Isolation and characterization of a novel thermostable non-specific lipid transfer protein-like antimicrobial protein from motherwort (Leonurus japonicus Houtt) seeds

In screening for potent antimicrobial proteins from plant seeds, a novel heat-stable antimicrobial protein, designated LJAMP2, was purified from seeds of the motherwort (Leonurus japonicus Houtt), a medicine herb, with a procedure involving cation exchange chromatography on a CM FF column, and reverse phase HPLCs on C8 column and C18 column. LJAMP2 exhibited a molecular mass of 6.2 kDa determined. Automated Edman degradation determined the partial N-terminal sequence of LJAMP2 to be NH2-AIGCNTVASKMAPCLPYVTGKGPLGGCCGGVKGLIDAARTTPDRQAVCNCLKTLAKSYSG, which displays homology with plant non-specific lipid transfer proteins (nsLTPs). In vitro bioassays showed that LJAMP2 inhibits the growth of a variety of microbes, including filamentous fungi, bacteria and yeast. The growth of three phytopathogenic fungi, Alternaria brassicae, Botrytis maydis, and Rhizoctonia cerealis, are inhibited at 7.5 μM of LJAMP2, whereas Bacillus subtilis is about 15 μM. The IC₅₀ of LJAMP2 for Aspergillus niger, B. maydis, Fusarium oxysporum, Penicillium digitatum and Saccharomyces cerevisiae are 5.5, 6.1, 9.3, 40.0, and 76.0 μM, respectively.     

Morphological and physiological responses of canola (Brassica napus) siliquas and seeds to UVB and CO2 under controlled environment conditions

Combined effects of UVB radiation and CO₂ concentration on plant reproductive parts have received little attention. We studied morphological and physiological responses of siliquas and seeds of canola (Brassica napus L. cv. 46A65) to UVB and CO₂ under four controlled experimental conditions: UVB radiation (4.2 kJ m⁻² d⁻¹) with ambient level of CO₂ (370 μmol mol⁻¹) (control); UVB radiation (4.2 kJ m⁻² d⁻¹) with elevated level of CO₂ (740 μmol mol⁻¹); no UVB radiation (0 kJ m⁻² d⁻¹) with ambient level of CO₂ (370 μmol mol⁻¹); and no UVB radiation (0 kJ m⁻² d⁻¹) with elevated level of CO₂ (740 μmol mol⁻¹). UVB radiation affected the outer appearance of siliquas, such as colour, as well as their anatomical structures. At both CO₂ levels, the UVB radiation of 4.2 kJ m⁻² d⁻¹ reduced the size of seeds, which had different surface patterns than those from no UVB radiation. At both CO₂ levels, 4.2 kJ m⁻² d⁻¹ of UVB decreased net CO₂ assimilation (A_N) and water use efficiency (WUE), but had no effect on transpiration (E). Elevated CO₂ increased A_N and WUE, but decreased E, under both UVB conditions. At both CO₂ levels, the UVB radiation of 4.2 kJ m⁻² d⁻¹ decreased chlorophyll fluorescence, total chlorophyll (Chl), Chl a and Chl b, but had no effect on the ratio of Chl a/b and the concentration of UV-screening pigments. Elevated CO₂ increased total Chl and the concentration of UV-screening pigments under 4.2 kJ m⁻² d⁻¹ of UVB radiation. Neither UVB nor CO₂ affected wax content of siliqua surface. Many significant relationships were found between the above-mentioned parameters. This study revealed that UVB radiation exerts an adverse effect on canola siliquas and seeds, and some of the detrimental effects of UVB on these reproductive parts can partially be mitigated by CO₂.     

