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Enoate

Methoprene and hydroprene are first-generation juvenoids that iacorporate minor stmctural optimisation of neotenin to increase persistence. Methoprene, 1-isopropyl (E,E)-ll-methoxy-3,7,ll-tnmethyl dodecadi-2,4-enoate (129) (bp 100 C/6.7 Pa, vp 3.5 mPa at 25°C), is soluble ia water to 1.4 mg/L. The rat oral LD q is >34,000 mg/kg. Methoprene has been used as a mosquito larvicide, ia baits for ant control, and as a catde feed-through treatment for horn fly control. Hydroprene, methyl (H,H)-3,7,ll-trimethyl-dodecadi-2,4-enoate (130) (bp 174°C at 2.5 kPa, vp 2.5 mPa at 25°C), is soluble ia water to 0.54 mg/L. The rat oral LD q is >34,000 mg/kg. Hydroprene is especially effective against aphids and cockroaches. [Pg.294]

Ethyl 4,5-Dlbenzamldopent-4-enoate (2) Ethyl 3-lmidazol-4(5)-ylpropanoale 1 (9.2 g, 54 mmol) In ElOAc (140 mL) was treated with benzoyl chloride (15 7 g, 112 mmol) In ElOAc (40 mL) and 1M NaHCOa (380 mL) added simultaneously In 1 h under Ice-cooling. The reaction mixture was stirred for 1 h, then a further portion of benzoyl chloride (IS 7 g, 112 mmol) in ElOAc) and iM NaHCOa (280 mL) was added m the same manner, followed by an additional portion o( 1M NaHCOa (200 mL) The reaction mixture was stirred for 24 h, then the organic layer was separated, concentrated, and the residue dissolved in THF (300 mL) The THF solution was stirred with 10% NaHCOa (600 mL) for 24 h to decompose any N-lormyl intermediate and to remove benzoic acxl Extraction with EtOAc, drying (Na2S04), solvent evaporation and recrystallization of the residue from EtOAc hexane afforded 16 24 g of 2 (84%), mp 128-129°C... [Pg.16]

A -(l-Haloalkyl)pyridinium halides have been advantageously employed in the Hantzsch multicomponent synthesis, yielding alkyl 1,4-dihydropyri-dine-3,5-dicarboxylates, which are a well-known class of calcium channel modulators (81AGE762). Tire halides readily interact with an excess of an ethyl 3-aminobut-2-enoate 82 (R = H) in dichloromethane at room temperature to afford the heterocycles 83 (R = H) in good to excellent yields (65-95%) (92T1263). Tliis observation has been exploited to perform a quantitative study of the reactivity of the salts (93CB1251).Tlie results have... [Pg.210]

An important extension of this work deals with the preparation of N-substituted l,4-dihydropyridine-3,5-diearboxylates. Tliirty examples have been deseribed (92SC3291). In most eases the reported yields (10-95%) are higher than those mentioned in the literature. Tire most signifieant results eoneern the synthesis of 1-aryl derivatives, whieh are hardly aeeessible by elassie methods. One should mention that the aminoeyelohexadiene 84 has been isolated as a by-produet when starting from ethyl A-benzylaminobut-3-enoate (Seheme 26). [Pg.211]

An interesting result has been observed when 4-formylantipyrine 89 was converted into the corresponding pyridinium salt 90 and reacted with alkyl 3-aminobut-2-enoates. Tire expected 1,4-dihydropyridines 91 are transient species in these syntheses and readily lose the 4-substituent (antipyrine, 93) so that dialkyl 2,6-dimethylpyridine-3,5-dicarboxylates 92 are obtained (85-95%) (94H815). Protonation of the pyrazole ring by the evolved hydrochloric acid accounts for this particular behavior (Scheme 29). [Pg.213]

Reaction of 2 equiv of 2-aminopyridines with 2-hydropolyfluoroalk-2-anoates 351 in MeCN in the presence of NEts at 90 °C for 50 h afforded a mixture of the isomeric 2-oxo-2H- and 4-oxo-4//-pyrido[l,2-n]pyrimidines 110 and 111. Reaction of 3 equiv of 2-amino-pyridines and 2-hydropoly-fluoroalk-2-enoates 351 in MeCN in the presence K2CO3 could be accelerated by ultrasonic irradiation (125W). 2-Amino-6-methylpyridine yielded only 2-substituted 6-methyl-4//-pyrido[l,2-n]pyrimidin-4-ones 111 (R = 6-Me), whereas 2-amino-5-bromopyridine gave a mixture of 7-bromo-4//-pyrido[l,2-n]pyrimidin-4-one (111, R = 7-Br, R = CF2C1) and 2-(chlor-o,difluoromethyl)-6-bromoimidazo[l, 2-n]pyrimidine-3-carboxylate in 44 and 8% yields, respectively (97JCS(P 1)981). Reactions in the presence of K2CO3 in MeCN at 90°C for 60h afforded only imidazo[l,2-n]pyrimidine-3-carboxylates. [Pg.243]

