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1.
The phase separation behavior of whey protein isolate (WPI) aggregates and κ-carrageenan (κ-car) mixtures was studied using the Vrij's theory and image analysis method. The intrinsic parameter (molecular mass and radius of gyration) for κ-car and the WPI aggregates was determined using intrinsic viscosity and reduced viscosity of each biopolymer. Confocal microscopy observations revealed the appearance of protein aggregate domains when phase separation occurred, with microgel droplets of WPI included in a continuous κ-car phase. The occurrence of aggregate droplet has not been reported before for the phase-separating WPI/κ-car mixtures. So far, network emulsion-like microstructures have been observed with WPI in a network structure. By using different WPI concentrations (4% or 6%), the microstructure of the systems changes while increasing the κ-car concentration. The size of the microgels (1–2.5 μm) depends on both κ-car and WPI concentration. Confocal microscopy combined with image analysis (method of the variance) was used effectively as objective means to determine the phase boundary of the phase-separating systems. Additional information on the depletion layer thickness, Δ, was obtained using self-consistent field theory. The results show that Δ has a constant value of 80.5 nm for ck - car \prec 2 g/l {{\hbox{c}}_{\kappa {\rm{ - car}}}} \prec {\hbox{2 g}}/{l} , in agreement with ∆ ≈ R g (radius of gyration). Above this concentration, Δ decreases as a function of κ-car concentration. The experimental phase boundary was well predicted using Vrij's theory. This work showed a new approach to generate phase diagrams (e.g., under shear) of phase-separating systems.  相似文献   

2.

The present work aimed to study the influence of the pH and protein ratio on the formation of complex coacervates of carboxymethylcellulose (CMC) and whey protein isolated nanoparticles (WPIN). These biopolymers and transglutaminase, as a cross-linking agent, were used to encapsulate sacha inchi oil (SIO) containing β-carotene (β-C). The stability of β-C from SIO microcapsules (β-SIO microcapsules) was evaluated under in vitro digestion using an INFOGEST 2.0 in vitro digestion protocol. The release of β-C in a simulated food model was studied, and mathematical models were used to determine the mechanism. A ratio of 1:6 (CMC/WPIN) at pH 3.5 was used for the formation of the complex. Chemical and morphological analyses suggested that SIO was microencapsulated and that a high encapsulation efficiency was obtained. The β-C from β-SIO microcapsules was preserved in vegetable oil (food model), and Fickian diffusion occurred. The β-C from β-SIO microcapsules was preserved under oral and gastric conditions, and higher release occurred during intestinal digestion when samples were subjected to in vitro digestion simulation. After in vitro digestion, the β-C from β-SIO microcapsules presented higher stability (83.37%) and acceptable bioaccessibility (31.16%). There are few studies in the literature of encapsulated SIO using the CMC/WPIN complex or studies of the release of β-carotene from SIO during in vitro digestion and in food simulants. The knowledge obtained in this study will facilitate the use and applications of β-C-loaded microcapsule delivery systems.

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4.
It was recently shown that the shrimp high-density lipoprotein (HDL) and the β-1,3-glucan binding protein (BGBP) are identical, implying dual functions for the same protein: lipid transport and involvement in the defense system. Because this protein is present in plasma, and the hepatopancreas is a major lipid storage gland, we investigated the presence of the HDL/BGBP polypeptide and its messenger RNA in this tissue using a monospecific antibody against HDL/BGBP. Hepatopancreas crude protein extracts, as well as polypeptides produced by poly(A)+ RNA in vitro translation, were recognized by the anti-HDL/BGBP. Furthermore, a specific pattern was revealed in hepatopancreas thin sections by immunodetection. Strong recognition was seen in the epithelial cells of hepatopancreatic tubules, probably related to the secretion process of this protein. Received September 24, 1999; accepted April 5, 2000.  相似文献   

