WO2002102844A1 - Haemocyanin from abalone and process of purification thereof - Google Patents
Haemocyanin from abalone and process of purification thereof Download PDFInfo
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- WO2002102844A1 WO2002102844A1 PCT/AU2001/000710 AU0100710W WO02102844A1 WO 2002102844 A1 WO2002102844 A1 WO 2002102844A1 AU 0100710 W AU0100710 W AU 0100710W WO 02102844 A1 WO02102844 A1 WO 02102844A1
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- haemocyanin
- abalone
- containing portion
- haliotis
- blood
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D15/00—Separating processes involving the treatment of liquids with solid sorbents; Apparatus therefor
- B01D15/08—Selective adsorption, e.g. chromatography
- B01D15/10—Selective adsorption, e.g. chromatography characterised by constructional or operational features
- B01D15/16—Selective adsorption, e.g. chromatography characterised by constructional or operational features relating to the conditioning of the fluid carrier
- B01D15/166—Fluid composition conditioning, e.g. gradient
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D15/00—Separating processes involving the treatment of liquids with solid sorbents; Apparatus therefor
- B01D15/08—Selective adsorption, e.g. chromatography
- B01D15/26—Selective adsorption, e.g. chromatography characterised by the separation mechanism
- B01D15/32—Bonded phase chromatography
- B01D15/325—Reversed phase
- B01D15/327—Reversed phase with hydrophobic interaction
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/435—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
Definitions
- the present invention is concerned with a novel haemocyanin and, more particularly with a novel haemocyanin isolated from abalone by a novel process.
- Haemocyanin is the blue, copper-containing respiratory protein of many molluscs and arthropods . Haemocyanins are always found freely dissolved in the blood (or hemolymph) . The molluscan haemocyanins have an entirely different structure and arrangement of subunits compared to arthropod haemocyanins. Aerobic metabolism of abalone is supported by gas exchange through gills found in the respiratory cavity. The blood pumped through the gills, via a low-pressure open circulatory system, contains haemocyanin which transports oxygen to respiratory tissues. In open systems blood flows from arteries into the tissue spaces and finally into venous sinuses before being collected in veins and returned to the heart .
- Haemocyanins are arranged into multi-subunit proteins which carry as few as six or as many as several hundred oxygen molecules.
- Molluscan haemocyanins are extremely large macromolecules having molecular masses of around 4 million daltons (Da) .
- Molluscan haemocyanins have subunits containing seven or eight oxygen binding functional units. Each globular functional unit is of about 50 kDa and they are arranged like a string of beads. Ten such subunits assemble to form cylindrical decameric whole molecules and in gastropods multiples of two or more decamers may be found.
- the wall of the decamer has sixty oxygen binding units, and the remaining units form the so-called collar which lies in the centre of the cylinder and, in the case of gastropod haemocyanin, offset to one end.
- the association of heamocyanin subunits requires divalent cations, either Mg 2+ or Ca 2+ , as well as competent monomers (Mangum, 1983).
- the copper content of molluscan haemocyanins averages around 0.25%, corresponding to 1 gram atom per 25000 daltons of protein.
- Haemocyanins are potent immunogens which induce the synthesis of large amounts of specific antibodies.
- the He may exist in associated or dissociated forms (Bartell and Campbell, 1959) .
- various preparations may contain a number of other immunologically distinct proteins. For instance the hemolymph of the crab may contain at least 5 distinct proteins as well as two electrophoretically distinct He (Horn and Kerr, 1969) .
- a process for isolating haemocyanin from a marine invertebrate comprising the steps of :
- haemocyanin-containing portion of said marine invertebrate for chromatographic separation; (2) loading a phenyl hydrophobic interaction chro atography (phenyl HIC) column with the haemocyanin- containing portion in order to effect chromatographic separation of haemocyanin from other components of the haemocyanin-containing portion, a haemocyanin fraction being retained on the phenyl HIC column;
- phenyl HIC phenyl hydrophobic interaction chro atography
- the chromatographic separation is effected with an equilibration buffer with a pH less than 8 and a high ionic strength.
