Relationship between biotin-binding proteins from chicken plasma and egg yolk.

The plasma of laying hens contains a specific biotin-binding protein that appears to be identical with an egg-yolk biotin-binding protein. Both proteins are saturated with biotin and require elevated temperatures to effect the exchange of [14C]biotin for the protein-bound vitamin. The heat-exchange curve in each case is the same and differs sharply from that of avidin, the egg-white biotin-binding protein. On Sephadex G-100 gel filtration, plasma and yolk biotin-binding proteins were each eluted slightly ahead of avidin (mol.wt. 68,000), suggesting that they are of similar molecular weight. Plasma and yolk biotin-binding proteins required the same ionic strength to be eluted from a phosphocellulose ion-exchange column. Both the plasma and yolk biotin-binding proteins had a pI of 5; avidin has a pI of 10. Plasma biotin-binding protein cross-reacted with antiserum to yolk biotin-binding protein and showed a precipitin line of identity with purified yolk biotin-binding protein. It is suggested that biotin-binding plays an important role in mediating the transport of the vitamin from the bloodstream to the developing oocyte.     

Isolation and partial characterization of polymorphic prealbumins from chicken egg yolk and serum

Polymorphic prealbumins (Pa A, Pa AB and Pa B) from hen's egg yolk ( Gallus gallus L.) were isolated by gel filtration. Prealbumin was homogeneous on immunoelectro-phoresis, gel filtration, and ion-exchange chromatography, but heterogeneous on starch gel electrophoresis (five bands). The heterogeneity could be removed by neuraminidase treatment. Some physical and chemical properties were determined, namely molecular weight (19,500), N-terminal amino acid (aspartic acid), isoelectric point (pH 4.6-4.7), A^1%_1cm,280nm value (18.5), absorption spectrum, solubility at different conditions, and the effect of heating. Amino acid composition was estimated too, and the presence of about 4% hexose was proved.     

31P-NMR characterization of hen egg yolk and egg white

The avian egg is an isolated system where embryonic development can easily be studied. Furthermore, the system can be subjected to various environmental constraints. Its size is such that it can easily be accommodated in most NMR instruments. This is demonstrated by a recent 31P-NMR surface coil experiment where the increase of embryo size and development could be judged by the levels of ATP and phosphocreatine (Belton, P.S., Gordon, R.E., Jones, J.M. and Shaw, D. (1983) Br. Poult. Sci. 24, 429-433).     

Occurrence of glycosphingolipids in chicken egg yolk.

Chicken egg yolk was found to contain a unique glycosphingolipid pattern not seen in other types of tissue or cell. These glycosphingolipids were isolated in pure form and their structures established by sequential enzymic hydrolysis and permethylation analysis. The major gangliosides in chicken egg yolk are N-acetylneuraminosylgalactosylceramide, N-acetylneuraminosyl-lactosylceramide and di-N-acetylneuraminosyl-lactosylceramide. The only neutral glycosphingolipid found in chicken egg yolk is galactosylceramide.     

One-step purification of proteins from chicken egg white using counter-current chromatography

Proteins present in chicken egg white are separated by counter-current chromatography (CCC) in one step using a cross-axis coil planet centrifuge (X-axis CPC). The separation was performed with an aqueous polymer two-phase system composed of 16% (w/w) poly(ethylene glycol) 1000 and 12.5% (w/w) dibasic potassium phosphate by eluting the lower phase at a flow-rate of 1.0 ml/min. From about 20 g of the crude egg white solution, lysozyme, ovalbumin, and ovotransferrin were resolved within 5.5 h. Each component was identified by 12% SDS gel electrophoresis with Coomassie brilliant blue staining.     

The chicken egg yolk plasma and granule proteomes

Using 1-D SDS-PAGE, LC-MS/MS, and MS(3), we identified 119 proteins from chicken egg yolk, 86 of which were not identified in yolk previously. Proteins were roughly quantitated by calculating their exponentially modified protein abundance index (emPAI) to classify them as major or minor yolk components, and to estimate their distribution between yolk plasma and yolk granular fraction. The proteins with highest abundance were serum albumin, the vitellogenin cleavage products, apovitellenins, IgY, ovalbumin, and 12 kDa serum protein with cross-reactivity to beta2-microglobulin. In addition yolk contained many other serum and egg white proteins, the proteases nothepsin and thrombin, numerous protease inhibitors, and antioxidative enzymes, such as superoxide dismutase and glutathione peroxidase. Among the moderately abundant proteins were two alpha2-macroglobulin-like proteins different from egg white alpha2-macroglobulin, and the major biotin-binding protein of yolk. An unexpected identification was that of the eggshell matrix protein ovocleidin-116, which was previously thought to be eggshell-specific. The list of chicken egg yolk proteins provided in this report is by far the most comprehensive at present and may serve as a starting point for the characterization of less well-known yolk proteins.     