5.
Liquid-liquid phase separation (LLPS) has recently emerged as a possible mechanism that enables ubiquitin-binding shuttle proteins to facilitate the degradation of ubiquitinated substrates via distinct protein quality control (PQC) pathways. Shuttle protein LLPS is modulated by multivalent interactions among their various domains as well as heterotypic interactions with polyubiquitin chains. Here, the properties of three different shuttle proteins (hHR23B, p62, and UBQLN2) are closely examined, unifying principles for the molecular determinants of their LLPS are identified, and how LLPS is connected to their functions is discussed. Evidence supporting LLPS of other shuttle proteins is also found. In this review, it is proposed that shuttle protein LLPS leads to spatiotemporal regulation of PQC activities by mediating the recruitment of PQC machinery (including proteasomes or autophagic components) to biomolecular condensates, assembly/disassembly of condensates, selective enrichment of client proteins, and extraction of ubiquitinated proteins from condensates in cells.  相似文献   

6.
The aggregation behavior as a function of pH was studied for hydrolysates obtained by hydrolysis of soy protein isolate (SPI) and glycinin- and β-conglycinin-rich protein fractions with subtilisin Carlsberg. The substrates were hydrolyzed up to degrees of hydrolysis (DH) of 2.2% and 6.5%. Compared with nonhydrolyzed SPI, a decrease in solubility was observed for the hydrolysates of SPI [0.8% (w/v) protein, I = 0.03 M] around neutral pH. At pH 8.0, glycinin hydrolysates had a much lower solubility (∼43% and 60%, respectively, for DH 2.2% and 6.5%) than SPI and β-conglycinin-derived hydrolysates, which were almost completely soluble. Peptides that aggregated were all larger than 5 kDa, and as estimated by size-exclusion chromatography their composition was almost independent of the aggregation pH. The solubility of hydrolysates of SPIs with a varying glycinin and β-conglycinin composition showed that glycinin-derived peptides are the driving force for the lower solubility of SPI hydrolysates. The solubility of SPI hydrolysates at pH 8.0 was shown not to be the sum of that of glycinin and β-conglycinin hydrolysates. Assuming that the separate hydrolysis of glycinin and β-conglycinin did not differ from that in the mixture (SPI), this indicates that β-conglycinin-derived peptides have the ability to inhibit glycinin-derived peptide aggregation.  相似文献   

7.
The rate of β-phase formation in the ether lipids 1-O-alkylglycerols have been investigated at various temperatures. The concentrations of the phases vs. time in 1-O-hexadecylglycerol (C16G) were measured using automatic X-ray powder diffraction peak area measurements. In 1-O-decylglycerol (C16G) the rate was estimated using the heat evolved during the transition. At least two factors are important for the low transition rate. At higher temperatures the rate appears to be limited by a low probability of β crystallite formation (nucleation). As the temperature is decreased, crystallite formation probably increases. A second factor involves an activation of the metastable lattice. The activation process results in a lower rate at decreased temperatures. The two factors together give the highest transition rate at the α ? sub-α-phase transition temperature.  相似文献   

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10.
Upon carbon starvation the -carotene content of Phycomyces mycelium grown on minimal agar medium disappears with a time lag of about 90 min and a T1/2 of 68–75 min. If continuous light is given 2 h after starvation, there is an increase in -carotene content with respect to the dark control. This increase has a time lag of 20–25 min. The fluence rate-response curve of wt is biphasic and two mutants in the gene madA (madA7, madA35) and in the gene madB (madB101, madB104) have higher thresholds than wt; madB mutants are blinder than madA mutants. Only blue light is effective and we suggest that it has an effect solely on the catabolism of -carotene.Abbreviations D dark - L light - wt wild type  相似文献   

