Expression of a cloned beta-glucanase gene from Bacillus amyloliquefaciens in an Escherichia coli relA strain after plasmid amplification

Summary Amino acid starvation of cells of the Escherichia coli relA strain, CP79, which cannot accumulate guanosine tetraphosphate (ppGpp) in response to amino acid limitation, increased the pEG1 plasmid content about 5- to 7-fold in comparison with exponentially growing cells (pEG1: pBR322 with an insertion of Bacillus amyloliquefaciens DNA coding for -glucanase). In contrast, no pEG1 amplification occurred in E. coli CP78, the stringently controlled counterpart, after amino acid starvation. In order to verify these results, the plasmid DNA content was monitored by measuring the expression of pEG1-encoded -glucanase from B. amyloliquefaciens both before and after plasmid amplification. When amino acid starved CP79 cells were given an additional dose of amino acids, a more than 10-fold increase in pEG1-encoded -glucanase activity (per cell mass) was measured. This increase in enzyme activity correlates with pEG1 amplification during amino acid limitation. Under comparable conditions the activity of -glucanase was not increased in strain CP78, which did not amplify the plasmid. We suggest that the replication of pEG1 in amino acid starved E. coli cells is somehow under negative control by ppGpp. Moreover, we found the Bacillus -glucanase in E. coli relA cells to be excreted into the growth medium after starvation and overexpression.     

Deafness induced by Connexin 26 (GJB2) deficiency is not determined by endocochlear potential (EP) reduction but is associated with cochlear developmental disorders

Connexin 26 (Cx26, GJB2) mutations are the major cause of hereditary deafness and are responsible for >50% of nonsyndromic hearing loss. Mouse models show that Cx26 deficiency can cause congenital deafness with cochlear developmental disorders, hair cell degeneration, and the reduction of endocochlear potential (EP) and active cochlear amplification. However, the underlying deafness mechanism still remains undetermined. Our previous studies revealed that hair cell degeneration is not a primary cause of hearing loss. In this study we investigated the role of EP reduction in Cx26 deficiency-induced deafness. We found that the EP reduction is not associated with congenital deafness in Cx26 knockout (KO) mice. The threshold of auditory brainstem response (ABR) in Cx26 KO mice was even greater than 110 dB SPL, demonstrating complete hearing loss. However, the EP in Cx26 KO mice varied and not completely abolished. In some cases, the EP could still remain at higher levels (>70 mV). We further found that the deafness in Cx26 KO mice is associated with cochlear developmental disorders. Deletion of Cx26 in the cochlea before postnatal day 5 (P5) could cause congenital deafness. The cochlea had developmental disorders and the cochlear tunnel was not open. However, no congenital deafness was found when Cx26 was deleted after P5. The cochlea also displayed normal development and the cochlear tunnel was open normally. These data suggest that congenital deafness induced by Cx26 deficiency is not determined by EP reduction and may result from cochlear developmental disorders.     

Quantitative Proteomic Analysis of Mitochondria from Primary Neuron Cultures Treated with Amyloid Beta Peptide

Increasing evidence supports a role for altered mitochondrial function in the pathogenesis of neuron degeneration in Alzheimers disease (AD). Although several studies have examined the effect of amyloid beta peptide (Aß), on activities of individual proteins in primary neuron cultures, there have been no studies of the effects of Aß on the mitochondrial proteome. Here, we quantitatively measured changes in mitochondrial proteins of primary rat cortical neuron cultures exposed to 25 M Aß_25–35 for 16 h using isotope coded affinity tag (ICAT) labeling and 2-dimensional liquid chromatography/tandem mass spectrometry (2D-LC/MS/MS) which allows simultaneous identification and quantification of cysteine-containing proteins. The analysis of enriched mitochondrial fractions identified 10 proteins including sodium/potassium-transporting ATPase, cofilin, dihydropyrimidinase, pyruvate kinase and voltage dependent anion channel 1 that were statistically significantly (P < 0.05) altered in Aß-treated cultures. Elevations of proteins associated with energy production suggest that cells undergoing Aß-mediated apoptosis increase synthesis of proteins essential for ATP production and efflux in an attempt to maintain metabolic function.     

