{"id":2840,"date":"2026-04-23T12:34:31","date_gmt":"2026-04-23T16:34:31","guid":{"rendered":"https:\/\/www.lifetein.com\/blog\/?p=2840"},"modified":"2026-04-23T12:34:32","modified_gmt":"2026-04-23T16:34:32","slug":"unusual-amino-acids-pipecolic-acid-pip","status":"publish","type":"post","link":"https:\/\/www.lifetein.com\/blog\/unusual-amino-acids-pipecolic-acid-pip\/","title":{"rendered":"Unusual Amino Acids: Pipecolic Acid (Pip)"},"content":{"rendered":"\n<figure class=\"wp-block-image size-full\"><img decoding=\"async\" width=\"742\" height=\"598\" src=\"https:\/\/www.lifetein.com\/blog\/wp-content\/uploads\/2026\/04\/Pipecolic-Acid-1.webp\" alt=\"Pipecolic Acid\" class=\"wp-image-2868\" srcset=\"https:\/\/www.lifetein.com\/blog\/wp-content\/uploads\/2026\/04\/Pipecolic-Acid-1.webp 742w, https:\/\/www.lifetein.com\/blog\/wp-content\/uploads\/2026\/04\/Pipecolic-Acid-1-300x242.webp 300w, https:\/\/www.lifetein.com\/blog\/wp-content\/uploads\/2026\/04\/Pipecolic-Acid-1-372x300.webp 372w\" sizes=\"(max-width: 742px) 100vw, 742px\" \/><\/figure>\n\n\n\n<p class=\"wp-block-paragraph\"><strong>Pipecolic acid (Pip)<\/strong>\u00a0is a fascinating\u00a0<strong>non-proteinogenic cyclic amino acid<\/strong>\u00a0that serves as the six-membered ring homolog of the more commonly known proline. Structurally defined as piperidine-2-carboxylic acid, this unusual amino acid is derived from the catabolism of L-lysine and is widely distributed across microorganisms, plants, and animals. Unlike the 20 standard proteinogenic amino acids, Pip is not directly encoded by the genetic code; however, it plays crucial roles as a metabolic intermediate, a signaling molecule, and a versatile building block in peptide synthesis. Its unique six-membered ring structure imparts\u00a0<strong>distinct conformational properties<\/strong>\u00a0that make it an invaluable tool for peptide chemists seeking to control secondary structure, enhance proteolytic stability, and modulate biological activity.<\/p>\n\n\n\n<hr class=\"wp-block-separator has-alpha-channel-opacity\"\/>\n\n\n<h4 class=\"wp-block-heading\" id=\"key-takeaways\">Key Takeaways<\/h4>\n\n\n<ul class=\"wp-block-list\">\n<li>Pipecolic acid is a\u00a0<strong>non-proteinogenic cyclic amino acid<\/strong>\u00a0and the six-membered ring homolog of proline, with the molecular formula C\u2086H\u2081\u2081NO\u2082.<\/li>\n\n\n\n<li>Its six-membered piperidine ring introduces\u00a0<strong>greater conformational rigidity<\/strong>\u00a0compared to proline, significantly influencing peptide backbone geometry and cis\/trans amide isomer ratios.<\/li>\n\n\n\n<li>Pip is a\u00a0<strong>key regulator of systemic acquired resistance (SAR)<\/strong>\u00a0in plants, acting as a critical signaling molecule that potentiates defense responses against pathogens.<\/li>\n\n\n\n<li>In microbial systems, Pip serves as a\u00a0<strong>precursor to pharmaceutically important secondary metabolites<\/strong>, including the immunosuppressant rapamycin and the antitumor agent swainsonine.<\/li>\n\n\n\n<li>The incorporation of Pip into peptides during solid-phase synthesis requires\u00a0<strong>specialized protected derivatives<\/strong>\u00a0and optimized coupling conditions due to the steric hindrance of the secondary amine.