Indolines 3-substituted

The reactivities, in terms of photodegradation, of indoline-substituted nitro-spiropyrans are presented in Table 1. By plotting log v for the 5-substituted compounds versus ap, a straight line is obtained (Figure 5). The electron donors CH3 and CH30 have a stabilizing effect (19 and 20 in Table 1) whereas the electron acceptors Cl, F, and Br enhance degradation (9, 17 and 18 in Table 1). 

The stronger directing effects present in the indoline ring can sometimes be used to advantage to prepare C-substituted indoles. The aniline type of nitrogen present in indoline favours 5,7-substitution. After the substituent is introduced the indoline ring can be aromatized by dehydrogenation (see Section 15.2 for further discussion). A procedure for 7-acylation of indoline... 

Aromatization of indolines is important in completing synthetic sequences in which the directive effects of the indoline ring have been used to achieve selective carbocyclic substitution[l]. Several methods for aromatization have been developed and some of these are illustrated in Table 15.2. A range of reagents is represented. One type of procedure represents use of oxidants which are known to convert amines to imines. Aromatization then provides the indole. Such reagents must not subsequently oxidize the indole. Mereuric acetate (Entry 1) is known to oxidize other types of amines and presumably reacts by an oxidative deprotonation ot- to the complexed nitrogen. 

Heterocyclic systems, such as the substituted indoline illustrated below,13 may also be constructed via cyclization of unsaturated organolithiums and a recent review of the preparation of nitrogen- and oxygen-containing heterocycles via this approach is available.14... 

Spiro-(indoline-isoxazolidines) 137, exhibiting interesting biological activities, were prepared in modest yields, by the cycloaddition reaction between ethyl (3-indolylidene)-acetate 135 and various substituted a,N-diphenylnitrones 136 under solvent-free conditions (Scheme 48). The reaction conducted under conventional heating in an oil bath did not proceed even after 20 h, especially when it was carried out without solvent [87]. 

An efficient chemoenzymatic route for the synthesis of optically active substituted indolines has been recently developed (Scheme 7.27), and also the alkoxycarbonyla-tion process is more efficient than the acylation reaction. Different lipases have been tested in the alkoxycarbonylation of these secondary amines, GALA being found to be the best biocatalyst for 2-substituted-indolines, and CALB for 3-methylindoline. The combination of lipases with a variety of allyl carbonates and TBME as solvent has allowed the isolation of the carbamate and amine derivatives in a high level of enantiopurity [51]. 

A novel approach to 3-substituted indolines and indoles via the anionic cyclization of 2-bromo-lV,lV-diallyanilines has been developed simultaneously by Bailey <96JOC2596> and Liebeskind <96JOC2594>. Thus, treatment of 2-bromo-lV,lV-diallylanilines 78 with 2 equivalents of BuLi at -78 °C leads to the formation of the intermediate 79 which may be trapped with an electrophile to afford 3-substituted indolines 80. Aside from ease of preparation, an additional benefit of the intramolecular carbolithiation of <7-lithio-W,Al-diallyl-anilines is the production of Al-allyl-protected indolines, which are easily deprotected using... 

An aza-analogue of the functionalized dihydrocoumarin 2b, the 3-benzyl-3,4-dihydro-1 //-quinolin-2-one 8b, and its five-membered analogue, a substituted indolin-2-one 8a, were synthesized (Fig. 11.6). 

Fischer s base, a typical starting material, is commercially available and is also obtained in situ from the corresponding quaternary salt, substituted indolines 4 can be prepared by TV-alkylation of 2,3,3-trimethyl-3//-indole followed by alkali treatment, or by exhaustive alkylation of 2,3-dimethylindole (N- and C-alkylation) followed by alkali treatment (Scheme 3). Further, methylation of indoline 5 with methyl iodide leads to C-methylation on the methylene group or the Plancher rearrange-... 

PPP calculations reproduce the nitro substituent effect and heterocyclic effect on the /,max. For example, the bathochromic shift by substitution of a nitro group is calculated (ca.20nm). It is in good agreement with the experimental value determined (A,max = 598 nm) in toluene. PPP calculation exactly predicts the bathochromic shift by benzo-annelation of the indoline and benzopyran residues (Table 2). In the neutral quinoid form, the calculated charge densities for the ground and first excited states by PPP... 

Indolines, benzoxazole, and benzothiazole are possible as 2-methylene heterocycles. The number of known spirooxazine derivatives is much less than for the spiropyrans. This may be partly due to lack of many substituted o-nitrosonaphthols and partly due to lack of sufficient stability of spiro-oxazines. The structures of parent spirooxazines and the Xmax of their photomerocyanine forms are listed in Table 5. The Xmax of the colored forms of compounds 41-43 are not described in the literature. 

Unlike spiropyran, 2 -substitution in spirooxazine has no effect on Alkoxy, chloro, and nitro substituents at 5-position, and alkyl substituent at 1-position in the indoline component have small effects on the Xmix of the colored form. 

