Abstract: Macrocyclic antibiotics having ring structures with at least 10 members act as separation agents in crystallization, precipitation, filtration, electrophoresis and chromatography. The macrocyclic antibiotics include ansamacrolides, macrolides, macrocyclic peptides, polyenes and derivatives thereof. The process has been found to be especially advantageous for separation of optical isomers by electrophoresis and chromatography.

Abstract: A syrup of natural carob sugars having 55-75% sucrose, 7-15% fructose, 7-16% glucose, 0.5-3% other sugars, 4-14% cyclitols and 0.5-2% organic and inorganic impurities. Sugars are extracted from carob pulp and the juice thus obtained is subjected to chromatographic separation to separate the sugars from the non-sugars. The product obtained may be used in applications similar to those of other sugars.

Abstract: A structure comprising bodies having a functional surface property bonded to a substrate via a siloxane polymer adhesive. The structure may comprise a novel composition comprising a siloxane polymer having carbon bodies bonded thereto by direct carbon to silicon bonds. This composition may be used to bond carbon particles through a medium comprising the siloxane polymer to a vitreous, metal, plastic or other nucleophilic substrate. Alternatively, the bodies may comprise alumina, silicon, zeolite, organic polymers or other nucleophilic compositions, which are bonded directly to silicon atoms of the siloxane polymer. To bond carbon or other nucleophilic bodies to the substrate, the substrate is contacted with a mixture of the bodies and a hydrosiloxane polymer. The mixture is heated to cause the polymer to be bonded to the nucleophilic bodies, typically by C--Si, C--O--Si, Si--O--Si or Si--O--Al bonds, and to the substrate by reaction with the surface silanol or other nucleophilic groups.

Abstract: A method for removing, separating, and concentrating certain selected ions from a source solution that may contain larger concentrations of other ions comprises bringing the source solution in contact with a composition comprising an ion-biding ligand covalently bonded to a membrane having hydrophilic surface properties. The ligand portion of the composition has affinity for and forms a complex with the selected ions, thereby removing them from the source solution. The selected ions are then removed from the composition through contact with a much smaller volume of a receiving solution in which the selected ions are either soluble or which has greater affinity for the selected ions than does the ligand portion of the composition, thereby quantitatively stripping the complexed ions from the ligand and recovering them in concentrated form in the receiving solution. The concentrated ions thus removed may be further separated and recovered by known methods.

Abstract: Devices and methods for packing a chromatography column with a continuous stationary phase. The preferred device includes a brace member with an engagement surface. The brace member defines a thru-hole at a location so that a passageway defined through the column is aligned with the thru-hole of the brace member when a first end of the column is engaged with the engagement surface of the brace member. A funnel member engageable with an end of the column opposite the first end. The funnel member has converging walls configured to radially compress the continuous stationary phase for entry into the passageway of the column when the continuous stationary phase is pulled through the funnel member. The device includes a mechanism for applying mechanical force to pull the rolled continuous stationary phase through the funnel member wherein the stationary phase is radially compressed and enters the passageway of the column.

Abstract: A structure comprising bodies having a functional surface property bonded to a substrate via a siloxane polymer adhesive. The structure may comprise a novel composition comprising a siloxane polymer having carbon bodies bonded thereto by direct carbon to silicon bonds. This composition may be used to bond carbon particles through a medium comprising the siloxane polymer to a vitreous, metal, plastic or other nucleophilic substrate. Alternatively, the bodies may comprise alumina, silicon, zeolite, organic polymers or other nucleophilic compositions, which are bonded directly to silicon atoms of the siloxane polymer. To bond carbon or other nucleophilic bodies to the substrate, the substrate is contacted with a mixture of the bodies and a hydrosiloxane polymer. The mixture is heated to cause the polymer to be bonded to the nucleophilic bodies, typically by C--Si, C--O--Si, Si--O--Si or Si--O--Al bonds, and to the substrate by reaction with the surface silanol or other nucleophilic groups.

