Peptide Enolates. C‐Alkylation of Glycine Residues in linear tri‐, tetra‐, and pentapeptides via dilithium azadienediolates
Identifieur interne : 002D17 ( Main/Merge ); précédent : 002D16; suivant : 002D18Peptide Enolates. C‐Alkylation of Glycine Residues in linear tri‐, tetra‐, and pentapeptides via dilithium azadienediolates
Auteurs : Hans G. Bossler [Suisse] ; Dieter Seebach [Suisse]Source :
- Helvetica Chimica Acta [ 0018-019X ] ; 1994-06-29.
English descriptors
- KwdEn :
- Acoet, Acta, Alkylation, Alkylations, Amino acids, Angew, Benzyl, Benzyl bromide, Bromide, Bromoacetate, Buli, Bzlbr, Cdc1, Cdci, Chem, Chimica, Chloroformate, Conformation, Derivative, Dropwise, Electrophiles, Enolate, Enolates, Esterification, Etoh, Glycine, Helv, Helvetica, Helvetica chimica acta, Ibid, Isobutyl, Isobutyl chloroformate, Lett, Libr, Ltmp, Meabu, Meleu, Mgso, Mmol, Moiety, Nacl, Obzl, Pentapeptide, Peptide, Quant, Sarcosine, Seebach, Soln, Tetrahedron, Tetrahedron lett, Tripeptide, Workup.
- Teeft :
- Acoet, Acta, Alkylation, Alkylations, Amino acids, Angew, Benzyl, Benzyl bromide, Bromide, Bromoacetate, Buli, Bzlbr, Cdc1, Cdci, Chem, Chimica, Chloroformate, Conformation, Derivative, Dropwise, Electrophiles, Enolate, Enolates, Esterification, Etoh, Glycine, Helv, Helvetica, Helvetica chimica acta, Ibid, Isobutyl, Isobutyl chloroformate, Lett, Libr, Ltmp, Meabu, Meleu, Mgso, Mmol, Moiety, Nacl, Obzl, Pentapeptide, Peptide, Quant, Sarcosine, Seebach, Soln, Tetrahedron, Tetrahedron lett, Tripeptide, Workup.
Abstract
The Boc‐protected tripeptides Boc‐Val‐Gly‐Leu‐OH (1), Boc‐Leu‐Sar‐Leu‐OH (2), Boc‐Leu‐Gly‐MeLeu‐OH (3), and Boc‐Val‐BzlGly‐Leu‐OMe (64), tetrapeptide Boc‐Leu‐Gly‐Pro‐Leu‐OH (9), and pentapeptides Boc‐Val‐Leu‐Gly‐Abu‐Ile‐OH (4), Boc‐Val‐Leu‐Sar‐MeAbu‐Ile‐OH (5), Boc‐Val‐Leu‐Gly‐MeAbu‐Ile‐OH (6), Boc‐Val‐Leu‐BzlGly‐BzlAbu‐Ile‐OH (7), and Boc‐Val‐Leu‐Gly‐BzlAbu‐Ile‐OH (8) are prepared by conventional methods (Schemes 4–7) or by direct benzylation of the corresponding precursors (Scheme 8). Polylithiations in THF give up to Li6 derivatives containing glycine, sarcosine or N‐benzylglycine Li enolate moieties (A–H). The polylithiated systems with a dilithium azadienediolate unit (C, F–H) are best generated by treatment with t‐BuLi. The yields of alkylation of the glycine or sarcosine residues are up to 90%, with diastereoselectivities from nil to 9:1. Normally, the newly formed stereogenic center has (R)‐configuration (i.e. a D‐amino‐acid residue is incorporated in the peptide chain). Electrophiles which can be employed with the highly reactive azadienediolate moiety are: MeI, EtI, i‐PrI, allyl and benzyl bromide, ethyl bromoacetate, CO2, and Me2S2 (Schemes 11–13). No epimerizations of the starting materials (racemization of the amino‐acid residues) are observed under the strongly basic conditions. Selected conformations of the peptide precursors, generated by shock‐freezing or by very slow cooling from room temperature to −75° before lithiation, give rise to different stereoselectivities (Scheme 11). The latter and the yields can also be influenced by tempering the lithiated species before (Scheme 9) or after addition of the electrophiles (Scheme 12). Besides the desired products, starting peptides are recovered in the chromatographic purification and isolation procedures (material balance 80–95%). The results described are yet another demonstration that peptides may be backbone‐modified through Li enolates, and that whole series of analogous peptide derivatives with various side chains may thus be produced from a given precursor.
