Abstract: Disclosed is a system and method for Fmoc/tBu solution-phase peptide synthesis including the development of a new benzyl-type GAP protecting group, and related uses thereto. This novel GAP protecting group is utilized in place of a polymer support, facilitating C to N Fmoc peptide synthesis without chromatography, recrystallization, or polymer supports. The GAP group can be added and removed in high yield.

Abstract: The disclosure relates to chemical compositions that can include anchor molecules for chemical synthesis. GAP anchor molecules can include GAP constituents, linker constituents, and spacer constituents. Anchor molecules can be used to synthetically manufacture peptides. A novel method of solution-phase peptide synthesis is also disclosed that utilizes novel group-assisted purification protecting groups to facilitate efficient, scalable chemistry to synthetically manufacture peptides.

Abstract: The disclosure relates to compositions that can serve as anchors for the chemical synthesis of peptides. Anchor molecules can include GAP constituents, linker constituents, amino acid constituents, and/or stopper constituents. Anchor molecules can also include anchor peptides, wherein an anchor peptide can be removably coupled with an amino acid of a given sequence and act as a GAP anchor by achieving solubility control over the target peptide as it is synthesized via the addition of one or more other amino acids: the anchor peptide can then be removed from the target peptide. A novel method of peptide synthesis that utilizes novel anchor molecules and/or anchor peptides is also presented.

Abstract: The disclosure relates to chemical compositions that can include anchor molecules for chemical synthesis. GAP anchor molecules can include GAP constituents, linker constituents, and spacer constituents. Anchor molecules can be used to synthetically manufacture peptides. A novel method of solution-phase peptide synthesis is also disclosed that utilizes novel group-assisted purification protecting groups to facilitate efficient, scalable chemistry to synthetically manufacture peptides.

Abstract: The present invention relates to a novel synthesis method to form particular molecules. These molecules have multiple uses, most notably in the field of protecting groups used throughout organic and synthetic chemistry. The disclosed method is safer, more cost- and time-effective, and more amenable to large scale production than those currently known in the art. The protecting groups synthesized are useful in GAP peptide synthesis.

Abstract: The present invention relates to a novel synthesis method to form particular molecules. These molecules have multiple uses, most notably in the field of protecting groups used throughout organic and synthetic chemistry. The disclosed method is safer, more cost- and time-effective, and more amenable to large scale production than those currently known in the art. The protecting groups synthesized are useful in GAP peptide synthesis.

Abstract: Disclosed is a system and method for Fmoc/tBu solution-phase peptide synthesis including the development of a new benzyl-type GAP protecting group, and related uses thereto. This novel GAP protecting group is utilized in place of a polymer support, facilitating C to N Fmoc peptide synthesis without chromatography, recrystallization, or polymer supports. The GAP group can be added and removed in high yield.

Abstract: The disclosure relates to chemical compositions that can include anchor molecules for chemical synthesis. GAP anchor molecules can include GAP constituents, linker constituents, and spacer constituents. Anchor molecules can be used to synthetically manufacture peptides. A novel method of solution-phase peptide synthesis is also disclosed that utilizes novel group-assisted purification protecting groups to facilitate efficient, scalable chemistry to synthetically manufacture peptides.

Abstract: Disclosed is a system and method for Fmoc/tBu solution-phase peptide synthesis including the development of a new benzyl-type GAP protecting group, and related uses thereto. This novel GAP protecting group is utilized in place of a polymer support, facilitating C to N Fmoc peptide synthesis without chromatography, recrystallization, or polymer supports. The GAP group can be added and removed in high yield.

Abstract: Disclosed is a system and method for Fmoc/tBu solution-phase peptide synthesis including the development of a new benzyl-type GAP protecting group, and related uses thereto. This novel GAP protecting group is utilized in place of a polymer support, facilitating C to N Fmoc peptide synthesis without chromatography, recrystallization, or polymer supports. The GAP group can be added and removed in high yield.