Abstract: Novel sorbents and methods for removing small hydrophobic and amphophilic molecules from biological fluids were disclosed. The methods and materials were particularly useful for removing viral inactivating agents from blood and blood fractions. The novel sorbents comprise a porous mineral oxide matrix having its interior porous volume substantially filled with a crosslinked hydrophobic polymer network.

Abstract: A structure comprising bodies having a functional surface property bonded to a substrate via a siloxane polymer adhesive. The structure may comprise a novel composition comprising a siloxane polymer having carbon bodies bonded thereto by direct carbon to silicon bonds. This composition may be used to bond carbon particles through a medium comprising the siloxane polymer to a vitreous, metal, plastic or other nucleophilic substrate. Alternatively, the bodies may comprise alumina, silicon, zeolite, organic polymers or other nucleophilic compositions, which are bonded directly to silicon atoms of the siloxane polymer. To bond carbon or other nucleophilic bodies to the substrate, the substrate is contacted with a mixture of the bodies and a hydrosiloxane polymer. The mixture is heated to cause the polymer to be bonded to the nucleophilic bodies, typically by C--Si, C--O--Si, Si--O--Si or Si--O--Al bonds, and to the substrate by reaction with the surface silanol or other nucleophilic groups.

Abstract: A structure comprising bodies having a functional surface property bonded to a substrate via a siloxane polymer adhesive. The structure may comprise a novel composition comprising a siloxane polymer having carbon bodies bonded thereto by direct carbon to silicon bonds. This composition may be used to bond carbon particles through a medium comprising the siloxane polymer to a vitreous, metal, plastic or other nucleophilic substrate. Alternatively, the bodies may comprise alumina, silicon, zeolite, organic polymers or other nucleophilic compositions, which are bonded directly to silicon atoms of the siloxane polymer. To bond carbon or other nucleophilic bodies to the substrate, the substrate is contacted with a mixture of the bodies and a hydrosiloxane polymer. The mixture is heated to cause the polymer to be bonded to the nucleophilic bodies, typically by C--Si, C--O--Si, Si--O--Si or Si--O--Al bonds, and to the substrate by reaction with the surface silanol or other nucleophilic groups.

Abstract: This invention relates generally to modified porous solid supports and processes for the preparation and use of same. In particular, passivated porous mineral oxide supports are disclosed which are characterized by a reversible high sorptive capacity substantially unaccompanied by non-specific adsorption of or interaction with biomolecules. Passivation is achieved by use of a passivation mixture comprising a main monomer, a passivating monomer and a crosslinking agent, which mixture upon polymerization results in the substantial elimination of the undesirable non-specific interaction with biomolecules.

Abstract: The present invention relates to a new isoindolinone derivative of formula: ##STR1## in racemic form or in the form of its enantiomers, as well as its salts, its preparation and the pharmaceutical compositions which contain it.

Abstract: Disclosed is a process of separating protein using a polymeric composition. The composition includes a polymer formed from at least one monomer containing a polymerizable moiety chemically bonded to an anionic organic dye. The dye has an affinity for the protein to be separated. The process includes retaining the protein on the dye fraction and recovering the protein from the polymer.

Abstract: A system for pretreating sample streams including a concentrated matrix compound to neutralize the compound. The system includes an electrochemical membrane device in which sample flows through a sample flow channel of the device separated from a matrix ion receiving flow channel by an ion exchange membrane preferentially permeable to ions of the opposite charge to the ions to be analyzed. The ionic species in the thus-pretreated sample are directed to an analytical system such as an ion chromatograph.

Abstract: A particle loaded, porous, fibrous compressed or fused article comprises a nonwoven fibrous polymeric web, which preferably is thermoplastic, melt-extrudable, and pressure-fusible blown microfibrous web, and sorptive particles enmeshed in said web, the particle loaded fibrous article has a Gurley number of at least two seconds, and the article is useful in separation science. A method of preparation of the article and method of use is also disclosed.