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DOI: 10.1002/hlca.19940770424
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<record><TEI wicri:istexFullTextTei="biblStruct"><teiHeader><fileDesc><titleStmt><title xml:lang="en">Peptide Enolates. C‐Alkylation of Glycine Residues in linear tri‐, tetra‐, and pentapeptides via dilithium azadienediolates</title><author><name sortKey="Bossler, Hans G" sort="Bossler, Hans G" uniqKey="Bossler H" first="Hans G." last="Bossler">Hans G. Bossler</name></author><author><name sortKey="Seebach, Dieter" sort="Seebach, Dieter" uniqKey="Seebach D" first="Dieter" last="Seebach">Dieter Seebach</name></author></titleStmt><publicationStmt><idno type="wicri:source">ISTEX</idno><idno type="RBID">ISTEX:AEE629B8C71271B54327612E7962EFC1D9170AE9</idno><date when="1994" year="1994">1994</date><idno type="doi">10.1002/hlca.19940770424</idno><idno type="url">https://api.istex.fr/document/AEE629B8C71271B54327612E7962EFC1D9170AE9/fulltext/pdf</idno><idno type="wicri:Area/Istex/Corpus">000D94</idno><idno type="wicri:explorRef" wicri:stream="Istex" wicri:step="Corpus" wicri:corpus="ISTEX">000D94</idno><idno type="wicri:Area/Istex/Curation">000D94</idno><idno type="wicri:Area/Istex/Checkpoint">000F41</idno><idno type="wicri:explorRef" wicri:stream="Istex" wicri:step="Checkpoint">000F41</idno><idno type="wicri:doubleKey">0018-019X:1994:Bossler H:peptide:enolates:c</idno><idno type="wicri:Area/Main/Merge">002D17</idno></publicationStmt><sourceDesc><biblStruct><analytic><title level="a" type="main" xml:lang="en">Peptide Enolates. <hi rend="italic">C</hi>‐Alkylation of Glycine Residues in linear tri‐, tetra‐, and pentapeptides <hi rend="italic">via</hi> dilithium azadienediolates</title><author><name sortKey="Bossler, Hans G" sort="Bossler, Hans G" uniqKey="Bossler H" first="Hans G." last="Bossler">Hans G. Bossler</name><affiliation wicri:level="3"><country>Suisse</country><placeName><settlement type="city">Zurich</settlement><region nuts="3" type="region">Canton de Zurich</region></placeName><wicri:orgArea>Laboratorium für Organische Chemie der Eidgenössischen Technischen Hochschule, ETH‐Zentrum, Universitätstrasse 16</wicri:orgArea></affiliation></author><author><name sortKey="Seebach, Dieter" sort="Seebach, Dieter" uniqKey="Seebach D" first="Dieter" last="Seebach">Dieter Seebach</name><affiliation wicri:level="3"><country>Suisse</country><placeName><settlement type="city">Zurich</settlement><region nuts="3" type="region">Canton de Zurich</region></placeName><wicri:orgArea>Laboratorium für Organische Chemie der Eidgenössischen Technischen Hochschule, ETH‐Zentrum, Universitätstrasse 16</wicri:orgArea></affiliation><affiliation wicri:level="3"><country>Suisse</country><placeName><settlement type="city">Zurich</settlement><region nuts="3" type="region">Canton de Zurich</region></placeName><wicri:orgArea>Correspondence address: Laboratorium für Organische Chemie der Eidgenössischen Technischen Hochschule, ETH‐Zentrum, Universitätstrasse 16</wicri:orgArea></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Helvetica Chimica Acta</title><title level="j" type="alt">HELVETICA CHIMICA ACTA</title><idno type="ISSN">0018-019X</idno><idno type="eISSN">1522-2675</idno><imprint><biblScope unit="vol">77</biblScope><biblScope unit="issue">4</biblScope><biblScope unit="page" from="1124">1124</biblScope><biblScope unit="page" to="1165">1165</biblScope><biblScope unit="page-count">42</biblScope><publisher>WILEY‐VCH Verlag GmbH</publisher><pubPlace>Weinheim</pubPlace><date type="published" when="1994-06-29">1994-06-29</date></imprint><idno type="ISSN">0018-019X</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0018-019X</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Acoet</term><term>Acta</term><term>Alkylation</term><term>Alkylations</term><term>Amino acids</term><term>Angew</term><term>Benzyl</term><term>Benzyl