- the equilibration buffer would usually contain a high concentration of sodium chloride, and would typically be at least 1M for sodium chloride, preferably at least 3M for sodium chloride and sometimes 4M for sodium chloride, or stronger.
- the equilibration buffer generally also further comprises minor quantities of potassium phosphate, magnesium chloride and calcium chloride.
- the equilibration buffer has a pH of 7, but equilibration buffers with a lower pH may be used.
- An equilibration buffer with a pH of 6 is used in one embodiment of the present invention, but still lower pHs may be used.
- the haemocyanin fraction is retained on the phenyl HIC, whilst other components of the haemocyanin- containing portion flow through the column. Therefore, in a subsequent step the haemocyanin fraction is eluted with an elution buffer which typically has a pH less than 8 and a low ionic strength.
- the elution buffer may contain minor quantities of potassium phosphate, magnesium chloride and calcium chloride.
- the elution buffer has a pH of 7 or 6, but may have a lower pH.
- a salt is added to the haemocyanin-containing portion prior to loading it onto the phenyl HIC column. Typically this is done through the addition of sodium chloride, and generally through the addition of a substantial volume of strong sodium chloride solution.
- a volume half to twice the volume of the haemocyanin-containing portion of sodium chloride is added, and the sodium chloride solution is between 2M and 6M. Minor quantities of magnesium chloride and calcium chloride may be added to the haemocyanin- containing portion.
- the eluted haemocyanin fraction is dialysed against deionised water to remove salts .
- the eluted fraction may also be subjected to ultrafiltration or diafiltration.
- the product may be freeze-dried or used as a solution.
- the marine invertebrate is abalone.
- the marine invertebrate is selected from the commercial species comprising the black-lip abalone, Haliotis ruber, the brown-lip abalone, Haliotis conicopora, the green-lip abalone, Haliotis laevigita, and Roe's abalone, Haliotis roei .
- haemocyanin portion be blood, typically abalone blood, and preferably the blood of the above named species .
- haemocyanin portion be blood, typically abalone blood, and preferably the blood of the above named species .
- Fig 1 is a chromatogram showing separation of He from East Coast Abalone on Phenyl HIC
- Fig 2 is the absorbance spectrum of East Coast Abalone He column load
- Fig 3 is an SDS-PAGE gel of the chromatography fractions from Example 4 and 6 in which the lanes are as follows :
- Lane 1 molecular weight marker
- Fig 4 is a chromatogram showing separation on Phenyl HIC for batch 1 in Example 5;
- Fig 5 is a chromatogram showing separation on Phenyl HIC for batch 2 in Example 5;
- Fig 6 is an SDS-PAGE gel of the diafiltration retentates of batches 1 and 2 of Example 5 in which the lanes are as follows:
- Lane 1 molecular weight marker
- Fig 7 is a chromatogram showing chromatographic separation of He on Phenyl HIC after freezing and then thawing.
- haemocyanin A number of different resins were trialled for the chromatographic purification of haemocyanin, including the anion exchanger, diethylaminoethyl (DEAE),the cation exchangers carboxymethyl (CM) and sulfoethyl (S) , the size exclusion resin cross-linked sepharose (CL-4B) , and the hydrophobic interaction resins methyl and phenyl.
- ImM PMSF phenylmethylsulfonylflouride
- ImM EDTA ethylenediaminetetraacetic acid
- the abalone blood sample was ultracentrifuged in a Beckman L8-55 with 50T rotor at
- the abalone blood sample was ultrafiltered using a Vivascience Vivaflow 50 100 kD ultrafiltration cartridge to half the original volume.
- the yield is defined as the amount of material present in the elution expressedas a percentage of the load.
- the ammonium sulfate slurry contained He at a concentration of 22 mg/ml and was dark blue in colour.
- Matrex® CellufineTM Phenyl HIC The CellufineTM range of hydrophobic interaction resins is manufactured by Chisso Corporation and marketed under the Matrex®.
- Proteins are made up of chains of amino acids, each with a side group attached, some of which are hydrophobic. Proteins order themselves in aqueous solution to achieve minimum free energy by burying most of their hydrophobic groups inside the protein and leaving the charged groups on the outside. Some of the hydrophobic groups will remain exposed on the outside giving localised hydrophobic regions that are available for association with hydrophobic groups on the resin. Hydrophobic interaction chromatography (HIC) is a separation procedure based on the attraction between hydrophobic groups on the protein and a hydrophobic ligand, such as a phenyl group.
