Thermo-Reversible Cellulose Micro Phase-Separation in Mixtures of Methyltributylphosphonium Acetate and γ-Valerolactone or DMSO.

We have identified cellulose solvents, comprised of binary mixtures of molecular solvents and ionic liquids that rapidly dissolve cellulose to high concentration and show upper-critical solution temperature (UCST)-like thermodynamic behaviour - upon cooling and micro phase-separation to roughly spherical microparticle particle-gel mixtures. This is a result of an entropy-dominant process, controllable by changing temperature, with an overall exothermic regeneration step. However, the initial dissolution of cellulose in this system, from the majority cellulose I allomorph upon increasing temperature, is also exothermic.

Prevalence and genotypes of Giardia duodenalis in dairy and beef cattle in farms around Charlottetown, Prince Edward Island, Canada.

Prevalence of Giardia duodenalis in dairy and beef cattle on farms around Charlottetown, Prince Edward Island (Canada) was determined by analyzing feces using direct immunofluorescence antibody microscopy. Genotypes were determined by 16S-rRNA sequencing. Fecal samples (n = 892) were collected from adult cattle in dairy tie-stall, dairy free-stall, and beef herds (10 herds each), and from calves (n = 183) from 11 dairy farms.

Cloning of two thyrotropin-releasing hormone receptor subtypes from a lower vertebrate (Catostomus commersoni): functional expression, gene structure, and evolution.

A PCR approach was used to clone thyrotropin-releasing hormone receptors (TRH-R) from the brain and anterior pituitary of the teleost Catostomus commersoni (cc), the white sucker. Two distinct TRH-R, designated ccTRH-R1 and ccTRH-R2, were identified. ccTRH-R1 was similar to mammalian TRH-R of the subtype 1, whereas ccTRH-R2 exhibited the highest identity (61% at the amino acid level) with the recently discovered rat TRH-R2.

Proteinase-activated receptors (PARs): activation of PAR1 and PAR2 by a proteolytic fragment of the neuronal growth associated protein B-50/GAP-43.

The neuronal growth associated protein B-50/GAP-43 has been localized in synaptosomes both as an intact protein and as a partial proteolysis product (termed B-60) that has an N-terminal sequence SFRGHITR...

Evidence for nitric oxide and nitric oxide synthase activity in proximal stumps of transected peripheral nerves.

Nitric oxide may be liberated as an inflammatory mediator within injured peripheral nerve trunks. We evaluated the proximal stumps of injured peripheral nerve stumps that later form neuromas or regenerative nerve sprouts, for evidence of local nitric oxide elaboration and activity. Proximal stumps were created in male Sprague-Dawley rats by sectioning of the sciatic nerve and resection of its distal portions and branches.

Opioid receptors from a lower vertebrate (Catostomus commersoni): sequence, pharmacology, coupling to a G-protein-gated inward-rectifying potassium channel (GIRK1), and evolution.

The molecular evolution of the opioid receptor family has been studied by isolating cDNAs that encode six distinct opioid receptor-like proteins from a lower vertebrate, the teleost fish Catostomus commersoni. One of these, which has been obtained in full-length form, encodes a 383-amino acid protein that exhibits greatest sequence similarity to mammalian mu-opioid receptors; the corresponding gene is expressed predominantly in brain and pituitary. Transfection of the teleost cDNA into HEK 293 cells resulted in the appearance of a receptor having high affinity for the mu-selective agonist [D-Ala2, MePhe4-Gly-ol5]enkephalin (DAMGO) (Kd = 0.

Identification of classical, novel, and atypical protein kinase C isoenzymes in the bovine parathyroid.

Because phospholipid metabolism leading to the activation of protein kinase C (PKC) may play a key regulatory role in the degradation and secretion of PTH, we examined parathyroid cell fractions for the presence of various PKC isoenzymes. Hydroxylapatite chromatography identified the classical PKCs, alpha and beta, but not gamma in parathyroid cell extracts. Western blot analysis confirmed the presence of PKC alpha and beta in these extracts.

Mutational analysis and molecular modeling of the nonapeptide hormone binding domains of the [Arg8]vasotocin receptor.

To identify determinants that form nonapeptide hormone binding domains of the white sucker Catostomus commersoni [Arg8]vasotocin receptor, chimeric constructs encoding parts of the vasotocin receptor and parts of the isotocin receptor have been analyzed by [(3,5-3H)Tyr2, Arg8]vasotocin binding to membranes of human embryonic kidney cells previously transfected with the different cDNA constructs and by functional expression studies in Xenopus laevis oocytes injected with mutant cRNAs. The results indicate that the N terminus and a region spanning the second extracellular loop and its flanking transmembrane segments, which contains a number of amino acid residues that are conserved throughout the nonapeptide receptor family, contribute to the affinity of the receptor for its ligand. Nonapeptide selectivity, however, is mainly defined by transmembrane region VI and the third extracellular loop.

