Methods and compositions for combinatorial-based discovery of new multimeric molecules
First Claim
1. A panel comprising two or more heterokaryons wherein each of said heterokaryons produces a different variant of a multimeric protein and each heterokaryon is formed by fusing a first and a second fungal parent strain, wherein said heterokaryon requires the presence of both fungal parent nuclei for survival, said first and said second parent fungal strain each contain an exogenously supplied nucleic acid molecule that encodes a variant of a subunit of a multimeric protein and where said first and said second parent strains are homozygous for all heterokaryon compatibility alleles.
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Abstract
The present invention prowdes methods and compositions for producing and screening combinatorial libraries of multimeric proteins. The present invention relies on the use of filamentous fungal heterokaryons that are produced using two or more parent strains into which a population of DNA molecules encoding variants of a multimeric protein have been introduced.
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Citations
13 Claims
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1. A panel comprising two or more heterokaryons wherein each of said heterokaryons produces a different variant of a multimeric protein and each heterokaryon is formed by fusing a first and a second fungal parent strain, wherein said heterokaryon requires the presence of both fungal parent nuclei for survival, said first and said second parent fungal strain each contain an exogenously supplied nucleic acid molecule that encodes a variant of a subunit of a multimeric protein and where said first and said second parent strains are homozygous for all heterokaryon compatibility alleles.
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2. The panel of claim 1 wherein each of said variants of a subunit of a multimeric protein is a naturally occurring subunit variant.
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3. The panel of claim 1 wherein each of said variants of a subunit of a multimeric protein is not a naturally occurring subunit variant.
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4. The panel of claim 1 wherein each of said multimeric proteins is an antibody molecule.
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5. The panel of claim 1 wherein each said multimeric protein is secreted into the medium.
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6. A kit comprising one or more containers that contain the heterokaryon panel of claim 1.
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7. A method for producing a panel of heterokaryons comprising two or more heterokaryons wherein each of said heterokaryons produces a multimeric protein comprising the steps of:
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fusing two or more pairs of fungal strains, each pair consisting of a first and second fungal parent strain, said first and said second parent fungal strains containing an exogenously supplied nucleic acid molecule that encodes a variant of a subunit of a multimeric protein and where said first and said second parent strains are homozygous for all heterokaryon compatibility alleles and selecting two or more heterokaryons thus formed to generate said panel, wherein said heterokaryon requires the presence of both fungal parent nuclei for survival.
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8. The method of claim 7 wherein said variant of a subunit of a multimeric protein is a naturally occurring subunit variant.
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9. The method of claim 7 wherein said variant of a subunit of a multimeric protein is not a namraily occurring subunit variant.
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10. The method of claim 7 wherein said multimeric protein is an antibody molecule.
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11. The method of claim 7 wherein said multimeric protein is secreted into the medium under appropriate conditions.
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12. The method of claim 7 wherein said first and second parent fungal strains are fused using a pulsed electric field.
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13. A method to produce a panel of variants of a multimeric protein, said method comprising the step of culturing the heterokaryon panel of claim 1 under conditions in which the exogenously supplied nucleic acid molecules are expressed so as to form variants of a multimeric protein.
Specification