Preparation and performance evaluation of glucomannan–chitosan–nisin ternary antimicrobial blend film

The material behaviour and antimicrobial effect of konjac glucomannan edible film incorporating chitosan and nisin at various ratio or concentrations is discussed. This activity was tested against food pathogenic bacteria namely Escherichia coli, Staphylococcus aureus, Listeria monocytogenes, and Bacillus cereus. Mechanical and physical properties were determined and the results indicated that the blend film KC2 (mixing ratio konjac glucomannan 80/chitosan 20) showed the maximum tensile strength (102.8 ± 3.8 MPa) and a good transparency, water solubility, water vapor transmission ratio. The differential scanning calorimetry (DSC), Fourier transform infrared spectroscopy (FTIR), etc. were used to characterize the structural change of the blend films. The results showed that the strong intermolecular hydrogen bonds took place between chitosan and konjac glucomannan. Incorporation of nisin at 42,000 IU/g of film for the selected blend film KC2 was found to have antimicrobial activity against S. aureus, L. monocytogenes, and B. cereus. The antimicrobial effect of chitosan or KC2 incorporating nisin was much better than that of konjac glucomannan incorporating nisin at each corresponding concentration and existed significant difference (p < 0.05), however, there was no significant difference on the antimicrobial effect between chitosan and KC2 both incorporating nisin. At all these levels, the ternary blend film KC2-nisin had a satisfactory mechanical, physical properties and antimicrobial activity, and could be applied as a potential ‘active’ packaging material.     

Purification and Characterization of Chlorophyllase from Alga (Phaeodactylum tricornutum) by Preparative Isoelectric Focusing

Chlorophyllase from a diatom alga (Phaeodactylum tricornutum) was obtained and the partially purified extract has been further purified using preparative isoelectric focusing on a Rotofor cell. Three fractions, FI, FII, and FIII, were separated from the Rotofor cell and salt and ampholytes were removed to give fractions FI′, FII′, and FIII′, respectively. Enzyme fractions FI′, FII′, and FIII′, respectively. Enzyme fractions FI′, FII′, and FIII′ showed specific activities of 15.2 × 10^?4, 226.7 ×10^?4 and 33.8 × 10^?4 µmol/mg protein/min, respectively. Most of the enzyme activity (84%) was in fraction FII′. The optimum pH for chlorophyllase activity was 8.0 for FI′ and 8.5 for both FII′ and FIII′. Apparent K_m values for enzyme fractions FI′, FII′, and FIII′ were 2.1nM, 2.3nM, and 2.0 nM, respectively. Enzyme fractions FII′ and FIII′ showed higher chlorophyllase activity towards the partially purified chlorophyll when it was compared to that with the crude chlorophyll as well as with both chlorophylls a and b. However, the enzyme fraction FI′ had higher activity towards the crude chlorophyll when it was compared to that with both chlorophylls a and b, but with a preference for chlorophyll a over chlorophyll b. The inhibitory effect of diisopropyl flurophosphate (DIFP) on chlorophyllase activity demonstrates a noncompetitive inhibitor kinetics with K_i values of 1.29mM, 2.14mM, and 0.71mM for FI′. FII′, and FIII′, respectively.     

Purification and characterization of two bifunctional chitinases/lysozymes extracellularly produced by Pseudomonas aeruginosa K-187 in a shrimp and crab shell powder medium.

Two extracellular chitinases (FI and FII) were purified from the culture supernatant of Pseudomonas aeruginosa K-187. The molecular weights of FI and FII were 30,000 and 32,000, respectively, by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and 60,000 and 30,000, respectively, by gel filtration. The pIs for FI and FII were 5.2 and 4.8, respectively. The optimum pH, optimum temperature, pH stability, and thermal stability of FI were pH 8, 50 degrees C, pH 6 to 9, and 50 degrees C; those of FII were pH 7, 40 degrees C, pH 5 to 10, and 60 degrees C. The activities of both enzymes were activated by Cu2+; strongly inhibited by Mn2+, Mg2+, and Zn2+; and completely inhibited by glutathione, dithiothreitol, and 2-mercaptoethanol. Both chitinases showed lysozyme activity. The purified enzymes had antibacterial and cell lysis activities with many kinds of bacteria. This is the first report of a bifunctional chitinase/lysozyme from a prokaryote.     

