2212-75-1Relevant articles and documents
An improved synthesis of Nα-benzyloxycarbonyl-L-lysine
Masiukiewicz, Elzbieta,Wiejak, Stanislaw,Rzeszotarska, Barbara
, p. 456 - 459 (1999)
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A kind of amino acid tanshinone phenolic derivative and its preparation method
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Paragraph 0105, (2016/10/09)
The invention relates to amino acid tanshinone phenolic ester derivatives and a preparation method thereof. The derivatives are obtained by reducing tanshinone compounds and performing esterified modification on the reduced tanshinone compounds and an amino acid into prodrugs, wherein the tanshinone compounds are phenanthrenequinone compounds which exist in salvia miltiorrhiza and have an o-quinone structure; the esterified amino acid is alpha-amino acid. The amino acid tanshinone phenolic ester derivatives are compounds having a structure of a general formula (I) or medicinal salts thereof, wherein R1 and R2 represent H or acyl alpha-amino acid and a salt thereof, and R1 and R2 are not H at the same time. The amino acid tanshinone phenolic ester derivatives have the beneficial effects that firstly, the new tanshinone derivatives are provided and the new substances have potential treatment effect on some serious diseases such as tumors, and secondly, amino acid tanshinone phenolic ester derivatives have excellent water solubility and thus can be prepared into injections conveniently in addition to various oral preparations, and therefore, the amino acid tanshinone phenolic ester derivatives are capable of quickly taking effect in disease treatment. As important prodrugs, the amino acid tanshinone phenolic ester derivatives have important application value.
Orthogonally protected artificial amino acid as tripod ligand for automated peptide synthesis and labeling with [99mTc(OH2) 3(CO)3]+
Shen, Yunjun,Schottelius, Margret,Zelenka, Karel,De Simone, Mariarosaria,Pohle, Karolin,Kessler, Horst,Wester, Hans-Jürgen,Schmutz, Paul,Alberto, Roger
, p. 26 - 35 (2013/03/28)
1,2-Diamino-propionic acid (Dap) is a very strong chelator for the [ 99mTc(CO)3]+ core, yielding small and hydrophilic complexes. We prepared the lysine based Dap derivative l-Lys(Dap) in which the ε-NH2 group was replaced by the tripod through conjugation to its α-carbon. The synthetic strategy produced an orthogonally protected bifunctional chelator (BFC). The -NH2 group of the α-amino acid portion is Fmoc- and the -NH2 of Dap are Boc-protected. Fmoc-l-Lys(Dap(Boc)) was either conjugated to the N- and C-terminus of bombesin BBN(7-14) or integrated into the sequence using solid-phase peptide synthesis (SPPS). We also replaced the native lysine in a cyclic RGD peptide with l-Lys(Dap). For all peptides, quantitative labeling with the [99mTc(CO)3]+ core at a 10 μM concentration in PBS buffer (pH = 7.4) was achieved. For comparison, the rhenium homologues were prepared from [Re(OH2)3(CO) 3]+ and Lys(Dap)-BBN(7-14) or cyclo-(RGDyK(Dap)), respectively. Determination of integrin receptor binding showed low to medium nanomolar affinities for various receptor subtypes. The IC50 of cyclo-(RGDyK(Dap[Re(CO)3])) for αvβ3 is 7.1 nM as compared to 3.1 nM for nonligated RGD derivative. Biodistribution studies in M21 melanoma bearing nude mice showed reasonable α vβ3-integrin specific tumor uptake. Altogether, orthogonally protected l-Lys(Dap) represents a highly versatile building block for integration in any peptide sequence. Lys(Dap)-precursors allow high-yield 99mTc-labeling with [99mTc(OH2) 3(CO)3]+, forming small and hydrophilic complexes, which in turn leads to peptide radiopharmaceuticals with excellent in vivo characteristics.
Stereocontrolled synthesis of onchidins
Peng, Yungui,Pang, Heung Wing,Ye, Tao
, p. 3781 - 3784 (2007/10/03)
(Chemical Equation Presented) The first total synthesis of a molecule possessing the stereochemistry proposed for onchidin is described. The structure synthesized appears to be different from that of the marine natural product.