CN1206023C - Method for preparing high density core material coated with thin shell medium of agarose gel - Google Patents

Abstract

The present invention discloses a method for preparing core materials with high density with an oil and water two-phase method, and belongs to a preparation technique of microspheres for loading inert granules in gel carriers, and the surfaces of the core materials are coated with agarose gel media with thin shells. The method mainly comprises the following steps of suspension preparation, emulsification, coating reactions, solidification and cross linkage. The present invention is characterized in that glass beads are dispersed in agarose water solution to prepare suspension added in salad oil, and emulsifying agents Span80 is added into the salad oil to be stirred and carry out emulsification and coating reactions; the salad oil and the emulsifying agents are rapidly cooled to form microspheres, and epoxy chloropropane is added into the microspheres to carry out crosslink under an alkali condition; the epoxy chloropropane and the microspheres are reduced by sodium borohydride to obtain separating media which contain 20 to 70% of agarose, and the granule diameter is from 40 to 500 mum. The media simultaneously present density and granule diameter distribution in an expanded bed, have the advantages of high density, column efficiency and absorption capacity, so the media have wide application prospect in the absorption process of the expanded bed.

Description

The preparation method of high density nuclear material surface parcel Ago-Gel shell medium

Technical field

The present invention relates to the method that a kind of profit two phase process prepares high density nuclear material surface parcel Ago-Gel shell medium, belong to inert particle and be carried on microsphere preparation technology in the gel carrier.

Background technology

The expanded bed technology is a kind of novel integrated bio lock out operation technology of rising gradually the early 1990s, has advantages such as back-mixing is little, voidage is high, pressure drop is low, post is imitated height, treating capacity is big, is widely used in the separation process of large biological molecule.Can the operating characteristics of expanded bed adsorption depend on the stable bed that form low back-mixing, Gao Zhuxiao, and stable bed is to rely on the medium with certain density and particle diameter distribution to realize.Therefore, the expanded bed adsorption technology also exists and other isolation technics similar phenomena---and under certain conditions, the character of separating effect and institute's working medium is closely related.The medium that preparation is fit to the expanded bed separation is one of expanded bed adsorption technical development and key in application factor.The particle diameter of present widely used expanded bed separating medium Streamline (Sweden Amersham Biosciences company sees) is distributed between 50 to the 400 μ m.Because particle diameter is bigger, medium inner transmission matter path is longer, causes medium holes inner transmission matter resistance big, and the expansion column is imitated and is restricted.

Addressing the above problem one of efficient ways is exactly the mass transfer distance that reduces in the medium, and its main path has two kinds: (1) synthesizes the small particle diameter medium with high density material as matrix, as (per) fluoropolymer, zirconia etc.; (2) medium of synthetic kernel shell structure, i.e. the hydrophilic polymer thin layer that has good adsorption properties at highdensity inert core outer wrapping one deck, according to its structural characteristics, hud typed medium also is called the skin layer medium.

People such as Flickinger have announced the patent of utilizing the oil phase emulsification method to prepare the small particle diameter zirconia media, have obtained particle diameter and have been distributed as 50～200 μ m, and density is the expanded bed adsorption medium (US Patent 6,036,861) of 2.5～3.5g/ml.The less medium of this particle diameter has shortened the diffusion length of material in medium, the diffusion of protein and adsorption process in the accelerating medium, and the post that has improved expanded bed is imitated.But expanded bed operation flow velocity is lower when being to use the less medium of particle diameter, and the expanded bed separating rate is descended.In addition, existing technical conditions makes the preparation of those small particle diameter media that are suitable for expanded bed adsorption relatively more difficult, and therefore hud typed medium becomes more competitive expanded bed separating medium.Upfront company has announced that in 1999 with stainless steel and titanium be the patent (WO00/57982) that inert core prepares hud typed medium.By at hydrophilic polymers such as stainless steel or titanium surface parcel agaroses, obtained density greater than 2.5g/ml, particle diameter is distributed in the thin-layered medium between the 5-75 μ m.After modifying suitable ion-exchange or affinity ligand, this medium is used in the processes such as fluid bed isolated plasmid dna, RNA and protein.2000, people such as P  lsson have reported that in " Journal of Chromatography A " the 878th volume adopting stainless steel is method (the E.P  lsson that the preparation of core parcel agarose is applicable to high flow rate expanded bed adsorption process medium, P.E.Gustavsson and P.O.Larsson.Pellicular expanded bed matrix suitable for highflow rates, Journal of Chromatography A, 2000,878,17-25).According to the difference of employing stainless steel grain diameter, this density of medium can reach more than the 3.3g/ml, and particle diameter is distributed between 32 to the 165 μ m.People such as Tong Xiaodong have studied 6% agarose parcel stainless shot (Upfront company product) hydrodynamics in expanded bed and the expansion behavior of bed (X.D.Tong, Y.Sun.Particle size and density distributions of two dense matrices inexpanded bed system.J.Chromatogr.A 977 (2002) 173-183. report), studies show that: because agarose parcel stainless shot density is big, relative terminal fluidizing velocity height; This medium no particle diameter in bed distributes, and just realizes the stable of bed by certain Density Distribution.Though the core-shell structure of this medium can improve mass transfer to a certain extent, unordered particle diameter distributes and can weaken mass-transfer efficiency.On the other hand, people have also limited their application in real process to the alloy that may exist in this class medium use and the worry of metal leakage problem.