Abstract: The disclosure describes highly specific tryptase polyclonal antibodies, and a method to purify the antibodies. Specifically, the invention relates to polyclonal antibodies which have the capacity to capture tryptase out of solution, a process to generate the antibodies, and an enzyme-linked immunosorbent assay (ELISA) for human tryptase which utilizes the antibodies.

Abstract: This invention relates generally to modified porous solid supports and processes for the preparation and use of same. In particular, passivated porous polymeric supports are disclosed which are characterized by a reversible high sorptive capacity substantially unaccompanied by non-specific adsorption of or interaction with biomolecules. Passivation is achieved by use of a passivation mixture comprising a main monomer, a passivating monomer that is different from the main monomer, and a crosslinking agent, which mixture upon polymerization results in the substantial elimination of the undesirable non-specific interaction with biomolecules.

Abstract: The present invention relates to a method for separating and analyzing ions by electrostatic ion chromatography using water as the eluent not only for the analysis of the group of anions or cations but also for the simultaneous and simple analysis of the two groups of analyte ions. A solid phase packed in a separation column to be used therefor is a zwitterionic stationary phase, comprising a support carrier and a zwitterionic layer formed by directly or indirectly coating or immobilized a compound having both of a positive-charge portion and a negative-charge portion (an ammonium salt or amide portion, and a sulfonate ion portion or carboxylate ion portion) on the surface of the support carrier for detecting given separated ions by ultraviolet method etc. And another present invention relates to a method for separating and analyzing inorganic and organic components etc. simultaneously by multi-functional liquid chromatography.

Abstract: A process for preparing a cellulose ester liquid chromatographic stationary phase by reacting cellulose with an aromatic acid halide, such as p-toluoyl chloride, in the presence of a base catalyst, such as pyridine, the reaction temperature and the concentration of base catalyst being below the temperature and concentration at which the cellulose ester dissolves, the reaction time being less than the reaction time at which the cellulose ester dissolves. Similarly, a process for preparing a cellulose carbamate liquid chromatographic stationary phase by reacting cellulose with an aromatic isocyanate, such as 3,5-dimethyl phenyl isocyanate, in the presence of a base catalyst, such as pyridine, the reaction temperature and the concentration of base catalyst being below the temperature and concentration at which the cellulose carbamate dissolves, the reaction time being less than the reaction time at which the cellulose carbamate dissolves.

Abstract: A improved method for preparing a concentrated meconium extract containing basic and acid-neutral target analytes present in a meconium sample suspected of containing the target analytes is provided. The meconium sample is extracted with a mixed solvent of acetonitrile and a volatile organic acid and the resulting organic phase is separated. The organic phase is diluted with water to provide an organic solution which is passed through a mixed mode solid phase extraction column having strong cation exchange and hydrophobic functionality. Acid-neutral and basic target analytes are sequentially eluted from the column and the eluates are combined to form a combined extract. The combined extract is evaporated to dryness and reconstituted in buffer to provide a clean concentrated neonatal meconium extract for use in qualitative and quantitative analyses.

Abstract: New separation methods termed Enhanced Partitioning Fractionation (EPF) and High Osmotic Pressure Chromatography (HOPC) are described. The HOPC method involves passing large amounts of concentrated polymer solutions over porous material in a packed column. The concentration is high enough to allow for polymer chain overlap and to generate high osmotic pressures with respect to the porous material. The resulting high osmotic pressure causes increased separation of the polymer sample based on molecular size. The higher molecular weight components are concentrated in the initial fractions of eluent collected, whereas lower molecular weight components are concentrated in later fractions. The molecular weight of each fraction decreases with each successive fraction of eluent. The method is applicable to a wide variety of polymers and provides significant performance advantages to conventional preparative scale GPC.

Abstract: A method and apparatus using suppression of eluents for the analysis of anions or cations in ion chromatography. The invention relates to the intermittent use of the electric field during electrochemical suppression to minimize background noise during detection of the ionic species caused by the application of an electric field using an electrolytic membrane suppressor. Using this intermittent electrochemical suppression system allows the detection of the analyte in the absence of the electric field. The system finds particular benefit in reducing background noise created during electrochemical suppression, and in reducing the baseline interference when analyzing organic solvent-containing samples.