In vitro Activation of Protein Kinase C by β-N-oxalyl-l-α, β-diaminopropionic acid,the Lathyrus sativus Neurotoxin

-N-oxalyl-l-,-diaminopropionic acid (l-ODAP) toxicity has been associated with lathyrism; a spastic paraparesis caused by excessive dietary intake of the pulse Lathyrus sativus. We investigated the effect of Lathyrus neurotoxin l-ODAP on protein kinase C (PKC) activity under in vitro conditions. l-ODAP activated phosphorylation activity of purified chick brain PKC. Both lysine-rich (histone III-S) and arginine-rich (protamine sulfate) substrate phosphorylation was enhanced in the presence of l-ODAP. The activation is concentration dependent, and maximal activation is observed at 100 M concentration. Protamine sulfate phosphorylation was enhanced by 47%, whereas histone III-S phosphorylation was enhanced by 50% over PS/PDBu/Ca²⁺ dependent activity. The nontoxic d-isomer (d-ODAP) did not affect both histone III-S and protamine sulfate phosphorylation activity. These results indicate that l-ODAP taken up by neuronal cells could also contribute to PKC activation and so be associated with toxicity.     

Formation of an αCP1-KH3 complex with UC-rich RNA

The CP family of proteins [also known as poly(C)-binding or heterogeneous nuclear ribonucleoprotein E proteins] are involved in the regulation of messenger RNA (mRNA) stability and translational efficiency. They bind via their triple heterologous nuclear ribonucleoprotein K homology (KH) domain structures to C-rich mRNA, and are thought to interact with other mRNA-binding proteins as well as provide direct nuclease protection. In particular, CP1 and CP2 have been shown to bind to a specific region of androgen receptor (AR) mRNA, resulting in its increased stability. The roles of each of the KH motifs in the binding affinity and the specificity is not yet understood. We report the beginning of a systematic study of each of the CP KH domains, with the cloning and expression of CP1-KH2 and CP1-KH3. We report the ability of CP1-KH3, but not CP1-KH2, to bind the target AR mRNA sequence using an RNA electrophoretic mobility gel shift assay. We also report the preparation of an CP1-KH3/AR mRNA complex for structural studies. ¹H–¹⁵N heteronuclear single quantum correlation NMR spectra of ¹⁵N-labelled CP1-KH3 verified the integrity and good solution behaviour of the purified domain. The titration of the 11-nucleotide RNA target sequence from AR mRNA resulted in a rearrangement of the ¹H–¹⁵N correlations, demonstrating the complete binding of the protein to form a homogeneous protein/RNA complex suitable for future structural studies.     

Multiple forms of P700-chlorophyll a-protein complexes from Synechococcus sp.: The iron,quinone and carotenoid contents

The iron, quinone and carotenoid contents of five P700-chlorophyll a-protein complexes having different subunit structures (CP1-a,-b,-c,-d and-e) from the thermophilic cyanobacterium Synechococcus sp. were determined. CP1-a,-b,-c and-d that commonly have four polypeptides of 62,000, 60,000, 14,000 and 10,000 dalton contained 10–14 iron atoms per P700, whereas CP1-e that lacks the two small polypeptides was totally devoid of iron. All CP1 complexes contained vitamin K₁ at the molar ratio of vitamin K₁ to P700 of about 2 except CP1-e that had only 0.4 vitamin K₁ per P700. No plastoquinone was detected in five CP1 complexes. Out of four major carotenoids, -carotene, zeaxanthin, caloxanthin, and myxoxanthophyll, present in the thylakoid membranes, only -carotene was found in isolated CP1 complexes; all CP1 complexes contained about 10 -carotene molecules per P700. The flourescence excitation spectrum showed that -carotene serves as an efficient antenna of photosystem I. It is concluded that all iron atoms and a larger fraction of vitamin K₁ molecules present in the photosystem I reaction center complex are associated with the 14,000 and 10,000 dalton polypeptides, whereas -carotene exclusively binds to the large polypeptides which carry the functional and antenna chlorophyll a. The possible functions of iron and vitamin K₁ as electron carriers and of -carotene as the accessary pigment and a photoprotectant in the photosystem I complexes are discussed.     

