Debeer T.; Vliegenthart J. F. G.; Loffler A.; Hofsteenge J. (1995). "The Hexopyranosyl Residue That Is C-Glycosidically Linked to the Side-Chain of Tryptophan-7 in Human Rnase U-S Is Alpha-Marmopyranose". Biochemistry. 34 (37): 11785–11789. doi:10.1021/bi00037a016. hdl:1874/5760. PMID7547911. S2CID22324479.
Ihara, Yoshito; Inai, Yoko; Ikezaki, Midori; Matsui, In-Sook L.; Manabe, Shino; Ito, Yukishige (2014). "C-Mannosylation: A Modification on Tryptophan in Cellular Proteins". Glycoscience: Biology and Medicine: 1–8. doi:10.1007/978-4-431-54836-2_67-1. ISBN978-4-431-54836-2. S2CID82050024.
Jansson A. M.; Meldal M.; Bock K. (1990). "The Active Ester N-Fmoc-3-O-[Ac4-Alpha-D-Manp-(1-]2)-Ac3-Alpha-D-Manp-1-]-Threonine-O-Pfp as a Building Block in Solid-Phase Synthesis of an O-Linked Dimannosyl Glycopeptide". Tetrahedron Letters. 31 (48): 6991–6994. doi:10.1016/s0040-4039(00)97224-1.
Elofsson M.; Walse B.; Kihlberg J. (1991). "Building-Blocks for Glycopeptide Synthesis – Glycosylation of 3-Mercaptopropionic Acid and Fmoc Amino-Acids with Unprotected Carboxyl Groups". Tetrahedron Letters. 32 (51): 7613–7616. doi:10.1016/0040-4039(91)80548-k.
Li H. G.; Li B.; Song H. J.; Breydo L.; Baskakov I. V.; Wang L. X. (2005). "Chemoenzymatic synthesis of HIV-1V3 glycopeptides carrying two N-glycans and effects of glycosylation on the peptide domain". Journal of Organic Chemistry. 70 (24): 9990–9996. doi:10.1021/jo051729z. PMID16292832.
Yamamoto N.; Takayanagi Y.; Yoshino A.; Sakakibara T.; Kajihara Y. (2007). "An approach for a synthesis of asparagine-linked sialylglycopeptides having intact and homogeneous complex-type undecadisialyloligosaccharides". Chemistry: A European Journal. 13 (2): 613–625. doi:10.1002/chem.200600179. PMID16977655.
Shao N.; Xue J.; Guo Z. W. (2003). "Chemical synthesis of CD52 glycopeptides containing the acid-labile fucosyl linkage". Journal of Organic Chemistry. 68 (23): 9003–9011. doi:10.1021/jo034773s. PMID14604374.
Gamblin D. P.; Scanlan E. M.; Davis B. G. (2009). "Glycoprotein Synthesis: An Update". Chemical Reviews. 109 (1): 131–163. doi:10.1021/cr078291i. PMID19093879.
Hilpert, K; Winkler, DF; Hancock, RE (2007). "Peptide arrays on cellulose support: SPOT synthesis, a time and cost efficient method for synthesis of large numbers of peptides in a parallel and addressable fashion". Nature Protocols. 2 (6): 1333–49. doi:10.1038/nprot.2007.160. PMID17545971. S2CID32143600.
Wan Q.; Danishefsky S. J. (2007). "Free Radical Based, Specific Desulfurization of Cysteine: A Powerful Advance in the Synthesis of Polypeptides and Glycopolypeptides". Angew. Chem. 119 (48): 9408–9412. Bibcode:2007AngCh.119.9408W. doi:10.1002/ange.200704195. PMID18046687.
Debeer T.; Vliegenthart J. F. G.; Loffler A.; Hofsteenge J. (1995). "The Hexopyranosyl Residue That Is C-Glycosidically Linked to the Side-Chain of Tryptophan-7 in Human Rnase U-S Is Alpha-Marmopyranose". Biochemistry. 34 (37): 11785–11789. doi:10.1021/bi00037a016. hdl:1874/5760. PMID7547911. S2CID22324479.