Abstract: The invention provides methods to obtain panels of low molecular weight polymers resulting from varying constituent monomers, which panels are systematically diverse with respect to two or more variables. The panels can be screened for members (paralogs) which are capable of specifically binding a target moiety. Such paralogs are useful for chromatographic separations and purifications of desired analytes and in binding assays, such as immunoassays, involving said analytes, as well as for any purpose which requires said specific binding. The invention also provides kits for these determinations, and methods to synthesize panels of candidate paralogs and use of these panels to generate analyte profiles and cross reactivity matrices.

Abstract: A process for recovering metals from an aqueous metal-ion bearing solution includes the steps of: (a) forming an affinity chromatography matrix by providing a metal bearing protein bound to an insoluble support material to form an immobilized metalloprotein material; (b) introducing into the affinity chromatography matrix a quantity of aqueous metal-containing solution having a pH, redox potential or other property properly adjusted to cause ions of a selected metal entrained within the solution to bind to the immobilized metalloprotein material; (c) washing the matrix with a first buffer which does not elute the metal ions of interest but does remove other species of metal entrained in the solution; and (d) applying a second buffer or solution of appropriate pH, redox potential or other property to the affinity chromatography matrix to elute the metal ions of interest from the immobilized metalloprotein material.

Abstract: A process for effectively and economically separating an ionic component such as acid from a nonionic component such as sugar in polar solutions using ion exclusion technology whereby the viability of using hydrolysis to convert wood and agricultural waste products such as corn stover into fuel alcohol is substantially effected. Underlying the gist of this invention are newly discovered methods by which dispersion, caused by shrinkage of resin within ion exclusion columns, is controlled resulting in operation of such columns, over a wide range of process conditions to produce separate and distinct elution profiles for the acid and sugar. Successful operation of these new ion exclusion methods, techniques, and systems can replace lime precipitation which currently is being used in acid hydrolysis processing.

Abstract: Composite articles are useful for separating mercury from fluids. The composite articles can be porous supports comprising an inert substrate having immobilized thereon finely divided gold optionally in combination with a tin salt coating. The porous support can be a particulate or porous fibrous webs. Alternatively, the composite articles can comprise a porous fibrous membrane having enmeshed therein the aforementioned porous supports which can be in particulate or fibrous forms. The method for separating elemental, ionic, or organic mercury in fluids comprises the step of contacting and passing a fluid containing mercury through a support comprising a porous, high surface area, inert substrate on which is immobilized finely divided elemental gold at a controlled rate for a time sufficient for the mercury to sorb to the elemental gold and to provide an immobilized gold-mercury amalgam on the support. If a tin salt also is immobilized on the inert substrate, mercury-tin salt can also be formed.

Abstract: A preselected hemoglobin species is separated from contaminants having a different acidity from that of the preselected hemoglobin species, by an overload displacement chromatography process. To remove more acidic contaminants, the process is conducted under anion exchange conditions. To remove more basic contaminants, the process is conducted under cation exchange conditions. In either case, the exchange column is overloaded to displace the hemoglobin species therefrom with contaminants having greater affinity for the column, and using the impure hemoglobin solution as the displacer.

Abstract: The relationship of variations in the retention time of a specific component of a measurement blood sample with respect to changes in change-over time of the eluting solution is determined. The retention time of the specific component of the measurement blood sample is measured under a particular analyzing condition. In case of a departure of the retention time from a predetermined reference range, a change-over time of eluting solution is obtained in accordance with the relationship, so that the retention time of the specific component can fall within the reference range. The change-ever time of eluting solution is updated as an analyzing condition for the subsequent analysis by using the obtained values.