11.
Three different types of β-d-galactosidase (EC 3.2.1.23) could be distinguished in rabbit tissues using electrophoretic procedures. (1) Acid β-d-galactosidase with a low mobility and maximal activity atpH 3–5 was found in the particulate fraction of various tissue homogenates. This enzyme hydrolyzed 4-methylumbelliferyl-d-galactoside, but no activity against other glycoside substrates could be demonstrated. The enzyme was inhibited by galactono-(1 → 4)-lactone. (2) Lactose-hydrolyzing β-d-galactosidase with an intermediate mobility was found only in juvenile small intestine. Most of the activity was found in the particulate fraction of the cell. The enzyme hydrolyzed several other synthetic glycoside substrates besides lactose. It was most active atpH 5–6 and strongly inhibited by glucono-(1 → 5)-lactone but not much affected by galactono-(1 → 4)-lactone. (3) Neutral β-d-galactosidase with a fast mobility and maximal activity atpH 6–8 was found in the soluble fraction of homogenates from liver, kidney, and small intestine. This enzyme also showed a broad substrate specificity; it possessed activity against aryl-β-d-glucoside, -fucoside, and -galactoside substrates but not against lactose. The enzyme was strongly inhibited by glucono-(1 → 5)-lactone and (less) by galactone-(1 → 4)-lactone. Neutral β-d-galactosidase and neutral β-d-glucosidase (EC 3.2.1.21) are probably identical enzymes in the rabbit. Individual variation, in both electrophoretic mobility and activity, was found for neutral β-d-galactosidase. Genetic analysis of the electrophoretic variants revealed that two alleles at an autosomal locus are responsible for this variation. This investigation was supported in part by Public Health Service Grant RR-00251 from the Division of Research Resources and by funds of the University of Utrecht.  相似文献   

12.
The purpose of this study was to investigate the influence of pectin type on complex formation between whey protein isolate (WPI) and high methoxy pectins with varying degrees of esterification (DE), and their pH stability. The biopolymer particles with protein-to-polysaccharide mass ratio set to 2:1 were formed at pH 3–7 by heating at 85 °C for 20 min. The particle size, electrical charge, turbidity and microstructure of the biopolymer complexes were evaluated. The optimal conditions for forming WPI-pectin complexes were at the initial pH of 4.5–4.75, just below the isoelectric point of the WPI, where complex formation occurs. At this pH range, the smallest biopolymer complexes (d?=?225–300 nm) could be created. Pectins with 50, 55, 62 and 70 % DE formed relatively small and monomodal complexes with WPI, except for pectin with 71 % DE, which showed major aggregation. The pH stability against aggregation was best with the biopolymer complexes assembled from pectins with 50 % DE (stable at pH 3.5–6.0) and with 62 % DE (stable at pH 3.0–6.0). The results suggest that pectins with varying DE can be used to form small particles and therefore can offer new possibilities in designing novel hierarchical structures and delivery systems.  相似文献   

13.
Rhodnius prolixus Nitrophorin 4 (abbreviated NP4) is an almost pure β-sheet heme protein. Its dynamics is investigated by X-ray structure determination at eight different temperatures from 122 to 304 K and by means of Mössbauer spectroscopy. A comparison of this β-sheet protein with the pure α-helical protein myoglobin (abbreviated Mbmet) is performed. The mean square displacement derived from the Mössbauer spectra increases linearly with temperature below a characteristic temperature T c. It is about 10 K larger than that of myoglobin. Above T c the mean square displacements increase dramatically. The Mössbauer spectra are analyzed by a two state model. The increased mean square displacements are caused by very slow motions occurring on a time scale faster than 140 ns. With respect to these motions NP4 shows the same protein specific modes as Mbmet. There is, however, a difference in the fast vibration regime. The B values found in the X-ray structures vary linearly over the entire temperature range. The mean square displacements in NP4 increase with slopes which are 60% larger than those observed for Mbmet. This indicates that nitrophorin has a larger structural distribution which makes it more flexible than myoglobin.  相似文献   

