Book Reviews

Book reviewed in this article:
Ethnology: A Chief is a Chief by the People: The Autobiography of Stimela Jason Jingoes. Stimela Jason Jingoes .
Ethnology: Family Law and Litigation in Basotho Society. Sebastian Poulter .
Ethnology: Chieftainship and Legitimacy: An Anthropological Study of Executive Law in Lesotho. Ian Hamnett .     

Book Reviews

Book reviewed in this article:
Ethnology: The Politics of Inequality: Competition and Control in an Indian Village . Miriam Sharma.
Ethnology: The Politics of Passion: Structure and Strategy in Sikh Society . Harry Izmirlian, Jr.     

Book Reviews

Book reviewed in this article:
Ethnology: Differentiation and Co-operation in an Israeli Veteran Moshav. ELAINE BALDWIN.
Ethnology: Family and Community in the Kibbutz. YONINA TALMON.     

Book Reviews

Book reviewed in this article:
Ethnology: Australian Aboriginal Paintings in Western and Central Arnhem Land: Temporal Sequences and Elements of Style in Cadell River and Deaf Adder Creek Art. E. J. Brandl
Ethnology: Kilenge Art and Life: A Look at a New Guinea People. Philip J. C. Dark     

Tyrosine Hydroxylase Phosphorylation in Bovine Adrenal Chromaffin Cells: The Role of Intracellular Ca2+ in the Histamine H1 Receptor-Stimulated Phosphorylation of Ser8, Ser19, Ser31, and Ser40

Abstract: Tyrosine hydroxylase (TOH), the rate-limiting enzyme in catecholamine biosynthesis, is regulated by phosphorylation. Activation of histaminergic H₁ receptors on cultured bovine adrenal chromaffin cells stimulated a rapid increase in TOH phosphorylation (within 5 s) that was sustained for at least 5 min. The initial increase in TOH phosphorylation (up to 1 min) was essentially unchanged by the removal of extracellular Ca²⁺. In contrast, the H₁-mediated response was abolished by preloading the cells with BAPTA acetoxymethyl ester (50 µ M ) and significantly reduced by prior exposure to caffeine (10 m M for 10 min) to deplete intracellular Ca²⁺. Trypticphosphopeptide analysis by HPLC revealed that the H₁ response in the presence or absence of extracellular Ca²⁺ resulted in a major increase in the phosphorylation of Ser¹⁹ with smaller increases in that of Ser⁴⁰ and Ser³¹. In contrast, although a brief stimulation with nicotine (30 µ M for 60 s) also resulted in a major increase in Ser¹⁹ phosphorylation, this response was abolished in the absence of extracellular Ca²⁺. These data indicate that the mobilization of intracellular Ca²⁺ plays a crucial role in supporting H₁-mediated TOH phosphorylation and may thus have a potentially important role in regulating catecholamine synthesis.     

Distributions of H+,K+-ATPase and Cl–,HCO3–-ATPase in micromere-derived cells of sea urchin embryos

In cultured cells derived from isolated micromeres of sea urchin eggs, H+,K+-ATPase activity, which became detectable simultaneously with the initiation of spicule formation, was localized in the plasma membrane and the microsome fractions. Activities of marker enzymes for plasma membrane, 5'-nucleotidase, Na+,K+-ATPase, and adenylate cyclase, were found to be high in the plasma membrane fraction. Considerable activity of rotenone-insensitive NADPH-cytochrome c reductase, a marker enzyme for microsome, was detectable in the microsome fraction. These fractions exhibited barely any appreciable activity of markers for the other organellae. H+,K+-ATPase in plasma membrane probably mediates H+ release from the cells, in which H+ is produced in overall reaction to form CaCO3, the main component of spicules, from Ca2+, CO2 and H2O. Cl-,HCO3(-)-ATPase activity was also found in these two fractions before and after the initiation of spicule formation. After initiation, the skeletal vacuole fraction was obtained from subcellular structures containing spicules. Considerable activity of Cl-,HCO3(-)-ATPase was observed in this fraction, which exhibited a weak activity of UDP-galactose: N-acetylglucosamine galactosyltransferase, a marker enzyme for Golgi body. Cl-,HCO3(-)-ATPase in the skeletal vacuole membrane probably mediates HCO3- transport into the vacuoles to supply HCO3- for spicule formation.     