<\/li>\n<\/ul>\n\n\n\n<hr class=\"wp-block-separator has-alpha-channel-opacity\"\/>\n\n\n<h2 class=\"wp-block-heading\" id=\"chemical-fundamentals-of-pipecolic-acid\">Chemical Fundamentals of Pipecolic Acid<\/h2>\n\n<h4 class=\"wp-block-heading\" id=\"structural-characteristics-and-stereochemistry\">Structural Characteristics and Stereochemistry<\/h4>\n\n\n<p class=\"wp-block-paragraph\">Pipecolic acid is a\u00a0<strong>chiral cyclic amino acid<\/strong>\u00a0featuring a six-membered piperidine ring with a carboxylic acid substituent at the 2-position. Its molecular formula is C\u2086H\u2081\u2081NO\u2082, with a molecular weight of 129.16 g\/mol. The compound exists as a colorless solid and, like many \u03b1-amino acids, is chiral; the\u00a0<strong>S-stereoisomer (L-pipecolic acid)<\/strong>\u00a0is the more common naturally occurring form. The L-enantiomer has been shown to act as a partial agonist at postsynaptic GABA receptors, whereas its D-counterpart is less abundant in nature and exhibits distinct biological activities.<\/p>\n\n\n<h4 class=\"wp-block-heading\" id=\"biosynthesis-from-lysine-to-pipecolic-acid\">Biosynthesis: From Lysine to Pipecolic Acid<\/h4>\n\n\n<p class=\"wp-block-paragraph\">In biological systems, pipecolic acid is primarily derived from\u00a0<strong>L-lysine through cyclodeamination reactions<\/strong>. Two principal biosynthetic routes have been established, distinguishable by which amino group of lysine is retained in the final product. One pathway proceeds via the loss of the \u03b1-amino group with incorporation of the \u03b5-nitrogen, yielding \u0394\u00b9-piperideine-2-carboxylic acid (P2C) as a key intermediate. The alternative route proceeds through the loss of the \u03b5-amino group, generating \u0394\u00b9-piperideine-6-carboxylic acid (P6C). Both pathways are catalyzed by enzymes such as\u00a0<strong>lysine cyclodeaminases<\/strong>, including RapL from the rapamycin biosynthetic gene cluster, which converts L-lysine directly to L-pipecolic acid through a redox-catalyzed cyclodeamination reaction. Furthermore, 3-hydroxy-L-pipecolic acid has been identified as a component of the antimicrobial tetrapeptide GE81112, demonstrating the occurrence of hydroxylated derivatives in natural products.<\/p>\n\n\n\n<p class=\"wp-block-paragraph\"><a href=\"https:\/\/www.lifetein.com\/peptide_synthesis_services.html?_gl=1*15bjc7l*_gcl_aw*R0NMLjE3NTIyNTk1NTEuQ2p3S0NBanc3TUxEQmhBdUVpd0FJZVhHSVpVMXFSOXh4MzJEX3d6U2NYYUx2aWhzLWYzMU1FZ3VOSDRhcW41NUJtZmM1RnN3MkdVR0tSb0NCS01RQXZEX0J3RQ..*_gcl_au*NzY2NTIxODguMTc1MTUyMjM4MQ..&amp;_ga=2.129734156.1835841867.1753856001-90406248.1735925224\" target=\"_blank\" rel=\"noreferrer noopener\">Find out more about peptide synthesis here<\/a>.<\/p>\n\n\n<h2 class=\"wp-block-heading\" id=\"conformational-and-peptide-applications\">Conformational and Peptide Applications<\/h2>\n\n<h4 class=\"wp-block-heading\" id=\"proline-homolog-with-unique-properties\">Proline Homolog with Unique Properties<\/h4>\n\n\n<p class=\"wp-block-paragraph\">Pipecolic acid is frequently described as the\u00a0<strong>six-membered ring homolog of proline<\/strong>, and indeed the two amino acids share similar secondary structure-inducing properties. However, the expanded ring size of Pip introduces\u00a0<strong>greater conformational constraints<\/strong>\u00a0that significantly influence peptide backbone geometry. Computational and spectroscopic studies have revealed that substituting a pipecolic residue for a proline leads to a\u00a0<strong>substantial increase in the population of the cis amide conformer<\/strong>, a reduction in the van\u2019t Hoff enthalpy for isomerism, and an acceleration of the rates of cis\u2013trans isomerization. This conformational heterogeneity is of particular interest in the design of turn-inducing peptide motifs and conformationally locked bioactive sequences.