Teleost isotocin receptor: structure, functional expression, mRNA distribution and phylogeny.

A cDNA encoding a receptor for the oxytocin-related peptide isotocin has been identified by screening a lambda gt11 library constructed from poly(A)+ RNA of the hypothalamic region of the teleost Catostomus commersoni. The probe used was obtained by PCR amplification of white sucker genomic DNA using degenerate primers based on conserved sequences in the mammalian receptor counterparts. The full-length cDNA specifies a polypeptide of 390 amino acid residues that displays the typical hydrophobicity profile of a seven transmembrane domain receptor and which exhibits greatest similarity to mammalian oxytocin receptors.

Evidence for multisite ADP-ribosylation of neuronal phosphoprotein B-50/GAP-43.

The neuronal phosphoprotein B-50/GAP-43 is associated with neuronal growth and regeneration and is involved in the calcium/CaM and G(o) signal transduction systems. In particular, B-50 interacts uniquely with CaM by binding in the absence of Ca2+. Previously identified as a major neuronal substrate for protein kinase C, which releases CaM via phosphorylation, B-50 has more recently been shown to be a substrate for endogenous ADP-ribosyltransferases.

The dental amalgam mercury controversy--inorganic mercury and the CNS; genetic linkage of mercury and antibiotic resistances in intestinal bacteria.

Mercury (Hg) vapor exposure from dental amalgam has been demonstrated to exceed the sum of all other exposure sources. Therefore the effects of inorganic Hg exposure upon cell function in the brain and in the intestinal bacteria have recently been examined. In rats we demonstrate that ADP-ribosylation of tubulin and actin brain proteins is markedly inhibited, and that ionic Hg can thus alter a neurochemical reaction involved with maintaining neuron membrane structure.

Detergents and peptides alter proteolysis and calmodulin binding of B-50/GAP-43 in vitro.

The neuronal growth-associated protein B-50/GAP-43 is a substrate for protein kinase C, binds to calmodulin in a calcium-independent manner, and in vitro is subject to an endogenous and chymotrypsin-mediated hydrolysis in the vicinity of the single kinase C phosphorylation site. All of these processes can be influenced by corticotrophin (ACTH). In the present study we have investigated whether these biochemical interactions involving B-50 could have common structural determinants.

Radiolabelling of bovine myristoylated alanine-rich protein kinase C substrate (MARCKS) in an ADP-ribosylation reaction.

In an ADP-ribosylation reaction, we have observed the radiolabelling of a protein in a crude bovine brain homogenate, which upon two-dimensional gel electrophoresis migrated with an acidic pI (< 4.5) and an apparent molecular mass (80-90 kDa) consistent with the properties of the myristoylated, alanine-rich, protein kinase C substrate protein termed MARCKS. To establish the identity of this radiolabelled constituent in brain homogenates, we first purified bovine brain MARCKS using calmodulin-Sepharose affinity chromatography and we then supplemented the crude ADP-ribosylation reaction mixture with this purified MARCKS fraction.

ADP-ribosylation of brain neuronal proteins is altered by in vitro and in vivo exposure to inorganic mercury.

ADP-ribosylation is an essential process in the metabolism of brain neuronal proteins, including the regulation of assembly and disassembly of biological polymers. Here, we examine the effect of HgCl2 exposure on the ADP-ribosylation of tubulin and actin, both cytoskeletal proteins also found in neurons, and B-50/43-kDa growth-associated protein (B-50/GAP-43), a neuronal tissue-specific phosphoprotein. In rats we demonstrate, with both in vitro and in vivo experiments, that HgCl2 markedly inhibits the ADP-ribosylation of tubulin and actin.

Monoclonal antibody NM2 recognizes the protein kinase C phosphorylation site in B-50 (GAP-43) and in neurogranin (BICKS).

Mouse monoclonal B-50 antibodies (Mabs) were screened to select a Mab that may interfere with suggested functions of B-50 (GAP-43), such as involvement in neurotransmitter release. Because the Mab NM2 reacted with peptide fragments of rat B-50 containing the unique protein kinase C (PKC) phosphorylation site at serine-41, it was selected and characterized in comparison with another Mab NM6 unreactive with these fragments. NM2, but not NM6, recognized neurogranin (BICKS), another PKC substrate, containing a homologous sequence to rat B-50 (34-52).

Nuclear magnetic resonance studies of the structure of B50/neuromodulin and its interaction with calmodulin.