14.
The formation of electrostatic complexes within mixtures of canola protein isolates (CPI) and gum Arabic (GA) was investigated by turbidity during an acid pH titration (7.00–1.50) as a function of mixing ratio (1:1 to 8:1 CPI: GA), and the resulting functional properties (e.g., flow behavior, solubility, foaming and emulsification) of formed complexes were studied. Complexation typically follows two pH-dependent structure forming events associated with the formation of soluble (pHc) and insoluble complexes (pH?1). Both pHc and pH?1, was found to shift to higher pHs with increasing mixing ratio until reaching a plateau at a 4:1 CPI-GA ratio. Maximum coacervation occurred at pH 4.20 at a ratio of 2:1 CPI-GA, prior to complete dissolution at pH 2.20. The coacervate phase was pseudoplastic in nature, with some evidence of elastic-like behavior associated with a weakly interconnected network or entangled polymer solution. Solubility of CPI and CPI-GA was found to be pH-dependent with minimum solubility occurring at pH 4.00 and 3.00, respectively. Foaming and emulsifying properties of CPI-GA remained unaffected relative to CPI alone, except foaming capacity which was reduced for the mixed system.  相似文献   

15.
Separation of α- and β-Globin Messenger RNAs   总被引:2,自引:0,他引:2  
THE 10S RNA fraction of reticulocytes from various species contains the haemoglobin messenger RNA1–4. When this 10S RNA fraction is added to a cell-free system derived from reticulocytes or Krebs II ascites cells, it directs the synthesis of α and β chains of haemoglobin5–8. The α and β messenger RNA molecules contained in this fraction, however, have not yet been separated and identified. When reticulocyte. RNA of mouse is subjected to electrophoresis on 6% polyacrylamide gels, the 10S fraction contains two major bands and three minor bands9, suggesting that the major lOS RNA bands contain the messenger RNAs for the α- and β-globin chains.  相似文献   

16.
1. Beta-Ketothiolase of Clostridium pasteurianum was purified 130-fold by ammonium sulphate fractionation and by column chromatography using DEAE-Sephadex A-50 and hydroxylapatite. Subjected to gel electrophoresis beta-ketothiolase revealed two distinct bands; by isoelectric focusing two enzymes with isoelectric points at pH 4.5 and 7.6 were separated. As established by sucrose density gradient centrifugation the molecular weight of both enzymes was found to be 158000. 2. The condensation reaction was measured by a coupled optical test using beta-hydroxybutyryl-CoA dehydrogenase as auxiliary enzyme and either acetyl-CoA or free coenzyme A plus acetyl-phosphate and phosphotransacetylase (regenerating system) or acetyl-CoA plus regenerating system as substrates. Beta-Ketothiolase from C. pasteurianum used only 20% of the chemically synthesized acetyl-CoA; the enzyme from Alcaligenes eutrophus H 16 used 25%. When the regenerating system was added the condensation reaction continued. The enzyme from C. pasteurianum was inactivated by free coenzyme A, while the enzyme from A. eutrophus was inhibited. When acetyl-CoA was added as the substrate the initial velocity determination was impeded by the lack of linearity. With acetyl-CoA as the substrate the Km-value was found to be 2.5 mM acetyl-CoA. If free CoASH (or acetyl-CoA) plus regenerating system was added the Km was 0.44 mM (0.42 mM) acetyl-CoA. 3. The beta-ketothiolase activity was measured in the direction of acetoacetyl-CoA cleavage by an optical assay following the decrease of the enol and chelate form of acetoacetyl-CoA by absorption measurement at 305 nm. The activity was maximal at 24 nM MgCl2. The apparent Km values for acetoacetyl-CoA were 0.133 mM and 0.105 mM with 0.065 and 0.016 mM CoASH, respectively. The Km-values as calculated for only the keto form of acetoacetyl-CoA were 0.0471 and 0.0372 mM, respectively. The cleavage reaction was inhibited by high acetoacetyl-CoA concentrations; the inihibition was partially relieved by CoASH. In the range of low concentrations of acetoacetyl-CoA only a slight inhibition by CoASH was observed. The Km for CoASH was found to be 0.0288 and 0.0189 mM with 0.09 and 0.045 mM acetoacetyl-CoA, respectively. High concentrations of CoASH exerted an inhibitory effect on the cleavage reaction. With respect to enzyme kinetics and sensitivity to inhibitors and metabolites the beta-ketothiolases of C. pasteurianum and A. eutrophus were rather similar.  相似文献   

