Patent application number | Description | Published |
20090104601 | GENETIC DIAGNOSIS USING MULTIPLE SEQUENCE VARIANT ANALYSIS - The present invention is in the field of nucleic acid-based genetic analysis. More particularly, it discloses novel insights into the overall structure of genetic variation in all living species. The structure can be revealed with the use of any data set of genetic variants from a particular locus. The invention is useful to define the subset of variations that are most suited as genetic markers to search for correlations with certain phenotypic traits. Additionally, the insights are useful for the development of algorithms and computer programs that convert genotype data into the constituent haplotypes that are laborious and costly to derive in an experimental way. The invention is useful in areas such as (i) genome-wide association studies, (ii) clinical in vitro diagnosis, (iii) plant and animal breeding, (iv) the identification of micro-organisms. | 04-23-2009 |
20100082261 | Genetic Diagnosis Using Multiple Sequence Variant Analysis - The present invention is in the field of nucleic acid-based genetic analysis. More particularly, it discloses novel insights into the overall structure of genetic variation in all living species. The structure can be revealed with the use of any data set of genetic variants from a particular locus. The invention is useful to define the subset of variations that are most suited as genetic markers to search for correlations with certain phenotypic traits. Additionally, the insights are useful for the development of algorithms and computer programs that convert genotype data into the constituent haplotypes that are laborious and costly to derive in an experimental way. The invention is useful in areas such as (i) genome-wide association studies, (ii) clinical in vitro diagnosis, (iii) plant and animal breeding, (iv) the identification of micro-organisms. | 04-01-2010 |
20100092964 | Genetic Diagnosis Using Multiple Sequence Variant Analysis - The present invention is in the field of nucleic acid-based genetic analysis. More particularly, it discloses novel insights into the overall structure of genetic variation in all living species. The structure can be revealed with the use of any data set of genetic variants from a particular locus. The invention is useful to define the subset of variations that are most suited as genetic markers to search for correlations with certain phenotypic traits. Additionally, the insights are useful for the development of algorithms and computer programs that convert genotype data into the constituent haplotypes that are laborious and costly to derive in an experimental way. The invention is useful in areas such as (i) genome-wide association studies, (ii) clinical in vitro diagnosis, (iii) plant and animal breeding, (iv) the identification of micro-organisms. | 04-15-2010 |
20110091462 | NOVEL ANTIGEN BINDING DIMER-COMPLEXES, METHODS OF MAKING AND USES THEREOF - In a broad aspect the present invention generally relates to novel dimer-complexes (herein called “non-fused-dimers” or NFDs) comprising single variable domains, methods of making these complexes and uses thereof. These non-covalently bound dimer-complexes consist of two identical monomers that each comprises of one or more single variable domains (homodimers) or of two different monomers that each comprises on or more single variable domains (heterodimers). The subject NFDs have typically altered e.g. improved binding characteristics over their monomeric counterpart. The NFDs of the invention may further be engineered through linkage by a flexible peptide or cysteines in order to improve the stability. This invention also describes conditions under which such NFDs are formed and conditions under which the formation of such dimers can be avoided. | 04-21-2011 |
20110183861 | METHODS TO STABILIZE PROTEINS AND POLYPEPTIDES - Methods of modifying and in particular stabilizing proteins and polypeptides by which a predetermined amino acid is introduced into selected positions of said protein or polypeptide to produce a small group of mutants. The methods are based on the premise that certain amino acids play a crucial role in the stability of proteins or polypeptides. Generated mutants can then be further analysed for stability and/or function, e.g. affinity. Furthermore, appropriate mutants may be combined to result in further optimized proteins or polypeptides. In addition, stabilized example polypeptides and suitable methods to identify and/or analyse de-stabilized or stabilized proteins or polypeptides are provided. The methods can be used to study the role of specific amino acids in protein structure and function and to develop new or improved, e.g. stabilized proteins and polypeptides such as antibodies and single variable domains. | 07-28-2011 |
20120157664 | METHOD FOR THE PRODUCTION OF DOMAIN ANTIBODIES - The present disclosure relates to a method for producing a domain antibody in a host other than | 06-21-2012 |