Substituent effects on the are remarkable. Electron-withdrawing groups at the 5 -position, e.g., 5 -nitro-substitution (indoline component), and donor substituent at the 8-position (benzothiopyran component) in 44 leads to a longer wavelength shift. As the polarity of the solvent increases, the max of the colored form of spiroindolinobenzothiopyran results in hypsochromic shift. This can be interpreted as the existence of a polar structural component of the colored form in the ground state. Kinetic study has suggested that the zwitterionic structure largely contributes to the colored form of 6-nitrospiroindolinobenzothiopyran, as well as spiropy-rans.97 Based on H-NMR and X-ray analysis,98 99 the existence of an... 

Witulski introduced a novel protocol for crossed alkyne cyclotrimerizations of systems such as 87 mediated by Grubb s catalyst to produce 4,6-disubstituted indolines 88 <00CC1965>. Interestingly, use of Wilkinson s catalyst [RhCl(PPhj)3] allows for the regioselective synthesis of the corresponding 4,5-substituted isomers. 

Methods for the enantioselective synthesis of 3-substituted indolines by means of the asymmetric intramolecular carbolithiation of 2-bromo-A,-allylanilines in the presence of (-)-sparteine were reported simultaneously by Bailey <00JA6787> and Groth <00JA6789>. Thus, addition of 89 to 2.2 equiv of /BuLi in the presence of the chiral ligand generates the lithium intermediate 90 which upon quenching with methanol affords the chiral indoline 91 in a process that is highly solvent dependent. 

In addition, due to the proximity and inductive effect of the indoline nitrogen, a metalation strategy provides for a facile synthesis of 7-bromoindoline, as well as other 7-substituted indolines. Thus, Iwao and Kuraishi find that IV-Boc-indoline (22) is smoothly lithiated at C-7 to give 7-lithio 23. Quenching 23 with suitable electrophiles gives 7-haloindolines 24-26, and quenching with tri-n-butylstannyl chloride affords the corresponding tin derivative in 65% yield [31]. 

Buchwald parlayed the powerful Buchwald-Hartwig aryl amination technology [439-447] into a simple and versatile indoline synthesis [448-452], For example, indole 368, which has been employed in total syntheses of the marine alkaloids makaluvamine C and damirones A and B, was readily forged via the Pd-mediated cyclization shown below [448], This intramolecular amination is applicable to the synthesis of -substituted optically active indolines [450], and o-bromobenzylic bromides can be utilized in this methodology, as illustrated for the preparation of 369 [451]. Furthermore, this Pd-catalyzed amination reaction has been applied to the synthesis of arylhydrazones, which are substrates for the Fischer indole synthesis [453,454],... 

Tolylsulfones of indoles, pyrroles, pyrazoles, furans, thiophenes, indolines, and dibenzofurans react with tributyltin hydride under radical conditions by t/wo-substitution. The most likely mechanism appears to be addition of the RjSiv radical to the ring, followed by elimination of the sulfonyl group, but an electron-transfer mechanism cannot be excluded (Equation (61)).199... 

The formation of 2-(indolin-2-yl)indole dimers from indole-3-acetic acid and its propyl ester in trifluoroacetic acid and phosphoric acid has been studied." The reaction involves electrophilic attack of the protonated species (24) on the free substituted indole to give the trans stereochemistry at the C(2)-C(3) bond. 

The aryl radical cyclization has been successfully used for the preparation of substituted dihydrobenzo[Z)]indoline derivatives [59], An example is shown in Reaction (7.49). The diene 42 was preliminarly subjected to ring-closure metathesis using Grubbs catalyst and then treated with (TMS)3SiH and EtsB at -20 °C, in the presence of air, to provide the compound 43 with an excellent diastereoselectivity. 

A-Boc-indoline 166 is deprotonated by s-BuLi/TMEDA (Et20, —78 °C) preferentially in the 7-position to form the stannane 168 via the corresponding aryllithium compound" However, when the deprotonation is performed in the presence of (—)-sparteine in cumene, substitution in the 2-position is observed, to yield the stannane (S )-167 with e.r. = 99 1 (equation 38)". The change in regioselectivity is mainly caused by the bulky ligand 11, since with A,A -dibutylbispidine (169) the same regioselectivity (producing rac-167) is found. 

When potassium amide, with added potassium metal in liquid ammonia, was substituted in the benzyne reaction, further cleavage of C—bonds of the intermediate dibenzopyrrocolines was often observed. The indoline 41 (32) and... 

Undoubted, 2-haloaniline derivatives still maintain most vored precursor status for the preparation of the indole nucleus. Larock now reports the frill details of his examination of the asymmetric addition of IV-tosyl-2-iodoaniline (63) to allenes 64 (e.g. 1,2-undecadadiene) in the presence of palladium catafysts and chiral bisoxazoline ligand to afford chiral indolines 65 in up to 88% ee <99JOC7312>. Cook has utilized the palladhjm-catafyzed heteroannulation of iodoanilines with alkynes derivatized with the Schollkopf chiral auxiliary as a reliable route to optically active ring-A substituted tryptophans <99TL657>. 

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