Suppression of IIIGlc-defects by Enzymes IINag and IIBgl of the PEP:carbohydrate phosphotransferase system

The Enzymes II of the PEP:carbohydrate phosphotransferase system (PTS) specific for N-acetylglucosamine (IINag) and beta-glucosides (IIBgl) contain C-terminal domains that show homology with Enzyme IIIGlc of the PTS. We investigated whether one or both of the Enzymes II could substitute functionally for IIIGlc. The following results were obtained: (i) Enzyme IINag, synthesized from either a chromosomal or a plasmid-encoded nagE+ gene could replace IIIGlc in glucose, methyl alpha-glucoside and sucrose transport via the corresponding Enzymes II. An Enzyme IINag with a large deletion in the N-terminal domain but with an intact C-terminal domain could also replace IIIGlc in IIGlc-dependent glucose transport. (ii) After decryptification of the Escherichia coli bgl operon, Enzyme IIBgl could substitute for IIIGlc. (iii) Phospho-HPr-dependent phosphorylation of methyl alpha-glucoside via IINag/IIGlc is inhibited by antiserum against IIIGlc as is N-acetylglucosamine phosphorylation via IINag. (iv) In strains that contained the plasmid which coded for IINag, a protein band with a molecular weight of 62,000 D could be detected with antiserum against IIIGlc. We conclude from these results that the IIIGlc-like domain of Enzyme IINag and IIBgl can replace IIIGlc in IIIGlc-dependent carbohydrate transport and phosphorylation.     

Calmodulin-Dependent Phosphatases of PC12, GH3, and C6 Cells: Physical, Kinetic, and Immunochemical Properties

Calmodulin-dependent phosphoprotein phosphatase (CaMDP) activity has been found in each of three cultured cell lines: rat pheochromocytoma (PC12), glioma (C6), and pituitary adenoma (GH3) cells. These CaMDP activities bind to immobilized calmodulin in the presence of Ca2+ and are eluted by EGTA. Sucrose density centrifugation revealed that the phosphatase activities exhibited sedimentation coefficients of 4.37, 4.23, and 4.59 for proteins derived from C6, GH3, and PC12 cells, respectively. The Stokes radii measured for the PC12 and C6 activities were 41.8 and 40.0 A, respectively. The estimated molecular weights calculated for the enzymes from these data are 79,100 and 72,200. The phosphatase activities required the presence of divalent cations such as Ca2+ or Mn2+ for expression of activity, which was optimal only in the presence of calmodulin. The apparent Km for phosphorylated myelin basic protein substrate was 8 microM. Affinity-purified antibodies to the B subunit of bovine brain CaMDP were found by immunoblot (Western blot) to cross-react with a single protein among proteins extracted from PC12, C6, and GH3 cells that had been resolved by two-dimensional electrophoresis. In each case, the cross-reacting protein exhibited an Mr of 16,000 and an isoelectric point of 4.7, values virtually identical to those reported previously for the B subunit of bovine brain CaMDP (sometimes called calcineurin). This cross-reacting protein was found among cellular proteins eluted from immobilized calmodulin by EGTA. Immunocytochemical localization of the cross-reacting protein in undifferentiated PC12 cells or in cells differentiated in response to nerve growth factor revealed its presence diffusely throughout the cytoplasm. These experiments support the contention that each of these cell lines contains a calmodulin-regulated phosphatase homologous physically and kinetically, and immunologically related to bovine brain CaMDP.     

