms of the two enzyme forms were out of phase. The two asparaginase forms differed in their isoelectric points and the substrate concentrations for attaining half-maximal velocity; non-Michaelis-Menten kinetics for hydrolysis of L-asparagine were observed. Analyses of asparaginase form II by polyacrylamide gel electrophoresis showed that four proteins, irrespective of the phase of the activity rhythm at which the enzyme was extracted, could be detected: asparaginase oligomer (M_r 130 000 to 140 000), its dimer, an aggregate (M_r 500 000 to 600 000) having a low asparaginase activity, and a protein (M_r 60 000) without asparaginase activity; the same proteins were found in asparaginase form I. These results indicate that L. michotii asparaginase could be implicated in a protein complex.     

PROTEIN COMPOSITION OF MYELIN OF THE PERIPHERAL NERVOUS SYSTEM

Abstract— Myelin was purified from the peripheral nervous system (PNS) of several species. The protein composition of these preparations was examined by discontinuous polyacrylamide gel electrophoresis in buffers containing sodium lauryl sulphate. Proteins characteristic of all samples include, in order of increasing mobility: a series of high molecular weight proteins, the major peripheral nerve protein (P₀), two uncharacterized proteins, and two basic proteins (P₁ and P₂). Quantitative results, obtained by densitometry of gels stained with Fast Green showed differences in protein distribution, both between species, and from different types of nerves obtained from the same animal. The relative amounts of P₁ and P₂ proteins were the most variable; e.g. myelin from guinea-pig sciatic nerve had little or no P₂ protein, whereas 15 per cent of the myelin protein of beef posterior intradural root was Pz protein. P₀, P₁ and P₂ proteins from rabbit sciatic nerve and P₀ and P₂ proteins from beef dorsal and ventral intradural roots were purified and their amino acid compositions were determined. Our results indicated that the P₁ protein is very similar in size and amino acid composition to the basic protein of central nervous system myelin, whereas the P₀ and P₂ proteins are unique to the PNS.     

Modification of matrix polysaccharides during avocado (Persea americana) fruit ripening: an assessment of the role of Cx-cellulase

The role of C_x-cellulase (EC 3.2.1.4) in fruit ripening and softening is unknown. In the present study, avocado ( Persea americana ) fruit, a rich source of C_x-cellulase, were examined to determine if the enzyme plays a role in ripening-related hemicellulose metabolism. Hemicelluloses (4 M alkali-soluble) from avocado fruit exhibited a very broad distribution of polymer sizes and an overall decrease in M_r during ripening. Polymers affected were primarily those of large M_r (relative molecular mass). The characteristic total hemicellulose M_r distribution and changes with ripening were also evident for xyloglucan (XG), a putative substrate for avocado C_x-cellulase. Hydrolytic activity toward hemicelluloses from preripe fruit was detected in crude buffer-soluble protein extracts derived from ripe avocado mesocarp tissue. XG was also degraded, and in a pattern similar to that observed during ripening. Purified C_x-cellulase also exhibited activity against specific components of isolated hemicelluloses; however, in contrast to the crude protein. C_x-cellulase alone was without influence on the M_r distribution of avocado XG. Protein depleted of C_x-cellulase was capable of moderate XG depolymerization. We conclude from the present studies that the enzyme C_x-cellulase is not involved in the ripening-related depolymerization of XG in avocado fruit.     

Neurofilament-like and glial fibrillary acidic protein-like immunoreactivities in rat and guinea-pig sympathetic ganglia in situ and after perturbation

Summary The presence of neurofilament (NF)-like and glial fibrillary acidic protein (GFAP)-like immunoreactivities was studied in sympathetic ganglia of adult rats and guinea pigs during normal conditions and after perturbation. In the superior cervical ganglion (SCG) of normal rats, many ganglion cells and nerve fibers show NF immunoreactivity. Some of these nerve fibers disappear after preganglionic decentralization of SCG; this indicates the presence of a mixture of preand postganglionic NF-positive nerves in the ganglion. Cuts in both preand postganglionic nerves result in a marked increase in GFAP immunoreactivity in SCG, whereas NF immunoreactivity increases in nerve cell bodies after preganglionic cuts. Only a few ganglion cells show NF immunoreactivity in the normal SCG of guinea pig. All intraganglionic NF-positive nerves are of preganglionic origin; decentralization abolishes NF immunoreactivity in these nerve fibers. The inferior mesenteric ganglion, the hypogastric nerves and colonic nerves in guinea pigs contain large numbers of strongly NF-immunoreactive nerve fibers.When the SCG of adult rat is grafted to the anterior eye chamber of adult rat recipients, both ganglionic cell bodies and nerve fibers, forming on the host iris from the grafted ganglion, are NF-positive. As only the perikarya of these neurons normally exhibit NF immunoreactivity, and the terminal iris arborizations are NF-negative, it appears that the grafting procedure causes NF immunoreactivity to become more widespread in growing SCG neurons.     

