Synthesis of carbo- and heterocyclic compounds by radical-initiated cyclizations of propargylsilanes

Synthesis of carbo- and heterocyclic compounds by radical-initiated cyclizations of propargylsilanes

Temzhedron Lrtrers, Vol. 35, No. 32, pp. 5853-5856, 1994 Else&r Science Ltd Rinted in Great Britain oo404039194 s7.oo+o.w OCMO-4039(94)01170-2 Synth...

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Temzhedron Lrtrers, Vol. 35, No. 32, pp. 5853-5856, 1994 Else&r Science Ltd Rinted in Great Britain oo404039194 s7.oo+o.w

OCMO-4039(94)01170-2

Synthesis .of Garbo- and Heterocyclic Compounds Cyclizations

of Propargylsilanes

DieterShin&a. RterG. Jonesb, ah8titUt Air c&mi8chc

by RadicaMnitiated

Kerstin Obie~ya

dcr Technisci~a Univer8iM B raumchweig, Hagenting 30, D-38106 Braumchweig, &many

chernie

bInstitutfitrAn~8cheundAMl Hageeg

beCheu&de~TechnischenUniversitgtBraumchweig, 3Pc, D-38 106 Braunschweig, Germany

Abstract: Propargylic silanes of type 2,4,9.11. and 13 undergo smooth cyclization in refluxing benzene and in the rescnce of AIBN and tributyltin hydride. Ring closure of carbocycles and also of 5 and 6memhemd K hetcmcyclic ring8 i8 achieved in high chemical yields. Radical cyclizations

have proved

to be valuable

8yIIthetiC method8 of forming cyclic or polycyclic

frameworks. 1,2 In this letter we wish to report a novel method of constructing either carbo- or hetezocyclic skeletons by a radical cyclization - initiated by AIBN in the presence of ixibutyltin hydride - ofpropargylic

silanes.

Ketones of type 2 or 4 can be easily obtained by a tandem reaction of the copper-catalyzed functional&d

addition of a

Grignard magent to cyclobexenone 1 and in situ quenching with NBS.3 0

0 1 _

2.

Bmd--,

CuBr - Sldeo c

NBS

1 The Carbocyclic ketone8 2 and 4 can be directly cyclized witi AIBN and tributyltin hydride to give the &sired &cyclic ketones a8 a ca 6 : 1 ratio of S

of tbe resulting ally1 silanes 3 (34%). and 5 (50%); the Z

isomersprtdormnatt?

2

AIBN,

Bu#nH

5853

5854

5

4 -llBesehicycliccampounds

containthe synthetically

propargyl s&me. EspecUy

exocyclic ally&

useful allylsilam as a mult of the radical cyclization of the

silalles are not easy obtail@

because only cyclic ketones can be

used in these particular Wittig rem3ionsP Allylsilanes

can be regioselectively

functionalixed compounds

transformed

in the presence

of electrophiles

which demonstrates the high potential of these compomds

The next systems we examined we= 0-heterocyclic

to a wide variety of in organic synthcs@8

compoundsof type 10 and 12. The m

9 and 11

for this operation can be prepared by one-pot procedures with the enones in the presence of the unsaturated alcohols and NBS.9

1

2,

NBS

-

TMSCN

2. lMSCHpOTt Sime, However,

in order to synthesize

the desired precursors for the heterocyclic

carbonyl group as silylated cyanohydrins

9 and 11. 10 These compounds

conditions in quantitative yield to give the desired 0-hetemcycles diastereo~

10 (98%)

series we had to protect the

cychzed smoothly under standard and 12 (>98%) both in a ratio of

of about 4 : 1, again favoring the Z-isomer of the allylic silane.3 The structure of compound 10

@-isomer) has been confhmed

by X-ray analysis.l1*12

sws

FQure.MolccularstNctllrcof

1ointheclyml

Thisdramatic influence of the silylated cyanohydrin could be a result of &stabilization nitrile group or by the &oxygen

of the radical by the

atoms.13*14

12

11

Finally we have tested compound 13inorder toform the synthetically useful oxo-bicycle-octane

system 14,

which we obtained in 40% yield, again favoring the Z-isomer of the ally1 silane in a ratio of about 4 : 1.3915

AWN,

BuaSn H

14

5856

In summary, we have demonstratedthat radicalcycIiaation8of poprgylsilancsareapow&tlmcthodof constructingc&o-

and hetuo-bicyclic systema that contain the syntheticallyuseful allylic SiIaneS.The

allylsilanesobtainedcanbeaansfarmbd~aavvarietyafsystcmqbyknawn~.

