4-Hydroxypipecolic Acid and Pipecolic Acid in <i>Acacia</i> Species:  Their Determination by High-Performance Liquid Chromatography, Its Application to Leguminous Plants, and Configuration of 4-Hydroxypipecolic Acid

Kunii, Yasuhiko; Otsuka, Masato; Kashino, Setsuo; Takeuchi, Hiroshi; Ohmori, Shinji

doi:10.1021/jf950214d

Cited by 16 publications

(7 citation statements)

References 35 publications

(44 reference statements)

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“…Schenk and Schütte, ; Kristensen et al ., ; Hatanaka and Kaneko, ; Romeo et al ., ; Kite et al ., ). For example, trans ‐4‐hydroxypipecolic acid was detected in Acacia species, and radiolabeling experiments suggest that the compound is derived from the direct hydroxylation of Pip (Fowden, ; Kunii et al ., ). While the biochemical bases of C ‐hydroxylation reactions within the piperidine ring of Pip in plants are not clear yet, fungal 2‐oxoglutarate‐dependent dioxygenases with regio‐ and stereoselective l ‐Pip 4‐hydroxylase activity have been characterized (Hibi et al ., ).…”

Section: Other Aspects Of Pip Metabolismmentioning

confidence: 97%

l‐lysine metabolism to N‐hydroxypipecolic acid: an integral immune‐activating pathway in plants

Hartmann

Zeier

2018

The Plant Journal

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l-lysine catabolic routes in plants include the saccharopine pathway to α-aminoadipate and decarboxylation of lysine to cadaverine. The current review will cover a third l-lysine metabolic pathway having a major role in plant systemic acquired resistance (SAR) to pathogen infection that was recently discovered in Arabidopsis thaliana. In this pathway, the aminotransferase AGD2-like defense response protein (ALD1) α-transaminates l-lysine and generates cyclic dehydropipecolic (DP) intermediates that are subsequently reduced to pipecolic acid (Pip) by the reductase SAR-deficient 4 (SARD4). l-pipecolic acid, which occurs ubiquitously in the plant kingdom, is further N-hydroxylated to the systemic acquired resistance (SAR)-activating metabolite N-hydroxypipecolic acid (NHP) by flavin-dependent monooxygenase1 (FMO1). N-hydroxypipecolic acid induces the expression of a set of major plant immune genes to enhance defense readiness, amplifies resistance responses, acts synergistically with the defense hormone salicylic acid, promotes the hypersensitive cell death response and primes plants for effective immune mobilization in cases of future pathogen challenge. This pathogen-inducible NHP biosynthetic pathway is activated at the transcriptional level and involves feedback amplification. Apart from FMO1, some cytochrome P450 monooxygenases involved in secondary metabolism catalyze N-hydroxylation reactions in plants. In specific taxa, pipecolic acid might also serve as a precursor in the biosynthesis of specialized natural products, leading to C-hydroxylated and otherwise modified piperidine derivatives, including indolizidine alkaloids. Finally, we show that NHP is glycosylated in Arabidopsis to form a hexose-conjugate, and then discuss open questions in Pip/NHP-related research.

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Section: Other Aspects Of Pip Metabolismmentioning

confidence: 97%

l‐lysine metabolism to N‐hydroxypipecolic acid: an integral immune‐activating pathway in plants

Hartmann

Zeier

2018

The Plant Journal

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“…The production of allelochemicals by A. dealbata in the introduced range is well documented (Carballeira and Reigosa, 1999;Lorenzo et al, 2008). Although we do not know the chemical composition of the exudates and leachates of A. dealbata well, the presence of sterols, p-hydroxycinnamic acids, chalcone glycosides, iminoacids and triterpenes has been published (Freire et al, 2005;Freire et al, 2007;Imperato, 1982;Kunii et al, 1996;Pereira et al, 1996), some of them well known as allelochemicals.…”

Section: Stronger Allelopathic Effect On Growthmentioning

confidence: 99%

“…However, there are also some harmful substances (Seigler, 2002), among them complex phenolic compounds (Seigler, 2003). In A. dealbata there can be found iminoacids (Kunii et al, 1996), chalcone glycosides (Imperato, 1982), triterpenes (Pereira et al, 1996), sterols (Freire et al, 2005) and p-Hydroxycinnamic acids (especially caffeic acid esters with long-chain fatty alcohols, Freire et al, 2007), some of which can act as allelochemicals . When A. dealbata was introduced into NW Spain, it brought "novel weapons" (Callaway and Aschehoug, 2000) that interfere with native species (Carballeira and Reigosa, 1999;Lorenzo et al, 2008).…”

Section: Allelopathymentioning

confidence: 99%

The genus Acacia as invader: the characteristic case of Acacia dealbata Link in Europe