<\/p>\n\n\n<h4 class=\"wp-block-heading\" id=\"utility-in-peptide-synthesis-and-drug-design\">Utility in Peptide Synthesis and Drug Design<\/h4>\n\n\n<p class=\"wp-block-paragraph\">The incorporation of pipecolic acid into synthetic peptides has become a powerful strategy for\u00a0<strong>controlling secondary structure<\/strong>\u00a0and\u00a0<strong>enhancing metabolic stability<\/strong>. As a rigid, non-proteinogenic building block, Pip can influence peptide conformation, binding affinity to receptors, pharmacokinetics, and resistance to proteolytic degradation. The six-membered ring imposes conformational constraints that can stabilize \u03b2-turn and helical structures, making Pip an attractive scaffold for the development of peptidomimetics and enzyme inhibitors. A concise synthetic route to 3-substituted pipecolic acids has been developed, providing chimeric amino acid building blocks that combine cyclic backbone constraints with side-chain functionality for molecular recognition in biological systems. Moreover, late-stage derivatization of pipecolic acid derivatives using cross-coupling reactions has enabled the synthesis of enantiomerically pure C6-aryl-modified Pip analogs.<\/p>\n\n\n<h2 class=\"wp-block-heading\" id=\"biological-significance-and-natural-occurrence\">Biological Significance and Natural Occurrence<\/h2>\n\n<h4 class=\"wp-block-heading\" id=\"a-critical-regulator-of-plant-immunity\">A Critical Regulator of Plant Immunity<\/h4>\n\n\n<p class=\"wp-block-paragraph\">One of the most extensively studied roles of pipecolic acid is its function as a\u00a0central regulator of systemic acquired resistance (SAR)\u00a0in plants. Following pathogen recognition, Pip accumulates in plant tissues and potentiates the synthesis of defense-related compounds, including salicylic acid, camalexin, and reactive oxygen species (ROS). Foliar application of Pip has been shown to enhance tomato plant tolerance against the bacterial wilt pathogen\u00a0<em>Ralstonia solanacearum<\/em>\u00a0by modulating antioxidant enzyme activities (SOD, CAT, GPx) and reducing ROS accumulation. Furthermore, the hydroxylated derivative\u00a0<strong>N-hydroxy pipecolic acid (NHP)<\/strong>\u00a0plays an important role in plant immunity, with recent studies elucidating the transcriptional regulation of the NHP biosynthesis pathway. These findings highlight the potential of Pip as a natural agent for sustainable crop protection.<\/p>\n\n\n<h4 class=\"wp-block-heading\" id=\"occurrence-in-microorganisms-and-natural-products\">Occurrence in Microorganisms and Natural Products<\/h4>\n\n\n<p class=\"wp-block-paragraph\">Pipecolic acid serves as an\u00a0<strong>important precursor for numerous microbial secondary metabolites<\/strong>\u00a0with pharmaceutical applications. The pipecolic acid-derived moiety is often crucial for the biological activity of compounds such as the immunosuppressant rapamycin, the antitumor agent swainsonine, the peptide antibiotic virginiamycin, and the anthelmintic agent marcfortine. Additionally, the edible mushroom\u00a0<em>Sarcodon aspratus<\/em>\u00a0contains L-pipecolic acid, which exhibits\u00a0<strong>competitive inhibitory activity against angiotensin I-converting enzyme (ACE)<\/strong>, with a potency that is stereospecifically dependent on the configuration of the carboxyl group. The L-enantiomer was active, whereas the D-isomer showed no significant inhibition, underscoring the importance of chirality in biological recognition.