Benzopyrans, formation

B. 3,4-Dihydro-2-methylene-2H- 1-benzopyran. Formation of the exomethylene enol ether with dihydrocoumarin is carried out as in the foregoing procedure except that the reaction solution is cooled with a dry ice-acetone bath before addition of the lactone. From 3.0 g (20 mmol) of dihydrocoumarin (Note 5) is obtained 1.85-1.97 g (63-67%) of the product (Note 12) as a pale yellow oil, after column chromatography on basic alumina (150 g) eluting with 5% diethyl ether in pentane. 

Benzophenones—see also Hydroxybenzophenones chemical shifts for 338 Benzopyrans, formation of 619 Benzoquinone O-oxide 1057 Benzoquinone oximes 235 tautomerism in 251 Benzoquinones—see... 

Related Sc(OTf)3-catalyzed reactions, i.e. alkylation of silyl enol ethers with sulfur dioxide adduct of 1-methoxybutadiene, that of lithium enolates with epoxides, and benzopyran formation from o-hydroxybenzaldehydes and dimethox) ropane have also been reported. 

Phenolic oxygen participates in facile oxypalladation. The intramolecular reaction of 2-hydroxychalcone (105) produces the flavone 106[127]. The ben-zofuran 107 is formed from 2-allyIphenol by exo cyclization with Pd(OAc)2, but benzopyran 108 is obtained by endo cyclization with PdChf S], Normal cyclization takes place to form the furan 109 from 2-(l-phenylethenyl)phe-nol[129]. Benzofuran formation by this method has been utilized in the synthesis of aklavinione (110)[130]. 

Cyclisation of o-hydroxyphenyl ethynyl ketones under basic conditions is known to produce benzopyran-4-ones and benzofuranones by 6-endo-dig and 5-exo-dig processes, respectively. However, both cyclisations are reversible in aprotic media thereby generating anions, of which that derived from the pyranone is rapidly and irreversibly protonated and hence selective formation of the chromone results <96T9427>. 

Selenski pioneered further modifications to method G by initiating the formation of the o-QM intermediate through the reduction of the starting aldehyde (Fig. 4.29) 28 For example, the desired benzopyran 54 is formed in a 45 % yield from the aldehyde 53 and... 

Application of an organocatalytic domino Michael addition/intramolecular aldol condensation to the preparation of a series of important heterocycles has recently received much attention [158] with methods being disclosed for the preparation of benzopyrans [159-161], thiochromenes [162-164] and dihydroquinolidines [165, 166]. The reports all use similar conditions and the independent discovery of each of these reactions shows the robust nature of the central concept. A generalised catalytic cycle which defines the principles of these reports is outlined in Fig. 10. Formation of iminium ion 102 is followed by an intermolecular Michael addition of an oxygen, sulfur or nitrogen based nucleophile (103) to give an intermediate... 

The dihydro-2//-1-benzopyran skeleton is found in many biologically active compounds. Such moieties have also been used in the synthesis of other biologically active molecules [16-18]. Hence their synthesis has received attention. Some catalysts used for formation of dihydro-2//-1-benzopyran include (Ph3P)2PdCl2, [19] I2 [20], and Sc(OTf)3 [21]. Few of these methods are highly catalytic in nature or have been reported to use environmentally friendly reagents. For example,... 

A series of 3-alkyl- and 3-aryl-7/7-furo[3,2- ]-l-benzopyran-7-ones 78 (linear furocoumarins) was synthesized and evaluated for their photochemical and nonphotochemical crosslink formation with DNA as well as for their spectro-photometric and fluorescent properties, lipophilicity, and ability to photobleach A, A -dimethyl-/)-nitrosoaniline (RNO) after irradiation with UVA light <2002AP187>. The synthesis of the linear furocoumarins (Scheme 10) was a modification of a previously published method in which 7-hydroxy-2//-l-benzopyran-2-ones 76 were converted into / -ketoethers 77 by alkylation with haloketones under phase-transfer catalysis conditions. Base-catalyzed intramolecular condensation and subsequent acidification gave the corresponding 78. A molecular complex between each one of these fluorescent furocoumarins and DNA was observed, but only compounds with a 3-Me or 3-Ph group showed UVA irradiation-induced crosslink formation. 

We also discovered the ability of 2-azadienes of this sort to cycloadd to unactivated carbon—carbon double and triple bonds in an intramolecular fashion (89CC267) (Scheme 50) such a process appears to be one of the first examples of intramolecular [4 + 2] cycloadditions of simple 2-azadienes. Azadiene 216 was made from O-allyl salicylaldehyde 215 (R = allyl) and heated at 120°C in toluene to furnish the trans-fused tricyclic adduct 217 in excellent yield further dehydrogenation of 217 with DDQ afforded 5H-[ 1 ]-benzopyran[4,3-6]pyridine 218. On the other hand, when 0-(2-butynyl) salicylaldehyde 215 (R = 2-butynyl) was transformed into azadiene 219 and subjected to heating in a sealed tube at 150°C, pyridine 222 was isolated in very high yield. Its formation can be rationalized to occur via the expected Diels-Alder intermediate 220 thus, [1,5]-H shift in 220 would give rise to tautomer 221, which would suffer electro-cyclic ring-opening and aromatization to pyridine derivative 222. 

