Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Conjugate (1,4
Document related concepts
Kinetic resolution wikipedia , lookup
Asymmetric hydrogenation wikipedia , lookup
George S. Hammond wikipedia , lookup
Aldol reaction wikipedia , lookup
Diels–Alder reaction wikipedia , lookup
Hofmann–Löffler reaction wikipedia , lookup
Ene reaction wikipedia , lookup
Ring-closing metathesis wikipedia , lookup
Hydroformylation wikipedia , lookup
Discodermolide wikipedia , lookup
Elias James Corey wikipedia , lookup
Baylis–Hillman reaction wikipedia , lookup
Asymmetric induction wikipedia , lookup
Petasis reaction wikipedia , lookup
Strychnine total synthesis wikipedia , lookup
Transcript
1 Conjugate (1,4-) addition Nuc O Nuc R1 Nuc R2 R1 O O ∗ R1 R2 ∗ ∗ R2 E E • Nucleophilic attack on C=C bond normally requires electron deficient alkene • Know as 1,4-addition or conjugate addition • As enolate formed during reaction - possibility of forming two stereogenic centres • Substrate control - initial addition to the least hindered face of enone O R E H reagent Nuc O electrophile H R Nuc R O yield% x%de • Second addition normally occurs from opposite face 123.702 Organic Chemistry 2 Substrate control in total synthesis O I C5H11 + i. t-BuLi ii. CuI, PPh3 iii. HMPA –78° O OTBS O Si Me Me t-Bu OTBS iv. Ph3SnCl v. I O CO2Me O CO2H HO C5H11 TBSO C5H11 i. Pyr•HF(HF)x ii. hydrolysis 78% OH prostaglandin E2 CO2Me TBSO C5H11 OTBS 78% 94%de • Prostaglandins are technically hormones with very strong physiological effects • Prostaglandins have been utilised to prevent and treat peptic ulcers, as a vasodilator, to treat pulmmonary hypertension and induce childbirth / abortion • This is a synthesis of prostaglandin E2 (PGE2) by M. Suzuki, A. Yanagisawa & R. Noyori, J. Am. Chem. Soc. 1988, 110, 4718 123.702 Organic Chemistry 3 Diastereoselective conjugate additions Me Me Me Me Me NH Me Me EtMgCl N N S O O O S O O Oppolzer's camphor sultam S trans conformation disfavoured Me Me HO Me NH S O O O LiOH Et Me Me H N S O O O 90% de Et Et O Mg Cl Mg Cl O O Et cis conformation favoured chelation restricts rotation Me Me H Me Me Me N S H Et O Mg Cl Mg Cl O O Et • Possible to use chiral auxiliary to control 1,4-nucleophilic addition • Chelation of amide and sultam oxygens to Mg restricts rotation and favours cis conformation • Addition occurs from most sterically accessible side • Chiral auxiliary readily cleaved (& reused) to give enantiomerically pure compound via diastereoselective reaction 123.702 Organic Chemistry 4 Chiral auxiliary to control two stereocentres Me Me Me Me N 1. BuMgCl 2. MeI Me Me H N S S O O O Me Bu Me H Me H N O Mg L O O L electrophile approaches from bottom face Me Bu S O O O 95% de Me I LiOH Me Me Me NH S O O + HO Me O Bu • It possible to utilise 1,4-addition to introduce two stereogenic centres • The first addition (BuMgBr) occurs as before to generate an enolate • The enolate can then be trapped by an appropriate electrophile • Once again the sultam chiral auxiliary controls the face of addition (of Me) 123.702 Organic Chemistry 5 Alternative chiral auxiliaries I aldol-like reaction & acid catalysed elimination O Ph Ph O O 1. LDA Me N OH Ph R1 R1 N H 3. CF3CO2H R1 OMe NH2 R2–Li 2. R1CHO OMe H OMe O CO2H Ph Ph N Li OMe O Ph H2O H3O R1 H R2 95-99% ee R2 H R2 R1 N OMe H R2 N Li OMe hydrolysis • A second chiral auxiliary is the oxazoline (5-membered ring) of Meyers’ • It can be prepared from carboxylic acids (normally in 3 steps) or from condensation • of the amino alcohol and a nitrile As can be seen excellent enantiomeric excesses can be achieved via a highly diastereoselective reaction 123.702 Organic Chemistry 6 Chiral auxiliary and radical conjugate addition O O O R1 N Yb(OTf)3 (1eq), R2–X (5eq), Bu3SnH (2eq), Et3B, O2, 3h, –78°C 81-94% 76-96%de Ph Ph O O R2 O R1 N Ph Ph R1=Me, R2=i-Pr, Ph Et, c-Hex etc Ln O O Yb O R2 R1 N Ph Ph • Radicals once thought to be too reactive to allow diastereoselective reactions • Clearly not true - oxazolidinone auxiliary • Rare-earth Lewis acids give superior results • Use of Et3B & O2 as radical initiator allows the use of low temperatures 123.702 Organic Chemistry 7 Sulfoxide-based chiral auxiliary (& total synthesis) L L Zn O O O O S ZnBr2 O O MeO MgBr S MeO O O S O O H MeO Ar O Raney Ni nuc O MeO O O O Ar2COCl H MeO OMe O H O Ar (–)-podorhizon 95% ee O • Sulfoxide is a good chiral auxiliary; not only does it introduce a stereocentre but it • • • • activates the alkene by addition of an extra electron-withdrawing group Sulfoxide substituent blocks the bottom face & is readily removed Simple substrate control instals aryl group on opposite face to substituent (–)-Podorhizon is