Cloning and characterization of a human cDNA ACAD10 mapped to chromosome 12q24.1

Mitochondrial fatty acid -oxidation is an important energy resource for many mammal tissues. Acyl-CoA dehydrogenases (ACADs) are a family of flavoproteins that are involved in the -oxidation of the fatty acyl-CoA derivatives. Deficiency of these ACADs can cause metabolic disorders including muscle fatigue, hypoglycaemia, hepatic lipidosis and so on. By large scale sequencing, we identified a cDNA sequence of 3960 base pairs with a typical acyl-CoA dehydrogenase function domain. RT-PCR result shows that it is widely expressed in human tissues, especially high in liver, kidney, pancreas and spleen. It is hypothesized that this is a novel member of ACADs family. Abbreviations: ACADs – acyl-CoA dehydrogenases, FAD – flavinadenine dinucleotide, SCAD – short-chain acyl-CoA dehydrogenase,MCAD – medium-chain acyl-CoA dehydrogenase, LCAD – long-chain acyl-CoAdehydrogenase, VLCAD – very long- chain acyl-CoA dehydrogenase, IVD –isocalery-CoA dehydrogenase, SBCAD – short/branched chain acyl-CoAdehydrogenase, GCD – glutaryl- CoA dehydrogenase, ETF – electron transferflavoprotein, ACAD8 – acyl-CoA dehydrogenase 8, ACAD9 – acyl-CoAdehydrogenase 9, ACAD10 – acyl-CoA dehydrogenase 10.     

Correlation of the number of pineal “synaptic” ribbons and spherules with the level of serum melatonin over a 24-hour period in male rabbits

Summary Previous studies have shown that pineal synaptic ribbons and spherules may respond differently under normal and experimental conditions. It has been suggested that the increase in the number of ribbons may be a prerequisite for enhanced melatonin formation. In the present study, the number of ribbons and spherules as well as the level of serum melatonin were monitored over a 24-h period in the male rabbit, the pineal gland of which is known to contain many spherules. It was found that both the number of ribbons and the levels of serum melatonin show the typical nocturnal increase, exhibiting peaks at 02:00 and 06:00 h, respectively. There is a good correlation (R = 0.8) of the two parameters. The spherules, in contrast, show no statistically significant circadian changes in number and cannot be correlated with the levels of serum melatonin. It is concluded that ribbons and spherules may differ in function and that the ribbons may be somehow involved in the regulation of melatonin formation.Supported by the Deutsche Forschungsgemeinschaft (Grant Vo 135/7) within the project SPP Neuroendokrinologie     

Function,Modulation, and Pharmacology of Inhibitory Glycine Receptor Channels

Ion channels of the glycine receptors (GlyR) provide an inhibitory drive in the nervous system of vertebrates. Four agonist-binding subunits and one subunit were cloned from the CNS of mammals (human, rat, and mouse), a bird (chicken), and a fish (zebrafish). The subunit composition determines the pharmacological properties of the GlyR and the function of the glycinergic synapses during development. Dysfunction of these receptors results in motor disorders (hyperekplexia, spasticity, and/or oscillatory phenomena), and mutations in the gene encoding the subunit of GlyR underlie the molecular basis of these heritable diseases. Extra- and intracellular pharmacological tools can modulate the activity of GlyR channels. A recently discovered phenomenon of Ca-induced modulation of the GlyR suggests an important way of modulation of the activity of glycinergic synapses.     