Characterisation of 5-HT3C, 5-HT3D and 5-HT3E receptor subunits: evolution, distribution and function

The 5‐HT₃ receptor is a member of the ‘Cys‐loop’ family of ligand‐gated ion channels that mediate fast excitatory and inhibitory transmission in the nervous system. Current evidence points towards native 5‐HT₃ receptors originating from homomeric assemblies of 5‐HT_3A or heteromeric assembly of 5‐HT_3A and 5‐HT_3B. Novel genes encoding 5‐HT_3C, 5‐HT_3D, and 5‐HT_3E have recently been described but the functional importance of these proteins is unknown. In the present study, in silico analysis (confirmed by partial cloning) indicated that 5‐HT_3C, 5‐HT_3D, and 5‐HT_3E are not human–specific as previously reported: they are conserved in multiple mammalian species but are absent in rodents. Expression profiles of the novel human genes indicated high levels in the gastrointestinal tract but also in the brain, Dorsal Root Ganglion (DRG) and other tissues. Following the demonstration that these subunits are expressed at the cell membrane, the functional properties of the recombinant human subunits were investigated using patch clamp electrophysiology. 5‐HT_3C, 5‐HT_3D, and 5‐HT_3E were all non‐functional when expressed alone. Co‐transfection studies to determine potential novel heteromeric receptor interactions with 5‐HT_3A demonstrated that the expression or function of the receptor was modified by 5‐HT_3C and 5‐HT_3E, but not 5‐HT_3D. The lack of distinct effects on current rectification, kinetics or pharmacology of 5‐HT_3A receptors does not however provide unequivocal evidence to support a direct contribution of 5‐HT_3C or 5‐HT_3E to the lining of the ion channel pore of novel heteromeric receptors. The functional and pharmacological contributions of these novel subunits to human biology and diseases such as irritable bowel syndrome for which 5‐HT₃ receptor antagonists have major clinical usage, therefore remains to be fully determined.     

Hydrolysis of glucuronide-based substrates mediated by tungsten, Cu2+, Fe2+, and Zn2+

A variety of metal microprojectiles are currently used for carrying foreign DNA into living cells via particle-acceleration techniques. While developing a microprojectile-mediated protocol for transforming cells of sugarbeet ( Beta vulgaris L.), formation of a blue precipitate was observed with the indigoqenic substrate 5-bromo-4-chloro-3-indolyl-β-D-glucuronic acid (X-gluc) in the absence of gusA DNA encoding β-D-glucuronidase (GUS). Tungsten microcarriers, but not gold or silicon carbide, proved capable of catalyzing the cleavage of the glucuronide residue from three histochemical substrates evaluated: X-gluc, salmon X-gluc and magenta X-gluc. Indigo-stained sugarbeet cells were observed following bombardment with tungsten in the absence of DNA. Addition of oxidative catalysts to tungsten microcarriers during substrate incubation had no apparent effect on the metal-mediated catalysis. Treatment of microcarriers with Proteinase K and heat ruled out the presence of enzymes. Microbiological evaluation indicated the absence of contaminating microbes. Similarly, metal-catalyzed hydrolysis of the fluorogenic substrate 4-methylumbelliferyl-β-D-glucuronic acid (4-MUG) was observed in the presence of tungsten spheres but not with gold or silicon carbide particles. With this substrate, hydrolysis also occurred with millimolar concentrations of Cu²⁺, Fe²⁺ and Zn²⁺ ions. Consequently, careful monitoring of DNA-minus controls and avoidance of millimolar concentrations of Cu²⁺, Fe²⁺ and Zn²⁺ ions are recommended in microprojectile bombardment experiments where transient assays for gusA expression are performed.     

Low temperature spectroscopy of phytochrome: Pr, Pfr and intermediates

Phytochrome (120 kdalton) was isolated from etiolated seedlings of Avena sativa L. cv. Pirol (Baywa, München). Low temperature spectra between −17°C and −160°C are recorded for P_r, P_fr, and irradiated phytochrome samples. The temperature-dependence of the P_r and P_fr absorption spectra is described. Difference spectra of such temperature effects can erroneously be interpreted as difference spectra of intermediates. Probable absorption spectra of intermediates are calculated from the spectra of irradiated P_r or P_fr, respectively. The calculated spectral data are compared with published data on phytochrome intermediates.     

