Piperidines heterocycles

Another route to the formation of piperidine heterocycles is cyclization via reductive animation utilizing various hydride sources. The scheme below depicts a bis reductive animation, using sodium triacetoxyborohydride as the hydride source, to generate exo-178 and endo-179 azabicyclo[3.2.1]octane amino acids in moderate yields <06JOC8467>. 

The remaining section highlights various other methods of generating piperidine cores. The scheme below depicts a simple route to piperidines heterocycles, such as 196, via an intramolecular Horner-Emmons cyclization of phosphonate 197 <06JA12743>. 

Alkylation of pyrrohdine and piperidine heterocycles was investigated extensively by Gawley and coworkers. The initial evaluation of 2-lithio-A-methylpiperidine and 2-lithio-A-methylpyrrolidine as nucleophiles was conducted on racemic material, but... 

The shapes of heterocyclic rings are very much like those of their all carbon analogs Thus six membered heterocycles such as piperidine exist m a chair conforma tion analogous to cyclohexane... 

Nonaromatic heterocyclic compounds piperidine for example are similar m basic ity to alkylamines When nitrogen is part of an aromatic ring however its basicity decreases markedly Pyridine for example resembles arylammes m being almost 1 mil lion times less basic than piperidine... 

Some of the partially and fully reduced heterocyclic six-membered rings are sufficiently important to have trivial names with which the reader should be familiar. Thus hexahy-dropyridine (38) is known as piperidine, and tetrahydro-l,4-oxazine (39) is morpholine. Tetrahydropyridines are also sometimes referred to as piperideines, with the position of the double bond denoted by a A, but this system is obsolescent (at the least). 

Most heterocyclic anions may be considered to be derived by loss of a proton from a parent compound, which is therefore the conjugate acid. Such anions have at least one unshared pair of electrons at the anionic site. They are named by appending the suffix -ide , with elision of a terminal e (lUPAC recommendation RC-83.1.1), as in (190)-(193). The site may be specified by a locant placed immediately before the suffix, and so chosen as to be as low as possible consistent with the numbering of the skeleton of the parent compound. The locant may be omitted in order to designate an equilibrating mixture of positionally isomeric anions, which is what one usually obtains in practice. The anion of piperidine is often informally referred to as piperidide . 

Substituent effects (electronegativity, configuration) influence these coupling constants in four-, five- and seven-membered ring systems, sometimes reversing the cis-tmns relationship so that other NMR methods of structure elucidation, e.g. NOE difference spectra (see Section 2.3.5), are needed to provide conclusive results. However, the coupling constants of vicinal protons in cyclohexane and its heterocyclic analogues (pyranoses, piperidines) and also in alkenes (Table 2.10) are particularly informative. 

Heterocyclic enamines A -pyrroline and A -piperideine are the precursors of compounds containing the pyrrolidine or piperidine rings in the molecule. Such compounds and their N-methylated analogs are believed to originate from arginine and lysine (291) by metabolic conversion. Under cellular conditions the proper reaction with an active methylene compound proceeds via an aldehyde ammonia, which is in equilibrium with other possible tautomeric forms. It is necessary to admit the involvement of the corresponding a-ketoacid (12,292) instead of an enamine. The a-ketoacid constitutes an intermediate state in the degradation of an amino acid to an aldehyde. a-Ketoacids or suitably substituted aromatic compounds may function as components in active methylene reactions (Scheme 17). 

Reaction of 2-oxo-2,3-dihydropyrido[l,2,3- /e]-l,4-benzoxazinium chloride (253) with 1 and 2 mol of the appropriate heterocyclic quaternary salt 254 in the presence of a few drops of piperidine gave mono and bis condensation products 255 and 256, respectively (98MI45). Similar reactions of 2-arylpyrido[l,2,3- /e]-l,4-benzoxazinium bromides and 254 [R = R =-(CH=CH)2-] yielded condensation products 257 (X = 0). 

As noted earlier (see Chapter 10), 4-acyl piperidines separated from benzimidazole by a three carbon chain often show antipsychotic activity. The heterocycle can apparently be replaced by a pyridopyrimidine ring. Thus alkylation of piperidine 41 with halide 42 affords pirenperone (43). ... 

Problem 24.15 What product would you expect from Hofmann elimination of a heterocyclic amine such as piperidine Write all the steps,... 

Blechert s synthesis of the piperidine alkaloid (-)-halosaline (387) by Ru-catalyzed RRM is outlined in Scheme 76 [160]. In the presence of 5 mol% of catalyst A, the ring rearrangement of metathesis precursor 385 proceeded cleanly with formation of both heterocyclic rings in 386. In situ deprotection of the cyclic silyl ether in 386, followed by selective reduction and removal of the to-syl group led to 387. 

Data are given in Table IV for heterocyclic compounds. For piperidine there is no difference between E and E, showing that the bond energies used are applicable to saturated heterocyclic molecules. Pyridine and quinoline differ from benzene and naphthalene only by the presence of one N in place of CH and, as expected, the values 1.87 v.e. and 3.01 v.e., respectively, of the resonance energy are equal to within 10 percent to the values for the corresponding hydrocarbons. 

Fewer procedures have been explored recently for the synthesis of simple six-membered heterocycles by microwave-assisted MCRs. Libraries of 3,5,6-trisubstituted 2-pyridones have been prepared by the rapid solution phase three-component condensation of CH-acidic carbonyl compounds 44, NJ -dimethylformamide dimethyl acetal 45 and methylene active nitriles 47 imder microwave irradiation [77]. In this one-pot, two-step process for the synthesis of simple pyridones, initial condensation between 44 and 45 under solvent-free conditions was facilitated in 5 -10 min at either ambient temperature or 100 ° C by microwave irradiation, depending upon the CH-acidic carbonyl compound 44 used, to give enamine intermediate 46 (Scheme 19). Addition of the nitrile 47 and catalytic piperidine, and irradiation at 100 °C for 5 min, gave a library of 2-pyridones 48 in reasonable overall yield and high individual purities. 

The ZwKKER reaction involving Co salts is frequently used for the detection of barbituric acid derivatives [31-35], but some purine, pyridine and piperidine derivatives and heterocyclic sulfonamides also yield colored derivatives. The Zwkker reaction is particularly sensitive when it is possible to form a tetrahedral complex [Co(Barb)2 Xj] (X = donor ligand, e.g. amine) [4]. 

Absorption maxima for a wide range of heterocyclic systems are shown in Figure 1.5.2 When the indolyl residue 8a is replaced by other heterocyclic residue, a somewhat small shift in the Xmax occurs. Replacement with a benzothiazoline residue, 8c, results in a bathochromic shift. Comparison between saturated heterocycles 8d-8f and the corresponding benzoderiv-atives 8a-8c shows that the conjugation produced by the benzene nuclei causes a bathochromic shift (ca. 20-50 nm). Replacement of saturated five-membered heterocycles by saturated six-membered heterocycles results in a hypsochromic shift. In the case of the piperidine series (8g) a significant hypsochromic shift occurs, due to steric hindrance in the colored form. 

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