The photoenol tautomer of 5‐methyl‐1, 4‐naphthoquinone

Rommel, Erika; Wirz, Jakob

doi:10.1002/hlca.19770600106

Cited by 30 publications

(14 citation statements)

References 9 publications

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“…su 1977. objavili prvi primjer fotokemijskog generiranja QM-a reakcijom fototautomerizacije u naftokinonu 93. 52 Reakcija se odvija preko tripletnog pobuđenog stanja, gdje dolazi do enolizacije i nastanka QM-a 94 (shema 17). Rokita je taj tip reakcije upotrijebio za generiranje QM-a iz antrakinon-oligonukleotidnog konjugata 95 (slika 11), koji je upotrijebio za križno povezivanje molekule DNA na vrlo specifičnom dijelu, komplementarnom s faktorom prepoznavanja u derivatu 95.…”

Section: Fototautomerizacije I Esipt Na Ugljikov Atomunclassified

Kinon-metidi (II. dio): Fotokemijsko generiranje i razvoj primjene u fotokemoterapiji

2017

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često prisutni u kemiji i fotokemiji fenola i njima srodnih spojeva.1 Osim vrlo široke primjene u organskoj sintezi, 2,3važna mogućnost primjene je i u biološkim sustavima, ponajprije kao antitumorskih agensa. 4 Potrebu za prouča-vanjem i razumijevanjem kemije QM-a, kao i studiranje njihove potencijalne primjenjivosti u biološkim sustavima pokazuju rezultati do kojih se do sada došlo na Institutu Ruđer Bošković 5,6,7,8,9,10 i u grupi M. Freccera. 6a,11 Kako su QM reaktivni međuprodukti kratkog vremena života, uobičajeno je da se generiraju 3 iz nekog pogodnog prekursora. To se može postići upotrebom odgovarajućih reagensa ili grijanjem (sintetske ili termičke metode).3 Kako u biološ-kim sustavima najčešće nije baš pogodno upotrebljavati takve reagense, fotokemijske metode generiranja QM-a tu postižu veliku prednost. Iz pogodnog prekursora može se nakon pobude svjetlom određene valne duljine generirati QM. Prednost toga je da se QM generira samo tada kad se to želi i samo na mjestu gdje je osvjetljeno. Međutim, kako bi QM mogli imati praktičnu primjenu u medicini, potrebno je pronaći sustave koji bi mogli dati QM nakon pobuđivanja svjetlom u vidljivom području, idealno iznad 500 nm, ili barem svjetlom > 350 nm, koje ne apsorbiraju uobičajene unutarstanične molekule. Primjeri prekursora QM-a koje bi se moglo pobuditi vidljivim dijelom spektra nisu do sada opisani u literaturi. Fotokemijske metode generiranja QM-aU fotokemijskim reakcijama sudjeluju vrste koje su elektronski pobuđene, zbog čega imaju znatno različitu raspodjelu elektrona u molekuli nego što je to slučaj u osnovnom stanju te je i reaktivnost u pobuđenom stanju drugačija nego u osnovnom stanju. Derivati fenola i fenilnih etera ili laktona koji podliježu ß-cijepanju najčešće se upotrebljavaju za generiranje QM-a u fotokemijskim reakcijama.Takav tip reakcija poznat je još iz pionirskog rada Zimmermana, koji je studirao reakcije solvolize s nukleofilnim otapalom, tj. nukleofilne supstitucije skupine vezane u ß-položaju u odnosu na kromofor.12 Mehanizam reakcije kod aromatskih spojeva, prema poznatim literaturnim podacima, može uključivati nastanak arilnih karbokationa, 13 karbena 14 ili homolitičko cijepanje veze praćeno prijenosom elektrona.15 Iako se odvijaju različitim mehanizmom od reakcija u aromatskim spojevima, 12 takve reakcije uobičajene su i u fotokemiji mnogih karbonilnih spojeva.16 U nastavku će biti naveden pregled reakcija fotokemijskog generiranja QM-a. Fotofragmentacija oksaheterocikalaJedna od prvih opisanih metoda fotokemijskog generiranja QM-a bila je fotofragmentacija oksaheterocikala. Chapman i sur. studirali su generiranje QM-a iz benzolaktona 1, i sulfona 4. Nakon fotopobude i eliminacije male molekule (CO ili SO 2 ) nastaje QM, koji odmah reagira s prisutnim nukleofilnim otapalom -metanolom, dajući o-hidroksibenzil-metil-eter (3) kao produkt reakcije fotosolvolize (shema 1). U Diels-Alderovoj reakciji [4+2] cikloadicije QM-a 2 i 1,1-dimetoksieten (5) daju kroman 6, čijom izolacijom je na neizravan način dokazano postojanje QM-a...