Stage-specific polypeptide and villin expression during thyroid-hormone-induced substitution of the amphibian intestinal epithelium

Abstract. Treatment of anuran tadpoles with 5 n M 3,3',5-triiodo- l -thyronine (T₃) results in the complete substitution of the intestinal epithelium. We have examined the developmental pattern of protein synthesis in Alytes obstetricans intestinal epithelium using two-dimensional gel electrophoresis. Four different types of changes have been observed. The group I polypeptides (M_r:41 500; 44 500; 51 500; 55000 and 101000) are only synthesized during the first week of hormonal treatment. They are specific of the primary (larval) epithelium. On the other hand, polypeptides referred to as Group II (M_r: 47000; 48000; 58000; 66500, pl 5.2; 99500 and 102000) are not detected until day 8. They are characteristic of the secondary tissue. Polypeptides of Group III (M_r: 42000, pl 5.15 and 5.25; 42500, 47500, pl 5.25 and 5.55) expressed between the 6th and 8th day of T₃ treatment, are specific of growing stem cells. During this critical period, Group IV polypeptides (M_r: 63500; 66500, pl 6.35; 105000, pl 5.5 and 5.55) are not synthesized. The protein of M_r 105000 (pI 5.5 and 5.55) is immunologically related to villin, a core protein of intestinal microvilli. Expression of this protein has been analyzed by immunoreplica and immunocytochemical procedures during differentiation of basal stem cells into secondary absorptive epithelial cells. The results have been compared to that obtained during spontaneous metamorphosis [19].     

Phosphorylation and Fucosylation of Myelin Protein In Vitro by Sciatic Nerve from Developing Rats

Abstract: Proteins of the paniculate fraction of sciatic nerve of rats ranging from 1 to 55 days of age were analyzed by polyacrylamide gel electrophoresis. The major myelin protein, P₀, could not be detected at 1 day of age, but by 10 days it comprised from 15 to 20% of the particulate protein, the same proportion as in adult rats. Growth of nerve continued throughout the period studied. Rat sciatic nerves were incubated with [³²P]orthophosphate or [³H]fucose. Particulate matter proteins from sciatic nerve (and in certain cases proteins of myelin purified from sciatic nerve) were separated by polyacrylamide disc gel electrophoresis and the distribution of protein and of radioactivity along the gels was determined. [³²P]Phosphate appeared to label all myelin proteins. Labeling with fucose was more specific; myelin basic proteins were not fucosylated. A developmental study showed that sciatic nerves from 2-day-old rats could incorporate radioactive fucose and [³²P]-phosphate into several proteins at the P₀ region of polyacrylamide gels. Specific radioactivity of [³H]fucose in P₀ protein was highest in preparations from 5-day-old rats and declined by 80% over the next 5 days as it was diluted by accumulating myelin. The specific radioactivity of incorporated [³²P] phosphate was high at the early age points and declined as a result of the accumulation of compact myelin. The results indicate an association of fucosylation and/or phosphorylation with some step in the formation of myelin.     