Structural characterization of cold extracted fraction of soluble sulfated polysaccharide from red seaweed Gracilaria birdiae

Water soluble polysaccharide from Gracilaria birdiae cultivated along the northeast coast of Brazil was characterized by infrared (FT-IR) and nuclear magnetic resonance (NMR) spectroscopy. The composition of the polysaccharide in wt% was determined as: β-d-galp (50.3%), 3,6-anhydro--l-galp (40.5%) and --l-galp-6 sulfate (9.2%). The ratio of l/d units (β-d-galp units and 3,6-anhydro--l-galp + -l-galp-6 sulfate) is that of an ideal agarose. The sulfate content calculated by S% accounts for 6.4%. 1D and 2D NMR techniques were employed in order to assign the spin system of polysaccharide without partial degradation. The structure is composed of → 4-3,6-anhydro--l-galp (1 → 3)β-d-galp 1 → segments, with the possibility of a -l-galp unit substituted at the 6-position by sulfate ester.     

Studies on the molecular chain morphology of konjac glucomannan

The chain geometry and parameters of konjac glucomannan were studied by using laser light scatter (LLS), gel permeation chromatography (GPC) and viscosimetry. The weight-average molecular weight (M_w), root-mean-square ratio of gyration (S^21/2), second viral coefficient (A₂) and polydispersity index (M_w/M_n) were 1.036×10⁶, 105±0.9 nm, (−1.587±0.283)×10⁻³  mol ml g⁻² and 1.015±0.003 respectively. Mark-Houwink equation was established as , and the molecular chain parameters were as follows: M_L=982.82 nm⁻¹, q=27.93 nm, d=0.74 nm, h=0.26 nm, L=1054.11 nm. To confirm the above results, konjac glucomannan was observed by using atomic force microscopy (AFM) and transmission electron microscope (TEM). The physical image showed directly that the konjac glucomannan molecule was an extending semi-flexible linear chain without branches, and than the molecular dimension also conformed to the parameters above. Therefore the image of molecular chain geometry confirmed the deduction drawn by Mark-Houwink equation and molecular chain parameters magnificently.     

Genome organization in Halobacterium halobium: a 70 kb island of more (AT) rich DNA in the chromosome

Summary The more A+T rich fractionated component (FII DNA) of the Halobacterium halobium genome constitutes one third of the total DNA and upon isolation consists of covalently closed circular DNA (pHH1 and minor cccDNA) and nonsupercoiled sequences. We have investigated the physical organization of the non cccDNA in FII by a chromosome walk using one copy of the halobacterial insertion element ISH1 as a start point. This chromosome walk led to the isolation of 160 kb of chromosomal DNA containing 70 kb of FII DNA covalently linked to more G+C rich sequences (FI DNA). Copies of three previously characterized insertion elements (ISH1, ISH2, and ISH26) as well as at least 10 other repeated sequences are clustered within this chromosomal FII DNA island. Unique sequences are found in the FI DNA flanking the FII DNA island as well as in 40 kb of FI DNA surrounding the bacterio-opsin gene. The presence of pHH1 in H. halobium and closely related species correlates with the occurrence of the characterized chromosomal FII DNA island. Halophilic purple membrane producing isolates YC81819-9, GN101, SB3 and GRA lack pHH1 and the 70 kb FII DNA, but contain all of the FI DNA sequences tested. We propose that pHH1 and this chromosomal FII DNA are characteristic genomic components of H. halobium and closely related species, and, that the 70 kb FII DNA might represent a large insertion in the chromosome of H. halobium and closely related species. The conservation of both FI and FII DNA sequences can be used for strain classification and determination of evolutionary relationships among halobacteria.     

Relation between Aggregation Behavior of Glutenin and Its Polypeptide Composition

It was found in the previous studies that the quality of flour is closely related to the aggregation behavior of gluten separated from it, and that difference of aggregation behavior of gluten was mainly due to the nature of glutenin contained in it. In the present paper, aggregation behaviors of glutenins were investigated in relation to their polypeptide compositions with ten kinds of flours. Component polypeptides of glutenin were fractionated into three fractions, FI, FII and FIII, by gel filtration, and their polypeptide compositions and aggregation behaviors were investigated. The ratio of the three fractions was different among the ten glutenins, and a correlation was found between τ₁₀/C values, a parameter for aggregation reaction, of glutenins and their FI and FII contents. τ₁₀/C decreased with increasing content of FI and with decreasing content of FII. Therefore, the aggregation behavior of gluten depends at least partly on the contents of FI and FII in glutenin.     

