Patent application number | Description | Published |
20090083871 | Targeting constructs for the functional disruption of avian immunoglobulin genes - A transgenic chicken is disclosed having disrupted endogenous immunoglobulin production. In one embodiment, a targeting construct is stably integrated into the genome of the chicken by homologous recombination in embryonic stem cells, and injection of the engineered embryonic stem cells into recipient embryos, thereby knocking out the endogenous immunoglobulin gene locus in resulting animals. The targeted disruption of the locus in embryonic stem cells is particularly useful in combination with the insertion of genetic elements encoding exogenous immunoglobulin molecules. After these chickens are cross-bred, a line of chickens is produced that has a reduction of endogenous immunoglobulin molecule production. | 03-26-2009 |
20090083872 | Production of Proteins in Eggs - Methods for preparing recombinant proteins, such as antibodies, in eggs are described. The method offers advantages over existing systems for preparing recombinant proteins including high yield, low cost and compatibility with animal protection regulations. In addition, since eggs are edible food sources the recombinant protein does not have to be isolated from the egg. | 03-26-2009 |
20090165155 | Tissue Specific Expression of Exogenous Proteins in Transgenic Chickens - Transgenes encoding exogenous proteins are stably integrated into embryonic stem cells and are present in the somatic tissue of transgenic or chimeric birds. The transgenes encode exogenous proteins and are expressed in any of endodermal, ectodermal, mesodermal, or extra embryonic tissue. Tissue specificity is provided by selecting the content of the transgene accordingly. Transgenic birds whose genome is comprised of trangene derived exogenous DNA express exogenous proteins with tissue specificity, and specifically express exogenous proteins in the tubular gland cells of the oviduct to concentrate exogenous proteins in egg white. | 06-25-2009 |
20110023160 | Functional Disruption Of Avian Immunoglobulin Genes - A transgenic chicken is disclosed having disrupted endogenous immunoglobulin production. In one embodiment, a targeting construct is stably integrated into the genome of the chicken by homologous recombination in embryonic stem cells, and injection of the engineered embryonic stem cells into recipient embryos, thereby knocking out the endogenous immunoglobulin gene locus in resulting animals. The targeted disruption of the locus in embryonic stem cells is particularly useful in combination with the insertion of genetic elements encoding exogenous immunoglobulin molecules. After these chickens are cross-bred, a line of chickens is produced that has a reduction of endogenous immunoglobulin molecule production. | 01-27-2011 |
20110277048 | Transgenic Aves Producing Human Polyclonal Antibodies - Human antibodies are produced in transgenic chickens having functional genetic components of the human immune system stably integrated in the genome. Techniques are described to integrate unrearranged human heavy and light chain immunoglobulin loci into the genome of the transgenic chicken. | 11-10-2011 |
20110296541 | PRODUCTION OF PROTEINS IN EGGS - Methods for preparing recombinant proteins, such as antibodies, in eggs are described. The method offers advantages over existing systems for preparing recombinant proteins including high yield, low cost and compatibility with animal protection regulations. In addition, since eggs are edible food sources the recombinant protein does not have to be isolated from the egg. | 12-01-2011 |
20120156771 | FUNCTIONAL DISRUPTION OF AN IMMUNOGLOBULIN GENE IN AN AVIAN EMBRYONIC STEM CELL - A transgenic chicken is disclosed having disrupted endogenous immunoglobulin production. In one embodiment, a targeting construct is stably integrated into the genome of the chicken by homologous recombination in embryonic stem cells, and injection of the engineered embryonic stem cells into recipient embryos, thereby knocking out the endogenous immunoglobulin gene locus in resulting animals. The targeted disruption of the locus in embryonic stem cells is particularly useful in combination with the insertion of genetic elements encoding exogenous immunoglobulin molecules. After these chickens are cross-bred, a line of chickens is produced that has a reduction of endogenous immunoglobulin molecule production. | 06-21-2012 |
20130023653 | Tissue Specific Expression Of Antibodies In Chickens - Transgenes encoding exogenous antibodies are stably integrated into donor cells and are present in the somatic tissue of chimeric birds. The transgenes encode exogenous antibodies and are preferably expressed in the oviduct for collection in the egg. Tissue specificity is provided by selecting the content of the transgene accordingly. Birds whose genome is comprised of trangene-derived exogenous antibody-encoding DNA express exogenous antibodies having desirable chemical properties with increased therapeutic utility compared to antibodies derived from bacterial expression systems. | 01-24-2013 |
20140155580 | TRANSGENIC AVES PRODUCING HUMAN POLYCLONAL ANTIBODIES - Human antibodies are produced in transgenic chickens having functional genetic components of the human immune system stably integrated in the genome. Techniques are described to integrate unrearranged human heavy and light chain immunoglobulin loci into the genome of the transgenic chicken. | 06-05-2014 |
20140329996 | TISSUE SPECIFIC EXPRESSION OF ANTIBODIES IN CHICKENS - Transgenes encoding exogenous antibodies are stably integrated into donor cells and are present in the somatic tissue of chimeric birds. The transgenes encode exogenous antibodies and are preferably expressed in the oviduct for collection in the egg. Tissue specificity is provided by selecting the content of the transgene accordingly. Birds whose genome is comprised of transgene-derived exogenous antibody-encoding DNA express exogenous antibodies having desirable chemical properties with increased therapeutic utility compared to antibodies derived from bacterial expression systems. | 11-06-2014 |