The chicken egg white proteome

Using 1-D PAGE and LC-MS/MS and MS(3) we identified 78 chicken egg white proteins, 54 of which were identified in egg white for the first time. All proteins were quantitated by calculating their exponentially modified protein abundance index (emPAI). Some previously known egg white components not characterized by amino acid sequences before, such as alpha-2-macroglobulin, were associated to a sequence for the first time. The predicted sequence was confirmed by MS-sequenced peptides covering 42% of the entire sequence. alpha-2-Macroglobulin occurred in egg white at the same concentration as ovostatin with which it showed 35% identity. For other proteins, which were previously only characterized by partial sequences, such as beta-ovomucin or ovalbumin X, we identified and confirmed predicted complete sequences with a high coverage by MS-sequenced peptides. New proteins included a 7 kDa protein consisting of a single secretoglobin sequence (ovosecretoglobin), a 7 kDa protein with similarity to black swan cygnin and turkey meleagrin (gallin) and proteins involved in binding, modification, and possibly detoxification, of bacterial lipopolysaccaride. The list of egg white proteins provided is by far the most comprehensive at present and is intended to serve as a starting point for the isolation and functional characterization of interesting new proteins.     

Identification of N-acetylglucosamine-binding immunoglobulins in chicken egg yolk and serum distinct from the major mannose-binding immunoglobulins.

An N-acetyl-D-glucosamine (GlcNAc)-binding protein of 170 kDa has been isolated from hen serum and egg yolk. Another GlcNAc-binding protein of higher molecular mass was present only in the serum. The 170 kDa protein co-electrophoresed and co-chromatographed in gel filtration with a chicken IgG, and behaved identical to chicken IgG in double immunodiffusion with goat anti-chicken gamma chain antiserum. The sugar-binding hierarchy for the serum and yolk binding proteins, determined with bovine serum albumin neoglycoproteins, was GlcNAc greater than N-acetyl-D-galactosamine greater than glucose = galactose = L-fucose greater than mannose. This hierarchy was unlike any previously reported GlcNAc-binding proteins. The larger serum binding protein component was shown to be an IgM by double immunodiffusion with goat anti-chicken mu chain antiserum. The serum and yolk GlcNAc-binding proteins comprise a unique set of sugar-binding immunoglobulins distinct from the previously reported hen serum and yolk mannose-binding proteins (Wang et al., 1986).     

Comparative studies of phosvitin from chicken and salmon egg yolk

• 1.1. A method developed for the isolation of phosvitin from chicken egg yolk was successfully applied to the isolation of phosvitin from salmon eggs.
• 2.2. Salmon roe phosvitin is smaller in molecular size than chicken egg phosvitin.
• 3.3. Circular dichroism spectra of all phosvitins investigated displayed good similarities with spectra showing characteristics of unordered and β-sheet secondary structure.
• 4.4. The main component in the Fourier transform infrared spectra of chicken egg phosvitin is indicative of unordered conformation, whereas the Fourier infrared data of the salmon egg phosvitin are consistent with more of β-sheet structure compared to the chicken egg phosvitin.

     

Production and purification of IgY antibodies from chicken egg yolk

The isolation of polyclonal antibodies from the serum of immunized mammals has significantly contributed to scientific research and diagnosis. The fact that recent technologies allow the production of antibodies in the yolk of eggs laid by hens, has led to the development of an alternative method for antibody generation that is less stressful to animals. As hens are kept under almost all their natural conditions, antibodies are isolated from the collected eggs; this technology is expected to become an interesting alternative to the conventionally serum-based techniques that eventually require to sacrifice the animal.Here we present a modified protocol for the isolation of IgY antibodies from immunized chickens and provide comparison between two chicken breeds in relative to IgY yield per egg. Our results show the possibility of generating large quantities of highly pure IgY from chicken eggs and also show large differences in the yield of IgY production between the two studied breeds. The results of this work indicate that IgY technology can be used for the production of primary antibodies for immunological work and disease diagnosis.     

Apolipoproteins and lipoprotein families in chicken embryos and egg yolk.

1. Turkey anti-LP-A and anti-LP-B cross react strongly with whole adult chicken serum. 2. Similar reactions occur with whole chicken embryo sera (10-21 days of incubation) and egg yolk fluid. 3. Ultracentrifugation of sera from 14-day old chicken embryos, after reaction with anti-LP-B, reveal complete precipitation of the VLDL and LDL of embryo serum (indicating that adult-type LP-B is the major apolipoprotein of these density classes). 4. All of the chicken embryo adult-type apo-LP-A is in the HDL fraction. 5. However, egg yolk and hen serum VLDL contain apo-LP-A as well as apo-LP-B.     

Avidin traps biotin diffusing out of chicken egg yolk

1. The unequal distribution of biotin and biotin-binding proteins between the yolk and albumen of freshly laid chicken eggs provides the potential for time-dependent redistribution of biotin that could affect egg quality, biotin availability, and hatchability. 2. Avidin-bound biotin was measured in albumen next to the shell and next to the yolk in eggs stored up to 23 days. 3. Biotin bound to biotin-binding proteins (BBP-I and BBP-II) was measured at the center and periphery of yolk from the same eggs. 4. After 11 days of storage, significant amounts of biotin from the yolk began to accumulate in the albumen adjacent to the yolk. 5. This transfer is attributed to a change in the vitelline membrane that permits diffusion of biotin, not BBP-I or BBP-II, out of the yolk. 6. The dynamics of this phenomenon suggest that in addition to its antimicrobial role, avidin may be involved in the utilization of biotin by the chick embryo.     