Optimization of conditions for protease production by Chryseobacterium taeanense TKU001

A protease-producing bacterium was isolated and identified as Chryseobacterium taeanense TKU001. An extracellular metalloprotease with novel properties of solvent- and surfactant-stable was purified from the culture supernatant of C. taeanense TKU001 with shrimp shell wastes as the sole carbon/nitrogen source. The optimized condition for protease production was found when the culture was shaken at 37 degrees C for 3 days in 50 mL of medium containing 0.5% shrimp shell powder (SSP) (w/v), 0.1% K2HPO4, and 0.05% MgSO4.7H2O. Two extracellular proteases (FI and FII) were purified and characterized, and their molecular weights, pH and thermal stabilities were determined. The molecular masses of TKU001 protease FI and FII determined by SDS-PAGE and gel filtration were approximately 41 kDa and 75 kDa, respectively. The optimum pH, optimum temperature, pH stability, and thermal stability of TKU001 protease FI were 8, 60 degrees C, pH 6-9, and 60 degrees C, respectively. The optimum pH, optimum temperature, pH stability, and thermal stability of TKU001 protease FII were 7, 60 degrees C, pH 7-9, and 50 degrees C, respectively. TKU001 protease FI and FII were both inhibited completely by EDTA, indicating that the TKU001 protease FI and FII were metalloproteases. TKU001 protease FI and FII retained more than 75% of its original protease activity after preincubation for 10 days at 4 degrees C in the presence of 25% most tested organic solvents. Additionally, the TKU001 protease FI retained 79%, 80%, and 110% of its original activity in the presence of 2% Tween 20, 2% Tween 40, and 2% Triton X-100, respectively. However, at the same condition, the activity of TKU001 protease FII retained 100%, 100%, and 121% of its original activity, respectively. This is the first report of C. taeanense being able to use shrimp shell wastes as the sole carbon/nitrogen source for proteases production. The novelties of the TKU001 protease include its high stability to the solvents and surfactants. These unique properties make it an ideal choice for application in detergent formulations and enzymatic peptide synthesis.     

Endorphins in human cerebrospinal fluid

Opiate activity in CSF samples drawn from patients with suspected intracranial hydrodynamic dysfunction has been fractionated on Sephadex G-10 and separated by column electrophoresis in agarose suspension. From the Sephadex G-10 chromatography two receptor active fractions (FI and FII) were recovered. Both FI and FII were further resolved by the electrophoresis. FI separated into at least four components and FII into two components. The study also includes a comparison of the endorphin concentrations in CSF (samples drawn from healthy volunteers) measured by receptorassay with those detected by radioimmunoassay of beta-endorphin, [Met]enkephalin and dynorphin, respectively. The data obtained indicated negligible quantities of the radioimmunoassayable endorphins in the total CSF opiate activity.     

Cyclic 3':5'-nucleotide phosphodiesterase determined in various human tissues by DEAE-cellulose chromatography.

Tissue extracts from human heart, lung, liver, kidney, skeletal muscle and cerebrum displayed at least 3 distinct cyclic 3':5'-nucleotide phosphodieterase (EC 3.1.4.17) activity peaks (FI, FII, FIII) on DEAE-cellulose chromatography and various properties of these forms were compared in each tissue. FI eluted at about 0.08 M sodium acetate, hydrolyzed cyclic GMP more rapidly than it did cyclic AMP, and cyclic GMP hydrolysis by FI in most tissues was enhanced by a protein activator in the presence of CaCl2. As only high concentrations of cyclic AMP inhibited cyclic GMP hydrolytic activity of FI, the enzyme probably has a low affinity for cyclic AMP. FII eluted at about 0.2 M sodium acetate, hydrolyzed both nucleotides at equal rates, and substrate affinities were relatively low. Cyclic GMP hydrolysis by FII was also stimulated by addition of a protein activator in the presence of CaCl2 and cyclic AMP hydrolysis in this fraction was accelerated by a micromolar fraction of cyclic GMP. FII eluted at about 0.35 M hydrolyzed cyclic AMP preferentially and was insensitive to protein activator. These two cyclic nucleotides act as mutual inhibitors of the hydrolysis in this fraction. Ratio of the cyclic GMP to cyclic AMP hydrolysis was in the order FI, FII, FIII. Four activity peaks were eluted from the cerebral extract and enzymes from this tissue exhibited much the same properties as observed in the other tissues examined herein.     