a member of the anticancer podophyllotoxin family of compounds This synthesis is by G. H. Posner, T. P. Kogan, S. R. Haines, L. L. Frye, Tetrahedron Lett. 1984, 25, 2627 123.702 Organic Chemistry 8 Chiral auxiliaries and total synthesis Ph Me N Ph Ph CO2Et Me O + Br Me LiBr Et3N H N 72% 92%de O Me Me Ph CO2Et O O Me i. HCl ii. LiOH 59% H NH2 OH HO O O L-CCG-I • L-CCG-I (L-carboxycyclopropylglycine-I) is a conformationally restrained analogue of • L-glutamic acid (there are four possible stereoisomers of L-CCG) L-Glutamic acid is the most abundant excitatory neurotransmitter in our bodies; it is thought to be involved in cognitive functions like learning and memory in the brain and possibly with umami, one of the five basic human tastes • This synthesis is by Subhash P. Chavan, Pallavi Sharma, Rasapalli Sivappa, Mohan M. Bhadbhade, Rajesh G. Gonnade and Uttam R. Kalkote, J. Org. Chem. 2003, 68, 6817 123.702 Organic Chemistry 9 Enantioselective catalytic conjugate addition O Et2Zn, Cu(OTf)2 (2%), lig. (4%), tol, 3h, –30°C O Ph O O Et Me P N Me Ph 94% >98% ee lig. • Much effort has been expended trying to develop enantioselective catalysts for • • conjugate addition Whilst many are very successful for certain substrates, few are capable of acting on a wide range of compounds The system above gives excellent enantioselectivities for cyclohexenone but... no selectivity for cyclopentenone O Et2Zn, Cu(OTf)2 (2%), lig. (4%), tol, 3h, –30°C O Et 75% 10% ee 123.702 Organic Chemistry 10 Enantioselective radical conjugate addition O O O N i. Et3B, O2 ii. MgX2 Me Ph + I O O Me O O Me N Me Ph O N N 90% 97%ee • Not unsurprisingly, once stereoselective conjugate radical additions with auxiliaries • • had been developed, the enantioselective catalytic variant rapidly followed Effectively, this is a chiral Lewis acid catalysed reaction Most work in this area has been pioneered by Sibi 123.702 Organic Chemistry 11 Organocatalysis Me N O O Bn O + Ph Me BnO OBn N H CO2H cat. (10%), neat, rt, 165h CO2Bn BnO2C Ph O Me 86% 99% ee Me Me N CO2H N Me H N N BnO H O CO2Bn CO2H Me CO2Bn H CO Bn 2 • New small molecule organic catalysts are now achieving remarkable results • Enone is activated by formation of the charged iminium species • The catalyst also blocks one face of the enone allowing selective attack 123.702 Organic Chemistry 12 Organocatalysts II O Me N X Bn NR2 O Me X Me N H•HCl Me + H O H R2N O O Me N Me H H X X H Me N Me Me Me N Me Me O Me N N 68-90% 84-92% ee Me Me N NR2 Me H X Ar H steric hindrance results in predominantly one conformation • A range of reactions can be achieved, including enantioselective Friedel-Crafts • Catalyst ensures that the enone reacts via one conformation • Must use electron rich aromatic substrates 123.702 Organic Chemistry 13 Organocatalysts III O Me N Bn H + TMSO O Me R O Me Me N H•HCl Me O O cat. (20%) DCM / H2O –20 to –70°C, 11–30h Me O R H 77% syn:anti = 1-31:1 84-99% ee • Possible to introduce two stereogenic centres with good diastereoselectivity and • enantioselectivity An interesting reaction is the Stetter reaction - this is the conjugate addition of an acyl group onto an activated alkene and proceeds via Umpolung chemistry (the reversal of polarity of the carbonyl group) OMe cat. (20%) KHMDS (20%) 25°C, 24h O Me H O CO2Et O Me N N CO2Et O 80% 97% ee N O H BF4 123.702 Organic Chemistry 14 Mechanism of Stetter reaction O O Me Me Ar CO2Et H N N O O N CO2Et O N Me Ar N Ar N N base O H N CO2Et OH H N base Ar2 O Ar N N N N HO OEt N O Ar O H N OEt OH O base O Me Me • The Stetter reaction is analogous to the activity of thiamine (vitamin B1) in our bodies and the reaction is thus biomimetic 123.702 Organic Chemistry 15 Organocatalytic bifunctional catalysis CF3 S F3C NO2 + EtO2C CO2Et N H N H Me N EtO2C CO2Et Me NO2 toluene, rt, 24h 86% 93% ee CF3 CF3 S F3C S H N H N Me H H Me O O H O N O H EtO Ph F3C N OEt N N H H O O N N H Ph Me Me H CO2Et CO2Et • The thio(urea) moiety acts as a Lewis acid via two hydrogen bonds • The amine both activates the nucleophile and positions it to allow good selectivity 123.702 Organic Chemistry 16 Organocatalysis and total synthesis O Me N NHBoc Me O Br N Bn N H t-Bu NBoc + Me N Br i. cat (20mol%) ii. NaBH4 Me 78% 90%ee Me N Me Me N H Ph Me H BocHN H Me Me (–)-flustramine B O Me Me Me N Me Me Me N N Br Me N O N H Me O H Me OH Me Me Me N Ph H BocN H RN RN H Br Br • Beautiful example of enantioselective conjugate addition in total synthesis • From the synthesis of a marine alkaloid from the Bryozoa, Flustra foliacea by Joel F. Austin, Sung-Gon Kim, Christopher J. Sinz, Wen-Jing Xiao, and David W. C. MacMillan, PNAS 2004, 101, 5482 123.702 Organic Chemistry
