Rapid process for arraying and synthesizing bead-based combinatorial libraries
First Claim
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1. A process for arraying beads for bead-based combinatorial libraries which comprises:
- establishing a bead-receiving surface comprising a pattern of discrete bead attachment areas, wherein each discrete bead attachment area is an area of adhesive on a porous substrate, each bead attachment area being capable of holding a limited number of beads of uniform size, and an area, from which beads are free to separate, spacing the discrete bead attachment areas from one another, the limited number of beads for each bead attachment area being the same as that for every other bead attachment area in the pattern;
placing a mixture of beads of uniform size onto the surface;
causing a predetermined number of beads from the mixture to attach to each of the discrete bead attachment areas;
removing from the surface beads which are not attached to the discrete bead attachment areas; and
thereafter releasing the attached beads from the discrete bead attachment areas by washing the porous substrate with a solvent and thereby dissolving the bead attachment areas, and depositing them in an array of receptacles.
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Abstract
A mixture of beads of uniform size from is deposited in an array by establishing discrete attachment areas each consisting either of a droplet of adhesive or a small area of a continuous adhesive layer exposed through an aperture in a mask. Beads which are trapped by the attachment areas are released either by a solvent on a vacuum manifold, or by evaporation of the adhesive, preferably by means of a vacuum centrifuge. The beads are released into capillaries, in which cleavage of attached compounds, or synthesis of new compounds, can be carried out. Also invented is the apparatus used in carrying out the invention.
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5 Claims
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1. A process for arraying beads for bead-based combinatorial libraries which comprises:
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establishing a bead-receiving surface comprising a pattern of discrete bead attachment areas, wherein each discrete bead attachment area is an area of adhesive on a porous substrate, each bead attachment area being capable of holding a limited number of beads of uniform size, and an area, from which beads are free to separate, spacing the discrete bead attachment areas from one another, the limited number of beads for each bead attachment area being the same as that for every other bead attachment area in the pattern;
placing a mixture of beads of uniform size onto the surface;
causing a predetermined number of beads from the mixture to attach to each of the discrete bead attachment areas;
removing from the surface beads which are not attached to the discrete bead attachment areas; and
thereafter releasing the attached beads from the discrete bead attachment areas by washing the porous substrate with a solvent and thereby dissolving the bead attachment areas, and depositing them in an array of receptacles. - View Dependent Claims (2, 3, 5)
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4. A process for synthesizing arrays of chemical compounds which comprises:
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establishing a bead-receiving surface comprising a pattern of discrete bead attachment areas, each bead attachment area being capable of holding a limited number of beads of uniform size, and an area, from which beads are free to separate, spacing the discrete bead attachment areas from one another;
the limited number of beads for each bead attachment area being the same as that for every other bead attachment area in the pattern;
placing a mixture of beads of uniform size onto the surface;
causing a predetermined number of beads from the mixture to attach to each of the discrete bead attachment areas;
removing from the surface beads which are not attached to the discrete bead attachment areas;
aligning the attached beads with capillaries in an array of capillaries corresponding to the pattern of bead attachment areas;
releasing the attached beads from the discrete bead attachment areas and depositing them into the array of capillaries; and
introducing the array of capillaries into wells containing reagents for desired synthetic steps and carrying out syntheses on the beads while the beads are in the capillaries.
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Specification