Double-stranded ribonuclease activities from HeLa cell nuclei

Degradation of poly(I)·[³H] poly(C) to acid-soluble products is observed with a nuclear lysate from HeLa cells. Most of the activity is lost after Sephadex G-100 chromatography, but can be regained by mixing two fractions, FI and FII, that elute separately. FII has been further purified by chromatography on DEAE-cellulose and phosphocellulose, and is then totally dependent on FI for any activity with poly(I)·poly(C). However, FII retains some activity with poly(C); and in the presence of FI, it can be substituted by purified $\text{E. coli}$ RNase II for the degradation of poly(I)·poly(C). Thus, at least two macromolecular components participate in the bulk degradation of poly(I) poly(C) in HeLa nuclear lysates, and one of them may be a single-stranded exonuclease.     

Acacia senegal gum: continuum of molecular species differing by their protein to sugar ratio, molecular weight, and charges

The main chemical and physical features of the Acacia senegal exudate gum and its molecular fractions isolated by chromatographies were determined using a wide variety of methods. Three main molecular fractions were isolated after hydrophobic interaction chromatography (HIC) and biochemical analyses confirmed the presence of an arabinogalactan-peptide (FI), an arabinogalactan-protein (FII), and a glycoprotein (FIII) fraction as described commonly in the literature. Further purification of FIII using size exclusion chromatography revealed three distinct populations. A wide molecular weight distribution within each population with the presence of at least two distinct molecular species per population was identified by high performance size exclusion chromatography coupled to on line multi-angle laser light scattering (HPSEC-MALLS). In addition, both sugars content (neutral and uronic acids) and UV profiles revealed that FIII was composed of a continuum of molecular species differing both by their protein-to-sugar ratio and molecular weight. FI and FII had average molecular weight M(w) of 2.86 x 10(5) and 1.86 x 10(6) g.mol(-1), respectively, and a low polydispersity index (M(w)()/M(n) approximately 1.3). The three populations identified in FIII after HIC separation had M(w) of 2.67 x 10(6), 7.76 x 10(5), and 2.95 x 10(5) g.mol(-1) and very low polydispersity indexes (1.13, 1.04, and 1.01). Estimation of the polypeptide backbone length in the three fractions gave 43, 2253, and 4443 amino acid residues, respectively, hydroxyproline (Hyp) and serine being the most prominent residues within FI and FII, Hyp and Asx (asparagine + aspartic acid) within FIII. Secondary structure prediction from circular dichroism data resulted in polyproline II, beta-sheet, and random coil structures for FII and FIII, whereas no secondary structure was identified in FI. The existence of exposed tryptophanyl residues to the solvent was noticed by fluorescence in FII and FIII, tryptophan residues being absent from FI. In addition, 8-5' non cyclic diferulic acid was identified to be covalently linked to carbohydrate moieties of FII. Infrared spectroscopy identified the different vibrations of saccharidic and peptidic bonds with absorbance amplitudes in agreement with sugar and protein elementary analyses. Titration measurements in order to evaluate the number of charges on total Acacia gum and its molecular fractions revealed that 100% of charges came from polysaccharidic moieties (i.e., glucuronic acids) in FI. Charges coming from polysaccharidic moieties were of 91.3% and 37.9% for FII and FIII, respectively, the remaining 8.7% and 62.1% charges in FII and FIII molecular fractions coming from the polypeptidic backbone.     