In vitro secretion of transforming growth factor alpha (TGF-α): A comparison of the A431 cell line with three human oesophageal squamous cell carcinoma lines

Transforming growth factor alpha (TGF-) is a single chain polypeptide which exists in a variety of forms differing in molecular weight. These forms are variously present in normal and neoplastic cells. Of particular interest are TGF-'s well-known mitogenic properties. The transition from a normal to a neoplastic cellular state results from signalling defects that may depend upon,iter alia, abonormal levels of expression and secretion of TGF-. It is known that the secretion of TGF- may be enhanced appreciably by agents such as phorbol 12-myristate 13-acetate (PMA), serum factors and epidermal growth factor (EGF). Here, we compare the efficacy of these three agents in the elevation of TGF- secretion in the well studied A431 cell line with their previously undocumented efficacy in certain interesting, but little known, human oesophageal squamous cell carcinoma (SCC) lines.     

Effects of Boat Engine Noise on the Auditory Sensitivity of the Fathead Minnow, Pimephales promelas

Fishes are constantly exposed to various sources of noise in their underwater acoustic environment. Many of these sounds are from anthropogenic sources, especially engines of boats. Noise generated from a small boat with a 55 horsepower outboard motor was played back to fathead minnows, Pimephales promelas, for 2 h at 142 dB (re: 1 Pa), and auditory thresholds were measured using the auditory brainstem response (ABR) technique. The results demonstrate that boat engine noise significantly elevate a fish's auditory threshold at 1 kHz (7.8 dB), 1.5 kHz (13.5 dB), and 2.0 kHz (10.5 dB), the most sensitive hearing range of this species. Such a short duration of noise exposure leads to significant changes in hearing capability, and implies that man-made noise generated from boat engines can have far reaching environmental impacts on fishes.     

High-resolution solid-state 13C NMR of the LH1 from Rhodospirillum rubrum

High-resolution solid-state 13C NMR spectra of the light-harvesting antenna complex (LH1) from Rhodospirillum rubrum were observed for the first time by cross-polarization (CP), magic angle spinning (MAS) methods with a total elimination of spinning side band technique (TOSS). Chemical shift analysis of the CP/MAS/TOSS 13C NMR spectra confirmed that the LH1 consists mainly of -helices in the solid state. Time constants of cross polarization (TCH) and relaxation time T1 in a rotating frame (T1H) were determined from the experiments at various contact times. Smaller values of TCH were obtained for the carbons attached directly with protons in a rigid state. Relaxation times T1H revealed the dynamic structure of the complex and showed that bacteriochlorophyll a in the LH1 has high internal mobility even in the solid state. The proton spin-lattice relaxation time in a laboratory frame (T1H) determined by the 13C NMR signal amplitude changes suggested that protons in the LH1 proteins have such strong interaction among them that the spins of all protons in the protein can diffuse through spin-lattice-relaxation.     

Expression of de novo high-lysine α-helical coiled-coil proteins may significantly increase the accumulated levels of lysine in mature seeds of transgenic tobacco plants

We have designed protein molecules based on an -helical coiled-coil structure. These proteins can be tailored to complement nutritionally unbalanced seed meals. In particular, these proteins may contain up to 43% mol/mol of the essential amino acid lysine. Genes encoding such proteins were constructed using synthetic oligonucleotides and the protein stability was tested for in vivo by expression in an Escherichia coli model system. A protein containing 31% lysine and 20% methionine (CP 3-5) was expressed in transgenic tobacco seeds utilizing the seed specific bean phaseolin and soybean -conglycinin promoters. Both promoters provided a level of expression in the mature transgenic tobacco seeds which resulted in a significant increase in the total lysine content of the seeds. Several of these transgenic lines were analyzed for three generations to determine the stability of gene expression. Plants transformed with the soybean -conglycinin promoter/CP 3-5 gene consistently expressed the high-lysine phenotype through three generations. However, expression of the high-lysine phenotype in plants transformed with the bean phaseolin/CP 3-5 was variable. This is the first report of a significant increase in seed lysine content due to the seed-specific expression of a de novo protein sequence.     