Wan Q.; Danishefsky S. J. (2007). "Free Radical Based, Specific Desulfurization of Cysteine: A Powerful Advance in the Synthesis of Polypeptides and Glycopolypeptides". Angew. Chem. 119 (48): 9408–9412. Bibcode:2007AngCh.119.9408W. doi:10.1002/ange.200704195. PMID18046687.
Debeer T.; Vliegenthart J. F. G.; Loffler A.; Hofsteenge J. (1995). "The Hexopyranosyl Residue That Is C-Glycosidically Linked to the Side-Chain of Tryptophan-7 in Human Rnase U-S Is Alpha-Marmopyranose". Biochemistry. 34 (37): 11785–11789. doi:10.1021/bi00037a016. hdl:1874/5760. PMID7547911. S2CID22324479.
Li H. G.; Li B.; Song H. J.; Breydo L.; Baskakov I. V.; Wang L. X. (2005). "Chemoenzymatic synthesis of HIV-1V3 glycopeptides carrying two N-glycans and effects of glycosylation on the peptide domain". Journal of Organic Chemistry. 70 (24): 9990–9996. doi:10.1021/jo051729z. PMID16292832.
Yamamoto N.; Takayanagi Y.; Yoshino A.; Sakakibara T.; Kajihara Y. (2007). "An approach for a synthesis of asparagine-linked sialylglycopeptides having intact and homogeneous complex-type undecadisialyloligosaccharides". Chemistry: A European Journal. 13 (2): 613–625. doi:10.1002/chem.200600179. PMID16977655.
Shao N.; Xue J.; Guo Z. W. (2003). "Chemical synthesis of CD52 glycopeptides containing the acid-labile fucosyl linkage". Journal of Organic Chemistry. 68 (23): 9003–9011. doi:10.1021/jo034773s. PMID14604374.
Gamblin D. P.; Scanlan E. M.; Davis B. G. (2009). "Glycoprotein Synthesis: An Update". Chemical Reviews. 109 (1): 131–163. doi:10.1021/cr078291i. PMID19093879.
Hilpert, K; Winkler, DF; Hancock, RE (2007). "Peptide arrays on cellulose support: SPOT synthesis, a time and cost efficient method for synthesis of large numbers of peptides in a parallel and addressable fashion". Nature Protocols. 2 (6): 1333–49. doi:10.1038/nprot.2007.160. PMID17545971. S2CID32143600.
Wan Q.; Danishefsky S. J. (2007). "Free Radical Based, Specific Desulfurization of Cysteine: A Powerful Advance in the Synthesis of Polypeptides and Glycopolypeptides". Angew. Chem. 119 (48): 9408–9412. Bibcode:2007AngCh.119.9408W. doi:10.1002/ange.200704195. PMID18046687.
Debeer T.; Vliegenthart J. F. G.; Loffler A.; Hofsteenge J. (1995). "The Hexopyranosyl Residue That Is C-Glycosidically Linked to the Side-Chain of Tryptophan-7 in Human Rnase U-S Is Alpha-Marmopyranose". Biochemistry. 34 (37): 11785–11789. doi:10.1021/bi00037a016. hdl:1874/5760. PMID7547911. S2CID22324479.
Ihara, Yoshito; Inai, Yoko; Ikezaki, Midori; Matsui, In-Sook L.; Manabe, Shino; Ito, Yukishige (2014). "C-Mannosylation: A Modification on Tryptophan in Cellular Proteins". Glycoscience: Biology and Medicine: 1–8. doi:10.1007/978-4-431-54836-2_67-1. ISBN978-4-431-54836-2. S2CID82050024.
Hilpert, K; Winkler, DF; Hancock, RE (2007). "Peptide arrays on cellulose support: SPOT synthesis, a time and cost efficient method for synthesis of large numbers of peptides in a parallel and addressable fashion". Nature Protocols. 2 (6): 1333–49. doi:10.1038/nprot.2007.160. PMID17545971. S2CID32143600.