Purification and Substrate Specificity of Two Cysteine Proteinases of Giardia lamblia

The proteinase activity present in homogenates of trophozoites of Giardia lamblia , active on azocasein and urea-denaturated hemoglobin, was separated into two different enzymes by a series of purification procedures. These procedures included gel filtration on Fractogel TSK HW-55 (F), organomercurial agarose affinity chromatography, and ion exchange chromatography on DEAE-cellulose. By chromatography on Sephadex G-100, two purified enzymes exhibited relative molecular weights of M_r= 95,000 and 35,000 ± 10%, respectively. On the basis of inhibition by thiol reagents and abrogation of this effect by dithiothreitol and cysteine, they were identified as cysteine proteinases. Proteinase I (M_r= 95,000) and proteinase II (M_r= 35,000) were active against the β-chain of insulin releasing characteristic fragments. However, differences in substrate specificities of the two enzymes could be observed by using synthetic peptides that represent sequences 1–6, 8–18, and 20–30 of the insulin β-chain. Furthermore, the synthetic tetrapeptides Arg-Gly-Phe-Phe, Arg-Gly-Leu-Hyp, and Arg-Arg-Phe-Phe were hydrolyzed by the two proteinases releasing Phe-Phe and Leu-Hyp, respectively. Compared with Arg-Gly-Phe-Phe, the rates of hydrolysis of Arg-Gly-Leu-Hyp and Arg-Arg-Phe-Phe at substrate concentrations of 1 mM were 91% and 63% (proteinase I) and 80% and 57% (proteinase II), respectively.     

Plasmodesmata between sieve element and companion cell of extrafascicular stem phloem of Cucurbita maxima permit passage of 3 kDa fluorescent probes

Fluorescent probes of differing M_r were introduced into the sieve element—companion cell (SE-CC) complexes of the extrafascicular stem phloem of Cucurbita maxima by either immersing the cut ends of internode segments in aldehyde-fixable probes, or directly by micro-injection. In both cases probes of up to M_r 3000 (3 kDa) were able to move freely along the extrafascicular SE and, more significantly, between SE and CC. No movement occurred out of the SE-CC complex. In the case of the fascicular phloem, occlusion of the sieve plates was ineffectual at impeding the longitudinal movement of low molecular mass probes such as Lucifer Yellow CH (LYCH), but was effective at preventing the movement of probes of M_r 3000 or greater. The results show that the molecular exclusion limit of plasmodesmata can be considerably in excess of M_r 800 and provide direct evidence for the long-held suspicion that the plasmodesmata which connect the CC with the enucleate SE have a special permeability to allow the intercellular passage of macromolecules essential for the maintenance of the SE.     

Micropurification of Two Human Cerebrospinal Fluid Proteins by High Performance Electrophoresis Chromatography

Abstract: Using C8 reversed-phase HPLC in conjunction with sodium dodecyl sulfate-polyacrylamide gel electrophoresis, we have fractionated proteins contained in human CSFs obtained from patients with schizophrenic disorders. When these proteins were electrophoretically blotted onto polyvinylidene difluoride membrane for direct N-terminal amino acid sequencing, several CSF proteins were identified; these included albumin, transferrin, apolipoprotein A-l, β₂-microglobulin, and prealbumin. We have also identified two structurally related human CSF proteins designated cerebrin 28 (M_r 28,000) and cerebrin 30 (M_r 30,000) that have an N-terminal amino acid sequence of NH₂-APPAQVSVQPNF and NH₂-APEAQVSVQPLFXQ, respectively. Comparison of these sequences with existing database at Protein Identification Resource (R 32.0), GenBank (R 72.0), SWISS-PROT (R 22.0), and EMBL (R 31.0) indicated that they are unique proteins. These proteins were subsequently purified by high performance electrophoresis Chromatography (HPEC) using an Applied Biosystems 230A HPEC system. A specific polyclonal antibody was prepared and an ELISA was established for cerebrin 30. It was noted that HPEC is a powerful tool to purify microgram quantities of proteins from human, rabbit, and rat CSFs. Using such a system, we have been able to micropurify as many as 10 proteins simultaneously in a single experiment because the elution of proteins occurred strictly according to their molecular weights. More importantly, we routinely obtained a recovery of >90%. The potential use of this technology for micropurification of proteins was discussed.     

Characterization of the pColV-K30 encoded cloacin DF13/aerobactin outer membrane receptor protein of Escherichia coli; isolation and purification of the protein and analysis of its nucleotide sequence and primary structure

Abstract The cloacin DF13/aerobactin receptor protein from Escherichia coli (pFS8) and from Klebsiella edwardsii were isolated by repeated Triton X-100 extractions and purified by affinity chromatography. Both receptor proteins ran as a single protein band on SDS-PAGE. Their apparent M_r values were 74 000 and 76 000, respectively. The binding constants of the purified receptor proteins from E. coli (pFS8) and K. edwardsii and cloacin DF13 were determined. Values of 2.0 × 10⁸ M⁻¹ and 1.0 × 10⁹ M⁻¹, respectively, were found.
The nucleotide sequence of the pColV-K30 gene, contained on pFS8 and encoding the cloacin DF13/aerobactin receptor protein, was determined and the primary structure of the protein as well as its secondary structure were deduced. The results revealed that the pColV-K30-specified receptor protein might be synthesized as a precursor, with a signal sequence of 25 amino acid residues. The mature protein has an M_r of 77 345.     

