Proline amide

Owing to the increased acidity of an NH group of thioamide relative to the parent amide, proline-thioamide 25a behaves as an excellent catalyst. It has been demonstrated that the reaction occurs in a biphasic medium. Najera" and Li independently synthesised thioamides 25b and 25c,d for enantioselective direct aldol reactions. These ligands were found to be better alternatives to L-prolinamides and provided excellent levels of enantio-seiectivity as compared to their parent ligands. 

Sulfonyl-Phe-Thr-Gly-Trp-Met-Asp-Phe amide />-Sulfonamido-Phe-Val-Gly-Trp-Met-Asp-Phe amide Proline B oc-Pro-Gly-Phe-OBzl-Ser-Pro-Phe-N -nitro-Arg-OPic B oc-Pro-Gly-Phe-Ser-Pro-Phe-N°-nitro-Arg-OBzl CHla-Pro-Gly-Phe-Ser-Pro-Phe-Arg Pro-Gly-Phe-Ser-Pro-Phe-N°-nitro- OTCP DMF 90 ... 

M. W. Albeis, C. T. Walsh, and S. L. Schreiber,/. Org. Chem., 55,4984 (1990). Substrate Specificity for the Human Rotamase FKBP A View of FK506 and Rapamycin as Leu-cine-(Twisted Amide)-Proline Mimics. 

In this context, prolinamide 2 [5-8] and its aryl-substituted homologs such as 3-5 have been developed [9-14]. Analogous to these examples, binaphthyldiamine-derived compounds such as 6 and 7 have been introduced for use in aqueous systems and as recoverable catalysts [15-18]. For example, Benaglia and coworkers reported that the prolinamide catalyst 7 with a UpophiUc side chain showed efficient catalytic activity in water [16b]. Chiral spiro diamine-derived catalysts have also been designed, albeit in moderate enantioselectivity [19]. Owing to the increased acidity of an NH group of thioamide relative to a normal amide, proline-thioamide catalysts such as 8 have been shown to be more effective [20-23]. 

Amino-4,6-dimethyl-3-oxo-3//-phenoxazine-l,9-dicarboxylic acid also named actinocin is the chromophor of the red antineoplastic chromopeptide aetinomyein D (formula A). Two cyclopenta-peptide lactone rings (amino acids L-threonine, D-valine, L-proline, sarcosine, and 7V-methyl-L-valine) are attached to the carboxy carbons of actinocin by two amide bonds involving the amino groups of threonine. 

Proline is the only amino acid in Table 27.1 that is a secondary amine, and its presence in a peptide chain introduces an amide nitrogen that has no hydrogen available for hydrogen bonding. This disrupts the network of hydrogen bonds and divides the peptide into two separate regions of a helix. The presence of proline is often associated with a bend in the peptide chain. 

As an alternative, tin enolates are very useful in these additions. Usually they are prepared in situ from the amide using tin(II) trifluoromethanesulfonate and a base. They are subsequently reacted with an enone, catalyzed by a Lewis acid47-48 (see Table 3). With triinethylsilyl trifluoromethanesulfonate as a catalyst, in the presence of proline derived diamines anti-adducts are formed exclusively49 (see Section 1.5.2.4.3.1.). 

In the first step bromocriptine 2 is isomerized to 2a, followed by an attack on proline ring in aminocyclol moiety of the molecule (formation of a new double bound on lO -ll, and bromination). This dibromo-compound 5 is brominated additionally on C-2 -propyl group. Tribromo-compound fi is very lipophilic and practically devoid of pharmacological activity. Hydroxy group and amide groups remain intact after all these reactions. 

As shown in scheme 1, (S)-amide 2 (ref. 4) obtained from ethyl ester of (S)-proline, chiral auxiliary and 2-substituted-2-propenoic acids 1 are bromolactonized with N-bromosuccinimide (NBS)-DMF, followed by hydrolysis with 6N-HC1 to afford (S)-4. The results are summarized in Table 1. 

Phosphinous amides, based on proline and tetrahydroisoquinoline carboxylic acid, bearing a second donor center (50, Ar=Ph R =H, CH3,Tr, Ph R =H, CH3,Tr, Ph and 51, R =H,Tr R =H,Tr) (Scheme 40) have been developed for use in allylic alkylation and amination of substituted propenyl acetates, yielding the corresponding products in 87-98% (5-94% ee) and 29-97% (14-93% ee) respectively [55, 167]. With bidentate ligands of type 38 where R=(S)-PhMeCH, and with the bis(aminophosphanes) 52 (R=Ph) similar allylic alkylations have been also tested [168,169]. 

A simple and rapid method of separating optical isomers of amino acids on a reversed-phase plate, without using impregnated plates or a chiral mobile phase, was described by Nagata et al. [27]. Amino acids were derivatized with /-fluoro-2,4-dinitrophenyl-5-L-alanine amide (FDAA or Marfey s reagent). Each FDAA amino acid can be separated from the others by two-dimensional elution. Separation of L- and D-serine was achieved with 30% of acetonitrile solvent. The enantiomers of threonine, proline, and alanine were separated with 35% of acetonitrile solvent and those of methionine, valine, phenylalanine, and leucine with 40% of acetonitrile solvent. The spots were scraped off the plate after the... 

The authors expressed PKA consisting of 353 amino acids, of which eight are prolines. Resonances of 274 backbone amide peaks were visible in the spectrum, of which 191 were assigned. It was possible to assign resonances for the N- and C-terminal sequences, the majority of the N-lobe, including the glycine-rich loop, and most of the solvent-exposed residues of the C-lobe. This enabled a determination of the structure for the more flexible parts of the structure. However, many correlations were missing for the... 

The random coil amide I VCD pattern is exacdy the same shape, but smaller in amplitude and shifted in frequency from the pattern characteristic of poly-L-proline II (PLP II) which is a left-handed 3ihelix of trans peptides (Kobrinskaya et al., 1988 Dukor and Keiderling, 1991 Dukor et al., 1991 Dukor and Keiderling, 1996 Keiderling et al., 1999b). This... 

Entry to the ugibohlin, phakellin, and isophakellin ABC ring systems was achieved via intramolecular N(l)-C(3) cyclizations of the Weinreb amide 169 of pyrrole-proline 168 or its brominated derivatives to give the bispyrrolopyr-azine 170 (Scheme 12) <2005TL249>. 

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