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1-Methyl-DL-tryptophan is a tryptophan derivative carrying a single methyl substituent at position 1 on the indole. It is a reagent used in various scientific and medical applications due to its unique properties.

26988-72-7

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26988-72-7 Usage

Uses

1. Used in Photo-Immunotherapy:
1-Methyl-DL-tryptophan is used as a reagent for the rational design of a minimalist multifunctional photo-immunotherapy nanoplatform. This application aims to boost the capability of immunotherapy by enhancing its effectiveness in targeting and treating cancer cells.
2. Used in Medical Research:
1-Methyl-DL-tryptophan serves as a competitive inhibitor of indoleamine 2,3 dioxygenase-1 (IDO1). It is utilized in studying inflammation-induced depression in mice and syncytial virus-induced bronchiolitis. By inhibiting IDO1, researchers can gain insights into the underlying mechanisms of these conditions and potentially develop targeted treatments.

Check Digit Verification of cas no

The CAS Registry Mumber 26988-72-7 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 2,6,9,8 and 8 respectively; the second part has 2 digits, 7 and 2 respectively.
Calculate Digit Verification of CAS Registry Number 26988-72:
(7*2)+(6*6)+(5*9)+(4*8)+(3*8)+(2*7)+(1*2)=167
167 % 10 = 7
So 26988-72-7 is a valid CAS Registry Number.
InChI:InChI=1/C12H14N2O2/c1-14-7-8(6-10(13)12(15)16)9-4-2-3-5-11(9)14/h2-5,7,10H,6,13H2,1H3,(H,15,16)

26988-72-7 Well-known Company Product Price

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  • Aldrich

  • (860646)  1-Methyl-DL-tryptophan  97%

  • 26988-72-7

  • 860646-250MG

  • 1,301.04CNY

  • Detail
  • Aldrich

  • (860646)  1-Methyl-DL-tryptophan  97%

  • 26988-72-7

  • 860646-1G

  • 3,790.80CNY

  • Detail

26988-72-7SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 13, 2017

Revision Date: Aug 13, 2017

1.Identification

1.1 GHS Product identifier

Product name 1-methyltryptophan

1.2 Other means of identification

Product number -
Other names methyl tryptophan

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:26988-72-7 SDS

26988-72-7Relevant academic research and scientific papers

Biocatalysts from cyanobacterial hapalindole pathway afford antivirulent isonitriles against MRSA

Bunn, Brittney M,Xu, Mizhi,Webb, Chase M,Viswanathan, Rajesh

, (2021/04/26)

Abstract: The emergence of resistance to frontline antibiotics has called for novel strategies to combat serious pathogenic infections. Methicillin-resistant Staphylococcus aureus [MRSA] is one such pathogen. As opposed to traditional antibiotics, bacteriostatic anti-virulent agents disarm MRSA, without exerting pressure, that cause resistance. Herein, we employed a thermophilic Thermotoga maritima tryptophan synthase (TmTrpB1) enzyme followed by an isonitrile synthase and Fe(II)-α-ketoglutarate-dependent oxygenase, in sequence as biocatalysts to produce antivirulent indole vinyl isonitriles. We report on conversion of simple derivatives of indoles to their C3-vinyl isonitriles, as the enzymes employed here demonstrated broader substrate tolerance. In toto, eight distinct L-Tryptophan derived α-amino acids (7) were converted to their bioactive vinyl isonitriles (3) by action of an isonitrile synthase (WelI1) and an Fe(II)-α-ketoglutarate-dependent oxygenase (WelI3) yielding structural variants possessing antivirulence against MRSA. These indole vinyl isonitriles at 10 μg/mL are effective as antivirulent compounds against MRSA, as evidenced through analysis of rabbit blood hemolysis assay. Based on a homology modelling exercise, of enzyme-substrate complexes, we deduced potential three dimensional alignments of active sites and glean mechanistic insights into the substrate tolerance of the Fe(II)-α-ketoglutarate-dependent oxygenase. Graphic abstract: [Figure not available: see fulltext.]

Method for synthesizing 1 - methyl - L L-tryptophan (by machine translation)

-

Paragraph 0008; 0009, (2020/08/02)

The invention relates to a method for synthesizing 1 - methyl - L L-tryptophan. The method mainly solves the technical problems that the existing synthetic method needs to use methyl iodide to cause toxicity, low boiling points, sodium metal, liquid ammonia and the like, and industrial production is difficult. The synthesis method comprises N - t-butoxycarbonyl - L L-tryptophan methyl ester, dimethyl carbonate and potassium carbonate heated and refluxed in N, N - dimethylformamide solution to generate compound 1; compound 1 is heated and reacted in hydrochloric acid aqueous solution to generate the target compound 2.1 - methyl - L L-tryptophan as an amino acid derivative. (by machine translation)

1-methyl tryptophan synthesis method

-

Paragraph 0047; 0048; 0049, (2016/10/10)

The present invention provides a direct and efficient 1-methyl tryptophan synthesis method, and specifically relates to a method for synthesizing 1-methyl tryptophan represented by the following formula I. The method comprises that: in an inert solvent, in the presence of an alkaline agent, tryptophan and a methylating agent CH3X (X is defined in the specification) are subjected to a reaction, and separation is performed to obtain the desired product 1-methyl tryptophan. According to the present invention, the organic solvent is adopted as the reaction medium, the suitable alkaline reagent is adopted as the dehydrogenating agent, the tryptophan reacts with the methyl halide, and the crude product is subjected to extraction, washing, re-crystallization and other operations so as to obtain the high purity 1-methyl tryptophan; and the method has characteristics of good yield, strong selectivity, simple operation, safety, and easy control. The formula I is defined in the specification.

