4
Tetrahedron Letters
(
1
(
5
b) Cossy J, Dumas C, Pardo DG. Eur J Org Chem. 1999; 7:
693-1699;
c) Sebahar PR, Williams RM. J Am Chem Soc. 2000; 122: 5666-
667;
(i) Xiao JA, Li J, Xia PJ, Zhou ZF, Deng ZX, Xiang HY, Chen
XQ, Yang H. J Org Chem. 2016; 81: 11185-11194;
(j) Pavlova AS, Ivanova OA, Chagarovskiy AO, Stebunov NS,
Orlov NV, Shumsky AN, Budynina EM, Rybakov VB, Trushkov
IV. Chem Eur J. 2016; 22: 17967-17971.
(
d) Honda T. Kimura M. Org Lett. 2000; 2: 3925-3927;
(
e) Cossy J, Mirguet O, Pardo DG, Desmurs JR. Eur J Org Chem.
5. Buev EM, Moshkin VS, Sosnovskikh VY. Tetrahedron Lett.
2016; 57: 3731-3734.
6. (a) Bischoff CA, Reinfeld F. Ber Dtsch Chem Ges. 1903; 36: 41-
53;
2
(
002; 21: 3543-3551;
f) Ori M, Toda N, Takami K, Tago K, Kogen H. Angew Chem Int
Ed. 2003; 42: 2540-2543;
g) Fiaux H, Popowycz F, Favre S, Schutz C, Vogel P, Lemaire
SG, Jeanneret LJ. J Med Chem. 2005; 48: 4237-4246;
h) Vartak AP, Nickell JR, Chagkutip J, Dwoskin LP, Crooks PA.
J Med Chem. 2009; 52: 7878-7882;
i) Larsen NK, Delgar CG, Koch KP, Brown MGE, Møller C, Han
(
(b) Giumanini AG, Verardo G, Zangrando E, Lassiani L. J Prakt
Chem. 1987; 329: 1087-1103;
(c) Ha HJ, Nam GS, Park KP. Tetrahedron Lett. 1990; 31: 1567-
1568;
(d) Ha HJ, Lee YS, Ahn YG, Heterocycles. 1997; 45: 2357-2364;
(e) Ha HJ, Suh JM, Kang KH, Ahn O, Han YG. Tetrahedron.
1998; 54: 851-858;
(
(
LW, Huynh THV, Hansen SW, Nielsen B, Bowie D, Pickering
DS, Kastrup JS, Frydenvang K, Bunch L. J Med Chem. 2017; 60:
4
41-457.
(a) Dalko PI, Moisan L. Angew Chem Int Ed. 2001; 40: 3726-
748;
b) Dalko PI, Moisan L. Angew Chem Int Ed. 2004; 43: 5138-
175;
(f) Ha HJ, Suh JM, Ahn YG, Dong Y, Yun H. Heterocycles. 1999;
50: 203-214;
(g) Ha HJ, Choi CJ, Ahn YG, Yun H, Dong Y, Lee WK. J Org
Chem. 2000; 65: 8384-8386.
2
.
3
(
5
7. (a) Oda S, Sam B, Krische MJ. Angew Chem Int Ed. 2015; 54:
8525-8528;
(b) Oda S, Frank J, Krishce MJ. Chem Sci. 2016; 7: 136-141.
8. Lian XJ, Lin LL, Fu K, Ma BW, Liu XH, Feng XM. Chem Sci.
2017; 8: 1238-1242.
(
(
(
(
c) List B. Synlett. 2001; 11: 1675-1686;
d) List B. Tetrahedron. 2002; 58: 5573-5590;
e) List, B. Acc Chem Res. 2004; 37: 548-557;
f) Notz W, Tanaka F, Barbas III CF. Acc Chem Res. 2004; 37:
5
(
2
(
3
(
80-591;
g) Guillena G, Nájera C, Ramόn DJ. Tetrahedron Asymmetry.
007; 18: 2249-2293;
h) Gruttadauria M, Giacalone F, Noto R. Chem Soc Rev. 2008;
7: 1666-1688;
i) Retamosa MG, Cόzar A, Sánchez M, Miranda JI, Sansano JM,
9. Zhu CH, Xu GY, Sun JT. Angew Chem Int Ed. 2016; 55: 11867-
11871.