Abstract: A process for effectively and economically separating an ionic component such as acid from a nonionic component such as sugar in polar solutions using ion exclusion technology whereby the viability of using hydrolysis to convert wood and agricultural waste products such as corn stover into fuel alcohol is substantially effective. Underlying the gist of this invention are newly discovered methods by which dispersion, caused by shrinkage of resin within ion exclusion columns, is controlled resulting in operation of such columns, over a wide range of process conditions to produce separate and distinct elution profiles for the acid and sugar. Successful operation of these new ion exclusion methods, techniques, and systems can replace lime precipitation which currently is being used in acid hydrolysis processing.

Abstract: A process for separating small molecules from a sample containing small and large molecules using a porous separation medium having bimodal chemistry wherein the small molecules are first removed is disclosed.

Abstract: Support beads for downstream processing comprising a polymer, esp. a polysaccharide, matrix into which glass or silica particles, preferably quartz particles, have been incorporated, and their use in downstream processing, especially stabilized fluidized bed separations.

Abstract: A system for pretreating sample streams including a concentrated matrix compound to neutralize the compound. The system includes an electrochemical membrane device in which sample flows through a sample flow channel of the device separated from a matrix ion receiving flow channel by an ion exchange membrane preferentially permeable to ions of the opposite charge to the ions to be analyzed. The ionic species in the thus-pretreated sample are directed to an analytical system such as an ion chromatograph.

Abstract: The narrow poly- or mono-dispersed oligomers of the present invention are polyureas, polycarbonates, polyesters or polyamides having a recurring unit of from 3 to 50. These oligomers are water-soluble, preferably have a rigid backbone, have recurring units coupled by carbonyl linking moities which have anionic groups, display predominantly linear geometry such that regular spacing between anionic groups exists in an aqueous medium, and are pharmaceutically-acceptable. The narrow poly- or mono-dispersed oligomers are useful for the treatment and/or diagnosis of AIDS and/or ARC or HSV.

Abstract: A pyridinoline composition in which pyridinoline is derivatized specifically at its aliphatic hydroxyl group by a selected chemical group is disclosed. In various embodiments, the composition may be used as a standard for HPLC or immunoassay of pyridinoline, a pyridinoline immunogen for producing anti-pyridinoline antibodies, and a solid-phase reagent for use in an immunoassay kit. Also disclosed are methods for making and using the composition.

Abstract: A polysaccharide substance having the following formula is provided: ##STR1## Also provided is a method of producing the polysaccharide substance in which an oligosaccharide having a degree of polymerization from 3 to 10 is chemically bonded to a silane agent at the reducing terminal of the resultant oligosaccharide, the oligosaccharide compound is then polymerized to an average degree of polymerization from 11 to 500 in the presence of an enzyme. Another method for producing the polysaccharide substance is provided in which an aldehyde group at the reducing terminal of an oligosaccharide having a degree of polymerization from 3 to 10 is oxidized with an oxidizing agent, and the saccharide chain of the oxidized product is polymerized to a degree of polymerization from 11 to 500 in the presence of an enzyme, followed by the addition of an acid. The polysaccharide substance has excellent solvent resistance and is useful as a separating agent for chromatography, especially for the separation of chiral compounds.

Abstract: An apparatus has been designed that is useful for the automated or semi-automated removal, recovery, deprotection, and/or purification of biopolymers such as oligodeoxyribonucleotides, oligoribonucleotides, oligosaccharides, and peptides from a solid support matrix that is contained in a reaction chamber in the shape of a column.

Abstract: Processes are provided for pretreating body fluid compositions and subsequently analyzing the pretreated body fluid compositions for analytes of interest. Processes for pretreating the compositions include providing size exclusion gel having a molecular weight fractionation range or a molecular weight exclusion such that the size exclusion gel is capable of excluding or fractionating the analytes of interest, and then causing the composition to contact the size exclusion gel in order to separate the analytes from low molecular weight composition components which interfere with the separation and analysis of the analytes of interest. Processes for analyzing pretreated compositions include electrophoretic methods such as capillary zone electrophoresis which involve the separation and detection of analytes of interest.