17.
Two types of β-glucan synthases, GS-I and GS-II, were found in cultured rice cells (Oryza sativa L.). In glycerol density gradient centrifugation, GS-I activity peak co-migrated with a marker enzyme of the Golgi membrane, while GS-II co-migrated with the plasma membrane. Analysis of the reaction products of GS-I and GS-II, suggested that GS-I and GS-II were mainly β-1,4,- and β-1,3-glucosyltransferases, respectively. GS-I had a higher substrate affinity for UDP-glucose than GS-II, and needed divalent cations for its activity. Effects of nucleotides on the activity were also considerably different between GS-I and GS-II. GS-I was solubilized well with CHAPS and digitonin, and GS-II was solubilized effectively with sucrose monolaurate.  相似文献   

18.
It is becoming increasingly clear that many proteins start to fold cotranslationally before the entire polypeptide chain has been synthesized on the ribosome. One class of proteins that a priori would seem particularly prone to cotranslational folding is repeat proteins, that is, proteins that are built from an array of nearly identical sequence repeats. However, while the folding of repeat proteins has been studied extensively in vitro with purified proteins, only a handful of studies have addressed the issue of cotranslational folding of repeat proteins. Here, we have determined the structure and studied the cotranslational folding of a β-helix pentarepeat protein from the human pathogen Clostridium botulinum—a homolog of the fluoroquinolone resistance protein MfpA—using an assay in which the SecM translational arrest peptide serves as a force sensor to detect folding events. We find that cotranslational folding of a segment corresponding to the first four of the eight β-helix coils in the protein produces enough force to release ribosome stalling and that folding starts when this unit is ~ 35 residues away from the P-site, near the distal end of the ribosome exit tunnel. An additional folding transition is seen when the whole PENT moiety emerges from the exit tunnel. The early cotranslational formation of a folded unit may be important to avoid misfolding events in vivo and may reflect the minimal size of a stable β-helix since it is structurally homologous to the smallest known β-helix protein, a four-coil protein that is stable in solution.  相似文献   

19.
β-1,3-Glucan and chitin are the most prominent polysaccharides of the fungal cell wall. Covalently linked, these polymers form a scaffold that determines the form and properties of vegetative and pathogenic hyphae. While the role of chitin in plant infection is well understood, the role of β-1,3-glucan is unknown. We functionally characterized the β-1,3-glucan synthase gene GLS1 of the maize (Zea mays) pathogen Colletotrichum graminicola, employing RNA interference (RNAi), GLS1 overexpression, live-cell imaging, and aniline blue fluorochrome staining. This hemibiotroph sequentially differentiates a melanized appressorium on the cuticle and biotrophic and necrotrophic hyphae in its host. Massive β-1,3-glucan contents were detected in cell walls of appressoria and necrotrophic hyphae. Unexpectedly, GLS1 expression and β-1,3-glucan contents were drastically reduced during biotrophic development. In appressoria of RNAi strains, downregulation of β-1,3-glucan synthesis increased cell wall elasticity, and the appressoria exploded. While the shape of biotrophic hyphae was unaffected in RNAi strains, necrotrophic hyphae showed severe distortions. Constitutive expression of GLS1 led to exposure of β-1,3-glucan on biotrophic hyphae, massive induction of broad-spectrum defense responses, and significantly reduced disease symptom severity. Thus, while β-1,3-glucan synthesis is required for cell wall rigidity in appressoria and fast-growing necrotrophic hyphae, its rigorous downregulation during biotrophic development represents a strategy for evading β-glucan–triggered immunity.  相似文献   

20.
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