Summary of the invention

At the weak point that exists in the existing expanded bed separating medium, the object of the present invention is to provide the preparation method of a kind of high density nuclear material surface parcel Ago-Gel shell separating medium.Separating medium with this method preparation has the controlled expanded bed separating medium of certain mechanical strength, density and particle diameter.

The present invention is realized by following technical proposals.Adopting high density nuclear material, is water with the agarose, is oil phase with the salad oil, prepares the method for hud typed separating medium.This method mainly comprises the preparation of suspension, the emulsification encapsulation reaction, solidify and cross-linking process, it is characterized in that, under 85-90 ℃, with particle diameter is 30-400 μ m, density is that to be scattered in weight percent concentration be 2-8% to the bead of 2.2-2.8g/ml, volume is in the agarose solution of 4～10 times of bead volumes, fully stir and make finely dispersed suspension, then this suspension being added volume is in the water volume 4-10 salad oil doubly, and press 10-50g/l and add emulsifying agent Span 80, the stirring and emulsifying encapsulation reaction, be cooled to 10～30 ℃ of formation microballoons rapidly, add the epoxychloropropane that volume ratio is 1-5% again, and under 0.3-0.7mol/l NaOH condition, carry out crosslinked, use the 4-6g/l sodium borohydride reduction afterwards under 0.8-1.4mol/l NaOH condition, making particle diameter is 40～500 μ m, agarose content is 20～70% separating medium.

Above-mentioned optimal conditions: the weight percent concentration of agarose solution is 4～6%, and the aqueous phase agarose solution is 5-6 with the ratio of bead particle volume, and the salad oil volume is 6-7 a times of water volume, and the addition of emulsifying agent Span 80 is 25-35g/l; The employing epoxychloropropane is a crosslinking agent, and under 0.4-0.7mol/l NaOH condition, the concentration of epoxychloropropane is 2-4% (percent by volume), is reducing agent with the sodium borohydride, and its consumption is 4.5～5.5g/l under 0.8-1.4mol/l NaOH condition.

The high density thin layer microballoon of the present invention preparation is compared with existing expanded bed separating medium, and its tangible advantage is, raw material is cheap, and the easy economy of preparation process is less demanding to equipment; The inert material bead has been avoided the hidden danger of metal leakage; Medium has suitable density and particle diameter distributes, and is applicable to expanded bed; In bed, can present the density of separating medium and the orderly distribution of particle diameter simultaneously, help to improve post and imitate, realize separating fast; Active group is many on the outer Ago-Gel, and by modifying different aglucons, for example pigment aglucon, ion-exchange aglucon etc. can satisfy multiple separation requirement, and the elution requirement gentleness; Good biocompatibility, good hydrophilic property is with a wide range of applications at aspects such as the immobilization of enzyme, cell separation, DNA detection, protein purifications.

Below the present invention is described in detail.