Multiple forms of phosphoenolpyruvate carboxylase in mesophyll, epidermal and guard cells of Vicia faba

The distribution of phosphoenolpyruvate carboxylase (PEPCase, EC 4.1.1.31) in different leaf‐cell‐types and tissues of Vicia faba L. cv. 3‐fach Weiße was studied. The highest specific PEPCase activity was found in guard cell protoplasts (16.3 µmol mg⁻¹ protein h⁻¹) whereas for epidermal and mesophyll protoplasts remarkably lower specific activities were found (1.6 and 1.0 µmol mg⁻¹ protein h⁻¹, respectively). On chlorophyll and protoplast basis, a similar distribution of enzyme activity was observed. Compared with epidermal extracts, the specific PEPCase activity of mesophyll tissue was 17‐fold lower. Immunological studies with polyclonal antibodies to PEPCase indicated 3 immunoreactive proteins in epidermal tissue and guard cell protoplasts with molecular masses of 107 000, 110 000, and 112 000. Only the M_r 107 000 protein was found in extracts of mesophyll and epidermis protoplasts. Western immunoblots after native electrophoresis of epidermal and mesophyll proteins showed a significant difference in PEPCase mobility. It is assumed, that the immunostained proteins of M_r 110 000 and 112 000 represent isoforms or subunits of the PEPCase and that they are involved in stomatal movements.     

Biochemical identification of the bovine blood group M' antigen as a major histocompatibility complex class I-like molecule

Absorption and elution experiments showed that it was impossible to separate antibodies against blood group factor M' from antibodies against bovine lymphocyte antigen (BoLA) A16 in an antiserum showing haemolytic activity against M' as well as lymphocytotoxic activity against BoLA-A16. To elucidate the structural relationship between BoLA-A16 and blood group antigen M', immunoprecipitation experiments on red and white cell lysates isolated from M'-A16 positive and negative cattle were carried out. These results showed that M_r 44 000 and M_r 12000 polypeptides can be precipitated from both red and white cells isolated from M'-A16 positive animals, whereas no bands were seen in M'-A16 negative animals in precipitations with the same antibody. Precipitation with a crossreacting human β₂-microglobulin (β₂-m) specific antibody confirmed a class-I-like structure associated with β₂-m on M' positive red cells and the absence of such a structure on M' negative red cells. Sequential precipitations gave analogous results. Proteolytic degradation by papain and V8 protease did not reveal any substantial difference between red and white M'-A16 positive cells, but a slight difference in the pI of the immunoprecipitable components of red and white cells was observed. All together, this indicates that either the blood group antigen M' is the BoLA-A16 class I antigen or M' and BoLA-A16 are two different class I polypeptides with the same relative mass, sharing identical epitopes and both associated with β₂-m. Comparable results were obtained with M₁ and BoLA-A24.     

Effect of Oral Administration of Tri-o-cresyl Phosphate on In Vitro Phosphorylation of Membrane and Cytosolic Proteins from Chicken Brain

Abstract: The effects of a single oral dose of 750 mg/kg tri- o -cresyl phosphate (TOCP) on the endogenous phosphorylation of specific brain proteins were assessed in male adult chickens following the development of delayed neurotoxicity. Phosphorylation of crude synaptosomal (P₂) membrane and synaptosomal cytosolic proteins was assayed in vitro by using [γ-³²P]ATP as phosphate donor. Following resolution of brain proteins by sodium dodecyl sulfate polyacrylamide gel electrophoresis, specific protein phosphorylation was detected by autoradiography and quantified by microdensitometry. TOCP administration enhanced the phosphorylation of both cytosolic (M_r 65,000 and 55,000) and membrane (20,000) proteins by as much as 146% and 200%, respectively.