Coumarin (2H-l-benzopyran-2-one) is a known inhibitor of cellulose formation,355-357 and Hopp and coworkers358 found that, in membranes from the alga Prototheca zopfii, it inhibits the transfer in vitro of the lipid-linked cello-oligosaccharide to its protein acceptor (see Section II,2,b). 

Catalytic dehydrogenation over (AI203, Fe203) at G00°-630° in the presence of moist, air converts 2,3-dihydrobenzofurans (78% yield) into benzofurans, with formation of phenolic compounds as by-products.768,769 Excellent yields are also obtained with Pd/C (reflux diphenyl oxide), Pt or Rh/C at 250°-3500,770 or Pd on norite.761 The method can be applied to the preparation of naphtho[2,l-6]furans,43e furocou-marins515,539,777 (e.g., psoralene781), furochromones,442,534 and 5H-benzofuro[4,5-c]benzopyran-5-one.441... 

The Reformatsky reaction has been applied to the synthesis of fused pyranones and provides an example of selective isomer formation by careful choice of substrate. Hydroxy-methylenecyclohexanone (315) and methyl bromoacetate give 5,6,7,8-tetrahydro-l-benzopyran-2-one (316) through alkylation at the hydroxymethylene carbon atom (54JA6388). However, the benzoyl derivative (317) is unable to form an enolate salt and alkylation occurs at the carbonyl carbon atom, leading to 5,6,7,8-tetrahydro-2-benzopyran-3-one (318) (45HCA771). 

The formation of 2-oxopyran-5 -carboxylic acid (coumalic acid) from 2-hydroxybutanedioic acid (malic acid) is described in detail (63OSC(4)20l) and involves the decarbonylation and dehydration of the hydroxy acid. The formylacetic acid so formed then undergoes selfcondensation. This synthesis is an example of the Pechmann reaction usually associated with the synthesis of coumarins (benzopyran-2-ones). It will be observed that this route leads to pyran-2-ones which carry identical substituents at the 4- and 6-positions. 

The formation of 4-hydroxy-3-phenylcoumarin by heating phenol and diethyl phenylmal-onate at high temperature is accompanied by small amounts of the [l]benzopyrano[4,3-c]-[2]benzopyran-6,l 1-dione (365) (78M1485). 

It is reported that the palladium-catalysed intramolecular aromatization of 1,1 -dichloro-9/T-fluoren-9-yIidene (15) may lead to the formation of fullerene fragments.89 The amiulation reaction, under palladium catalysis, between iodoanflines and ketones may yield indole derivatives.90 There have also been studies of the palladium-catalysed carbonylation of o-iodophenols with allenes which may lead to l-benzopyran-4-one derivatives,91 of the intramolecular coupling of phenols with aryl halides,92 and of the intramolecular Heck aiylation of cyclic enamides.93... 

The use of isopropylidine acetals (112) as tethers in the intramolecular Diels-Alder reactions of dienes with alkenes facilitates the formation of civ-fused cycloadducts (113) from an endo transition state (Scheme 41).218 The intramolecular Diels-Alder reaction of 4-[tris-(2-mcthylcthyl)silyl]oxy-2//-thiopyran derivatives with potential dienophiles tethered at C(2), C(3), C(5), and C(6) positions yielded cycloadducts when the dienophiles were activated with a carbomethoxy group.219 By the substitution of a phenylsulfonyl group on the dienophile of 2-benzopyran-3-ones, it is possible to enhance exo addition during intramolecular Diels-Alder cyclizations to yield a predominance of trans-fused hexaphenanthrenes related to natural products.220 The intramolecular Diels-Alder reaction of 2-furfuryl fumarates has been investigated by molecular mechanics (SIBFA)/continuum reaction field computations.221 The intramolecular 4 + 2-photo-cycloaddition of A-benzylcinnamamides (114) in the presence of C(,H6 gives 3-azatricyclo[5.2.2.01,5]undeca-8,10-dien-4-ones (115) with high stereoselectivity (Scheme 42).222... 

A phenolic oxygen participates in facile oxypalladation. 2-Allylphenol (55) undergoes clean cyclization to 2H-l-benzopyran (56) in DMSO under air with a catalytic amount of Pd(OAc)2 without a reoxidant. 2-Methylbenzofuran (57) is obtained when PdCl2 is used [50]. But different chemoselectivity with the Pd(II) salts was also reported [51]. Catalytic asymmetric cyclization of the tetrasubstituted 2-allylic phenol 58 using the binaphthyl-type chiral ligand 60, called (.S, .S )-ip-borax, afforded the furan 59 with 96% ee. Use of Pd(CF3 002)2 as a catalyst is essential in the presence of benzoquinone [52]. Formation of the benzofuran 62 from 61 has been utilized in the synthesis of aklavinione [53]. The intramolecular reaction of 2-hydroxychalcone (63) produces the flavone 64 [54]. 

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