Sulfhydryl proteins of penguin egg white: Ovalbumin and penalbumin. Comparisons with penguin serum albumin,chicken ovalbumin,and bovine serum albumin

Penalbumin (PEN), a newly discovered sulfhydryl-containing glycoprotein from egg whites of penguins(Sphenisciformes), is a major constituent of all penguin egg whites studied, but it is low or very low in most other egg whites studied. Adelie penguin(Pygoscelis adeliae) egg white contains ～30% ovalbumin (POVAL) and 25% PEN, while chicken egg white contains ～55% ovalbumin (COVAL) and <0.01% PEN. PEN has a molecular weight of 61,000 and contains 15% carbohydrate and two sulfhydryl groups, but no phosphates. POVAL has a molecular weight of 48,000 and contains 7% carbohydrate, three sulfhydryl groups, and one phosphate. Penguin serum albumin (PSA) has properties which are very similar to bovine serum albumin (BSA), and the composition and properties of PEN were suggestive of an ancestral relationship to POVAL and COVAL. PEN reacts slowly with 5,5′-dithiobis(2-nitrobenzoic acid) (DTNB), while POVAL reacts rapidly. On simultaneous addition of DTNB and cystamine (β,β′-diaminodiethyl disulfide) the rate of reaction with PEN was increased, but not with POVAL.     

Preventive effect of egg yolk phosvitin on heat-insolubilization of egg white protein and its application to heat-induced egg white gel

The effects of phosvitin (PV) on insolubilization of egg white protein (EWP) and ovotransferrin (OT) were examined by measuring turbidity after heating at 80 degrees C in a pH range of 5 to 8. PV showed preventive ability against heat-insolubilization of EWP, especially heat-labile OT. The preventive ability of PV was reduced by adding NaCl to a PV-OT mixture on heating. Native PAGE and gel filtration analyses showed that PV prevented an insolubilization of heat-denatured OT through ionic interactions. The preventive effects of PV on insolubilization of EWP and OT resulted in the formation of a firm, transparent gel from EWP in coexistence with PV on heating. The addition of PV might make possible the preparation of liquid egg white without insoluble products even on heat-treatment at high temperatures.     

Antimicrobial activity of chicken egg white cystatin

The cysteine protease inhibitor cystatin was purified from chicken egg white and its antimicrobial activity determined for a series of pathogenic bacteria. The results indicate that Acinetobacter lwoffii, Escherichia coli, Oligella sp. and Pseudomonas aeruginosa are highly sensitive to low concentrations of cystatin, which possesses bactericidal activity. No inhibition was observed with a Citrobacter freundii strain. Fifty percent growth inhibition (IC₅₀) was observed at cystatin concentrations in the range of 80 and 100g/ml, and the growth was completely inhibited at concentrations in the range of 100 and 200g/ml. Fifty percent growth inhibition (IC₅₀) for Staphylococcus aureus, Staphylococcus gallinarum, and Staphylococcus xylosus strains was observed at 150 and 200 g of cystatin/ml respectively, and growth was completely inhibited at cystatin concentrations in the range of 300 and 1000 g/ml. The activity of cysteine proteases was significantly decreased in the culture supernatant of microorganisms when chicken cystatin was added. In this study, we observed that chicken cystatin may be a candidate for antibacterial drug development aiming at controlling bacterial pathogens including Escherichia coli, Pseudomonas aeruginosa, and another possible application might be as a therapeutic agent for health improvement.     

Nature of the thiamin-binding protein from chicken egg yolk.

A simple, rapid and efficient procedure for the purification of thiamin-binding protein from chicken egg yolk was developed. The method involved removal, by exclusion, of lipoproteins from DEAE-cellulose and subsequent elution of water-soluble proteins held on the ion-exchanger with 1 M-NaCl, followed by treatment of the eluted protein fraction with an aqueous suspension of dextran/charcoal to generate apoprotein from the holoprotein. The resultant protein fraction was subjected to bioaffinity chromatography on thiamin pyrophosphate--AE (aminoethyl)-Sepharose. The protein eluted specifically with 10 microM-thiamin at pH 7.0, was homogeneous by the criteria of polyacrylamide-gel disc electrophoresis, had a mol.wt. of 38 000 +/- 2000 and was not a glycoprotein. The purified thiamin-binding protein specifically interacted with riboflavin-binding protein with no detectable deleterious affect on its (14C)thiamin-binding capacity. The protein bound [14C]thiamin with a molar ratio of 1.0, with dissociation constant (Kd) 0.41 microM. This protein-ligand interaction was inhibited by thiamin analogues and antagonists. The absorption spectrum of the protein in the presence of thiamin exhibited significant hypochromism at the 278 nm band, indicating the involvement of aromatic amino acid residues of the protein, during its binding to the ligand. The protein cross-reacted with the monospecific antiserum to egg-white thiamin-binding protein, showing thereby that thiamin-binding proteins present in chicken egg yolk and white are the products of the same structural gene.