Interactions between esterified whey proteins (alpha-lactalbumin and beta-lactoglobulin) and DNA studied by differential spectroscopy

Spectroscopic study of interactions between esterified whey proteins and nucleic acids, at neutral pH, showed positive differential spectra over a range of wavelength between 210 and 340 nm. In contrast, native forms of whey proteins added to DNA did not produce any differential spectra. The positive difference in UV absorption was observed after addition of amounts of proteins as low as 138 molar ratio (MR) of protein/DNA, indicating high sensitivity of the applied method to detect interactions between basic proteins and DNA. UV-absorption differences increased with MR of added whey protein up to saturation. The saturation points were reached at relatively lower MR in the case of methylated forms of the esterified protein as compared to its ethylated form. Saturation of nucleic acid (2996 bp long) was achieved using 850 and 1100 MR of methylated -lactoglobulin and of methylated -lactalbumin, respectively. Saturation with ethylated forms of the proteins was reached at MR of 3160 and 2750. Lysozyme, a native basic protein, showed a behavior similar to what was observed in the case of methylated forms of the dairy proteins studied. However, in the case of lysozyme, saturation was achieved at relatively lower MR (700). Methylated -casein failed to give positive spectra at pH 7 in the presence of DNA. It interacted with DNA only when the pH of the medium was lowered to 6.5, below its pI. Generally, amounts of proteins needed to saturate nucleic acid were much higher than those needed to neutralize it only electrostatically, demonstrating the presence on DNA of protein-binding sites other than the negative charges on the sugar-phosphate DNA backbones. Addition of 0.1% SDS to the medium suppressed totally all spectral differences between 210–340 nm. The presence of 5 M urea in the medium reduced only the spectral differences between 210–340 nm, pointing to the role played by hydrophobic interactions. Peptic hydrolysates of esterified and native proteins or their cationic fractions (pH > 7) produced negative differential spectra when mixed with DNA. The negative differences in UV absorption spectra were the most important in the case of peptic hydrolysates of methylated derivatives of whey proteins.     

Structural Changes of β-Lactoglobulin during Thermal Unfolding and Refolding – An FT-IR and Circular Dichroism Study

We have quantitatively characterized by FT-IR spectroscopy the contents of secondary structure of -lactoglobulin during thermal unfolding and subsequent refolding. Our data clearly indicate that considerable amount of secondary structure, particularly -sheet, still remained intact even at 90°C. Noticeable changes in secondary structure of -lactoglobulin were observed only above 70°C. The refolded protein regained, within limits of experimental error, all of the secondary structure lost during thermal unfolding. The data also indicate that the refolding mechanism operating at pH 7.0 and 2.0 are the same. Identical secondary structure of native and refolded -lactoglobulin was also indicated by far-UV circular dichroic spectra of the two forms of protein. Near UV circular dichroic spectra of the same two forms showed considerable differences indicating less tertiary structure of refolded -lactoglobulin. The combined CD and FT-IR data indicated that refolded form of -lactoglobulin could be characterized as a molten globule state as it had native-like secondary structure and compromised tertiary structure.     