B50/neuromodulin is a neuronal phosphoprotein that is found in association with the inner membrane of nerve cells. In this work, we have studied the structure of bovine B50 in aqueous solution (pH 7.5) by 1H nuclear magnetic resonance (NMR) spectroscopy and our results indicate that B50 is an unstructured protein under these conditions.

Structure, function, and phylogeny of [Arg8]vasotocin receptors from teleost fish and toad.

[Arg8]Vasotocin (AVT) is considered to be the most primitive known vertebrate neurohypophyseal peptide of the vasopressin/oxytocin hormone family and may thus be ancestral to all the other vertebrate peptide hormones. The molecular evolution of the corresponding receptor family has now been studied by cloning an AVT receptor, consisting of 435 amino acid residues, from the teleost fish, the white sucker Catostomus commersoni. Frog oocytes injected with the AVT receptor-encoding cRNA respond to the application of AVT, but not to its structural and functional counterpart isotocin, by an induction of membrane chloride currents indicating the coupling of the AVT receptor to the inositol phosphate/calcium pathway.

Altered phosphorylation of growth-associated protein B50/GAP-43 in Alzheimer disease with high neurofibrillary tangle density.

The growth-associated phosphoprotein B50/GAP-43, associated with axonal proliferation and regeneration, was isolated from superior temporal gyrus (area 22) of seven control and eight Alzheimer disease (AD) postmortem human brains. Membrane and cytoplasmic proteins were fractionated and B50/GAP-43 was isolated by reverse-phase HPLC and gel electrophoresis. B50/GAP-43 was identified with rabbit polyclonal antibodies 4P3 (generated against the calmodulin binding domain of B50/GAP-43) and 1B5 (generated against whole bovine B50/GAP-43).

Neurogranin, a B-50/GAP-43-immunoreactive C-kinase substrate (BICKS), is ADP-ribosylated.

Neurogranin is a neurone-specific, B-50-immunoreactive C-kinase substrate that has limited homology to, but considerable biochemical similarity to B-50/GAP43. The most significant differences between these two proteins are their cellular localisation and molecular mass (Neurogranin, 7.5 kDA cytosolic; and B-50, 25 kDa membranal).

Developmental study of the expression of B50/GAP-43 in rat retina.

B50/GAP-43 has been implicated in neural plasticity, development, and regeneration. Several studies of axonally transported proteins in the optic nerve have shown that this protein is synthesized by developing and regenerating retinal ganglion cells in mammals, amphibians, and fish. However, previous studies using immunohistochemistry to localize B50/GAP-43 in retina have shown that this protein is found in the inner plexiform layer in adults.

Phosphorylase kinase phosphorylates the calmodulin-binding regulatory regions of neuronal tissue-specific proteins B-50 (GAP-43) and neurogranin.

Neuronal tissue-specific proteins B-50 (GAP-43, neuromodulin) and neurogranin are phosphorylated by phosphorylase kinase with stoichiometries of 0.4 and 0.5 mol of phosphate/mol of protein, respectively.

ADP-ribosylation of the neuronal phosphoprotein B-50/GAP-43.

The neuronal phosphoprotein B-50/GAP-43 is associated with growth and regeneration within the nervous system and its posttranslational status can be correlated with its cellular localization during growth and regeneration. Recently, B-50 has been shown to interact with certain G protein subunits. Regulation of G protein-mediated signal transduction may involve ADP-ribosylation in vivo.

Peptides in the gastrointestinal tract in human immunodeficiency virus infection. The GI/HIV Study Group of the University of Calgary.

The presence of immunoreactivity to the neuronal phosphoprotein B-50 and the peptides bombesin, calcitonin gene-related peptide, galanin, neurotensin, neuropeptide Y, somatostatin, substance P, and vasoactive intestinal polypeptide was examined in biopsy specimens from the duodenum and rectum of human immunodeficiency virus (HIV)-seropositive and HIV-seronegative male homosexual patients. The distribution of B-50 and the peptides was correlated with HIV serology, number of CD4+ lymphocytes, and the presence of HIV in biopsy culture. There was a very low incidence of enteric pathogens in both groups of patients.

B-50 (GAP-43): biochemistry and functional neurochemistry of a neuron-specific phosphoprotein.

The biochemistry and functional neurochemistry of the synaptosomal plasma membrane phosphoprotein B-50 (GAP-43) are reviewed. The protein is putatively involved in seemingly diverse functions within the nervous system, including neuronal development and regeneration, synaptic plasticity, and formation of memory and other higher cognitive behaviors. There is a considerable amount of information concerning the spatial and temporal localization of B-50 (GAP-43) in adult, fetal, and regenerating nervous tissue but far less is known about the physical chemistry and biochemistry of the protein.