The extensionof

thismtthodtoodKIheterocyCltsand~S~is~~y~~inoUrlaboratorC8.

Acknowledgment.

This WC& was suppated by the tbc Fonds dcr CbemischenIndustric.We ate indebted

to the S&ring AG, Berlin,for generousgifts ofc~s.

Mr. A. Weinkaufpmvidcd tcchnicaIaaaiatanccin

the x-ray saucture&tcrmiMuon.

References and Notes

ofCarbon-Carbort

1.

~=~Bi&&rZs

::

Sunk. 0.; M&Ii, R. J. Am. Chcm. Sot. 1983.ZO5. 3720, Allnewcanpoundsgavespecualaudanalyticals~

in Organic Synthesis. Formation

lb&‘.

Ekqaxmn

PIWS,

dataconsiatcntwlthtbcaaaigntd

SUUClUItX. Fleming. 1.;Paterson,I. Synthesis 1979. 447.

f: f: i* 16. 11.

Fleming. I.; Dunogues, J. Organic Reactions 1989.37. 57. Salauai,H. Pureand 1. them. 1982.54, 1. Majetich. G. in Theory cmdilpphcqtion: T. Hudlicky, Rd.. JaiPress, Inc. Greenwich. CT, 1989. 173. Schinzer, D. Synthesis 1988,263. Dulccrc, J. P.; Rodriguez J.; Satuclll. M. Tetrahedron ktt. l!B7.28,u)o9. Groutaa,W. C.; Felkcr, D. Synthesis 1960,861. Standard procedure: To a solutionof compound9 (157mg. 0.39mmol) in 25ml of benzenewas addedaarciofAIBNanddre~~washeatedtonflux.Asolutionoftributyltinhydride(134mg. 0_46Pm&ol)waosddedoverlhwitha~~pumpandthe~~waprefluxedforanadditlonal3 b’IbemixturewaspouredintoasaaaatedsolutionofNaF,andtheaganiclayerwasdried?ver MgSO4. The crutIeproductwas flash cluomatogcaphcdwithpentan&?i&yl ether w&:fza ofcompound 10~isomer)and34mgofcompound lO(Fi-isomer).S~ 10 (Z-is-r): 1H-NMR (CDCl3). (400 MHu): 0.01 (s. 9 H); 0.19 (s, 9 H); 1.33 (m. 2 H); 1.63 (m, 2 H); 1.88 (tn. 2 H); 2.096 (m, 2 H); 2.73 (dd, 1 Ii, J = 2.73 Hz, J = 23.62 Hz); 4.01-3.89 (m, 1 H), 4.25 (m, 2 I-I); 5.57 (dtr, lH, J = 8.66 Hz, J = 14.63 Hz). 13CNMR (CDCl3), (109 MHz): 136.35; 123.27; 119.89; 76.38; 72.50; 70.98; 51.80; 38.17; 27.08; 20.49; 14.78; O.a7; -1.82.

12.

Crystal data for lo:triclinic, PI, u = 1151.2(3), b = 1385.5(3), c = 1403.3(3) pm, a = 70.83(2), I3=

ii:

88.84(2), 7 = 77.40(2) o (at -130 oC), Z = 2. The structurewas retinedon F2 (progtam SHRLKL-93, GM. Sheld&k, Univ. of G&tingen) to wR(F2) 0.130, conventionalR(F) 0.046 for 7251 rtfloaionsto~5oo(Mo~~).).Fulldttailrofthtsrructurt~~haveb#ndbpcwictdat theFa&i&rmationszcntnun Karkuuhc,GcaellschaftfttrWissenachaftlich-t Information n, Germany.Any requestfor thismat&al shouldquote a full n&I-I,D-76344 Eggenstein-v litcratumcIuuionandtbcmfcmnccnumbc7C!SD4OO9O6. Beckwlth, A. L. J. Chem. Sot. Rev. 1993, 143. y8T H. G.; Susunaun,R.; Gieac. B.; Rtickart,B.; G&h&c%, K. S. C&m. Ber. 19!M,Z23,

15.

RajauBabu. T. V. J. Org. Chem.

(Received

1988.53.4522.

in Germany 29 May 1994; accepted

16 June 1994)