Protein Kinase FA/Glycogen Synthase Kinase 3α Predominantly Phosphorylates the In Vivo Sites of Ser502, Ser506, Ser603, and Ser666 in Neurofilament

Abstract: In this report, the phosphorylation sites of neurofilament protein of medium molecular mass (NF-M) by protein kinase F_A/glycogen synthase kinase 3α (kinase F_A/GSK-3α) were determined by two-dimensional electrophoresis/TLC, phosphoamino acid analysis, HPLC, Edman degradation, and peptide sequencing. Kinase F_A/GSK-3α phosphorylates NF-M predominantly on serine, residue. Three major tryptic phosphopeptide peaks were resolved by C₁₈ reverse-phase HPLC. Edman degradation and peptide sequence analysis revealed that AKS(p)PVSK is the phosphorylation site sequence for the first major peak. When mapping with the amino acid sequence of neurofilament, we finally demonstrate Ser⁶⁰³-Pro, one of the in vivo sites in NF-M, as the major site phosphorylated by kinase F_A/GSK-3α. By using the same approach, we also identified the in vivo sites of Ser⁵⁰²-Pro, Ser⁵⁰⁶-Pro, and Ser⁶⁶⁶-Pro as the other three major sites in NF-M phosphorylated by kinase F_A/GSK-3α. Taken together, the results provide initial evidence that kinase F_A/GSK-3α may represent a physiologically relevant protein kinase involved in the in vivo phosphorylation of NF-M. Because Ser⁵⁰², Ser⁵⁰⁶, Ser⁶⁰³, and Ser⁶⁶⁶ are all flanked by a carboxyl-terminal proline residue, the results provide further evidence that F_A/GSK-3α may represent a proline-directed protein kinase involved in the structure-function regulation of the neuronal cytoskeletal system.     

Neuropeptide Y inhibits [Ca2+]i changes in rat retinal neurons through NPY Y1, Y4, and Y5 receptors

Neuropeptide Y (NPY) and NPY receptors are widely distributed in the CNS, including the retina, but the role of NPY in the retina is largely unknown. The aim of this study was to investigate whether NPY modulates intracellular calcium concentration ([Ca²⁺]_i) changes in retinal neurons and identify the NPY receptors involved. As NPY decreased the [Ca²⁺]_i amplitudes evoked by 30 mM KCl in only 50% of neurons analyzed, we divided them in two populations: NPY-non-responsive neurons (Δ2/Δ1 ≥ 0.80) and NPY-responsive neurons (Δ2/Δ1 < 0.80), being the Δ2/Δ1 the ratio between the amplitude of [Ca²⁺]_i increase evoked by the second (Δ2) and the first (Δ1) stimuli of KCl. The NPY Y₁/Y₅, Y₄, and Y₅ receptor agonists (100 nM), but not the Y₂ receptor agonist (300 nM), inhibited the [Ca²⁺]_i increase induced by KCl. In addition, the inhibitory effect of NPY on evoked-[Ca²⁺]_i changes was reduced in the presence of the Y₁ or the Y₅ receptor antagonists. In conclusion, NPY inhibits KCl-evoked [Ca²⁺]_i increase in retinal neurons through the activation of NPY Y₁, Y₄, and Y₅ receptors. This effect may be viewed as a potential neuroprotective mechanism of NPY against retinal neurodegeneration.     

Acyl-coenzyme A: isopenicillin N acyltransferase from Penicillium chrysogenum: effect of amino acid substitutions at Ser227, Ser230 and Ser309 on proenzyme cleavage and activity

Abstract Using a high level Escherichia coli expression system for the Penicillium chrysogenum penDE gene, we have produced acyl-coenzyme A: isopenicillin N acyltransferase (AT) enzymes containing amino acid substitutions at three conserved Ser residues. Chosen for study based on amino acid sequence homologies to other proteins, Ser²²⁷, Ser²³⁰ and Ser³⁰⁹ were changed to Cys or Ala to assess amino acid side chain involvement in proenzyme cleavage and AT enzyme mechanism. Substitutions at Ser²³⁰ had no effect on proenzyme cleavage, acyl-coenzyme A: IPN acyltransferase (IAT) or acyl-coenzyme A: 6-aminopenicillanic acid acyltransferase (AAT) activities. While Ser²²⁷→Cys had no effect, Ser²²⁷→Ala produced uncleaved proenzyme lacking both AAT and IAT activities, suggesting that the presence of a nucleophilic side chain at this residue is required for proenzyme cleavage and AT activity. Substitution of Ser³⁰⁹→Cys did not appreciably prevent proenzyme cleavage, IAT or AAT activity. Recombinant AT (recAT) proenzyme containing Ser³⁰⁹→Ala was cleaved; however, IAT and AAT activities were not observed. This separation of proenzyme cleavage from IAT and AAT activities has not been previously observed, and suggests that Ser³⁰⁹ is involved in substrate acylation.     