Key technology of the present invention has 7 points: the one, and the selection of bead particle.Density is 2.4-2.5g/ml, and outward appearance is regular, and the bead of inert non-toxic can be used for preparing the microballoon of high density thin layer.Two of key technology is selections of bead particle diameter.The particle diameter of bead and distribution thereof are the prerequisites of distribution of decision microspherulite diameter and density, are the microballoon of preparation different-grain diameter, and the present invention has selected two kinds of bead particles that different-grain diameter distributes, and is respectively 36-143 μ m and 77-307 μ m.Three of key technology is to adopt the profit two phase process to prepare high density thin layer microballoon.In the profit two-phase bead particle is carried out encapsulation reaction, the microballoon parcel of acquisition is complete, thin layer is evenly distributed.Four of key technology is the control of hud typed medium thickness of thin layer and Media density.Can realize regulation and control by the modes such as addition that change bead under certain condition, to thin layer microballoon density.Five of key technology is the control of mixing speed in preparation process.In course of reaction, to keep the stable of rotating speed; Simultaneously, the regulation and control rotating speed also is one of method that obtains by different-grain diameter and density microballoon.Six of key technology is adding modes of bead and agarose solution mixture.Adding method of the present invention is earlier mixture to be stirred fast, and bead is disperseed well, pours into fast then in the reactor (oil phase) of stabilization of speed, and it has certain help to improving productive rate.Seven of key technology is that the suitable crosslinked and reduction step that adopts is handled, and has both helped improving the stability and the mechanical strength of high density thin layer microballoon; Do not influence simultaneously the Ago-Gel internal network structure again.

Description of drawings

Fig. 1 is the photo of agarose parcel bead microballoon of the present invention under the light microscope, and wherein dark-coloured solid section is a bead, and transparent part is the agarose layer of bead outer wrapping.

Fig. 2 described adopt the preparation of different-grain diameter bead the thin layer microballoon in the 0.01mol/l Tris-HCl buffer solution (pH7.6) to the static adsorption isotherm of lysozyme, wherein () corresponding to the adsorption isotherm of the microballoon among the embodiment 1, (△) corresponding to the adsorption isotherm of the microballoon among the embodiment 2.

Fig. 3 described flow mutually for thin layer microballoon in the expanded bed under 0.01mol/l Tris-HCl buffer solution (pH7.6) condition to the dynamic adsorption curve of lysozyme.(zero) corresponding to sedimentation bed height 5.0cm, under flow velocity 220cm/h, expansion ratio 1.9 conditions, according to the dynamic adsorbance of the microballoon of embodiment 1 preparation; () corresponding to sedimentation bed height 5.0cm, under flow velocity 226cm/h, expansion ratio 1.3 conditions, according to the dynamic adsorbance of the microballoon of embodiment 2 preparation.

The specific embodiment

Following example will give further instruction to method provided by the invention.

Embodiment 1

Under 90 ℃, by quick stirring be with the 25g particle diameter 36-143 μ m the bead uniform particles be dispersed in the 50ml40g/l agarose solution.Then this mixture is poured into fast in the 300ml organic facies that contains 30g/l Span 80, kept 90 ℃ of parcel temperature, control mixing speed 1200rpm; After stirring 15min, be cooled to 15 ℃ rapidly, keeping under the constant condition of mixing speed, continue to stir 30min; In above-mentioned reaction system, add the water that doubles its volume, obtain high density thin layer microballoon by natural subsidence.The microballoon of collecting is successively used acetone and distilled water cyclic washing, cleans until organic facies.After getting the clean microballoon of 50ml (deposition weight is about 50g) and the 1mol/l NaOH of 50ml mixing, add the 500mg sodium borohydride, the concentration that makes sodium borohydride in the suspension is 5g/l.Said mixture under the 170rpm condition, reacts 30min in 25 ℃ in shaking bath; The epoxychloropropane that adds 2ml then under these conditions, continues reaction 5h.Reaction finishes, and arrives neutral with the distilled water cyclic washing.In cleaning back microballoon (50ml), add the isopyknic NaOH solution of 2mol/l, make suspension again; Add the 500mg sodium borohydride then, the concentration that makes sodium borohydride in the solution is 5g/l.In 45 ℃, under the 170rpm, in shaking bath, react 6h.Reaction finishes, and adds the distilled water cyclic washing to neutral, promptly obtains high density thin layer microballoon.Obtain particle diameter by screening and be distributed as 43-308 μ m, density 1.77g/ml, the thin layer high density microballoon of agarose content 45% (volume ratio).It is 7.6 μ mol/l Cibacron Blue3GA affinity ligands that this microballoon is modified density, and the static adsorbance in 0.01mol/l Tris-HCl buffer solution (pH7.6) is the wet microballoon of 49.0mg lysozyme/ml; At sedimentation bed height 5.0cm, linear flow rate 220cm/h, under expansion ratio 1.9 conditions, dynamically adsorbance is the wet microballoon (under 10% breakthrough point) of 35.4mg lysozyme/ml.