<\/p>\n\n\n\n<figure class=\"wp-block-image size-full\"><img decoding=\"async\" width=\"685\" height=\"286\" src=\"https:\/\/www.lifetein.com\/blog\/wp-content\/uploads\/2026\/04\/Pipecolic-Acid-2.webp\" alt=\"Pipecolic Acid\" class=\"wp-image-2871\" srcset=\"https:\/\/www.lifetein.com\/blog\/wp-content\/uploads\/2026\/04\/Pipecolic-Acid-2.webp 685w, https:\/\/www.lifetein.com\/blog\/wp-content\/uploads\/2026\/04\/Pipecolic-Acid-2-300x125.webp 300w, https:\/\/www.lifetein.com\/blog\/wp-content\/uploads\/2026\/04\/Pipecolic-Acid-2-500x209.webp 500w\" sizes=\"(max-width: 685px) 100vw, 685px\" \/><figcaption class=\"wp-element-caption\">Proline vs Pipecolic Acid<\/figcaption><\/figure>\n\n\n<h2 class=\"wp-block-heading\" id=\"synthesis-and-handling-considerations-of-pipecolic-acid\">Synthesis and Handling Considerations of Pipecolic Acid<\/h2>\n\n<h4 class=\"wp-block-heading\" id=\"solidphase-peptide-synthesis-with-pip\">Solid-Phase Peptide Synthesis with Pip<\/h4>\n\n\n<p class=\"wp-block-paragraph\">The incorporation of pipecolic acid into synthetic peptides during solid-phase peptide synthesis (SPPS) requires\u00a0<strong>specialized protected derivatives<\/strong>, typically Fmoc-Pip-OH or Boc-Pip-OH, due to the secondary amine nature of the piperidine ring. The steric hindrance of the six-membered ring can reduce coupling efficiency compared to standard amino acids, necessitating the use of powerful coupling reagents such as HATU or PyBOP and extended reaction times. Nonetheless, robust protocols have been developed for the synthesis of Pip-containing peptides, enabling access to conformationally constrained analogs for structure-activity studies.<\/p>\n\n\n<h4 class=\"wp-block-heading\" id=\"availability-from-commercial-sources\">Availability from Commercial Sources<\/h4>\n\n\n<p class=\"wp-block-paragraph\">For researchers seeking to incorporate pipecolic acid into custom peptides, specialized providers such as\u00a0<strong>LifeTein<\/strong>\u00a0offer expertise in the synthesis of peptides containing Pip and other unusual amino acids. Their services include the incorporation of Fmoc- or Boc-protected pipecolic acid derivatives, rigorous quality control via HPLC and mass spectrometry, and optimization of coupling conditions to ensure high yield and purity. This enables the reliable production of Pip-containing peptides for conformational studies, enzyme inhibition assays, and drug discovery programs.<\/p>\n\n\n\n<p class=\"wp-block-paragraph\"><a href=\"https:\/\/www.lifetein.com\/Rush-Peptide-Synthesis-Service.html?_gl=1*15bjc7l*_gcl_aw*R0NMLjE3NTIyNTk1NTEuQ2p3S0NBanc3TUxEQmhBdUVpd0FJZVhHSVpVMXFSOXh4MzJEX3d6U2NYYUx2aWhzLWYzMU1FZ3VOSDRhcW41NUJtZmM1RnN3MkdVR0tSb0NCS01RQXZEX0J3RQ..*_gcl_au*NzY2NTIxODguMTc1MTUyMjM4MQ..&amp;_ga=2.129734156.1835841867.1753856001-90406248.1735925224\" target=\"_blank\" rel=\"noreferrer noopener\">Find out about high-speed RUSH synthesis.<\/a><\/p>\n\n\n\n<hr class=\"wp-block-separator has-alpha-channel-opacity\"\/>\n\n\n<h2 class=\"wp-block-heading\" id=\"frequently-asked-questions-faq\">Frequently Asked Questions (FAQ)<\/h2>\n\n<h4 class=\"wp-block-heading\" id=\"what-is-the-difference-between-proline-and-pipecolic-acid\">What is the difference between proline and pipecolic acid?<\/h4>\n\n\n<p class=\"wp-block-paragraph\"><strong>Proline<\/strong>\u00a0contains a five-membered pyrrolidine ring, whereas\u00a0<strong>pipecolic acid<\/strong>\u00a0contains a six-membered piperidine ring. This expanded ring size introduces greater conformational rigidity and significantly influences the cis\u2013trans equilibrium of the adjacent amide bond in peptides.<\/p>\n\n\n<h4 class=\"wp-block-heading\" id=\"is-pipecolic-acid-found-in-humans\">Is pipecolic acid found in humans?