- HIC Hydrophobic interaction chromatography
- ligands are available with a range of hydrophobic properties. The interaction is enhanced with increasing ionic strength of the protein solution and with increasing hydrophobicity of the ligand. Elution of bound protein is effected by decreasing the ionic strength (or salt concentration) of the solution flowing through the column.
- Pierce BCA assay This assay is based on the reduction in alkaline conditions of Cu 2+ to Cu 1+ by protein (biuret reaction) and the colourimetric detection of Cu 1+ using bicinchoninic acid (BCA) .
- An appropriate amount of working reagent was prepared by the mixture of 50 parts of reagent A and 1 part of reagent B. For each sample, 2 ml of working reagent was aliquoted into Johns 5 ml polystyrene tubes.
- a standard curve was prepared by diluting a stock solution of BSA to a range of concentrations from
- Disposable UV grade PMMA cuvettes were used for absorbance measurement at 562 nm.
- Phenyl HIC resins are suitable for isolation of He from abalone.
- the high sensitivity to pH of the binding to S resin means this resin is not useful, and the high cost and low loading capacity of size exclusion resin means these are not suitable.
- the hydrophobicity of haemocyanin means that binding is poor to the weakly hydrophobic Methyl HIC resin under normal conditions, and therefore this resin is not suitable.
- Black-lip abalone (Haliotis ruber) were fished from Storm Bay on the east coast of Agriculture. These animals were shipped to Brisbane, Queensland without tank storage at the process plant in Georgia. Seven live abalone (batch 1) were air-freighted in March 2001 from Moto, Queensland. The abalone were transported from Moto, Queensland as a dry consignment. The abalone were placed in sealed, oxygen filled bags with wet foam to keep the humidity high. The animals were held vertically in a head down position by attachment to waxed cardboard sheets. This allows waste products to flow away from the animal. At all times during transport the animals were kept in an insulated container at 4°C.
- abalone Upon arrival the abalone will have lost about 15% in body weight due to water loss. If they are returned to tanks promptly, they will regain this weight within 2-3 hours. It is not uncommon for abalone transported dry to arrive alive but to languish once returned to seawater.
- the live animals On arrival, the live animals were transferred to a live holding tank. It measures 1430 mm long X 430 mm wide X 450 mm high, giving a volume of approximately 280 litres .
- a pump circulates the water through a filter and aeration system while a refrigeration unit controls the water temperature at 10°C.
- the tank is sited in a separate room for quarantine purposes and is protected from fluctuations in the external environment .
- the status and movements of the animals were closely monitored and feeding of seafood pellets was conducted once a week.
- the abalone have been kept in the live holding tank for over two months with zero mortality. Water filtration is quite efficient and so the tank requires little cleaning.
- Abalone can be grown successfully on a very limited budget with this type of setup.
- the animal is washed under cold running water to remove slime and sand.
- the animal was turned upside down and shucked by sliding a broad spatula under the foot at the flat region of the shell until the attachment of the foot to the shell was cut. Care was taken not to rupture any internal organs.
- the spatula was then run gently around the inside edge of the shell to detach the internal organs . The whole animal was then able to be tipped out of the shell.
- the guts and other organs were carefully separated from the foot using a scalpel. Care was taken not to rupture any internal organs so as to prevent possible contamination of the blood. The internal organs were further dissected, bagged separately and stored at -20°C for other protein extraction. The mouth area was cut away from the front of the foot with a scalpel, bagged and stored at -20°C.
- the foot was rinsed with water and weighed. Several deep incisions were made in the front area of the foot with a scalpel and the foot suspended over a strainer to allow the blood to drain to a collection vessel. Care was taken to avoid bacterial contamination. This was done at 4°C with an initial collection after 1 hour and a further collection after 6 hours.
- a 14 ml Phenyl HIC column was run on a Perseptive Biosystems BioCAD 700E at a flowrate of 1.0 ml/min.
