106624-70-8Relevant articles and documents
Pd-catalyzed intramolecular C(sp2)-H amination of phenylalanine moieties in dipeptides: Synthesis of indoline-2-carboxylate-containing dipeptides
Zheng, Yong,Song, Weibin,Zhu, Yefu,Wei, Bole,Xuan, Lijiang
, p. 2402 - 2405 (2018)
A palladium-catalyzed intramolecular C(sp2)-H amination of phenylalanine moieties in dipeptides is described. By this protocol, a series of indoline-2-carboxylate-containing dipeptides were synthesized from dipeptides. The N-protected amino aci
9-Silafluorenyl Dichlorides as Chemically Ligating Coupling Agents and Their Application in Peptide Synthesis
Aspin, Samuel J.,Taillemaud, Sylvain,Cyr, Patrick,Charette, André B.
, p. 13833 - 13837 (2016)
A fundamentally simple, mild, and practical procedure for peptide bond formation is reported that employs a stoichiometric amount of easy-to-access 9-silafluorenyl dichlorides as the coupling agent. Without initial preactivation or elaboration of the carboxylic acid or amine termini of the amino acids, the developed reagent is proposed to act through an unprecedented chemical ligation mechanism, bringing the two coupling partners together before being subsequently eliminated. The desired amides or peptide bonds are thus furnished in good yields and with low to no epimerization.
Pd-Catalyzed Site-Selective C(sp2)-H Olefination and Alkynylation of Phenylalanine Residues in Peptides
Zheng, Yong,Song, Weibin
, (2019)
Pd-catalyzed site-selective C(sp2)-H olefination and alkynylation of phenylalanine residues in peptides are described. The amino acids within the peptides are used as native bidentate directing groups to facilitate C-H functionalization. This p
Photoinduced electron transfer-promoted debenzylation of phenylalanine and tyrosine derivatives using dicyanoarene
Yamawaki, Mugen,Okita, Yoshiki,Yamamoto, Takashi,Morita, Toshio,Yoshimi, Yasuharu
, p. 7239 - 7244 (2017)
Photoinduced debenzylations of phenylalanine and tyrosine derivatives with dicyanoarenes afford glycine derivatives by the generation of radical cations. Despite the limited substrate scope, the radical cation of phenylalanine and tyrosine derivatives bearing both a carbamate (without an aromatic group) at the N-terminal and an amide at the C-terminal could promote the breaking C–C bond at the benzylic position by a photoinduced electron transfer. It is important to understand the chemical behavior of the radical cations of phenylalanine and tyrosine in enzymes involving electron transfer.
PEG prodrug of gambogic acid: Amino acid and dipeptide spacer effects
Ding, Ya,Zhang, Peng,Tang, Xiao-Yan,Zhang, Can,Ding, Song,Ye, Hai,Ding, Qi-Long,Shen, Wen-Bin,Ping, Qi-Neng
, p. 1694 - 1702 (2012)
The clinical application of gambogic acid (GA), a natural component with promising antitumor activity, was limited due to its extremely poor aqueous solubility, rapid elimination in vivo, and wide biodistribution. To solve these problems, 30 poly(ethylene
Solar and Visible Light Assisted Peptide Coupling
Mishra, Abhaya K.,Parvari, Galit,Santra, Sourav K.,Bazylevich, Andrii,Dorfman, Ortal,Rahamim, Jonatan,Eichen, Yoav,Szpilman, Alex M.
supporting information, p. 12406 - 12412 (2021/04/05)
Amino acid and peptide couplings are widely used in fields related to pharma and materials. Still, current peptide synthesis continues to rely on the use of expensive, water sensitive, and waste-generating coupling reagents, which are often prepared in mu
Peptide-Catalyzed Fragment Couplings that Form Axially Chiral Non-C2-Symmetric Biaryls
Coombs, Gavin,Sak, Marcus H.,Miller, Scott J.
, p. 2875 - 2880 (2020/01/24)
We have demonstrated that small, modular, tetrameric peptides featuring the Lewis-basic residue β-dimethylaminoalanine (Dmaa) are capable of atroposelectively coupling naphthols and ester-bearing quinones to yield non-C2-symmetric BINOL-type scaffolds with good yields and enantioselectivity. The study culminates in the asymmetric synthesis of backbone-substituted scaffolds similar to 3,3′-disubstituted BINOLs, such as (R)-TRIP, with good (94:6 e.r.) to excellent (>99.9:0.1 e.r.) enantioselectivity after recrystallization, and a diastereoselective net arylation of the minimally modified nonsteroidal anti-inflammatory drug (NSAID) naproxen.
Preparation and biological evaluation of soluble tetrapeptide epoxyketone proteasome inhibitors
Lei, Meng,Zhang, Haoyang,Miao, Hang,Du, Xiao,Zhou, Hui,Wang, Jia,Wang, Xueyuan,Feng, Huayun,Shi, Jingmiao,Liu, Zhaogang,Shen, Jian,Zhu, Yongqiang
, p. 4151 - 4162 (2019/08/07)
A series of novel tetrapeptidyl epoxyketone inhibitors of 20S proteasome was designed and synthesized. To fully understand the SAR, various groups at R1, R2, R3, R4 and R5 positions, including aromatic and aliphatic substituents were designed, synthesized and biologically assayed. Based on the enzymatic results, seven compounds were selected to evaluate their cellular activities and soluble compound 36 showed strong potency against human multiple myeloma (MM) cell lines. Microsomal stability results indicated that compound 36 was more stable in mice, rat and human microsomes than marketed carfilzomib. The in vivo activities of this compound were evaluated with the xenograft mice models of MM cell lines ARH77 and RPMI-8226 with luciferase expression and the T/C value of the two models were 49.5% and 37.6%, respectively. To evaluate the potential cardiovascular toxicity, inhibition of hERG ion channel in HEK293 cells by compound 36 and carfilzomib was carried out. The results indicated that 36 had no binding affinity for the hERG ion channel while carfilzomib could bind it with IC50 of 92.1 μM.
Synthesis and Characterization of a Series of Orthogonally Protected l-Carnosine Derivatives
El-Dakdouki, Mohammad H.,Daouk, Nadine,Abdallah, Hiba
, p. 1 - 12 (2018/02/19)
l-Carnosine (β-alanyl-l-histidine) is an endogenous dipeptide that has been recognized for its broad spectrum of beneficial biological activities. However, the therapeutic utility of molecule has been hampered by its instability in human plasma (half-life
Diphenylsilane as a coupling reagent for amide bond formation
Sayes, Morgane,Charette, André B.
supporting information, p. 5060 - 5064 (2017/11/09)
A simple procedure for amide bond formation using diphenylsilane as a coupling reagent is described. This methodology enables the direct coupling of carboxylic acids with primary and secondary amines, releasing only hydrogen and a siloxane as by-products. Only one equivalent of each partner is needed, providing a more sustainable amidation method producing minimal wastes. This methodology was also extended to the synthesis of peptides and lactams by addition of Hünig's base (DIPEA) and 4-dimethylaminopyridine (DMAP).