Palladium-N-heterocyclic carbene (NHC)-catalyzed asymmetric synthesis of indolines through regiodivergent C(sp3)-H activation: Scope and DFT study

Katayev, Dmitry,Larionov, Evgeny,Nakanishi, Masafumi,Besnard, Cline,Kündig, E. Peter

supporting information, p. 15021 - 15030 (2015/02/19)

Two bulky, chiral, monodentate N-heterocyclic carbene ligands were applied to palladium-catalyzed asymmetric C-H arylation to incorporate C(sp3)-H bond activation. Racemic mixtures of the carbamate starting materials underwent regiodivergent reactions to afford different trans-2,3- substituted indolines. Although this CAr-Calkyl coupling requires high temperatures (140-160°C), chiral induction is high. This regiodivergent reaction, when carried out with enantiopure starting materials, can lead to single structurally different enantiopure products, depending on the catalyst chirality. The C-H activation at a tertiary center was realized only in the case of a cyclopropyl group. No C-H activation takes place alpha to a tertiary center. A detailed DFT study is included and analyses of methyl versus methylene versus methine C-H activation is used to rationalize experimentally observed regio- and enantioselectivities.

Total synthesis of (-)-ardeemin

He, Bin,Song, Hao,Du, Yu,Qin, Yong

supporting information; experimental part, p. 298 - 304 (2009/04/07)

(Chemical Equation Presented) Total synthesis of potent anti-MDR indole alkaloids (-)-ardeemin and its N-acyl analogues has been accomplished from L-tryptophan with about 2% overall yield in 20 steps. The key step depended on the newly developed three-ste

Model studies of the (6-4) photoproduct photoreactivation: Efficient photosensitized splitting of thymine oxetane units by covalently linked tryptophan in high polarity solvents

Song, Qin-Hua,Wang, Hong-Bo,Tang, Wen-Jian,Guo, Qing-Xiang,Yu, Shu-Qin

, p. 291 - 298 (2007/10/03)

Three covalently linked tryptophan-thymine oxetane compounds used as a model of the (6-4) photolyase-substrate complex have been prepared. Under 290 nm light, efficient splitting of the thymine oxetane with aromatic carbonyl compounds gives the thymine monomer and the corresponding carbonyl compounds by the covalently linked tryptophan via an intramolecular electron transfer, and exhibits a strong solvent dependence: the quantum yield (Φ) is ca. 0.1 in dioxane, and near 0.3 in water. Electron transfer from the excited tryptophan residue to the oxetane unit is the origin of fluorescence quenching of the tryptophan residue, and is more efficient in strong polar solvents. The splitting efficiency of the oxetane radical anion within the tryptophan +-oxetane- species is also solvent-dependent, ranging from ca. 0.2 in dioxane to near 0.35 in water. Thus, the back electron transfer reaction in the charge-separated species would be suppressed in water, but is still a main factor causing low splitting efficiencies in the tryptophan-oxetane systems. In contrast to the tryptophan-oxetane system, fast nonradiation processes are the main causes of low efficiency in the flavin-oxetane system. Hence, nonradiative processes of the excited FADH-, rather than electron transfer to oxetane, may be an important factor for the low repair efficiency of (6-4) photolyase. The Royal Society of Chemistry 2006.

Structure-activity relationship study of novel necroptosis inhibitors

Teng, Xin,Degterev, Alexei,Jagtap, Prakash,Xing, Xuechao,Choi, Sungwoon,Denu, Regine,Yuan, Junying,Cuny, Gregory D.

, p. 5039 - 5044 (2007/10/03)

Necroptosis is a regulated caspase-independent cell death mechanism that results in morphological features resembling necrosis. It can be induced in a FADD-deficient variant of human Jurkat T cells treated with TNF-α. 5-(1H-Indol-3-ylmethyl)-2-thiohydantoins and 5-(1H-indol-3-ylmethyl)hydantoins were found to be potent necroptosis inhibitors (called necrostatins). A SAR study revealed that several positions of the indole were intolerant of substitution, while small substituents at the 7-position resulted in increased inhibitory activity. The hydantoin ring was also quite sensitive to structural modifications. A representative member of this compound class demonstrated moderate pharmacokinetic characteristics and readily entered the central nervous system upon intravenous administration.

Investigation of the PDZ domain ligand binding site using chemically modified peptides

Novak, Kathleen A.P,Fujii, Naoaki,Guy

, p. 2471 - 2474 (2007/10/03)

Several chemically modified analogues to a tightly binding ligand for the second PDZ domain of MAGI-3 were synthesized and evaluated for their ability to compete with native peptide ligands. N-methyl scanning of the ligand backbone amides revealed the energetically important hydrogen bonds between the ligand backbone and the PDZ domain. Analogues to the ligand's conserved threonine/serine(-2) residue, involved in a side chain to side chain hydrogen bond with a conserved histidine in the PDZ domain, revealed that the interaction is highly sensitive to the steric structure around the hydroxyl group of this residue. Analogues of the ligand carboxy terminus revealed that the full hydrogen bond network of the GLGF loop is important in ligand binding.

Selenium Dioxide Oxidations in the Indole Area. Synthesis of β-Carboline Alkaloids

Cain, M.,Campos, O.,Guzman, F.,Cook, J.M.

, p. 907 - 913 (2007/10/02)

A number of different piperidoindole systems have been subjected to oxidation with selenium dioxide.The bonding between the indole and piperidine unit has been varied to provide different systems, the oxidation of which has led to formation of either 2-acyl- or 3-acylindoles or fully aromatic β-carbolines, depending on the substrate chosen.The pattern of reactivity observed was in complete agreement with the ene mechanism proposed for selenium dioxide oxidations, and this can be employed to predict the regiochemistry of the oxidation.Use of this technology has resulted in a two-step synthesis of the indole alkaloid canthin-6-one (30a).

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