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Section: Fototautomerizacije I Esipt Na Ugljikov Atomunclassified

Kinon-metidi (II. dio): Fotokemijsko generiranje i razvoj primjene u fotokemoterapiji

2017

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“…[3] Upon excitation, intramolecular hydrogen transfer (C(sp 3 )-H to O-H) occurs with 1 to generate biradical 2.I ti somerizes into o-quinodimethane 3, [4,5] which has ac losed-shellc onfiguration but lacks aromaticity.T here are two stereoisomers 3a and 3b possibly generated from 2.T wo pathways are subsequently available for the dienes 3a and 3b.O ne is ap rotont ransfer pathway reverting to 1 [6] and the other is a4 p electrocyclic ring-closing pathway to benzocyclobutenol 4.I nt he case of 3a,a ni ntramolecular 1,5-proton transfer reaction is so much faster than Scheme1.Photocyclization of o-alkylphenyl ketones.[a] Dr. The remarkable efficiency is ascribed to the electron-accepting character of the phosphonate substituent, which facilitates thermal ring closing of the o-quinodimethane intermediate and suppresses reversion to the startingc arbonyl compound.…”

mentioning

confidence: 99%

“…[3] Upon excitation, intramolecular hydrogen transfer (C(sp 3 )-H to O-H) occurs with 1 to generate biradical 2.I ti somerizes into o-quinodimethane 3, [4,5] which has ac losed-shellc onfiguration but lacks aromaticity.T here are two stereoisomers 3a and 3b possibly generated from 2.T wo pathways are subsequently available for the dienes 3a and 3b.O ne is ap rotont ransfer pathway reverting to 1 [6] and the other is a4 p electrocyclic ring-closing pathway to benzocyclobutenol 4.I nt he case of 3a,a ni ntramolecular 1,5-proton transfer reaction is so much faster than Scheme1.Photocyclization of o-alkylphenyl ketones. [3] Upon excitation, intramolecular hydrogen transfer (C(sp 3 )-H to O-H) occurs with 1 to generate biradical 2.I ti somerizes into o-quinodimethane 3, [4,5] which has ac losed-shellc onfiguration but lacks aromaticity.T here are two stereoisomers 3a and 3b possibly generated from 2.T wo pathways are subsequently available for the dienes 3a and 3b.O ne is ap rotont ransfer pathway reverting to 1 [6] and the other is a4 p electrocyclic ring-closing pathway to benzocyclobutenol 4.I nt he case of 3a,a ni ntramolecular 1,5-proton transfer reaction is so much faster than Scheme1.Photocyclization of o-alkylphenyl ketones.…”

mentioning

confidence: 99%

“…Since the photoreaction is operationally simple and tolerant to various functional groups, the present approach would come into use for further derivatization of synthetic purposes.The mechanism of the photocyclization of o-alkylphenylk etones has been studied intensively (Scheme1). [3] Upon excitation, intramolecular hydrogen transfer (C(sp 3 )-H to O-H) occurs with 1 to generate biradical 2.I ti somerizes into o-quinodimethane 3, [4,5] which has ac losed-shellc onfiguration but lacks aromaticity.T here are two stereoisomers 3a and 3b possibly generated from 2.T wo pathways are subsequently available for the dienes 3a and 3b.O ne is ap rotont ransfer pathway reverting to 1 [6] and the other is a4 p electrocyclic ring-closing pathway to benzocyclobutenol 4.I nt he case of 3a,a ni ntramolecular 1,5-proton transfer reaction is so much faster than Scheme1.Photocyclization of o-alkylphenyl ketones.[a] Dr.…”

mentioning

confidence: 99%

“…Cyclic ester 5falso afforded the benzocyclobutenol 7f (87 %, entry 4). Various functional groups like methoxy,t rifluoromethyl, bromo, and carbamate groups werea llowed on the aromaticr ing to give the benzocyclobutenols 7g-j in yields ranging from 74 to 89 %( entries [5][6][7][8]. Ar eaction of 5k having a3 -methoxypropyl substituent at the o-position gave the cis-isomer 7k exclusively (entry 9).…”

mentioning

confidence: 99%

See 2 more Smart Citations

Photoinduced Cyclization of (o‐Alkylbenzoyl)phosphonates to Benzocyclobutenols

Ishida

Yano

Yuhki

et al. 2017

Chemistry An Asian Journal

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Photochemical Hydrogen Migration in Methylanthronylidenes

Wandel¹,

Sander²

1999

Eur. J. Org. Chem.

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The photochemistry of 4‐methyl‐9,10‐diazoanthrone (7a) and 1,4‐dimethyl‐9,10‐diazoanthrone (7b) was investigated in argon matrices at 10 K. Visible‐light irradiation results in the formation of the anthronylidenes 5a and b, respectively, which were identified by oxygen trapping, by comparison of the IR and UV/Vis spectra with that of the parent anthronylidene 6, and by comparison of the IR spectrum with that calculated by DFT methods. The carbenes 5 are thermally stable under the conditions of matrix isolation; however, irradiation with visible or UV light results in the rearrangement to the quinone methides 10a and b.

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The photoenol tautomer of 5‐methyl‐1, 4‐naphthoquinone

Cited by 30 publications

References 9 publications

Kinon-metidi (II. dio): Fotokemijsko generiranje i razvoj primjene u fotokemoterapiji

Kinon-metidi (II. dio): Fotokemijsko generiranje i razvoj primjene u fotokemoterapiji

Photoinduced Cyclization of (o‐Alkylbenzoyl)phosphonates to Benzocyclobutenols

Photochemical Hydrogen Migration in Methylanthronylidenes

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