- the equilibration buffer contained 50mM potassium phosphate, 1M NaCl, ImM MgCl 2 , ImM CaCl 2 , at pH 6.0.
- the elution buffer contained 50mM potassium phosphate, ImM MgCl 2 / ImM CaCl 2 , at pH 6.0.
- the cleaning in place solution was 0.5M NaOH.
- the load sample was prepared the day before the chromatography on the BioCAD. 2.
- Step elution was with 100% elution buffer for 4 column volumes.
- the cleaning in place fractions were pooled and extensively dialysed against de-ionised water to remove traces of sodium hydroxide.
- Protein concentrations of the chromatography fractions were carried out using absorbance measurements at 340 nm. 1. The absorbance of the load sample, pooled flow through and pooled elution fractions at 340 nm was measured against an elution buffer blank. The load sample required an initial dilution of 1/20 with elution buffer.
- a Biorad Smart Spec 3000 spectrophotometer was used with a quartz UV grade cuvette.
- Amino acid analysis of east coast He samples were done using a Waters amino acid analyser. Samples containing approximately 5 ⁇ g of protein were prepared for amino acid analysis.
- a single green-lip abalone (Haliotis laevigata) was fished from King Island in Bass Strait and tanked at the process plant for 2 days. The time in the crate (from catch to tank storage) was around 8 hours. The maximum time out of water was 14-15 hours.
- Step 3 Shucking and Method of Blood Collection This is described in Example 2, Step 3.
- a 5 ml Phenyl HIC column was run on a Biologic LP at a flowrate of 1.5 ml/min.
- the equilibration buffer contained 50mM potassium phosphate, 3M NaCl, ImM MgCl 2 , ImM CaCl 2 , at pH 7.0.
- the elution buffer contained 50mM potassium phosphate, ImM MgCl 2 , ImM CaCl 2 , at pH 7.0.
- the cleaning in place solution was 0.5M NaOH.
- the load sample was prepared immediately prior to the chromatography on the Biologic LP.
- Step elution was with 100% elution buffer for 5 column volumes .
- Protein concentrations of the chromatography fractions were carried out using absorbance measurements at 340 nm as described in Example 2.
- the percentage bound is calculated as 100 X (He elution + He CIP) / (He flow through + He elution + He CIP) .
- This table indicates good binding of green lip abalone haemocyanin to the resin under the conditions tested.
- the He purification for the green-lip abalone was similar to the east coast animals, with a similar % binding as seen in Table 6.
- Step 1 Abalone Fishing, Storage and Transport This is described in Example 2, Step 1.
- Step 3 Shucking and Method of Blood Collection This is described in Example 2, Step 3.
- a 5 ml Phenyl HIC column was run on a Biologic LP at a flowrate of 1.5 ml/min.
- the equilibration buffer contained 50mM potassium phosphate, 3M NaCl, ImM MgCl 2 , ImM CaCl 2 , at pH 7.0.
- the elution buffer contained 50mM potassium phosphate, ImM MgCl 2 , ImM CaCl 2 , at pH 7.0.
- the cleaning in place solution was 0.5M NaOH.
- the load sample was prepared immediately prior to the chromatography.
- Step elution was with 100% elution buffer for 6 column volumes . 6. Elution fractions were collected (4 ml per tube) . 7. Cleaning in place was performed with 2 column volumes of 0.5M NaOH.
- Protein concentrations of the chromatography fractions were carried out using absorbance measurements at 340nm as described in Example 2.
- the molecular weight and purity of abalone haemocyanin was evaluated by sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) .
- SDS-PAGE sodium dodecyl sulphate polyacrylamide gel electrophoresis
- a 4-15% Biorad precast Tris glycine gel was used.
- SDS-PAGE was performed according to the method of Laemmli (1970) .
- haemocyanin samples (column flow through and elution fractions) were from the Day 5 chromatography.
- the haemocyanin standard was initially diluted 1/50 in deionised water. All samples were then diluted to half concentration with Gradipore Glycine sample buffer.
- the samples were then placed into a boiling water bath for 3 minutes then allowed to cool.
- the gel was assembled in a Biorad Mini-Protean 3 electrophoresis cell.
