Immunoassay for bovine serum thymopoietin: discrimination from splenin by monoclonal antibodies

A polyclonal rabbit anti-bovine thymopoietin antiserum was used to develop a radioimmunoassay and sandwich enzyme-linked immunosorbent (ELISA) assay for the thymic hormone thymopoietin. Both assays showed slightly less sensitivity for the closely related splenic hormone splenin (SP) than thymopoietin (TP) and markedly less sensitivity for the human as compared with the bovine polypeptides. A number of murine monoclonal antibodies specific for bovine thymopoietin were generated; they were unreactive with bovine splenin and were also unreactive with human thymopoietin and splenin. A sandwich ELISA using these monoclonal anti-TP antibodies together with polyclonal rabbit anti-TP was specific for bovine thymopoietin and measured 300-500 ng/ml thymopoietin in bovine serum. Similar approaches are being pursued to develop an immunoassay for thymopoietin in human serum.     

Purification of eukaryotic ribosomes by isopycnic centrifugation in sucrose

A simple and inexpensive procedure for the isolation and purification of ribosomes from eukaryotes is described. The method avoids pelleting of ribosomes at high centrifugal forces and involves isopyenic centrifugation of the post-mitochrondrial supernatant in sucrose, precipitation of ribosomes with 10% polyethylene glycol, and zonal sucrose gradient centrifugation. The ribosomes obtained in this way are very pure and thus especially suited for the measurements of physical properties. The isopycnic centrifugation can also be used for the purification of other macromolecules and is only limited by a maximum density of sucrose of 1.40 g/cm³ obtained at the bottom of the centrifugation tubes.     

A 31P nuclear magnetic resonance and fluorescence study of the interaction of an anti-arthritic gold phosphine drug with albumin. A bioinorganic approach

¹H decoupled ³¹P nmr spectra were recorded for a series of gold complexes of formulae PEt₃AuL and [PEt₃AuL′]⁺ClO₄^? where L and L′ are ligands containing biologically relevant donor atoms. This series of a model compounds provide a ³¹P nmr scale for the interaction of the ‘PEt₃Au’ moiety with proteins. The reactions of albumin and SH blocked albumin with PEt₃AuCl were monitored by ³¹P nmr spectroscopy. Comparison of the observed chemical shifts to those of the model compounds revealed preferential binding of gold to S occurs. Fluorescence studies of the gold-protein interactions imply that a protein conformational charge occurs on binding of gold. The implications of these studies on the mechanism of action of anti-arthritic gold drugs is discussed.     

A study of the interaction of Escherichia coli elongation factor-Tu with aminoacyl-tRNAs by partial digestion with cobra venom ribonuclease

The hydrolysis of several aminoacylated transfer RNAs, by double-strand-specific ribonuclease from Naja oxiana was studied. The sensitivity to this enzyme of Phe-tRNA^Phe, Glu-tRNA^Glu and Met-tRNA_m^Met from Escherichia coli and Phe-tRNA^Phe from yeast was examined, both in the free state and complexed to E. coli elongation factor Tu. The hydrolysis patterns in the isolated state were similar for all aminoacylated tRNAs except Glu-tRNA₂^Glu, which exhibited striking differences probably arising from the existence of several subpopulations of tRNA₂^Glu. When engaged in a ternary complex with EF-Tu and GTP, the aminoacyl-tRNAs were efficiently protected in the amino acid acceptor and TΨC helices, showing that the interaction with EF-Tu primarily takes place at the -C-C-A end and at the amino acid acceptor and TΨC helices. In all cases an increased reactivity of the anticodon stem was observed in the complexed tRNA, possibly resulting from a conformational change in this region of the tRNAs.     

Complexation of Pd(II) with nucleosides. Evidence for a strong interaction Pd⋯HN by NMR

Bis-derivatives of phenylantimony(III) with some monothio-β-diketones have been synthesized and characterized as five coordination species by elemental analyses, molecular weight and spectral data. The stereochemistry of the complexes having asymmetrical ligands is discussed.     

Spectral changes induced in Cibacron Blue F3GA by salts,organic solvents,and polypeptides: Implications for Blue dye interaction with proteins

The interactions of Cibacron Blue F3GA with organic solvents, salts, oligopeptides, and polypeptides were studied by visible difference spectroscopy. The difference spectrum of the dye in an aqueous solution of NaCl (vs water) has a characteristic positive peak at 690 nm and negative double minima at 630 and 585 nm. Such a “salt-like” spectrum is also obtained for interaction of the dye with polycations such as oligolysines, polylysine, polyarginine, and protamine. In contrast, the difference spectrum of the dye in binary aqueous solvents containing dioxan or t-butyl alcohol at moderately high concentrations, measured against water, displays a positive peak and shoulder at 655 and 610 nm, respectively, with a small negative contribution below 550 nm. This spectrum is attributed to a nonpolar interaction of the dye with organic cosolvent molecules. The spectrum of the dye in 7 M urea is changed little from that in water, indicating similar interactions of the dye with water or urea molecules. The spectral characteristics described here for the interaction of the polyaromatic polysulfonate dye with positively charged groups, polar groups, and nonpolar moieties of neutral molecules provide a basis for describing the details of the interactions of Cibacron Blue F3GA with several proteins and for characterizing the dye binding environments in the proteins.     