10. Peng SY, Cao SY, Sun JT. Org Lett. 2017; 19: 524-527.
11. Zheng Y, Chi YJ, Bao M, Qiu LH, Xu XF. J Org Chem. 2017; 82:
2129-2135.
12. Liu S, Yang P, Peng SY, Zhu CH, Cao SY, Li J, Sun JT. Chem
Commun. 2017; 53: 1152-1155.
13. Garve LKB, Jones PG, Werz DB. Angew Chem Int Ed. 2017; 56:
9226-9230.
Castellό LM, Nájera C, Jiménez A, Sayago IFJ, Cativiela C,
Cossío FP. Eur J Org Chem. 2015; 11: 2503-2516.
(a) Pandey G, Banerjee P, Gadre SR. Chem Rev. 2006; 106: 4484-
3
.
4
(
1
517.
b) Cabrera S, Arrayas RG, Carretero JC. J Am Chem Soc. 2005;
27: 16394-16395;
14. Garve LKB, Kreft A, Jones PG. Werz DB. J Org Chem. 2017; 82:
9235-9242.
15. (a) Sapeta K, Kerr MA. J Org Chem. 2007; 72: 8597-8599;
(b) Pohlhaus PD, Sanders SD, Parsons AT, Li W, Johnson JS. J
Am Chem Soc. 2008; 130: 8642-8650;
(
(
(
c) Bellina F, Rossi R. Tetrahedron. 2006; 62: 7213-7256;
d) Wolfe JP. Eur J Org Chem. 2007; 4: 571-582;
e) Wang CJ, Liang G, Xue ZY, Gao F. J Am Chem Soc. 2008;
(c) Wales SM, Walker MM, Johnson JS. Org Lett. 2013; 15:
2558-2561;
(d) Garve LKB, Werz DB. Org Lett. 2015; 17: 596-599;
(e) Xia Y, Liu X H, Zheng HF, Lin LL, Feng XM. Angew Chem
Int Ed. 2015; 54: 227-230;
1
(
30: 17250-17251;
f) Ivanov KL, Villemson EV, Budynina EM, Ivanova OA,
Trushkov IV, Melnikov MY. Chem Eur J. 2015; 21: 4975-4987;
g) Pilsl LKA, Ertl T, Reiser O. Org Lett. 2017; 19: 2754-2757.
(a) Reissig HU, Zimmer R. Chem Rev. 2003; 103: 1151-1196;
(
4
.
(f) Xia Y, Lin LL, Chang FZ, Fu XA, Liu XH, Feng XM. Angew
Chem Int Ed. 2015; 54: 13748-13752;
(b) Carson CA, Kerr MA. J Org Chem. 2005; 70: 8242-8244;
(c) Carson CA, Kerr MA. Chem Soc Rev. 2009; 38: 3051-3060;
(d) Schneider TF, Kaschel J, Werz DB. Angew Chem Int Ed.
(g) Budynina EM, Ivanov KL, Chargarovskiy AO, Rybakov VB,
Trushkov IV, Melnikov MY. Chem Eur J. 2016; 22: 3692-3696;
(h) Kaicharla T, Roy, T, Thangaraj M, Gonnade RG, Biju AT,
Angew Chem Int Ed. 2016; 55: 10061-10064;
(i) Das S, Daniliuc CG, Studer A. Org Lett. 2016; 18: 5576-5579;
(j) Xia Y, Lin LL, Chang FZ, Liao YT, Liu XH, Feng XM. Angew
Chem Int Ed. 2016; 55: 12228-12232;
2
(
3
(
2
(
2
(
014; 53: 5504-5523.
e) Kang YB, Tang Y, Sun XL. Org Biomol Chem. 2006; 4: 299-
01;
f) Parsons AT, Smith AG, Neel AJ, Johnson JS. J Am Chem Soc.
010; 132: 9688-9692;
g) Wang HN, Yang W, Liu H, Wan W, Li H. Org Biomol Chem.
012; 10: 5032-5035;
h) Goldberg AFG, O’Connor NR, Craig RA, Stoltz BM. Org
Lett. 2012; 14: 5314-5317;
(k) Wallbaum J, Garve LKB, Jones PG, Werz DB. Org Lett. 2017;
19: 98-101.