- the inner chamber was filled with SDS glycine running buffer and the samples loaded with an autopipettor and standard yellow tips.
- the total protein load per well was 2 ⁇ g.
- a molecular weight marker (Biorad broad range prestained marker) was run with each gel.
- the outer chamber was filled with running buffer to the level of the wells.
- the running conditions were 150V constant voltage over 60 minutes with an approximate start current of 50 inA.
- the gel was then removed from the casing and rinsed with water for around 30 seconds.
- the gel was stained with around 50 ml of Gradipore Gradipure stain (based on colloidal G-250 Coomassie blue) overnight with gentle shaking. The gel was destained with frequent changes of water. Bands were generally visible after 5 minutes with about a day required for complete destaining. Permanent storage of gels was achieved by drying between cellophane sheets. The destained gels were soaked in a drying solution of 20% methanol and 2% glycerol with gentle shaking for 15 minutes. Two cellophane sheets per gel were wetted in the drying solution for around 30 seconds. The trimmed gel was clamped between the cellophane sheets in a drying frame and left to stand in an open container at room temperature for 2 days . The gel was then pressed for a number of days prior to display.
- Gradipore Gradipure stain based on colloidal G-250 Coomassie blue
- the percentage bound is calculated as 100 X (He elution + He CIP) / (He flow through + He elution + He CIP) .
- the live holding tank was installed to study the effect of the storage of live abalone (east coast) in the tank.
- the He was analysed from animals shucked after different periods of storage (Table 7) . All samples showed good binding to Phenyl HIC.
- the SDS-PAGE showed a single band at 250 kDa with 99% purity (Figure 3).
- un-ionised ammonia exists in equilibrium with ionised ammonia and hydroxide ions. This equilibrium depends on pH, temperature and salinity. The un-ionised form is the most toxic because of its readiness to diffuse across cell membranes .
- Ammonia may affect gill structure, respiratory function and oxygen consumption in aquatic animals. Oxygen uptake is a critical factor in assessment of stress in fishes. Green-lip abalone were found to be highly sensitive to ammonia as indicated by depressed growth rates and food consumption (Harris et al, 1998) .
- Nitrosomonas sp ammonia constitutes the metabolic source of energy that is oxidised into nitrite.
- Nitrobacter sp. oxidises nitrite to nitrate (Sharma and Ahlert, 1977).
- Nitrite is toxic, particularly in fishing rearing systems, and for molluscs with regard to their haemocyanin (Colt and Armstrong, 1981) .
- Oxygen concentrations can vary in systems subject to high biological oxygen demand (BOD) in which uneaten food and decaying wastes are only removed intermittently, as in some abalone tank systems.
- BOD biological oxygen demand
- Step 1 Abalone Fishing, Storage and Transport Black-lip abalone (Haliotis ruber) were fished from Storm Bay (April 2001) on the east coast of Kenya. These animals were shipped directly to the abalone process plant in Kenya and shucked immediately. A total of 140 abalone (weighing around 90 kg) produced around 4.5 litres of blood. This blood was collected as aseptically as possible in 1000 ml sterile containers.
- the blood was air-freighted to Brisbane in an esky and kept at 4°C. Upon arrival, the blood was immediately centrifuged at 12000 X g for 10 minutes at 4°C and the pooled supernatant aliquoted into sterile 500 ml containers. 2.3 litres were retained for purification of He and the remainder stored at -20°C for validation of long-term storage.
- the equilibration buffer contained 50mM potassium phosphate, 3M NaCl, ImM MgCl 2 , ImM CaCl 2 , at pH 7.0.
- the elution buffer contained 50mM potassium phosphate, ImM MgCl 2 , ImM CaCl 2 , at pH 7.0.
- the cleaning in place solution was 0.5M NaOH.
- Step elution was with 100% elution buffer for at least 5 column volumes until the absorbance of the fractions reached baseline.
- Protein concentrations of the chromatography fractions were carried out using absorbance measurements at 340nm as described in Example 2.
- a Millipore Prep Scale TFF cartridge was used for the initial concentration and diafiltration steps.
- the diafiltration buffer contained 83mM sodium phosphate, 150mM NaCl at pH 7.2.
