WO2002049449A1 - Protein hydrolysis system - Google Patents

Abstract

The increasing number of BSE diseases in cattle in recent years is associated with feeding animals meat meal, animal blood meal and animal bone meal. Slaughterhouse wastes from sheep (scrapie pathogens), goats (scrapie pathogens) and from cattle (BSE pathogens) are processed into meat meal, animal blood meal and into animal bone meal and are then fed to cattle. All methods used in Europe for producing meat meal, animal blood meal and animal bone meal have been proven unreliable in destroying the pathogens and thus in providing protection against the transmission of the disease (BSE). In these methods, the raw material (animal cadavers and wastes) are comminuted, heated and dried. After pressing out the fat, the material is ground into bone meal. The temperatures used for sterilizing are, however, incapable of destroying the pathogen. As a result, infectious meat-and-bone meal as well as infectious animal fat enter the feed cycle. Meat meal, animal blood meal and animal bone meal are fed to cattle, pigs, sheep, poultry and cultivated fish. The inventive method and the procedure provide a novel approach to destroying and eradicating the proteins contained in the meat meal, animal blood meal and animal bone meal and, with them, the pathogens of prion diseases. The principle is based on the chemical breakdown of the proteins into their individual parts: amino acids. Thanks to this procedure, information can no longer be transferred thereby preventing the triggering of disease. In addition, the protein involved in the disease BSE is broken down into its constituents and can no longer unleash its harmful effect. After decomposition is complete, the solution is neutralized with amino acids (rendered pH neutral by adding alkaline or acid neutralizing agents), and the amino acids are recovered as solid matter by drying. This solid matter can be used in agriculture (e.g. as an animal feed supplement) in place of present day meat meal, animal blood meal and animal bone meal.

Description

 description

Eiweisshydrolyseanlage

The invention relates to a plant which separates proteins, such as those present in animal meal, animal blood meal and animal bone meal, into amino acids by dissolving them in acidic or basic solution. By subsequent neutralization (pH neutral) and drying, a prion-free solid is obtained from the liquid.

The increasing number of BSE diseases in cattle in recent years has been linked to the feeding of animal meal, animal blood meal and animal bone meal. Slaughter waste from sheep (scrapie pathogen), goat (scrapie pathogen) and cattle (BSE pathogen) are processed into animal meal, animal blood meal and animal bone meal and fed to cattle.

All methods used in Europe for the production of animal meal, animal blood meal and animal bone meal are proven to be unsafe to kill the pathogens and thus provide protection against the transmission of the disease (BSE). In this process, the raw material (animal carcasses and waste) is crushed, heated and dried. After pressing the fat, the material is ground to bone meal. However, the temperatures used for sterilization are not able to destroy the pathogen. Infectious meat bone meal and also infectious animal fat thus enter the feed cycle. Animal meal, animal blood meal and animal bone meal are fed to cattle, pigs, sheep, poultry and farmed fish.

The pathogen of Creutzfeldt-Jakobs disease, which is biologically practically identical to the BSE pathogen, thus becomes a great risk for humans. The pathogen of prion diseases, the so-called prion, is a completely new type of pathogen that differs from bacteria and the viruses known to date in essential points: prions are extremely resistant to heat and chemicals. Even heating to 100 degrees C cannot inactivate prions, and many of the common disinfectants have little effect. Prions are also very difficult to biodegrade - they survive in the earth for years.

A protein can be identified in the infected brain, which is only observed specifically in prion diseases. This protein, the "scrapie prion protein", PrPSc for short (also called PrPBSE in BSE), is a modified form of the prion protein PrPC, which is found in the normal body.

The two proteins, the disease-specific PrPSc and the normal PrPC differ in their different spatial structure. Another difference is that PrPSc is resistant to digestive enzyme breakdown (digestive enzymes are proteins that digest food in the human stomach, for example), while PrPC is completely destroyed by treatment with digestive enzymes.

Based on many studies, science has come to the conclusion today that PrPSc is a component of prion, the pathogen of prion diseases. One even speculates that PrPSc itself represents the whole pathogen. According to this theory, when an infection occurs, the invading PrPSc converts PrPC to PrPSc. The newly created PrPSc can in turn now The principle is based on the chemical breakdown of the proteins into their individual parts, the amino acids. This method means that no information and therefore no disease can be transmitted or triggered.

The method is shown in Figure 1 and works as follows:

20 different amino acids are involved in the construction of the proteins. The sequence of these amino acids in proteins is called the amino acid sequence and describes it as the primary structure.

This primary structure can be destroyed by hydrolysis / cleavage in aqueous solution by adding acids or alkalis as well as possibly proteases (such as trypsin, chymotrypsin, pepsin, papain, subtilisin, elastase and thermolysin).

The proteins are broken down into their individual components, the individual amino acids. In addition to the primary structure, the spatial structure (secondary, tertiary and quaternary structure) is of course lost, and with it all information and harmful effects associated with this.

The protein involved in the disease BSE is also broken down into its components and can therefore no longer develop its harmful effects.

A system required for this will look as follows (Figure 2):

The animal meal, animal blood meal and animal bone meal are dissolved in either basic (pH value> 11; added hydroxide e.g. sodium hydroxide) or acidic (added acid e.g. with hydrochloric acid; pH <1) water. In this environment, the chains of proteins are split and broken down into individual amino acids.

This process can also be supported by the further addition of enzymes (e.g. trypsin) or heat (heating to e.g. 37 degrees Celsius).

After this process, the complete splitting of the amino acid chains into individual amino acids is checked by analysis (e.g. by amino acid analyzers).

After complete splitting, the solution is neutralized with the amino acids (pH neutral by adding basic or acidic neutralizing agents) and the amino acids are recovered as a solid by drying. This solid can then be used in agriculture instead of today's animal meal, animal blood meal and animal bone meal (e.g. as an animal feed additive).

Claims

EiweißhydrolyseanlagePatentansprüche

1.) A system which is characterized in that proteins such as those present in animal meal, animal blood meal and animal bone meal are separated into amino acids by dissolving them in acidic or basic solution and converted to prion-free solids by neutralization (pH-neutral) and drying ,

2.) A system as in claim 1, which is characterized in that proteases (e.g. trypsin, chymotrypsin, pepsin, papain, subtilisin, elastase and thermolysin) are used for the splitting.

3.) A system as in claim 1, which is characterized in that energy in the form of heat (for example: heating to 37 degrees C) is supplied.

4.) A plant as in claim 1, which is characterized in that it uses analytical controls to demonstrate the complete splitting of the amino acid chains.

5.) A system as in claim 1, which is characterized in that after a pH adjustment by adding basic or acidic substances and a control, a pH-neutral solution with amino acids is formed.

6.) A system as in claim 1, which is characterized in that after drying the pH-neutral solution, a solid is formed which is prion-free.