2010

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Abstract• We review current knowledge about the biology of the genus Acacia, and Acacia dealbata Link (silver wattle) in particular, as an invader in Europe, focusing on (i) the biology of the genus Acacia; (ii) biological attributes that are important for the invasiveness of the genus and A. dealbata; (iii) possible hypotheses for the invasion success; and (iv) control methods.• Several Australian wattles have been recorded as naturalized in Europe. Acacia has attained pest proportions in certain habitats and protected sites (notably coastal dunes, river courses, natural parks and biosphere reserves).• The spread of Acacia dealbata seems to be assisted by human interference such as soil disturbance and severe fires. The biological attributes favoring invasion by A. dealbata include tolerance of changing soil conditions, the ability to take advantage of environmental disturbance, phenotypic plasticity, vegetative reproduction, fire tolerance and allelopathic potential.• Different hypotheses explaining invasiveness and transition between invasion steps related to biological attributes as the key factor for A. dealbata invasion are discussed. Effects on the biodiversity of native flora are little understood and studies of suppression of autochthonous species are needed. It is desirable that further studies comparing Acacia at field sites in their native and exotic range should be done.• Understanding the biology of invasive wattles in Europe is the first step to an effective control method. Studies comparing plant invaders at field sites in their native and invaded areas seem to be most appropriate in order to be able to attack the most vulnerable stages. Mots-clés :Acacia dealbata / biodiversité / attributs biologiques / genre Acacia / espèces envahissantes Résumé -Le genre Acacia comme envahisseur : caractéristiques du cas Acacia dealbata Link en Europe.• Nous passons en revue les connaissances actuelles sur la biologie du genre Acacia et de Acacia dealbata Link, en particulier comme un envahisseur en Europe, en mettant l'accent sur : (i) la biologie du genre Acacia ; (ii) les attributs biologiques qui sont importants pour le caractère envahissant du genre et d'A. dealbata ; (iii) les hypothèses possibles pour la réussite de l'invasion et (iv) les mé-thodes de contrôle.• Plusieurs acacias australiens ont été enregistrés comme naturalisés en Europe. Acacia a atteint la proportion de nuisible dans certains habitats et sites protégés (notamment des dunes côtières, des cours d'eau, des parcs naturels et des réserves de la biosphère).• La propagation de l'Acacia dealbata semble avoir été aidée par l'intervention humaine, telle que la perturbation des sols et de graves incendies. Les attributs biologiques favorisant l'invasion par A. dealbata incluent la tolérance aux changements des conditions du sol, la capacité à tirer profit des perturbations de l'environnement, la plasticité phénotypique, la reproduction végétative, la tolérance au feu, et le potentiel allélopathique.• Différentes hypothèses expliquant le caractè...

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“…Similarly, urinary OH-PCA was found to have a moderate correlation with fiber and fruit & vegetable intake, and inversely related to total fat. This data indicates that higher excretion of OH-PCA in urine is likely derived from intake of leguminous plants [49] and citrus fruits [50] when following a Prudent diet, but represents an endogenous lysine metabolite [51] also produced by gut microbiota [52]. Indeed, urinary OH-PCA or its ratio to sodium (OH-PCA/Na) discriminated between DIGEST participants from two diet treatment arms ( Figure S10) with good accuracy (AUC ≈ 0.83 to 0.88, p < 3.0 E-4), as well as sensitivity and specificity (≈ 90%).…”

Section: Novel Biomarkers Identified Following a Prudent Dietmentioning

confidence: 77%

Metabolic Trajectories Following Contrasting Prudent and Western Diets from Food Provisions: Robust Biomarkers of Short-Term Changes in Habitual Diet

Wellington

Shanmuganathan

Souza

et al. 2019

Preprint

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A large body of evidence has linked unhealthy eating with an alarming increase in obesity and chronic disease worldwide. However, existing methods of assessing dietary intake rely on food frequency questionnaires or dietary records that are prone to bias and selective reporting. Herein, metabolic phenotyping was performed on 42 healthy participants from the Diet and Gene Intervention (DIGEST) pilot study, a parallel two-arm randomized clinical trial that provided complete diets to all participants. Matching urine and plasma specimens were collected at baseline and following 2 weeks of provision of either a Prudent or Western diet with a weight-maintaining menu plan designed by a dietician. Targeted and nontargeted metabolite profiling was conducted using three complementary analytical platforms, where 80 serum metabolites and 84 creatinine-normalized urinary metabolites were reliably measured (CV < 30%) in the majority of participants (> 75%) after implementing a rigorous data workflow for metabolite authentication with stringent quality control. We classified a panel of metabolites with distinctive trajectories following 2 weeks of food provisions when using complementary univariate and multivariate statistical models. Unknown metabolites associated with contrasting dietary patterns were identified with high resolution MS/MS and/or co-elution after spiking with authentic standards. Overall, 3-methylhistidine and proline betaine concentrations increased consistently when participants were assigned a Prudent diet (q < 0.05) in both plasma and urine samples with a decrease in the Western diet group. Similarly, creatinine-normalized urinary imidazole propionate, hydroxypipecolic acid, dihydroxybenzoic acid, and enterolactone glucuronide, as well as plasma ketoleucine and ketovaline increased with a Prudent diet (p < 0.05) after adjustments for age, sex and BMI. In contrast, plasma myristic acid, linoelaidic acid, linoleic acid, α-linoleic acid, pentadecanoic acid, alanine, proline, carnitine and deoxycarnitine, as well as urinary acesulfame K increased among participants following a Western diet. Most metabolites were also correlated (r > ± 0.30, p < 0.05) to changes in average intake of specific nutrients from self-reported diet records reflecting good adherence to food provisions. This study revealed robust biomarkers sensitive to short-term changes in habitual diet that can be used to reliably monitor healthy eating patterns for new advances in nutritional epidemiology, as well as the design of evidence-based public health policies for chronic disease prevention.

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4-Hydroxypipecolic Acid and Pipecolic Acid in Acacia Species: Their Determination by High-Performance Liquid Chromatography, Its Application to Leguminous Plants, and Configuration of 4-Hydroxypipecolic Acid

Cited by 16 publications

References 35 publications

l‐lysine metabolism to N‐hydroxypipecolic acid: an integral immune‐activating pathway in plants

l‐lysine metabolism to N‐hydroxypipecolic acid: an integral immune‐activating pathway in plants

The genus Acacia as invader: the characteristic case of Acacia dealbata Link in Europe

Metabolic Trajectories Following Contrasting Prudent and Western Diets from Food Provisions: Robust Biomarkers of Short-Term Changes in Habitual Diet

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