109724-80-3Relevant academic research and scientific papers
Synthesis and antimicrobial properties of steroid-based imidazolium salts
Hryniewicka, Agnieszka,Malinowska, Marta,Hauschild, Tomasz,Pieczul, Katarzyna,Morzycki, Jacek W.
, p. 65 - 72 (2019)
Imidazolium salts reveal interesting biological properties, especially regarding antitumor and antimicrobial activities. Two series of imidazolium salts based on steroids were obtained in an efficient and convenient synthesis. They were biologically teste
Cholane derivatives with potential ligating groups at the 3- and 24-positions
Gondi, Sudershan Reddy,Son, David Y.
, p. 1317 - 1331 (2007/10/03)
Starting from readily available lithocholic acid, a number of new cholane derivatives have been prepared consisting of the same or different electron-donor groups at the 3- and 24-positions. Yields ranged from good to excellent. The donor groups were chos
Transamination reactions with multiple turnovers catalyzed by hydrophobic pyridoxamine cofactors in the presence of polyethylenimine polymers
Liu, Lei,Zhou, Wenjun,Chruma, Jason,Breslow, Ronald
, p. 8136 - 8137 (2007/10/03)
Pyridoxamines carrying hydrophobic side chains reversibly bind into the hydrophobic core of polyethylenimines and transaminate ketoacids to amino acids with as much as a 725000-fold rate acceleration. Turnover catalysis was achieved by sacrificial oxidative decarboxylation of C-substituted amino acids, which reconverted the pyridoxals to pyridoxamines. Copyright
Synthesis and spectroscopic characterisation lithocholic acid derivatives
Nahar, Lutfun,Turner, Alan B.
, p. 747 - 749 (2007/10/03)
The synthesis of five lithocholic acid derivatives, 5β-cholane- 3α,24-diol (2), 3α-hydroxy-5β-cholan-24-yl tosylate (3), 5β-cholan-3α,24-yl ditosylate (4), 3α-tosyloxy-5β-cholan- 24-yl chloride (5) and 3-oxo-5β-cholan-24-al (6) have been described.
Synthesis of sulfonate analogs of bile acids
Kihira, Kenji,Mikami, Tahakiro,Ikawa, Seiichiro,Okamoto, Akira,Yoshii, Michiko,et al.
, p. 193 - 198 (2007/10/02)
Sulfonate analogs of C23 and C24 bile acids were synthesized from norcholic, norchenodeoxycholic, norursodeoxycholic, nordeoxycholic, norhyodeoxycholic, cholic, deoxycholic, hyodeoxycholic, and lithocholic acids.The principal reactions used were (1) reduc