Peripheral obestatin has no effect on feeding behavior and brain Fos expression in rodents

Obestatin is produced in the stomach from proghrelin by post-translational cleavage. The initial report claimed anorexigenic effects of obestatin in mice. Contrasting studies indicated no effect of obestatin on food intake (FI). We investigated influences of metabolic state (fed/fasted), environmental factors (dark/light phase) and brain Fos response to intraperitoneal (ip) obestatin in rats, and used the protocol from the original study assessing obestatin effects in mice. FI was determined in male rats injected ip before onset of dark or light phase, with obestatin (1 or 5 μmol/kg), CCK8S (3.5 nmol/kg) or 0.15 M NaCl, after fasting (16 h, n = 8/group) or ad libitum (n = 10–14/group) food intake. Fos expression in hypothalamic and brainstem nuclei was examined in freely fed rats 90 min after obestatin (5 μmol/kg), CCK8S (1.75 nmol/kg) or 0.15 M NaCl (n = 4/group). Additionally, fasted mice were injected ip with obestatin (1 μmol/kg) or urocortin 1 (2 nmol/kg) 15 min before food presentation. No effect on FI was observed after obestatin administration during the light and dark phase under both metabolic conditions while CCK8S reduced FI irrespectively of the conditions. The number of Fos positive neurons was not modified by obestatin while CCK8S increased Fos expression in selective brain nuclei. Obestatin did not influence the refeeding response to a fast in mice, while urocortin was effective. Therefore, peripheral obestatin has no effect on FI under various experimental conditions and did not induce Fos in relevant central neuronal circuitries modulating feeding in rodents.     

Separation of Antioxidant-Rich Alternanthera Sessilis Red Extracts by Sephadex LH-20 and Identification of Polyphenols Using HPLC-QToF-MS/MS

This study aimed to fractionate Alternanthera sessilis Red (ASR) crude extracts and determine their antioxidant activities as well as the related active components in the whole plant. ASR was extracted with water and ethanol, and further separated using a Sephadex LH-20 column. Following the assessments of the polyphenolic contents and antioxidant activities of crude extracts (H₂O_ASR and EtOH_ASR) and fractions, a HPLC-QToF analysis was performed on the crude extracts and selected fractions (H₂O_ASR FII and EtOH_ASR FII). Three water fractions (H₂O_ASR FI, FII and FIII) and four ethanolic fractions (EtOH_ASR FI, FII, FIII and FIV) were derived from their crude extracts, respectively. EtOH_ASR FII exhibited the greatest total phenolic content (120.41 mg GAE/g fraction), total flavonoid content (223.07 mg RE/g fraction), and antioxidant activities (DPPH IC₅₀=159.43 μg/mL; FRAP=1.93 mmol Fe²⁺/g fraction; TEAC=0.90 mmol TE/g fraction). Correlation analysis showed significant (p<0.01) positive correlations between both TPC (r=0.748–0.970) and TFC (r=0.686–0.949) with antioxidant activities in the crude extracts and fractions. Flavonoids were the major compounds in the four selected samples tentatively identified using HPLC-QToF-MS/MS, with the highest number of 30 polyphenol compounds detected in the most active fraction, EtOH_ASR FII.     

Recombinant expression, characterization, and pulp prebleaching property of a Phanerochaete chrysosporium endo-β-1,4-mannanase

A Phanerochaete chrysosporium cDNA predicted to encode endo-1,4-β-d-mannanase, man5D, was cloned and expressed in Aspergillus niger. The coding region of the gene man5D was predicted to contain, in order from the N-terminal: a secretory signal peptide, cellulose-binding domain, linker region, and glycosyl hydrolase family 5 catalytic site. The enzyme was purified from culture filtrate of A. niger transformants that carried the recombinant man5D. Recombinant Man5D had an apparent molecular size of about 65 kDa by SDS-PAGE, and optimal activity at pH 4.0–6.0 and 60 °C. It was stable from pH 4.0 to 8.0 and up to 60 °C. The enzyme showed affinity for Avicel cellulose, suggesting that the predicted cellulose-binding domain is biologically functional. The specific activities of Man5D on mannan, galactomannan, and glucomannan at pH 5 and 60 °C ranged from 160 to 460 μmol/(min mg), with apparent K_m values from 0.54 to 2.3 mg/mL. Product analysis results indicated that Man5D catalyzes endo-cleavage, and appears to have substantial transglycosylase activity. When used to treat softwood kraft pulp, Man5D hydrolyzed mainly glucomannan and exhibited a positive effect as a prebleaching agent. Compared to a commercial prebleaching with xylanase, the prebleaching effect of Man5D was weaker but with reduced loss of fibre yield as determined by the release of solubilized sugars.     