Genotyping of bovine k-casein (k-CNA, k-CNB, k-CNC, k-CNE) following DNA sequence amplification and direct sequencing of k-CNE PCR product

Genomic DNA isolated from blood and semen of dairy cattle with known kappa-casein (kappa-CN) genotypes was subjected to Southern blot hybridization and polymerase chain reaction (PCR) using up to 14 restriction endonucleases. kappa-casein genotypes AA, AB and BB were identified using Hin dIII and Hin fI while genotypes with kappa-CNC and kappa-CNE were misidentified. Direct sequencing of the PCR product (kappa-CN EE) showed a substitution of guanine (kappa-CNA,B) by adenine (kappa-CNE) which creates a HaeIII restriction site. Therefore using PCR followed by Hin dIII or HinfI and Hae III digest allows discrimination between kappa-casein A, B and E directly at the DNA level.     

Photophosphorylation in Scenedesmus in vivo: O2 evolution, ATP pools and transients, and phosphate binding during photoreduction of NO3−, NO2− and CO2

The relation between light-induced electron transport with NO₃^?, NO₂^? or CO₂ as acceptors, ATP pools and transients in dark-light-dark transitions, and phosphate uptake was examined in phosphorus-starved cells of Scenedesmus obtusiusculus Chod. Net O₂ evolution at saturating light was around 6 μmol × (mg chlorophyll × h)^?1 in the absence of any acceptor, but reached average rates of 21, 65 and 145 μmol × (mg chlorophyll × h)^?1 upon additions of 5 mM KNO₃, KNO₂ and KHCO₃, respectively. The apparent rate of photophosphorylation in transition experiments was only a few percent of the rate calculated from CO₂-dependent O₂ evolution. Blocking non-cyclic electron transport with DCMU inhibited phosphate assimilation, but acceleration of non-cyclic electron flow by addition of NO₃^? or NO₂^? did not stimulate phosphate assimilation as compared to the situation without an acceptor. A functional non-cyclic system might primarily be needed for an efficient shuttle transfer of ATP from the chloroplast to the cytoplasm. An inhibition of the non-cyclic system due to lack of reducible substrates accelerates the cyclic system and thus indicates a regulation mechanism between the two systems.     

Growth and Major Nutrient Concentrations in Brassica campestris Supplied with Different NH4^＋/NO3 Ratios

In the present study, we investigated whether growth and main nutrient ion concentrations of cabbage （Brassica campestris L.） could be increased when plants were subjected to different NH4^＋/NO3- ratios. Cabbage seedlings were grown in a greenhouse in nutrient solutions with five NH4^＋/NO3- ratios （1：0; 0.75：0.25; 0.5：0.5; 0.25：0.75; and 0：1）. The results showed that cabbage growth was reduced by 87% when the proportion of NH4^＋-N in the nutrient solution was more than 75% compared with a ratio NH4^＋/NO3- of 0.5：0.5 35 d after transplanting, suggesting a possible toxicity due to the accumulation of a large amount of free ammonia in the leaves. When the NH4＋/NO3- ratio was 0.5：0.5, fresh seedling weight, root length, and H2PO4- （P）, K^＋, Ca^2＋, and Mg^2＋ concentrations were all higher than those in plants grown under other NH4^＋/NO3- ratios. The nitrate concentration in the leaves was the lowest in plants grown at 0.5： 0.5 NH4^＋/NO3-. The present results indicate that an appropriate NH4^＋/NO3- ratio improves the absorption of other nutrients and maintains a suitable proportion of N assimilation and storage that should benefit plant growth and the quality of cabbage as a vegetable.     