<\/h4>\n\n\n<p class=\"wp-block-paragraph\">Yes, pipecolic acid is a metabolite of lysine found in human physiological fluids such as urine, plasma, and cerebrospinal fluid. It has been suggested to act as a partial agonist at postsynaptic GABA receptors, though its precise physiological role in mammals remains under investigation.<\/p>\n\n\n<h4 class=\"wp-block-heading\" id=\"why-is-pipecolic-acid-important-in-plant-immunity\">Why is pipecolic acid important in plant immunity?<\/h4>\n\n\n<p class=\"wp-block-paragraph\">Pipecolic acid is a\u00a0<strong>central regulator of systemic acquired resistance (SAR)<\/strong>\u00a0in plants. It accumulates in response to pathogen infection and potentiates the synthesis of defense compounds, including salicylic acid, thereby enhancing the plant&#8217;s ability to resist subsequent infections.<\/p>\n\n\n<h4 class=\"wp-block-heading\" id=\"can-pipecolic-acid-be-incorporated-into-synthetic-peptides\">Can pipecolic acid be incorporated into synthetic peptides?<\/h4>\n\n\n<p class=\"wp-block-paragraph\">Yes, pipecolic acid can be incorporated into peptides during solid-phase peptide synthesis (SPPS) using\u00a0<strong>Fmoc- or Boc-protected derivatives<\/strong>. Specialized coupling conditions are often required due to the steric hindrance of the secondary amine.<\/p>\n\n\n\n<hr class=\"wp-block-separator has-alpha-channel-opacity\"\/>\n\n\n\n<p class=\"wp-block-paragraph\"><\/p>\n\n\n\n<p class=\"wp-block-paragraph\">Al-Rooqi, M. M., Ullah Mughal, E., Raja, Q. A., Obaid, R. J., Sadiq, A., Naeem, N., Qurban, J., Asghar, B. H., Moussa, Z., &amp; Ahmed, S. A. (2022). Recent advancements on the synthesis and biological significance of pipecolic acid and its derivatives. Journal of Molecular Structure, 1268, 133719. https:\/\/doi.org\/10.1016\/j.molstruc.2022.133719<br \/><br \/>Gebel, E., G\u00f6cke, C., Gruner, C., &amp; Sewald, N. (2025). A versatile route towards 6-arylpipecolic acids. Beilstein Journal of Organic Chemistry, 21, 1104\u20131115. https:\/\/doi.org\/10.3762\/bjoc.21.88<\/p>\n\n\n\n<p class=\"wp-block-paragraph\">Kiyoto, M., Saito, S., Hattori, K., Cho, N.-S., Hara, T., Yagi, Y., &amp; Aoyama, M. (2008). Inhibitory effects of l-pipecolic acid from the edible mushroom, Sarcodon aspratus, on angiotensin I-converting enzyme. Journal of Wood Science, 54(2), 179\u2013181. https:\/\/doi.org\/10.1007\/s10086-007-0923-7<\/p>\n\n\n\n<p class=\"wp-block-paragraph\">He, M. (2006). Pipecolic acid in microbes: biosynthetic routes and enzymes. Journal of Industrial Microbiology &amp;amp; Biotechnology, 33(6), 401\u2013407. https:\/\/doi.org\/10.1007\/s10295-006-0078-3<br \/><br \/>Sabharwal, U., Rai, P. K., Choure, K., Subramanian, R. B., Joo, J. C., &amp; Pandey, A. (2025). Investigating the Effect of Pipecolic Acid on Specialized Metabolites Involved in Tomato Plant Defense Mechanisms Against Ralstonia solanacearum Wilt Pathogens. Analytica, 6(1), 2. https:\/\/doi.org\/10.3390\/analytica6010002<br \/><br \/>Makara, G. M., &amp; Marshall, G. R. (1997). A facile synthesis of 3-substituted pipecolic acids, chimeric amino acids. Tetrahedron Letters, 38(29), 5069\u20135072. https:\/\/doi.org\/10.1016\/s0040-4039(97)01128-3<\/p>\n","protected":false},"excerpt":{"rendered":"<p>Pipecolic acid (Pip)\u00a0is a fascinating\u00a0non-proteinogenic cyclic amino acid\u00a0that serves as the six-membered ring homolog of the more commonly known proline. Structurally defined as piperidine-2-carboxylic acid, this unusual amino acid is derived from the catabolism of L-lysine and is widely distributed &hellip; <a href=\"https:\/\/www.lifetein.com\/blog\/unusual-amino-acids-pipecolic-acid-pip\/\">Continue reading <span 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