Use of nitrogen-containing compounds as plasticizers for peptide-based biopolymers and uses thereof

I, the inventor, claim as follows: 1. An extrusion pellet of peptide-based biopolymer made according to a method, the method comprising: (a) combining said peptide-based biopolymer with a nitrogen-containing plasticizing compound to form a mixture of said peptide-based biopolymer and said nitrogen-containing plasticizing compound; (b) heating said mixture of said peptide-based biopolymer and said nitrogen-containing compound to a temperature between approximately 130° C. and less than 300° C. to create a melted mixture of said peptide-based biopolymer and said nitrogen-containing compound; and (c) forming a pellet of said melted mixture of said peptide-based biopolymer and said nitrogen-containing compound, wherein said nitrogen-containing plasticizing compound is not urea, wherein said peptide-based biopolymer is keratin, and wherein a ratio of the weight of said peptide-based biopolymer to the weight of said nitrogen-containing plasticizing compound ranges from approximately 1/99 to approximately 15/85. 2. The extrusion pellet of claim 1 , wherein said nitrogen-containing plasticizing compound is selected from the group consisting of biuret, melamine, proline, lysine, glycine, serine, or a combination thereof. 3. The extrusion pellet of claim 1 wherein said ratio is approximately 10/90. 4. An animal feed pellet comprising a mixture of peptide-based biopolymer and a plasticizer, and optionally amino acids, vitamins, and/or minerals that are nutritionally important to the animal receiving said animal feed pellet; wherein said peptide-based biopolymer is keratin, wherein said plasticizer contains at least one nitrogen atom, wherein said plasticizer has a melting point greater than the melting point of urea, wherein said peptide-based biopolymer and said plasticizer are heated and formed into a pellet, and wherein the ratio of the weight of said peptide-based biopolymer to the weight of said plasticizer ranges from approximately 1/99 to approximately 15/85. 5. The animal feed pellet of claim 4 , wherein when said plasticizer is not lysine, said animal feed pellet further comprises lysine. 6. The animal feed pellet of claim 4 , wherein said plasticizer is selected from the group consisting of lysine, proline, glycine, biuret, serine, melamine, and a combination thereof. 7. The animal feed pellet of claim 4 wherein said ratio of the weight of said peptide-based biopolymer to the weight of said plasticizer is approximately 10/90. 8. The animal feed pellet of claim 4 wherein said mixture of said peptide-based biopolymer and said plasticizer, and optionally said amino acids, said vitamins, and/or said minerals are heated and formed into a pellet. 9. A method of increasing the absorption of amino acids in the digestive tract of an animal comprising feeding said animal feed pellet of claim 4 to said animal. 10. The method of claim 9 wherein said animal is a mammal, bird, or a fish. 11. The method of claim 9 wherein said plasticizer is selected from the group consisting of lysine, proline, glycine, biuret, serine, melamine, and a combination thereof. 12. The method of claim 9 wherein the ratio of the weight of said peptide-based biopolymer to the weight of said plasticizer is approximately 10/90. 13. A fertilizer pellet comprising a mixture of a peptide-based biopolymer and a plasticizer, and optionally amino acids and optionally minerals; wherein said optional amino acids and said optional mineral are nutritionally important for plant growth; wherein said peptide-based biopolymer is keratin or silk, wherein said plasticizer contains at least one nitrogen atom; wherein said plasticizer has a melting point greater than the melting point of urea; wherein said peptide-based biopolymer and said plasticizer are heated and formed into a pellet, and wherein the ratio of the weight of said peptide-based biopolymer to the weight of said plasticizer ranges from approximately 1/99 to approximately 15/85. 14. The fertilizer pellet of claim 13 , wherein when said peptide-based biopolymer is keratin, then said plasticizer is selected from the group consisting of lysine, proline, glycine, biuret, serine, melamine, and a combination thereof. 15. An extrusion pellet, comprising a peptide-based biopolymer and a plasticizer, wherein said peptide-based biopolymer is keratin or silk, wherein the plasticizer is an amino acid selected from the amino acids making up the original peptide-based biopolymer, and wherein the ratio of the weight of said peptide-based biopolymer to the weight of said plasticizer ranges from approximately 1/99 to approximately 15/85.