N-Acetyl-L-tryptophanol
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Category | Others |
Catalog number | BBF-05190 |
CAS | 52431-47-7 |
Molecular Weight | 232.28 |
Molecular Formula | C13H16N2O2 |
Purity | >95% by HPLC |
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Specification
Related CAS | 52431-46-6 (D-configuration) |
Synonyms | Acetamide, N-[(1S)-2-hydroxy-1-(1H-indol-3-ylmethyl)ethyl]-; (S)-N-(1-hydroxy-3-(1H-indol-3-yl)propan-2-yl)acetamide |
Storage | Store at -20°C |
IUPAC Name | N-[(2S)-1-hydroxy-3-(1H-indol-3-yl)propan-2-yl]acetamide |
Canonical SMILES | CC(=O)NC(CC1=CNC2=CC=CC=C21)CO |
InChI | InChI=1S/C13H16N2O2/c1-9(17)15-11(8-16)6-10-7-14-13-5-3-2-4-12(10)13/h2-5,7,11,14,16H,6,8H2,1H3,(H,15,17)/t11-/m0/s1 |
InChI Key | VCJZLHSIECUOIT-NSHDSACASA-N |
Properties
Boiling Point | 563.5±45.0°C at 760 mmHg |
Density | 1.2±0.1 g/cm3 |
Reference Reading
1. Combined systems pharmacology and fecal metabonomics to study the biomarkers and therapeutic mechanism of type 2 diabetic nephropathy treated with Astragalus and Leech
Ruiqun Chen, Chengbin Liao, Qian Guo, Lirong Wu, Lei Zhang, Xiufeng Wang RSC Adv. 2018 Aug 1;8(48):27448-27463. doi: 10.1039/c8ra04358b. eCollection 2018 Jul 30.
In our study, systems pharmacology was used to predict the molecular targets of Astragalus and Leech, and explore the therapeutic mechanism of type 2 diabetic nephropathy (T2DN) treated with Astragalus and Leech. Simultaneously, to reveal the systemic metabolic changes and biomarkers associated with T2DN, we performed 1H NMR-based metabonomics and multivariate analysis to analyze fecal samples obtained from model T2DN rats. In addition, ELISA kits and histopathological studies were used to examine biochemical parameters and kidney tissue, respectively. Striking differences in the Pearson's correlation of 22 biomarkers and 9 biochemical parameters were also observed among control, T2DN and treated rats. Results of systems pharmacology analysis revealed that 9 active compounds (3,9-di-O-methylnissolin; (6aR,11aR)-9,10-dimethoxy-6a,11a-dihydro-6H-benzofurano[3,2-c]chromen-3-ol; hirudin; l-isoleucine; phenylalanine; valine; hirudinoidine A-C) and 9 target proteins (l-serine dehydratase; 3-hydroxyacyl-CoA dehydrogenase; tyrosyl-tRNA synthetase; tryptophanyl-tRNA synthetase; branched-chain amino acid aminotransferase; acetyl-CoA C-acetyltransferase; isovaleryl-CoA dehydrogenase; pyruvate dehydrogenase E1 component alpha subunit; hydroxyacylglutathione hydrolase) of Astragalus and Leech were closely associated with the treatment of T2DN. Using fecal metabonomics analysis, 22 biomarkers were eventually found to be closely associated with the occurrence of T2DN. Combined with systems pharmacology and fecal metabonomics, these biomarkers were found to be mainly associated with 6 pathways, involving amino acid metabolism (leucine, valine, isoleucine, alanine, lysine, glutamate, taurine, phenylalanine, tryptophan); energy metabolism (lactate, succinate, creatinine, α-glucose, glycerol); ketone body and fatty acid metabolism (3-hydroxybutyrate, acetate, n-butyrate, propionate); methylamine metabolism (dimethylamine, trimethylamine); and secondary bile acid metabolism and urea cycle (deoxycholate, citrulline). The underlying mechanisms of action included protection of the liver and kidney, enhancement of insulin sensitivity and antioxidant activity, and improvement of mitochondrial function. To the best of our knowledge, this is the first time that systems pharmacology combined with fecal metabonomics has been used to study T2DN. 6 metabolites (n-butyrate, deoxycholate, propionate, tryptophan, taurine and glycerol) associated with T2DN were newly discovered in fecal samples. These 6 metabolites were mainly derived from the intestinal flora, and related to amino acid metabolism, fatty acid metabolism, and secondary bile acid metabolism. We hope the results of this study could be inspirational and helpful for further exploration of T2DN treatment. Meanwhile, our results highlighted that exploring the biomarkers of T2DN and therapeutic mechanisms of Traditional Chinese Medicine (TCM) formulas on T2DN by combining systems pharmacology and fecal metabonomics methods was a promising strategy.
2. Apicidin, a histone deacetylase inhibitor, induces differentiation of HL-60 cells
JangJa Hong, Kenji Ishihara, Kouya Yamaki, Kenji Hiraizumi, Tadao Ohno, Jong Woong Ahn, OkPyo Zee, Kazuo Ohuchi Cancer Lett. 2003 Jan 28;189(2):197-206. doi: 10.1016/s0304-3835(02)00500-1.
The fungal metabolite apicidin (cyclo(N-O-methyl-L-tryptophanyl-L-isoleucinyl-D-pipecolinyl-L-2-amino-8-oxodecanoyl)) inhibited the growth of HL-60 cells in a concentration-dependent manner (100-1000 nM). At higher concentrations (>300 nM), cell death was induced. At 100 nM, it induced hyperacetylation of histone H4 time-dependently, while trichostatin A induced transient hyperacetylation. Apicidin (10-100 nM) increased the cells having nitroblue tetrazolium-reducing activity and expressing CD11b but not CD14 and CD15. The expression of CD11b by apicidin was long lasting, while that by trichostatin A was transient. In K562 cells, apicidin at 10-100 nM did not inhibit cell growth nor express CD11b, CD14 and CD15. Our findings indicate that apicidin inhibits proliferation and induces the early stage of differentiation of HL-60 cells.
3. Site-directed circular dichroism of proteins: 1Lb bands of Trp resolve position-specific features in tear lipocalin
Oktay K Gasymov, Adil R Abduragimov, Ben J Glasgow Anal Biochem. 2008 Mar 15;374(2):386-95. doi: 10.1016/j.ab.2007.11.002. Epub 2007 Nov 6.
The absorption spectra of N-acetyl-L-tryptophanamide in various solvents were resolved into the sums of the (1)L(a) and (1)L(b) components. The relative intensities of the 0-0 transitions of the (1)L(b) bands correlate linearly with the solvent polarity values (E(T)(N)). A novel strategy that uses a set of the experimental (1)L(b) bands was employed to resolve the near-UV circular dichroism (CD) spectra of tryptophanyl residues. Resolved spectral parameters from the single-tryptophan mutants of tear lipocalin (TL), F99W and Y87W, corroborate the fluorescence and structural data of TL. Analysis of the (1)L(b) bands of the Trp CD spectra in proteins is a valuable tool to obtain the local features. The dimethyl sulfoxide (DMSO)-like (1)L(b) band of Trp CD spectra may be used as a "fingerprint" to identify the tryptophanyl side chains in situations where the benzene rings of Trp have van der Waals interactions with the side chains of its nearest neighbor. In addition, the signs and intensities of the components hold information about the side chain conformations and dynamics in proteins. Combined with Trp mutagenesis, this method, which we call site-directed circular dichroism, is broadly applicable to various proteins to obtain the position-specific data.
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