- the pooled elution was concentrated from 3.6 litres down to approximately 400 ml using the Prep Scale TFF cartridge with a cross-flow rate of 1200 ml/min.
- the retentate was concentrated to approximately 50 mg/ml using the Vivaflow 50 cartridge.
- the cartridge was drained and rinsed to retentate.
- the retentate was sterile filtered through a 0.2 ⁇ m filter capsule into sterile container. The protein concentrations of retentate and permeate were checked. The filter was rinsed through with diafiltration buffer to give the required final volume for a He concentration of 30 mg/ml. 7. The He sample was aliquoted into 10 ml sterile vials for dispatch.
- the percentage yield is calculated as 100 X (He elution) / (He flow through + He elution + He CIP) . This table indicates good binding of He to the resin.
- Fig. 6 is an SDS-PAGE gel of the diafiltration retentates of batches 1 and 2.
- Step 1 Abalone Fishing, Storage and Transport This is described in Example 2, Step 1.
- Step 2 Live Holding Tank This is described in Example 2, Step 2.
- Step 3 Shucking and Method of Blood Collection This is described in Example 2, Step 3.
- a 5 ml Phenyl HIC column was run on a Biologic LP at a flowrate of 1.5 ml/min.
- the equilibration buffer contained 50mM potassium phosphate, 3M NaCl, ImM MgCl 2 , ImM CaCl 2 , at pH 7.0.
- the elution buffer contained 50mM potassium phosphate, ImM MgCl 2 , ImM CaCl 2 , at pH 7.0.
- the cleaning in place solution was 0.5M NaOH.
- the load sample was prepared immediately prior to the chromatography.
- Chroma tography 1 The resin was equilibrated with 8 column volumes of equilibration buffer.
- Step elution was with 100% elution buffer for 4 column volumes .
- Protein concentrations of the chromatography fractions were carried out using absorbance measurements at 340 nm as described in Example 2.
- the molecular weight and purity of abalone haemocyanin was evaluated by sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) .
- SDS-PAGE sodium dodecyl sulphate polyacrylamide gel electrophoresis
- a 4-15% Biorad precast Tris glycine gel was used.
- SDS-PAGE was performed according to the method of Laemmli (1970) as described in Example 4.
- the percentage bound is calculated as 100 X (He elution + He CIP) / (He flow through + He elution + He CIP) .
- freeze dried samples were resuspended in de-ionised water to their original concentrations and analysed by BCA protein assay (as described in Example 1) and SDS-PAGE (as described in Example 4) .
- the freeze dried product showed a single band at 250 kDa in gel electrophoresis, and a purity of 99% (Fig. 6) .
- novel haemocyanin of the present invention is useful as a pharmaceutical agent, particularly as an anti-tumour agent, especially for bladder cancer. It is also useful as an ingredient in cosmetic formulations. In addition, it is useful as an immunoadjuvant . It may also be used as a laboratory tool in the life sciences, for example to coat ELISA plates, in chromatography media and in tissue culture media as a replacement for Bovine Serum Albumin.