Conjugate addition reactions of acyclic Midiael acceptors possessing betetoatom-SLibstituted stereogenic centers in tlieir )>-positions may provide usefiil levels of diastereoselectivity. A typical example is given witli tlie y-alkoxy-substituted enoate 49 in Sdieme 6.8 [17]. High levels of diastereoselectivity in favor of tlie anii addition product SO were found in tlie course of dlmediylcuprate addition. [Pg.192]

Stereoselective addition of cuprates to ji-alkoxy enoates of type 49 [17] isee Sdiemes 6.8 and 6.9) bas been used in die crrnstruction of polypropionate-type structures. Tlius, a sequence of diastereoselective cuprate addition, etiolate for-ruabon, and diastereoselective oxygenation widi Davis s reagent bas been applied iteratively to provide a Cio segment of Rifaruycin S i60) [ 17c, d]. [Pg.193]

Cblorotriruethylsilane-accelerated divinylcuprate addibon to enal 61, followed by a Wibig oleflnation, provided enoate 62 as a single stereoisomer in excellent yield (Sdieme 6.10) [23]. Hie enoate 62 cnUld be transformed in ftillher steps into olivin i63), die aglygon of olivomycin. [Pg.193]

A drawback of tlie Z enoates is usually lower reactivity, rehected in prolonged reaction times and bigliet reaction temperatures. Tliis may be overcome by switdi-ing to more reactive enone systems. Tlius, addition of tlie functionalized cyano-G dnian cuprate s7stem 67 to Z enone 66 proceeded smootlily at low temperatures, witli excellent acydic steteocontrol at tlie /J-steteocenter [26, 27]. Stereocontrol upon... [Pg.194]

Entry Enoate Proifoct Yield (%l atili. syti... [Pg.203]

Two intramolecular aza-Wittig reactions leading to 1,3-benzoxazepines have been described. In the first,19 ethyl (Z)-3-(2-acyloxyphenyl)-2-azidoprop-2-enoates 1 are treated with triphenyl-phosphane under argon at 20°C for 3-4 hours when 2-substituted ethyl 1,3-benzoxazepine-4-carboxylates 2 are obtained in 85-90% yield. [Pg.305]


See other pages where Enoate is mentioned: [Pg.307]    [Pg.166]    [Pg.99]    [Pg.293]    [Pg.39]    [Pg.94]    [Pg.95]    [Pg.96]    [Pg.96]    [Pg.97]    [Pg.111]    [Pg.136]    [Pg.228]    [Pg.311]    [Pg.311]    [Pg.83]    [Pg.85]    [Pg.86]    [Pg.87]    [Pg.88]    [Pg.104]    [Pg.117]    [Pg.118]    [Pg.124]    [Pg.124]    [Pg.129]    [Pg.173]    [Pg.194]    [Pg.196]    [Pg.198]    [Pg.200]    [Pg.200]    [Pg.201]    [Pg.202]    [Pg.215]    [Pg.586]   
See also in sourсe #XX -- [ Pg.30 ]




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13-Cyclopent-2-enyl-tridec-4-enoat

2 prop-2-enoate

4- hydroxy-7-oxohept-5-enoates

4-oxobut-2-enoate

5- Hydroxyhept-6-enoates

7-oxohept-2-enoates

Cyclopropanation of Enoates with Phenacyl Halides

Dicyano-2-methylenebut-3-enoates

Enoate catalytic mechanism

Enoate catalyzed double bond

Enoate esters

Enoate reductases

Enoate reductases -amino acids

Enoate reductases -and

Enoate reductases catalyzed

Enoate reductases reactions

Enoate reductases reductions

Enoate triol

Enoates

Enoates

Enoates Diels-Alder reactions

Enoates acyclic

Enoates conjugate additions

Enoates cyclic

Enoates epoxidation

Enoates protonation

Enoates reactions with a-selenoalkyl metals

Enoates reduction

Enoates regiochemistry

Enoates, acylation

Enoates, addition reactions

Enoates, arylation

Epoxidation enones/enoates

Epoxidations enoate

Epoxidations enoates

Ethyl -but-2-enoate

Ethyl 4-oxobut-2-enoate

Ethyl 5-hydroxyhept-6-enoate, synthesis

Free Radical Addition to Enoates

Ketones enones/enoates

Methyl 4-bromobut-2-enoate

Methyl PROP-2-ENOATE: 2-PROPENOIC ACID

Methyl dec-4-enoate

Methyl pent-2-enoate

Methyl prop-2-enoate

Methyl undec-10-enoate

Methyl-2-methylpent-3-enoate

Of’2-enoates

Oxazolidinone enoates

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