- Feb 17, 2014
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Igf1-des
Des (1-3) IGF-1 (IGF-1 Des) is an analog of the naturally founds IGF1 molecule with the exception that natural IGF1 has an amino acid chain of 70 and IGF-1 Des only 67 in its chain. There are 3 amino acids purposefully cleaved off to make IGF-1 Des, making it have a very low affinity to binding proteins making its effects about 10X more potent than regular IGF-1.
Des (1-3) IGF-1 or IGF-1 Des is an analog of the naturally found IGF1 molecule. It has an amino acid chain of 67 where the naturally found IGF-1 molecule has an amino acid chain of 70. There are 3 amino acids purposefully cleaved off in the development of this peptide, making it have a very low affinity to binding proteins and leading it to have a much higher bio-availability making its effects about 10X more potent than regular IGF-1. The half-life of this peptide is still very short as like with IGF-1, but IGF-1 Des is much more biologically active, giving much greater results/effects when compared to the full IGF-1 chain. IGF-1 plays a big role in cell growth and development, fat loss, tissue protective effects and even new tissue growth in all living animals. IGF-1 Des research gives us a chance to enhance and optimize the study of nerve regeneration, cognitive function, fat loss, muscle and tissue building with extremely enhanced effect when compared to the use of the normal IGF-1 peptide chain.
Des (1-3) IGF-1 (IGF-1 Des) is an analog of the naturally founds IGF1 molecule with the exception that natural IGF1 has an amino acid chain of 70 and IGF-1 Des only 67 in its chain. There are 3 amino acids purposefully cleaved off to make IGF-1 Des, making it have a very low affinity to binding proteins making its effects about 10X more potent than regular IGF-1.
Des (1-3) IGF-1 or IGF-1 Des is an analog of the naturally found IGF1 molecule. It has an amino acid chain of 67 where the naturally found IGF-1 molecule has an amino acid chain of 70. There are 3 amino acids purposefully cleaved off in the development of this peptide, making it have a very low affinity to binding proteins and leading it to have a much higher bio-availability making its effects about 10X more potent than regular IGF-1. The half-life of this peptide is still very short as like with IGF-1, but IGF-1 Des is much more biologically active, giving much greater results/effects when compared to the full IGF-1 chain. IGF-1 plays a big role in cell growth and development, fat loss, tissue protective effects and even new tissue growth in all living animals. IGF-1 Des research gives us a chance to enhance and optimize the study of nerve regeneration, cognitive function, fat loss, muscle and tissue building with extremely enhanced effect when compared to the use of the normal IGF-1 peptide chain.