Cholesterol-lipid interactions: An infrared and raman spectroscopic study of the carbonyl stretching mode region of 1,2-dipalmitoyl phosphatidylcholine bilayers

Infrared and Raman spectra were obtained for the 1690–1770 cm^?1 carbonyl stretching mode region for 1,2-dipalmitoyl phosphatidylcholine (DPPC) bilayers in the anhydrous, partially hydrated and completely hydrated states. Spectral features at approx. 1740 and 1721 cm^?1 are assigned to CO stretching modes associated with the 1- and 2-chain carbonyl groups, respectively. Splittings of the primary transitions at 1743, 1738, ～1731 and ～1721 cm^?1 are attributed to rotational isomers involving the entire chain. Hydrogen bond formation between the fatty acid carbonyl and 3βOH cholesterol groups was investigated for anhydrous DPPC bilayers. Examination of frequencies, intensities and half-widths of the carbonyl bands indicates that no hydrogen bonding occurs at either of the two carbonyl sites. However, the addition of cholesterol to completely hydrated DPPC dispersions reduces the conformational inequivalence between the two fatty acid carbonyl groups by specifically perturbing the 2-chain. For cholesterol containing systems the carbonyl stretching mode transitions were also used to monitor lattice effects within the interface region as water binds to the bilayer head groups. Specifically, the addition of approx. 2 molecules of water per lipid molecule orders the lipid lattice and increases the bilayer packing density, while the subsequent addition of 4 molecules of water per lipid molecule releases the packing constraints within the interface region and thereby decreases the packing density.     

The interaction of substrate-related ketals with bacterial and viral neuraminidases

Arthrobacter sialophilus neuraminidase catalyzes the hydration of 5-acetamido-2,6-anhydro-3, 5-dideoxy-d-glycero-d-galacto-non-2-enonic acid (2,3-dehydro-AcNeu) with K_m and k_cat values of 8.9 × 10^?4m and 6.40 × 10^?4 s^?1, respectively. The methyl ester of 2,3-dehydro-AcNeu as well as 2,3-dehydro-4-epi-AcNeu are also hydrated by the enzyme. The product resulting from the enzymatic hydration of 2,3-dehydro-AcNeu is N-acetylneuraminic acid. A series of derivatives of 2,3-dehydro-AcNeu (K_I 1.60 × 10^?6m) including 2,3-dehydro-4-epi-AcNeu (2.10 × 10^?4m) and 2,3-dehydro-4-keto-AcNeu (K_I = 6.10 × 10^?5 m) were each competitive inhibitors of the enzyme. The methyl esters of these ketal derivatives were also competitive enzyme inhibitors. Dissociation constants for these ketals were determined independently by fluorescence enzyme titrations which gave values similar to those found kinetically. These six relatives of 2,3-dehydro-AcNeu were also competitive inhibitors for the influenza viral neuraminidases. For the viral neuraminidases, the dissociation constant for 2,3-dehydro-AcNeu and its methyl ester were 2.40 × 10^?6 and 1.17 × 10^?3m, respectively. The interpretation placed upon the K_I values determined for these ketals against the Arthrobacter versus influenza neuraminidases is that the bacterial enzyme has a more flexible glycone binding site.     

New acyclic and cyclie Schiff bases derived from 2,6-diformyl-4-chlorophenol and their interaction with uranyl(Vl), copper(II) and nickel(Il) ions

A new heptadentate compartmental ligand has been synthesized by condensation of 3-formylsalicylic acid and 1,5-diamino-3-thiapentane in methanol (H₄L_a). This Schiff base contains an inner N₂SO₂ and an outer O₂O₂ site and gives, by reaction with copper(II), nickel(II) and uranyl(VI) diacetate, mononuclear, homo- and heterobinuclear complexes. In the mononuclear copper and nickel complexes, the metal ion is in the inner N₂SO₂ site, while it is in the outer O₂O₂ for uranyl; a solvent molecule fills the fifth equatorial coordination position in this last complex. The physico-chemical properties of the compounds are discusscd on the basis of infrared, electronic and magnetic data and by comparison with the analogous complexes with the ligand obtained by reaction of 3- formylsalicylic acid and diethylenetriamine (H₄L_b). The mononuclear copper and the heterodinuclear copper-uranyl complexes show anomalously low magnetic moments.     

