Tryptophane isolation

Our knowledge of tryptophan began some 100 years ago. In 1901 Hopkins and Cole1 isolated tryptophan from a pancreatic digest of casein. Its structure was established in 1907 by Ellinger and Flamand,2 who synthesized a substance that was identical to the tryptophan isolated by Hopkins and Cole. It is noteworthy that about 50 years prior to the discovery of tryptophan by Hopkins and Cole,1 aspects of tryptophan metabolism began to appear in the research literature, when in 1853 Liebig discovered kynurenic acid in dog urine.3 Subsequently, kynurenine, a tryptophan metabolite, was identified,4 5 and the relationship of kynurenic acid to tryptophan was understood. A brief review on the discovery of tryptophan has been described by Curzon.6... 

Carboline derivatives in various oxidation states have been isolated from a number of natural sources as artifacts. )3-Carboline has been obtained from charred insects, j8-carboline and l-methyl-)3-carboline have been found in cigarette smoke,and the formation of tetrahydro-j8-carboline derivatives has been shown to be responsible for the destruction of tryptophan in acid hydrolyzates of proteins. The golden-yeUow fluorescence observed when enterochromaffin cells are flxed in formaldehyde has been related to their content of... 

No 1 -hydroxytryptamine or -tryptophan alkaloid that lacks a stabilizing group on the indole nucleus has been reported yet. However, isolation of37,38a, 38b, HUN-7293 (293) (96MI69), and apicidin (301) (96TL8077) offers indirect evidence for the existence of 1-hydroxytryptamines and/or 1-hydroxytryptophans in living organisms. We believe their isolation will be reported in the near future. 

A series of chiral boron catalysts prepared from, e.g., N-sulfonyl a-amino acids has also been developed and used in a variety of cycloaddition reactions [18]. Corey et al. have applied the chiral (S)-tryptophan-derived oxazaborolidine-boron catalyst 11 and used it for the conversion of, e.g., benzaldehyde la to the cycloaddition product 3a by reaction with Danishefsky s diene 2a [18h]. This reaction la affords mainly the Mukaiyama aldol product 10, which, after isolation, was converted to 3a by treatment with TFA (Scheme 4.11). It was observed that no cycloaddition product was produced in the initial step, providing evidence for the two-step process. 

Biogenic amines are decarboxylated derivatives of tyrosine and tryptophan that are found in animals from simple invertebrates to mammals. These compounds are found in neural tissue, where they function as neurotransmitters, and in non-neural tissues, where they have a variety of functions. The enzymes involved in biogenic amine synthesis and many receptors for these compounds have been isolated from both invertebrate and vertebrate sources. In all cases, the individual proteins that effect biogenic amine metabolism and function show striking similarity between species, indicating that these are ancient and well-conserved pathways. 

Wu and Sun have presented a versatile procedure for the liquid-phase synthesis of 1,2, ,4-tctrahydro-/i-carbolines [77]. After successful esterification of the MeO-PEG-OH utilized with Fmoc-protected tryptophan, one-pot cyclocondensations with various ketones and aldehydes were performed under microwave irradiation (Scheme 7.68). The desired products were released from the soluble support in good yields and high purity. The interest in this particular scaffold is due to the fact that the l,2,3,4-tetrahydro-/f-carboline pharmacophore is known to be an important structural element in several natural alkaloids, and that the template possesses multiple sites for combinatorial modifications. The microwave-assisted liquid-phase protocol furnished purer products than homogeneous protocols and product isolation/ purification was certainly simplified. 

Other workers began to study the structure of gramicidin. Christensen and coworkers12 isolated crystalline tryptophane and leucine from a hydrolysate. They found no evidence for a fatty acid component and established that phenylalanine, proline and hydroxyproline were absent from a hydrolysate. These workers isolated alanine diox-pyridate from a hydrolysate and also established that gramicidin contained a compound with vicinal hydroxy and amino groups. They speculated that this compound might be serine or isoserine and proposed that gramicidin contains two tryptophane, 2 leucine, 2 or 3 alanine and 1 hydroxyamino residues or a multiple of this composition. 

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