- the following references have their disclosure incorporated herein by reference:
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EP01942884A EP1456233A4 (en) | 2001-06-15 | 2001-06-15 | Haemocyanin from abalone and process of purification thereof |
PCT/AU2001/000710 WO2002102844A1 (en) | 2001-06-15 | 2001-06-15 | Haemocyanin from abalone and process of purification thereof |
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PCT/AU2001/000710 WO2002102844A1 (en) | 2001-06-15 | 2001-06-15 | Haemocyanin from abalone and process of purification thereof |
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Cited By (6)
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GB2398794A (en) * | 2003-01-31 | 2004-09-01 | Chevron Usa Inc | Stable olefinic, low sulphur diesel fuel composition |
WO2004085467A1 (en) * | 2003-03-28 | 2004-10-07 | Norika Holdings Pty Ltd | Process for isolating haemocyanin |
KR20170008882A (en) * | 2014-06-12 | 2017-01-24 | 비오신 아르쯔나이미텔 게엠베하 | Preparation methods for a novel generation of biological safe KLH Products used for cancer treatment, for the development of conjugated therapeutic vaccines and as challenging agents |
WO2017124149A1 (en) * | 2016-01-21 | 2017-07-27 | Commonwealth Scientific And Industrial Research Organisation | Blacklip abalone (haliotis rubra) extract |
KR101904848B1 (en) * | 2014-06-12 | 2018-10-08 | 비오신 아르쯔나이미텔 게엠베하 | Preparation methods for a novel generation of biological safe KLH Products used for cancer treatment, for the development of conjugated therapeutic vaccines and as challenging agents |
CN110016077A (en) * | 2019-04-11 | 2019-07-16 | 福州日兴水产食品有限公司 | A kind of abalone hemocyanin extracting method |
Family Cites Families (1)
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ATE371670T1 (en) * | 1996-11-15 | 2007-09-15 | Genentech Inc | PURIFICATION OF NEUROTROPHINS |
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- 2001-06-15 EP EP01942884A patent/EP1456233A4/en not_active Withdrawn
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GB2398794B (en) * | 2003-01-31 | 2005-05-25 | Chevron Usa Inc | Stable olefinic, low sulphur diesel fuels |
WO2004085467A1 (en) * | 2003-03-28 | 2004-10-07 | Norika Holdings Pty Ltd | Process for isolating haemocyanin |
JP2007525424A (en) * | 2003-03-28 | 2007-09-06 | ノリカ ホールディングス ピーティーワイ リミテッド | Hemocyanin isolation process |
KR101904848B1 (en) * | 2014-06-12 | 2018-10-08 | 비오신 아르쯔나이미텔 게엠베하 | Preparation methods for a novel generation of biological safe KLH Products used for cancer treatment, for the development of conjugated therapeutic vaccines and as challenging agents |
KR20170008882A (en) * | 2014-06-12 | 2017-01-24 | 비오신 아르쯔나이미텔 게엠베하 | Preparation methods for a novel generation of biological safe KLH Products used for cancer treatment, for the development of conjugated therapeutic vaccines and as challenging agents |
US10221220B2 (en) | 2014-06-12 | 2019-03-05 | Biosyn Arzneimittel Gmbh | Preparation methods for a novel generation of biological safe KLH products used for cancer treatment, for the development of conjugated therapeutic vaccines and as challenging agents |
KR20190077626A (en) * | 2014-06-12 | 2019-07-03 | 비오신 아르쯔나이미텔 게엠베하 | Preparation methods for a novel generation of biological safe KLH Products used for cancer treatment, for the development of conjugated therapeutic vaccines and as challenging agents |
KR102024342B1 (en) | 2014-06-12 | 2019-09-23 | 비오신 아르쯔나이미텔 게엠베하 | Preparation methods for a novel generation of biological safe KLH Products used for cancer treatment, for the development of conjugated therapeutic vaccines and as challenging agents |
KR102158372B1 (en) | 2014-06-12 | 2020-09-22 | 비오신 아르쯔나이미텔 게엠베하 | Preparation methods for a novel generation of biological safe KLH Products used for cancer treatment, for the development of conjugated therapeutic vaccines and as challenging agents |
US10800820B2 (en) | 2014-06-12 | 2020-10-13 | Biosyn Arzneimittel Gmbh | Preparation methods for a novel generation of biological safe KLH products used for cancer treatment, for the development of conjugated therapeutic vaccines and as challenging agents |
WO2017124149A1 (en) * | 2016-01-21 | 2017-07-27 | Commonwealth Scientific And Industrial Research Organisation | Blacklip abalone (haliotis rubra) extract |
CN109069547A (en) * | 2016-01-21 | 2018-12-21 | 联邦科学工业研究组织 | Black lip Bao (the black Bao of Australia) extract |
AU2017208715B2 (en) * | 2016-01-21 | 2023-04-06 | Commonwealth Scientific And Industrial Research Organisation | Blacklip abalone (Haliotis rubra) extract |
CN110016077A (en) * | 2019-04-11 | 2019-07-16 | 福州日兴水产食品有限公司 | A kind of abalone hemocyanin extracting method |
Also Published As
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EP1456233A4 (en) | 2006-06-21 |
EP1456233A1 (en) | 2004-09-15 |
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