Glutamate Receptor Requirement for Neuronal Death from Anoxia–Reoxygenation: An in Vitro Model for Assessment of the Neuroprotective Effects of Estrogens

1.Previous studies demonstrated that estrogens, specifically 17-estradiol, the potent, naturally occurring estrogen, are neuroprotective in a variety of models including glutamate toxicity. The aim of the present study is twofold: (1) to assess the requirement for glutamate receptors in neuronal cell death associated with anoxia–reoxygenation in three cell types, SK-N-SH and HT-22 neuronal cell lines and primary rat cortical neuronal cultures, and (2) to evaluate the neuroprotective activity of both 17-estradiol and its weaker isomer, 17-estradiol, in both anoxia-reoxygenation and glutamate toxicity.2.SK-N-SH and HT-22 cell lines, both of which lack NMDA receptors as assessed by MK-801 binding assays, were resistant to both anoxia–reoxygenation and glutamate-induced cell death. In contrast, primary rat cortical neurons, which exhibit both NMDA and AMPA receptors, were sensitive to brief periods of exposure to anoxia–reoxygenation or glutamate. As such, there appears to be an obligatory requirement for NMDA and/or AMPA receptors in neuronal cell death resulting from brief periods of anoxia followed by reoxygenation.3.Using primary rat cortical neuronal cultures, we evaluated the neuroprotective activity of 17-estradiol (1.3 or 133 nM) and 17-estradiol (133 nM) in both anoxia–reoxygenation and excitotoxicity models of cell death. We found that the 133 nM but not the 1.3 nM dose of the potent estrogen, 17-estradiol, protected 58.0, 57.5, and 85.3% of the primary rat cortical neurons from anoxia–reoxygenation, glutamate, or AMPA toxicity, respectively, and the 133 nM dose of the weak estrogen, 17-estradiol, protected 74.6, 81.7, and 85.8% of cells from anoxia–reoxygenation, glutamate, or AMPA toxicity, respectively. These data demonstrate that pretreatment with estrogens can attenuate glutamate excitotoxicity and that this protection is independent of the ability of the steroid to bind the estrogen receptor.     

Measurement of Acute Phase Proteins in the Rat Brain: Contribution of Vascular Contents

A localized acute phase response occurs in the brain in Alzheimer's disease. Acute phase proteins have previously been measured in brain homogenates to quantify this response. The extent to which measurements of these proteins reflect brain parenchymal contents, as opposed to vascular contents, is unknown. In this study, the acute phase proteins ceruloplasmin (CP), complement factor 3 (C3), haptoglobin (HP), and albumin were measured in regional brain homogenates from phosphate buffered saline-perfused and sham-perfused rats (n = 7–9/group). Interleukin 1- (IL1-) and copper were also measured. Mean CP, C3, HP, and albumin concentrations in perfused specimens decreased by 94%, 88%, 90%, and 81% vs. sham-perfused specimens (all p < 0.001), while ILl- and copper were unchanged. These results suggest that acute phase protein measurements in brain homogenates reflect primarily vascular contents. However, IL1- and copper concentrations in brain homogenates are minimally influenced by vascular contents.     

Natural-killer-stimulatory effect of combined low-dose interleukin-2 and interferon β in hairy-cell leukemia patients

The association of low doses of interleukin-2 (IL-2; 5 IU/ml) and interferon (IFN; 10 IU/ml) induced an additive or synergic stimulatory effect on natural killer (NK) activity (32%) in peripheral blood samples from hairy-cell leukemia patients, both those with active disease and those in remission. The synergic NK stimulatory effect was more commonly found in samples from patients with active disease, while the additive effect was more frequent in the patients in remission. The IL-2/IFN combination provoked a nonadditive nonsynergic NK-stimulatory effect in a further 19.8% samples. The targets of the IL-2/IFN combination were typical NK cells, as shown by the fact that there was increased cytotoxicity (synergic, additive or nonadditive nonsynergic) against the K562, but not the Daudi cell line in peripheral blood mononuclear cell samples treated with the combination of the two cytokines. When CD16⁺/CD56⁺ or CD57⁺/CD16⁺/CD56⁺ cells were removed, the NK-stimulatory effect was lost. The fact that the NK-cell-enhancing activity of the IL-2/IFN combination was reduced when Percoll fractions 2 and 3 were used, but still persisted in 66% of tests, may have been due to cytotoxicity being higher in the untreated fractions 2 and 3 than in the untreated unfractionated samples. One of the factors responsible for the NK-stimulatory effect appears to be the capacity of the IL-2/IFN combination to trigger an increase in IFN synthesis. If similar experiments give like results in samples from patients suffering from other B-cell lymphoproliferative, or HIV-associated disorders, all of which are characterized by a deficiency in NK activity, it should be possible to use low-dose IL-2/IFN to treat these disorders and, perhaps, residual neoplastic disease without exposing the patient to undue toxicity. Further, by testing other combinations one should be able to identify the lowest IL-2 and IFN doses that would effectively boost the additive or synergic effect in a greater number of cases.     

