Abstract: The subject matter of this invention is directed towards chemically and thermodynamically stable glucagon analogs that are resistant to deamidation and fibrillation. The invention further discloses improved methods for the recombinant expression and purification of glucagon analogs.

Abstract: The subject matter of this invention is directed towards insulin analogs that are stable and that are glucose-responsive. An insulin analog can be a single chain insulin (SCI). The binding affinity of insulin to the insulin receptor can be controlled by the glucose-bound conformation of insulin. The invention further discloses methods for the recombinant expression, purification, and refolding of an insulin analog.

Abstract: The subject matter of this invention is directed towards chemically and thermodynamically stable glucagon analogs that are resistant to deamidation and fibrillation. The invention further discloses improved methods for the recombinant expression and purification of glucagon analogs.

Abstract: The present disclosure relates to processes for the production of peptides and methods of using peptides produced accordingly. Peptides produced according to the present disclosure may be administered for the treatment of autoimmune and/or inflammatory diseases and conditions.

Abstract: The invention provides compounds for the treatment of Alzheimer's disease, methods for the use of such compounds, assays for the identification of such compounds, and methods for diagnosis of Alzheimer's disease and diagnostic kits. Methods of marketing compounds are also disclosed. In one aspect, the disclosure provides a compound for the diagnosis or treatment of Alzheimer's disease wherein the compound is a modulator that inhibits the disruption by amyloid ? of a complex comprising synaptophysin and/or synaptobrevin. In another aspect, the disclosure provides a pharmaceutical composition comprising the compounds disclosed herein in an amount sufficient to treat Alzheimer's disease in a subject. In another aspect, the disclosure provides a diagnostic composition comprising the compound disclosed herein.

Abstract: The present invention relates to processes for the production of peptides, and the peptides produced accordingly. Peptides produced according to the invention may be produced more efficiently than peptides produced according to prior art processes. The production process of the invention may lead to advantages in yield, purity, and/or price. Methods of marketing peptides are also disclosed.

Abstract: The subject matter of this invention is directed towards chemically and thermodynamically stable single-chain insulin (SCI) analogues that are resistant to deamidation and fibrillation. The invention further discloses improved methods for the recombinant expression, purification and refolding of SCI.

Abstract: The invention provides compounds for the treatment of Alzheimer's disease, methods for the use of such compounds, assays for the identification of such compounds, and methods for diagnosis of Alzheimer's disease and diagnostic kits. Methods of marketing compounds are also disclosed. In one aspect, the disclosure provides a compound for the diagnosis or treatment of Alzheimer's disease wherein the compound is a modulator that inhibits the disruption by amyloid ? of a complex comprising synaptophysin and/or synaptobrevin. In another aspect, the disclosure provides a pharmaceutical composition comprising the compounds disclosed herein in an amount sufficient to treat Alzheimer's disease in a subject. In another aspect, the disclosure provides a diagnostic composition comprising the compound disclosed herein.

Abstract: The present invention relates to processes for the production of peptides, and the peptides produced accordingly. Peptides produced according to the invention may be produced more efficiently than peptides produced according to prior art processes. The production process of the invention may lead to advantages in yield, purity, and/or price. Methods of marketing peptides are also disclosed.

Abstract: The subject matter of this invention is directed towards chemically and thermodynamically stable single-chain insulin (SCI) analogues that are resistant to deamidation and fibrillation. The invention further discloses improved methods for the recombinant expression, purification and refolding of SCI.

Abstract: The present invention relates to processes for the production of peptides, and the peptides produced accordingly. Peptides produced according to the invention may be produced more efficiently than peptides produced according to prior art processes. The production process of the invention may lead to advantages in yield, purity, and/or price. Methods of marketing peptides are also disclosed.

Abstract: The subject matter of this invention is directed towards chemically and thermodynamically stable single-chain insulin (SCI) analogues that are resistant to deamidation and fibrillation. The invention further discloses improved methods for the recombinant expression, purification and refolding of SCI.

Abstract: The subject matter of this invention is directed towards chemically and thermodynamically stable single-chain insulin (SCI) analogues that are resistant to deamidation and fibrillation. The invention further discloses improved methods for the recombinant expression, purification and refolding of SCI.

Abstract: The subject matter of this invention is directed towards chemically and thermodynamically stable single-chain insulin (SCI) analogues that are resistant to deamidation and fibrillation. The invention further discloses improved methods for the recombinant expression, purification and refolding of SCI.

Abstract: The present invention relates to processes for the production of peptides, and the peptides produced accordingly. Peptides produced according to the invention may be produced more efficiently than peptides produced according to prior art processes. The production process of the invention may lead to advantages in yield, purity, and/or price. Methods of marketing peptides are also disclosed.

Abstract: The subject matter of this invention is directed towards chemically and thermodynamically stable single-chain insulin (SCI) analogues that are resistant to deamidation and fibrillation. The invention further discloses improved methods for the recombinant expression, purification and refolding of SCI.

Abstract: The present invention relates to processes for the production of peptides, and the peptides produced accordingly. Peptides produced according to the invention may be produced more efficiently than peptides produced according to prior art processes. The production process of the invention may lead to advantages in yield, purity, and/or price. Methods of marketing peptides are also disclosed.

Abstract: Methods and compositions described herein relate to processes for the production of deuterated peptides, and the deuterated peptides produced accordingly. Deuterated peptides produced according to methods and compositions described herein may be produced more efficiently than such peptides produced according to prior art processes. The production process of according to methods and compositions described herein may lead to advantages in yield, purity, and/or price for deuterated peptides. Methods of marketing deuterated peptides are also disclosed.

Abstract: The present invention relates to processes for the production of peptides, and the peptides produced accordingly. Peptides produced according to the invention may be produced more efficiently than peptides produced according to prior art processes. The production process of the invention may lead to advantages in yield, purity, and/or price. Methods of marketing peptides are also disclosed.