bromide</term><term>Bromide</term><term>Bromoacetate</term><term>Buli</term><term>Bzlbr</term><term>Cdc1</term><term>Cdci</term><term>Chem</term><term>Chimica</term><term>Chloroformate</term><term>Conformation</term><term>Derivative</term><term>Dropwise</term><term>Electrophiles</term><term>Enolate</term><term>Enolates</term><term>Esterification</term><term>Etoh</term><term>Glycine</term><term>Helv</term><term>Helvetica</term><term>Helvetica chimica acta</term><term>Ibid</term><term>Isobutyl</term><term>Isobutyl chloroformate</term><term>Lett</term><term>Libr</term><term>Ltmp</term><term>Meabu</term><term>Meleu</term><term>Mgso</term><term>Mmol</term><term>Moiety</term><term>Nacl</term><term>Obzl</term><term>Pentapeptide</term><term>Peptide</term><term>Quant</term><term>Sarcosine</term><term>Seebach</term><term>Soln</term><term>Tetrahedron</term><term>Tetrahedron lett</term><term>Tripeptide</term><term>Workup</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Acoet</term><term>Acta</term><term>Alkylation</term><term>Alkylations</term><term>Amino acids</term><term>Angew</term><term>Benzyl</term><term>Benzyl bromide</term><term>Bromide</term><term>Bromoacetate</term><term>Buli</term><term>Bzlbr</term><term>Cdc1</term><term>Cdci</term><term>Chem</term><term>Chimica</term><term>Chloroformate</term><term>Conformation</term><term>Derivative</term><term>Dropwise</term><term>Electrophiles</term><term>Enolate</term><term>Enolates</term><term>Esterification</term><term>Etoh</term><term>Glycine</term><term>Helv</term><term>Helvetica</term><term>Helvetica chimica acta</term><term>Ibid</term><term>Isobutyl</term><term>Isobutyl chloroformate</term><term>Lett</term><term>Libr</term><term>Ltmp</term><term>Meabu</term><term>Meleu</term><term>Mgso</term><term>Mmol</term><term>Moiety</term><term>Nacl</term><term>Obzl</term><term>Pentapeptide</term><term>Peptide</term><term>Quant</term><term>Sarcosine</term><term>Seebach</term><term>Soln</term><term>Tetrahedron</term><term>Tetrahedron lett</term><term>Tripeptide</term><term>Workup</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract">The Boc‐protected tripeptides Boc‐Val‐Gly‐Leu‐OH (1), Boc‐Leu‐Sar‐Leu‐OH (2), Boc‐Leu‐Gly‐MeLeu‐OH (3), and Boc‐Val‐BzlGly‐Leu‐OMe (64), tetrapeptide Boc‐Leu‐Gly‐Pro‐Leu‐OH (9), and pentapeptides Boc‐Val‐Leu‐Gly‐Abu‐Ile‐OH (4), Boc‐Val‐Leu‐Sar‐MeAbu‐Ile‐OH (5), Boc‐Val‐Leu‐Gly‐MeAbu‐Ile‐OH (6), Boc‐Val‐Leu‐BzlGly‐BzlAbu‐Ile‐OH (7), and Boc‐Val‐Leu‐Gly‐BzlAbu‐Ile‐OH (8) are prepared by conventional methods (Schemes 4–7) or by direct benzylation of the corresponding precursors (Scheme 8). Polylithiations in THF give up to Li6 derivatives containing glycine, sarcosine or N‐benzylglycine Li enolate moieties (A–H). The polylithiated systems with a dilithium azadienediolate unit (C, F–H) are best generated by treatment with t‐BuLi. The yields of alkylation of the glycine or sarcosine residues are up to 90%, with diastereoselectivities from nil to 9:1. Normally, the newly formed stereogenic center has (R)‐configuration (i.e. a D‐amino‐acid residue is incorporated in the peptide chain). Electrophiles which can be employed with the highly reactive azadienediolate moiety are: MeI, EtI, i‐PrI, allyl and benzyl bromide, ethyl bromoacetate, CO2, and Me2S2 (Schemes 11–13). No epimerizations of the starting materials (racemization of the amino‐acid residues) are observed under the strongly basic conditions. Selected conformations of the peptide precursors, generated by shock‐freezing or by very slow cooling from room temperature to −75° before lithiation, give rise to different stereoselectivities (Scheme 11). The latter and the yields can also be influenced by tempering the lithiated species before (Scheme 9) or after addition of the electrophiles (Scheme 12). Besides the desired products, starting peptides are recovered in the chromatographic purification and isolation procedures (material balance 80–95%). The results described are yet another demonstration that peptides may be backbone‐modified through Li enolates, and that whole series of analogous peptide derivatives with various side chains may thus be produced from a given precursor.</div></front></TEI></record>Pour manipuler ce document sous Unix (Dilib)
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