Brain injury: New insights into neurotransmitter and receptor mechanisms

The studies reviewed here represent a continuing search for mechanisms which play a role in neurological disturbances resulting from brain injury. Focal cortical freezing lesions in rats were shown to cause a widespread decrease in local cerebral glucose utilization (LCGU) in cortical areas of the lesioned hemisphere and this was interpreted as reflecting a depression of cortical activity. Such an interpretation was supported by the finding that in lesioned brain reduction of cerebral metabolism by pentobarbital and isoflurane was limited by the metabolic depression that has already occurred as a result of injury and by the demonstration that the energy status and substrate (glucose) supply in the cortical areas in the injured brain have not been compromised at the time when LCGU was decreased. Both the serotonergic and the noradrenergic neurotransmitter systems were implicated in functional alterations associated with injury. Cortical serotonin (5-HT) metabolism was increased throughout the lesioned hemisphere and complete inhibition of 5-HT synthesis withp-chlorophenylalanine ameliorated the decrease in cortical LCGU, interpreted as reflecting cortical functional depression. Cortical norepinephrine metabolism was bilaterally increased in focally injured brain, while prazosin, a selective ₁-noradrenergic receptor blocker, normalized cortical LCGU in the lesioned hemisphere. Low-affinity in vivo binding of [¹²⁵I]HEAT, another selective ₁-receptor ligand, was specifically increased in cortical areas of the lesioned hemisphere at the time of the greatest depression in LCGU, suggesting that ₁-adrenoreceptors may be of functional importance in injured brain. The general conclusion from this series of studies on mechanisms underlying functional disturbances in injured brain is that both the serotonergic and the noradrenergic neurotransmitter systems are involved in the widespread cortical depression which develops with time as a consequence of a focal lesion. The data are compatible with the inhibitory effects of NE and 5-HT in the cortex and with the hypothesis that these two transmitter systems affect cortical information processing.     

Conversion of free β-amylase to bound β-amylase on starch granules in the barley endosperm during desiccation phase of seed development

Summary Association of -amylase with starch granules in the starchy endosperm of barley (Hordeum vulgare L. cv. Menuet) grains was characterized biochemically. In whole homogenates of dry seeds, two forms of -amylase were detected: one is free -amylase extractable with saline solution and the other is bound -amylase extractable with saline solution containing a reducing agent. The two forms of -amylase were shown to be identical in terms of mobility on disc gels, antigenicity, and molecular specific activity, indicating that the -amylase molecules of the two forms are identical. The starch granules were isolated from either dry seeds or mature seeds harvested before the desiccation phase. Both starch granule preparations were morphologically identical by microscopic inspection. The bound -amylase was predominantly associated with starch granules isolated from dry seeds, whereas it was not associated with starch granules from mature seeds harvested before desiccation. Overall results show that the periphery of starch granules is the major site of deposition for bound -amylase in dry seeds. The association of -amylase with starch granules occurs during the desiccation phase of seed development, resulting in the conversion of free -amylase into a bound form.Recipient of an award from the Union Générale de la Brasserie Française (I. H.-N.) and from the Centre National de la Recherche Scientifique and the Japan Society for the Promotion of Science under the France-Japan Cooperative Science Programme, 1985 (M.N.).