Adenosine-3':5'-monophosphate-dependent and plasma-membrane-associated protein kinase from bovine corpus luteum. Solubilization and properties of solubilized enzyme.

The solubilization of plasma membrane fractions FI and FII associated protein kinases has been attempted using monovalent salts of high ionic strength and various detergent treatments. Extraction of FI and FII plasma membranes with high ionic strength salt solutions did not release more than 20% of the protein kinase activity. Similarly, monovalent salts released little adenosine 3':5'-monophosphate (cyclic AMP) binding activity, but after extraction binding capacity of cyclic [3H]AMP to plasma membranes was increased about 150-200%. Triton X-100 was a better solubilizing agent that Lubrol WX or deoxycholate. In addition to solubilization, 0.1% Triton X-100 also stimulated the protein kinase activity 150-200%. The properties of Triton X-100 solubilized FI and FII and purified cytosol KII were characterized with respect to protein substrate specificity, effect of cyclic AMP, cyclic nucleotide specificity, effects of divalent metal ion and gonadotropins. Upon sucrose density gradient centrifugation, FI solubilized protein kinase and cyclic AMP binding activities co-sedimented with a sedimentation coefficient of 6.3 S. The FII solubilized protein kinase sedimented as two components with sedimentation coefficients of 7.7 S and 5.5 S. The cyclic AMP binding activity also sedimented as two components with sedimentation coefficient 6.7 S and 5.5 S. Cyclic AMP caused dissociation of solubilized protein kinase from FI into a single catalytic (4.8 S) and two cyclic AMP binding subunits (8.1 S and 6.7 S). FII solubilized enzyme was dissociated into one catalytic (4.8 S) and one cyclic AMP binding subunit (6.3 S). Fractionation of FI and FII solubilized enzymes on DEAE-cellulose column chromatography resolved them each into two peaks Ia, Ib and IIa, IIb, respectively. Peaks Ib and IIb were more sensitive to cyclic AMP STIMULATION THAN Ia and IIa peaks. From these studies it is concluded that the plasma-membrane associated and cytosol protein kinases have similar catalytic properties but differ in some of their physical properties.     

Structures of the galactomannans from seeds of Annona muricata, Arenga saccharifera, Cocos nucifera, Convolvulus tricolor, and Sophora japonica

Galactomannans were isolated from ripe seeds of Annona muricata (Annonaceae), Convolvulus tricolor (Convolvulaceae), Sophora japonica (Leguminosae), and from immature seeds of Arenga saccharifera and Cocos nucifera (both Palmae). Their sugar compositions were determined and their structures studied by the methylation and periodate-oxidation techniques. All the galactomannans studied are of the leguminous type, the molecules having main chains consisting of (1→4)-linked β- -mannose residues, with differing proportions of side chains consisting of single - -galactose residues linked to the main chains by (1→6)-bonds. The molecular weights were found to vary from 6,000 (Sophora) to 17,000 (Arenga). The isolation of the galactomannan of Annona is the first recorded occurrence of this type of polysaccharide in the family Annonaceae, whereas there has been a previous report of the occurrence of a galactomannan in the Convolvulaceae; the study of the structure of the Sophora galactomannan is the first one in the tribe Sophoreae of the Leguminosae.     

Compositional Difference of Wheat Flour Glutens in Relation to Their Aggregation Behaviors

Comparison of the aggregation behavior of gluten was made by following the turbidity change of gluten suspension with four kinds of glutens prepared from flours different in flour quality. The four kinds of glutens showed different behaviors suggesting a relation to the flour quality. From the observation of the aggregation behavior of separated glutensis and gliadins and also of reconstituted glutens, it was concluded that the aggregation behavior of gluten is determined mainly by the nature of glutenin it contains. To investigate the difference of compositions of glutenins, component polypeptides of glutenin were fractionated by gel filtration into three fractions FI, FII and FIII after reduction and cyanoethylation of glutenin The glutenin from a strong flour was rich in FII, while the glutenin from a weak flour in FI. The observation of the aggregation behaviors of FI, FII and FIII suggested that the aggregation behavior of glutenin depends on the contents of these fractions.