Embodiment 2

Under 90 ℃, by quick stirring be with the 25g particle diameter 77-307 μ m the bead uniform particles be dispersed in the 50ml40g/l agarose solution.Then this mixture is poured into fast in the 300ml organic facies that contains 30g/l Span80, kept 90 ℃ of parcel temperature, control mixing speed 1100rpm; After stirring 15min, be cooled to 15 ℃ rapidly, keeping under the constant condition of mixing speed, continue to stir 30min.In above-mentioned reaction system, add the water that doubles its volume, obtain high density thin layer microballoon by natural subsidence.The microballoon of collecting is successively used acetone and distilled water cyclic washing, cleans until organic facies.Then, getting the clean microballoon of 50ml (deposition weight is about 50g) mixes with 50ml 1mol/l NaOH; Add the 500mg sodium borohydride, make its concentration in solution reach 5g/l; At 25 ℃, under the 170rpm, in shaking bath, react 30min; The epoxychloropropane that adds 2ml then, under the 170rpm, reacts 5h by 25 ℃ in shaking bath.Reaction finishes, and adds the distilled water cyclic washing to neutral.Microballoon (50ml) after cleaning is mixed with the isopyknic NaOH solution of 2mol/l, and adding 500mg sodium borohydride makes that sodium borohydride concentration reaches 5g/l in the solution.At 45 ℃, under the 170rpm, in shaking bath, react 6h.After reaction finishes, to neutral, promptly obtain high density thin layer microballoon with the distilled water cyclic washing.Obtain particle diameter by screening and be distributed as 82-412 μ m, density 1.98g/ml, agarose content 30% (volume ratio) thin layer high density microballoon.It is 6.2 μ mol/l Cibacron Blue 3GA affinity ligands that this microballoon is modified density, and the static adsorbance in 0.01mol/lTris-HCl buffer solution (pH7.6) is the wet microballoon of 45.0mg lysozyme/ml; At sedimentation bed height 5.0cm, linear flow rate 226cm/hr, under expansion ratio 1.3 conditions, the dynamic adsorbance of this microballoon is the wet microballoon (under 10% breakthrough point) of 15mg/ml.

Claims (2)

1. a high density is examined the preparation method that Ago-Gel shell medium is wrapped up on the material surface, it is characterized in that: under 85-90 ℃, with particle diameter is 30-400 μ m, density is that to be scattered in weight percent concentration be 2-8% to the bead of 2.2-2.8g/ml, volume is in the agarose solution of 4～10 times of bead volumes, fully stir and make finely dispersed suspension, then this suspension being added volume is in the water volume 4-10 salad oil doubly, and press 10-50g/l and add emulsifying agent Span 80, the stirring and emulsifying encapsulation reaction, be cooled to 10～30 ℃ of formation microballoons rapidly, add the epoxychloropropane that volume ratio is 1-5% again, and under 0.3-0.7mol/l NaOH condition, carry out crosslinked, use the 4-6g/l sodium borohydride reduction afterwards under 0.8-1.4mol/l NaOH condition, making particle diameter is 40～500 μ m, agarose content is 20～70% separating medium.

2. the preparation method of high density nuclear material according to claim 1 surface parcel Ago-Gel shell medium, it is characterized in that: the weight percent concentration of agarose solution is 4～6%, the aqueous phase agarose solution is 5-6 with the ratio of bead particle volume, the salad oil volume is 6-7 a times of water volume, and the addition of emulsifying agent Span 80 is 25-35g/l; The employing epoxychloropropane is a crosslinking agent, and under 0.4-0.7mol/l NaOH condition, the concentration of epoxychloropropane is 2-4% (percent by volume), is reducing agent with the sodium borohydride, and its consumption is 4.5～5.5g/l under 0.8-1.4mol/l NaOH condition.