Determination of the mode of interaction of Mn2+ and Cu2+ with cis-inositol by 13C NMR spectroscopy

Natural abundance ¹³C nuclear magnetic resonance spectroscopy (¹³C NMR) was used to study the mode of binding of Mn²⁺ and Cu²⁺ to the cyclitol, cis-inositol. Resonance linewidths and the electron nuclear relaxation rates [(T₁^e)^?1 values] were used to establish that a unique binding site exists for these metal-ions on this cyclitol involving only the three axial hydroxyl groups. This work may aid in the development of new organometallic complexes used as paramagnetic relaxation agents in magnetic resonance imaging research.     

Application of luminescence and absorption spectroscopy and x-ray methods to studies of Ln+3 ions interaction with aminoacids

The Nd⁺³, Ho⁺³ and Eu⁺³ compounds with glycine, alanine and glutamic acid were synthesized and obtained as monocrystals.Absorption spectra in the range 8000–35 500 cm^?1 were measured along the crystallographic axes at room temperature on a Cary 14 spectrophotometerLuminescence spectra were recorded at the same temperature in the range 9000–16 600 cm^?1.Intensities of the ff transitions were analyzed on the basis of the Judd theory, taking the dependence of intensity on the crystallographic axis position into account.Considerable differences in hypersensitive transitions in crystals with alanine, glycine and glutamic acid, whose symmetry changed from triclinic to monoclinic, were explained in terms of differences in the MeO distances.     

The interaction between vitamin B-12 and micelles in aqueous solution

The apparent pK for benzimidazole displacement of a number of cobalamins is markedly affected by the presence of sodium lauryl sulfate micelles. However, micelles of cetyltrimethylammonium bromide or Triton X have little or no effect on the pK. By measuring the apparent pK as a function of sodium lauryl sulfate concentration, the association constants between the micelles and both base on and base off methylcobalamin were calculated. This calculation indicates that the base off form is strongly associated with the micelle while the base on form is not.     

Determination of 4-hydroxyanisole in serum using liquid chromatography with electrochemical detection

4-Hydroxyanisole (p-methoxyphenol) has been used in the treatment of malignant melanomas. A simple, sensitive, and specific, method for its determination by liquid chromatography with electrochemical detection (LCEC) is described. Vanillin (4-hydroxy-3-methoxybenzaldehyde) was used as an internal standard.     

Tyrosine administration decreases serum prolactin levels in chronically reserpinized rats

The injection of tyrosine, 200 mg/kg, decreased serum prolactin levels and elevated hypothalamic (and striatal) concentrations of two dopamine metabolites, dihydroxyphenylacetic acid and homovanillic acid, in chronically reserpinized rats. Tyrosine administration had none of these effects in otherwise untreated rats, and did not block the increase in serum prolactin that occurred 4 hours after a single injection of reserpine. As anticipated, the injection of dopa decreased serum prolactin in all rats. Valine, another large neutral amino acid, did not modify serum prolactin in chronically reserpinized animals. Since prolactin secretion is normally inhibited by dopamine released from the hypothalamus, reserpine treatment probably elevates serum prolactin by depleting the hypothalamus of dopamine. Our data suggest that tyrosine injection suppresses serum prolactin levels in chronically reserpinized rats by enhancing the synthesis and release of hypothalamic dopamine. Thus, administration of tyrosine, dopamine's dietary precursor, can alter physiologic functions that depend on dopamine.     

Lack of inhibition of protein synthesis by double-stranded RNA in a cell-free system prepared from human reticulocytes

There are two inhibitors of protein synthesis which are related to the activity of interferon. One is a protein kinase which phosphorylates the α subunit of the eucaryotic initiation factor 2 (eIF-2). The other is an enzyme which synthesizes an unusual oligonucleotide that in turn activates a RNA endonuclease. In nucleated cells the synthesis of the inhibitors is induced by interferon but they must be activated in a subsequent lysate by double-stranded RNA (dsRNA). Rabbit reticulocytes, however, contain the inactive forms of the inhibitors in a constitutive manner and require only dsRNA activation. We report here the effect of dsRNA on protein synthesis and the generation of ribosomal eIF-2α kinase and heat-stable (oligonucleotide) inhibitory activity in human reticulocyte lysates. Our findings indicate that human reticulocytes, in contrast to rabbit reticulocytes, do not contain the interferon-related inhibitors of protein synthesis in a constitutive manner. Addition of dsRNA to the human reticulocyte cell-free system does not result in significant inhibition. Furthermore, no generation of ribosomal eIF-2α kinase or heatstable inhibitory activity could be detected. Direct addition of oligonucleotide or eIF-2α kinase (of rabbit origin), however, does result in inhibition of the human system. Thus, the ultimate inhibition mechanisms do appear operative in the human reticulocyte lysates. The differences between the rabbit and human systems may be due to either basic differences in the mechanism of interferon action or simply to variation in the history or maturity of the cells studied.