Kirt W. Rusenko; Julie E. Donachy; A. P. Wheeler. Surface Reactive Peptides and Polymers. [s.l.]: ACS, 1991. Dostupné online. ISBN9780841218864. DOI10.1021/bk-1991-0444.ch008. Kapitola Purification And Characterization Of A Shell Matrix Phosphoprotein From The American Oyster, s. 107-124.
Adelnia Hossein; Huong D. N. Tran; Peter J. Little; Idriss Blakey; Hang T. Ta. Poly(aspartic acid) in Biomedical Applications: From Polymerization, Modification, Properties, Degradation, and Biocompatibility to Applications. ACS Biomaterials Science & Engineering. 2021-06-14, s. 2083–2015. Dostupné online. DOI10.1021/acsbiomaterials.1c00150. PMID33797239.
Michael Schwamborn. Chemical synthesis of polyaspartates: A biodegradable alternative to currently used polycar☐ylate homo- and copolymers. Polymer Degradation and Stability. 1998, s. 39–45. DOI10.1016/S0141-3910(97)00184-5.
Kirt W. Rusenko; Julie E. Donachy; A. P. Wheeler. Surface Reactive Peptides and Polymers. [s.l.]: ACS, 1991. Dostupné online. ISBN9780841218864. DOI10.1021/bk-1991-0444.ch008. Kapitola Purification And Characterization Of A Shell Matrix Phosphoprotein From The American Oyster, s. 107-124.
Hugo Schiff. Ueber Polyaspartsäuren. Berichte der Deutschen Chemischen Gesellschaft. 1897, s. 2449–2459. DOI10.1002/cber.18970300316.
J. Kovács; I. Könyves; Á. Pusztai. Darstellung von Polyasparaginsäuren (Polyaspartsäuren) aus dem thermischen Autokondensationsprodukt der Asparaginsäure. Experientia. 1953, s. 459–460. DOI10.1007/BF02165821. PMID13127859.
G. D. Bennett. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. Journal of Chemical Education. 2005, s. 1380–1381. DOI10.1021/ed082p1380. Bibcode2005JChEd..82.1380B.
H. Pivcova; V. Saudek; J. Drobnik; J. Vlasak. NMR Study of Poly(aspartic acid). I. α-and β-Peptide Bonds in Poly(aspartic acid) Prepared by Thermal Polycondensation. Biopolymers. 1981, s. 1605–1614. DOI10.1002/bip.1981.360200804.
Etso Kokufuta; Shinnichiro Suzuki; Kaoru Harad. Temperature Effect on the Molecular Weight and the Optical Purity of Anhydropolyaspartic Acid Prepared by Thermal Polycondensation. Bulletin of the Chemical Society of Japan. 1978, s. 1555–1556. DOI10.1246/bcsj.51.1555.
Yaquan Wang; Yongjiang Hou; Gang Ruan; Ming Pan; Tengfei Liu. Study on the polymerization of aspartic acid catalyzed by phosphoric acid. Journal of Macromolecular Science-Pure and Applied Chemistry. 2003, s. 293–307. DOI10.1081/MA-120018116.
Vanga S. Rao; Philippe Lapointe; Donald N. McGregor. Temperature Effect on the Molecular Weight and the Optical Purity of Anhydropolyaspartic Acid Prepared by Thermal Polycondensation. Makromolekulare Chemie-Macromolecular Chemistry and Physics. 1993, s. 1095–1104. DOI10.1002/macp.1993.021940405.
V. Saudek; H. Pivcova; J. Drobnik. NMR Study of Poly(aspartic acid). II. α-and β-Peptide Bonds in Poly(aspartic acid) Prepared by Common Methods. Biopolymers. 1981, s. 1615–1623. DOI10.1002/bip.1981.360200805.
Yasuyuki Soeda; Kazunobu Toshima; Shuichi Matsuma. Sustainable enzymatic preparation of polyaspartate using a bacterial protease. Biomacromolecules. 2003, s. 193–203. DOI10.1021/bm0200534. PMID12625712.
Sunita M. Thombre; Bhimaro D. Sarwade. Synthesis and Biodegradability of Polyaspartic Acid: A Critical Review. Journal of Macromolecular Science, Part A. 2005, s. 1299–1315. Dostupné online. DOI10.1080/10601320500189604.
M. J. Zahuriaan-Mehr; A. Pourjavadi; H. Salimi; M. Kurdtabar. Protein- and homo poly(amino acid)-based hydrogels with super-swelling properties. Polymers for Advanced Technologies. 2009, s. 655–671. DOI10.1002/pat.1395.
doi.org
Adelnia Hossein; Huong D. N. Tran; Peter J. Little; Idriss Blakey; Hang T. Ta. Poly(aspartic acid) in Biomedical Applications: From Polymerization, Modification, Properties, Degradation, and Biocompatibility to Applications. ACS Biomaterials Science & Engineering. 2021-06-14, s. 2083–2015. Dostupné online. DOI10.1021/acsbiomaterials.1c00150. PMID33797239.
G. D. Bennett. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. Journal of Chemical Education. 2005, s. 1380–1381. DOI10.1021/ed082p1380. Bibcode2005JChEd..82.1380B.
Sunita M. Thombre; Bhimaro D. Sarwade. Synthesis and Biodegradability of Polyaspartic Acid: A Critical Review. Journal of Macromolecular Science, Part A. 2005, s. 1299–1315. Dostupné online. DOI10.1080/10601320500189604.
nih.gov
ncbi.nlm.nih.gov
Adelnia Hossein; Huong D. N. Tran; Peter J. Little; Idriss Blakey; Hang T. Ta. Poly(aspartic acid) in Biomedical Applications: From Polymerization, Modification, Properties, Degradation, and Biocompatibility to Applications. ACS Biomaterials Science & Engineering. 2021-06-14, s. 2083–2015. Dostupné online. DOI10.1021/acsbiomaterials.1c00150. PMID33797239.
J. Kovács; I. Könyves; Á. Pusztai. Darstellung von Polyasparaginsäuren (Polyaspartsäuren) aus dem thermischen Autokondensationsprodukt der Asparaginsäure. Experientia. 1953, s. 459–460. DOI10.1007/BF02165821. PMID13127859.
Yasuyuki Soeda; Kazunobu Toshima; Shuichi Matsuma. Sustainable enzymatic preparation of polyaspartate using a bacterial protease. Biomacromolecules. 2003, s. 193–203. DOI10.1021/bm0200534. PMID12625712.
