Porcine characterization

Biosynthesis. Somatostatin exists in longer forms in several biological tissues (95,96). One of the longer forms, which has been isolated from porcine intestine, has been characterized as a 28-amino acid peptide (97). Somatostatin is derived from a precursor containing 116 amino acids (98,99). The precursor contains one copy of the somatostatin tetradecapeptide, which is contained within the sequence of the 28-amino acid peptide at the carboxy-terminal end of the precursor. The 28-amino acid somatostatin is preceded by a single Arg residue, while somatostatin 1-14 is preceded by a pair of basic residues. [Pg.203]

Ueda N, Kurahashi Y, Yamamoto S, Tokunaga T. Partial purification and characterization of the porcine brain enzyme hydrolyzing and synthesizing anandamide. J Biol Chem 1995 270 23823-23827. [Pg.135]

Buhi WC, Alvarez IM, Choi I, Cleaver BD, Simmen FA 1996 Molecular cloning and characterization of an estrogen-dependent porcine oviductal secretory glycoprotein. Biol Reprod 55 1305-1314... [Pg.192]

The parasitic nematode, Ascaris suum, undergoes a number of well-characterized metabolic transitions during its development (Table 14.1), but little is known about the regulation of these events (Barrett, 1976 Komuniecki and Komuniecki, 1995). Adults reside in the porcine small intestine and fertilization takes place under low oxygen tensions. The unembryonated egg that leaves the host is metabolically quiescent, has no detectable cytochrome oxidase activity or ubiquinone and appears to be transcriptionally inactive (Cleavinger et al., 1989 Takamiya et al., 1993). Embryonation requires oxygen and after about 48-72 h is accompanied by... [Pg.277]

Roche, T.E. and Cate, R.L. (1977) Purification of porcine liver pyruvate dehydrogenase complex and characterization of its catalytic and regulatory properties. Archives of Biochemistry and Biophysics 183, 664-677. [Pg.290]

M.L. Salin and W.W. Wilson, Porcine superoxide dismutase. Isolation and characterization of a relatively basic cuprozinc enzyme. Molec. Cell Biochem. 36, 157-161 (1981). [Pg.206]

Zinc deficiency in domestic pig (Sus spp.) is associated with a condition known as porcine parakeratosis, characterized by dermatitis, diarrhea, vomiting, anorexia, severe weight loss, and eventually death. The condition is exacerbated by high calcium levels (Vallee 1959). [Pg.682]

Facklam, M. and Bowery, N. G. (1993) Solubilization and characterization of GABAb receptor binding sites from porcine brain synaptic membranes. Br. J. Pharmacol. 110, 1291-1296. [Pg.140]

Tontsch U, Bauer HC (1989) Isolation, characterization and long-term cultivation of porcine and murine capillary endothelial cells. Microvasc Res 37 148-161... [Pg.415]

Fischer D, Kissel T (2001) Histochemical characterization of primary capillary endothehal cells from porcine brains using monoclonal antibodies and fluorescein isothiocyanate-labelled lectins Implications for drug delivery. Europ J Pharm Biopharm 52 1-11... [Pg.416]

R. Verger, Purification and Characterization of a Porcine Liver Microsomal Triacyl-glycerol Hydrolase , Biochemistry 1997, 36, 1861-1868. [Pg.63]

B. Vincent, J. P. Vincent, F. Checler, Purification and Characterization of Human En-dopeptidase 3.4.24.16. Comparison with the Porcine Counterpart Indicates a Unique Cleavage Site on Neurotensin , Brain Res. 1996, 709, 51-58. [Pg.377]

Examples of characterization testing of CHO MCB include sterility, mycoplasma, identity, retrovirus, adventitious agents, and bovine and porcine virus. [Pg.343]

S. Koljenovic, T.C.B. Schut, R. Wolthuis, et al., Raman spectroscopic characterization of porcine brain tissue using a single fiber-optic probe. Anal. Chem., 79, 557-564 (2007). [Pg.236]

CC Griffin, RJ Linhardt, CL Van Gorp, T Toida, RE Hileman, RL Schubert, SE Brown. Isolation and characterization of heparan sulfate from crude porcine intestinal mucosal peptidoglycan heparin. Carbohydr Res 276 183-197, 1995. [Pg.307]

Rehfeld JF Cholecystokinin expression in the central nervous system. Eur Neuropsychopharmacol 2(3) 189-191, 1992b Rehfeld JF The molecular nature of cholecystokinin in plasma—an in vivo immunosorption study in rabbits. Scand J Gastroenterol 29 110-121, 1994 Rehfeld JF, Hansen HF Characterization of preprocholecystokinin products in the porcine cerebral cortex evidence of different processing pathways. J Biol Chem 261 5832-5840, 1986... [Pg.729]

Clancy, R. M., Miyazaki, Y., and Cannon, P. J. (1990). Use of thionitrobenzoic acid to characterize the stability of nitric oxide in aqueous solutions and in porcine aortic endothelial cell suspensions. Anal. Biochem. 191, 138-143. [Pg.332]

Higashi, K. Fukunaga, K. Matsui, K. Maeyama, M. Miyamoto, E. Purification and characterization of myosin light-chain kinase from porcine myometrium and its phosphorylation and modulation by cyclic AMP-dependent protein kinase. Biochim. Biophys. Acta, 747, 232-240 (1983)... [Pg.46]

Itakura, T. Watanabe, K. Shiokawa, H. Kubo, S. Purification and characterization of acidic adenylate kinase in porcine heart. Eur. J. Biochem., 82, 431-437 (1978)... [Pg.512]

Hasback, P., Sams, A., Schifter, S., Longmore, J., Edvinsson, L. CGRP receptor mediating CGRP-, adrenomedullin- and amylin-induced relaxation in porcine coronary arteries. Characterization with CompoundV (W09811128), a non-peptide antagonist, Br. J. Pharmacol. 2001, 133, 1405-1413. [Pg.553]

Schworer H, Reimann A, Ramadori G, Racke K (1994) Characterization of histamine H3 receptors inhibiting 5-HT release from porcine enterochromaffin cells further evidence for H3 receptor heterogeneity. Naunyn-Schmiedeberg s Arch... [Pg.24]

Reeder, L., DeFilippi, V.J., Ferguson, M.K., 1996. Characterization of the effects of histamine on porcine tracheobronchial lymph vessels. Am. J. Physiol. 271, H2501-H2507. [Pg.109]

Sandberg, L. B., Weissman, N., and Smith, D. W. The purification and partial characterization of a soluble elastin-like protein from copper-deficient porcine aorta. Biochemistry 8, 2940-2945 (1969). [Pg.108]

Luzardo-Alvarez, A., et al. 1998. Iontophoretic permselectivity of mammalian skin Characterization of hairless mouse and porcine membrane models. Pharm Res 15 (7) 984. [Pg.300]

R. L. Katzman and E. H. Eylar, The isolation and characterization of a trisaccharide from porcine submaxillary glycoproteins, Biochem. Biophys. Res. Commun., 23 (1966) 769-774. [Pg.139]

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