Abstract: Separation of a chemical substance is effected by treating a mixture thereof with a polysaccharide having a substituent for hydroxyl group an acyl group of the formula (1) or a carbamoyl group of the formula (2): ##STR1## wherein R represents an atomic group having a nucleus comprising a conjugated .pi.-bond system in which the number of bonds interposed between an atom contained therein and bonded with the carbonyl or amino group and an atom contained in the .pi.-bond system and most distant from said atom is at least 5 even in the shortest route.

Abstract: Carbon clusters, such as C.sub.60 and C.sub.70 fullerenes are separated by means of a recognition selector having the formula: ##STR1## wherein R.sub.1 is ##STR2## wherein R.sub.2 is O, S or NR.sub.12 wherein R.sub.12 is independently hydrogen or P.dbd.O with the proviso that when R.sub.12 is P.dbd.O, then only one such group is present and all R.sub.2 's are additionally bonded to R.sub.12,R.sub.4 is independently O, S or NH,R.sub.3 and R.sub.5 are each independently hydrogen or lower alkyl,n and o are each independently zero, 1, 2 or 3,p, q, r, s and t are each independently zero or 1,Ar is a monocyclic or ortho-fused polycyclic aromatic moiety having up to 10 carbon atoms, either of which may be unsubstituted or substituted with one or more lower alkyl, NO.sub.2, N(R.sub.6).sub.3.sup.30, CN COOR.sub.7, SO.sub.3 H, COR.sub.8 and OR.sub.9 wherein R.sub.6, R.sub.7, R.sub.8 and R.sub.9 are each independently hydrogen or lower alkyl;W is H or CH.dbd.CH.sub.2 ; andm is 1 to 10.

Abstract: Novel sorbents and methods for removing small hydrophobic and amphophilic molecules from biological fluids were disclosed. The methods and materials were particularly useful for removing viral inactivating agents from blood and blood fractions. The novel sorbents comprise a porous mineral oxide matrix having its interior porous volume substantially filled with a crosslinked hydrophobic polymer network.

Abstract: The invention relates to a chiral selector useful in separating underivatized enantiomers of nonsterodial anti-inflammatory agents, particularly naproxen and other arylacetic acid compounds, and relates to a process for achieving such separation utilizing the chiral selector, which is also useful in achieving the enantiomeric separation of amines, alcohol derivatives, epoxides and sulfoxides. The invention is also directed to an apparatus which comprises the chiral selectors.

Abstract: When a strong base anion exchange resin, such as a chloride-form strong base anion exchange resin, is conditioned with a low concentration of hydroxyl (for example, an NaOH solution with a concentration between 1 and 10 mM), the conditioned resin separates in, sit, Is from sugars and sugar alcohols, while still allowing ready desorption of the sugars from the resin. The feedstock is first passed over a column containing this conditioned resin, followed by a mobile phase solvent, preferably water. The inositols have a lower affinity for the treated resin than do the sugars and sugar alcohols in the feedstock, and therefore pass through the column more quickly. The process may economically be performed on industrial-scale inositol separations, particularly when used in a preferred simulated moving bed chromatographic system.

Abstract: A packing for chromatography whereby a low molecular weight substance contained in biological samples can be analyzed directly at a high accuracy without any pretreatments. This packing is combining a protein such as avidin and ovomucoid to the support via a straight or branched spacer optionally having a functional group such as a cyano group. Enantiomers interact differentially with proteins, and thereby optically separated. Further, a purification column packed with said packing is disclosed. According to the present invention, a low molecular weight substance can be directly and accurately analyzed without requiring any pretreatment for removing biological macromolecules. When it is employed in the purification column, the time required for the pretreatment can be shortened.

Abstract: A separation agent essentially comprises an aliphatic or aromatic ester of a polysaccharide, except for cellulose acetate and an aromatic ester of cellulose. It is useful for separation of various chemical substances, especially optical resolution of optical isomers.