Barium Evokes Glutamate Release from Rat Brain Synaptosomes by Membrane Depolarization: Involvement of K+, Na+, and Ca2+ Channels

Abstract: During K⁺ -induced depolarization of isolated rat brain nerve terminals (synaptosomes), 1 m M Ba²⁺ could substitute for 1 m M Ca²⁺ in evoking the release of endogenous glutamate. In addition, Ba²⁺ was found to evoke glutamate release in the absence of K⁺-induced depolarization. Ba²⁺ (1–10 m M ) depolarized synaptosomes, as measured by voltage-sensitive dye fluorescence and [³H]-tetraphenylphosphonium cation distribution. Ba²⁺ partially inhibited the increase in synaptosomal K⁺ efflux produced by depolarization, as reflected by the redistribution of radiolabeled ⁸⁶Rb⁺. The release evoked by Ba²⁺ was inhibited by tetrodotoxin (TTX). Using the divalent cation indicator fura-2, cytosolic [Ca²⁺] increased during stimulation by approximately 200 n M , but cytosolic [Ba²⁺] increased by more than 1 μ M . Taken together, our results indicate that Ba²⁺ initially depolarizes synaptosomes most likely by blocking a K⁺ channel, which then activates TTX-sensitive Na⁺ channels, causing further depolarization, and finally enters synaptosomes through voltage-sensitive Ca²⁺channels to evoke neurotransmitter release directly. Though Ba²⁺-evoked glutamate release was comparable in level to that obtained with K⁺-induced depolarization in the presence of Ca²⁺, the apparent intrasynaptosomal level of Ba²⁺ required for a given amount of glutamate release was found to be several-fold higher than that required of Ca²⁺.     

Measurement of Methionine-Enkephalin [Arg6,Phe7] in Rat Brain by Specific Radioimmunoassay Directed at Methionine Sulphoxide Enkephalin[Arg6,Phe7]

Abstract: A specific and sensitive radioimmunoassay procedure for Metenkephalin[Arg⁶,Phe⁷] which allows its measurement in regions of the rat brain is described. The antiserum was raised against the methionine sulphoxide derivative of the peptide, and all samples and standards were oxidized with hydrogen peroxide prior to use in the assay with chloramine T-oxidized ¹²⁵I-labelled Met(O)-enkephalin[Arg⁶,Phe⁷]. The only significant cross-reactivity was 30% with the reduced heptapeptide Met-enkephalin[Arg⁶,Phe⁷]. The assay showed less than 0.15% cross-reactivity with fragments of the heptapeptide and with leucine-enkephalin-containing peptides. Acid acetone extraction of rat striatum followed by Sephadex G-50 chromatography and reverse-phase high pressure liquid chromatography showed that essentially all immunoreactivity co-chromatographed with Met-enkephalin[Arg⁶,Phe⁷]. This confirmed the specificity of the assay and showed that the striatum does not contain a high concentration of larger molecular weight forms with the heptapeptide at the COOH terminus. Distribution of the heptapeptide followed that of methionine enkephalin, with highest concentrations in the globus pallidus, intermediate levels in caudate-putamen and hypothalamus, and low levels in cortex and cerebellum.     

Two Na^＋ and Cl^- Hyperaccumulators of the Chenopodiaceae

The authors found five sodium (Na^ ) and chloride (Cl^-) hyperaccumulating halophytes in the Temperate Desert of Xinjiang, China and studied two of them (Suaeda salsa (L.) Pall. and Kalidium folium (Pall.) Moq.). K. folium and S. salsa had a NaCl content of 32.1% and 29.8%, respectively, on a dry weight basis. X-ray microanalysis of the Na in the vacuole, apoplasts and cytoplasm of the two plants indicated a ratio of 7.3:5.6:1.0 in K. folium and 7.3:6.6:1.0 in S. salsa. These data show that K. folium and S. salsa both have a high Na and Cl^- accumulating capacity, which is related to high activity of tonoplast H^ -ATPase and H^ -PPase.