Abstract: This invention relates generally to modified porous solid supports and processes for the preparation and use of same. In particular, passivated porous mineral oxide supports are disclosed which are characterized by a reversible high sorptive capacity substantially unaccompanied by non-specific adsorption of or interaction with biomolecules. Passivation is achieved by use of a passivation mixture comprising a main monomer, a passivating monomer and a crosslinking agent, which mixture upon polymerization results in the substantial elimination of the undesirable non-specific interaction with biomolecules.

Abstract: A method and apparatus for the partial or complete continuous separation of isotopes of gadolinium, especially high thermal neutron capture cross-section gadolinium isotopes, using continuous, steady-state, chromatography in which an ion exchange resin is the stationary phase, an aqueous solution of ions based on a mixture of gadolinium isotopes is the feed phase, and an aqueous acid eluant solution is the mobile phase. The method involves the mobile phase eluting or desorbing the gadolinium isotopic solute or ligand adsorbed on the stationary phase under conditions such that each of the various naturally occurring isotopes of gadolinium is primarily eluted in an elution volume distinct from the elution volumes of the other isotopes. In a preferred embodiment, the conditions are such that at least one of the elution volumes contains essentially only one isotope of gadolinium.

Abstract: An ion exchanger for chromatographic separation has the structureP--S--A,wherein P is an insoluble support, S is a spacer, and A is a functional ligand. According to the invention the functional ligand A comprises two positively charged atoms, each selected from nitrogen and sulphur, at a distance of two atoms from each other, with the proviso that A can not be 4-methyl-1,4-diazabicyclo[2.2.2]octan-1-yl, 1,4,4-trimethylpiperazinium-1-yl, 1,4-dimethyl-1,4-diazabicyclo[2.2.2]octan-2-yl or 1,1,4,4,4-pentamethyl-1,4-diazabutan-1-yl.

Abstract: A method as well as large bead chromatography particles are described for the direct capture of a desired product from unclarified process liquor on standard, low pressure, packed bed chromatography columns. The beads are sufficiently large so that the particulate contaminants can flow in the interparticle lumen and exit the column without obstructing the flow. The desired product is simultaneously captured by the functional groups of the beads. The beads have high dynamic capacities and allow rapid processing of large volumes of process materials.

Abstract: The invention is directed to separating materials comprising a primary or secondary aliphatic hydroxyl group-containing support coated with at least one covalently bonded polymer, wherein(1) the covalently bonded polymers are bonded to the support by graft polymerization via the .alpha.-carbon atoms of the hydroxyl groups, and(2) the polymer contains identical or different recurring units of the formula I ##STR1## wherein R.sup.1 is H or CH.sub.3 ;Y is ##STR2## R' and R" are each independently H or CH.sub.3, R.sup.2 and R.sup.3 are each independently(a) C.sub.1-10 -alkyl, phenyl, phenyl-C.sub.1-10 -alkyl, cycloalkyl, C.sub.1-10 -alkyl-cycloalkyl or C.sub.1-10 -alkylphenyl,(b) one of the above groups in (a) monosubstituted or polysubstituted by each of amino, mono- or dialkylamino, trialkylammonium, carboxyl, or sulfonyl,(c) a cyclic or bicyclic radical having 5-10 C atoms, wherein one or more CH or CH.sub.2 groups is replaced by (i) N or NH, (ii) N or NH and S, or (iii) N or NH and O, or(d) one of R.sup.

Abstract: A continuous liquid chromatographic column containing a separation medium in the form of a macroporous polymer plug is disclosed. The column possesses numerous advantages over conventional columns which are packed with beads or particles. The plug contains both small pores less than 200 nm in diameter and large pores greater than 600 nm in diameter.

Abstract: A syrup of natural carob sugars having 55-75% sucrose, 7-15% fructose, 7-16% glucose, 0.5-3% other sugars, 4-14% cyclitols and 0.5-2% organic and inorganic impurities. Sugars are extracted from carob pulp and the juice thus obtained is subjected to chromatographic separation to separate the sugars from the non-sugars. The product obtained may be used in applications similar to those of other sugars.