Identification of Genes Encoding Enzymes Catalyzing the Early Steps of Carrot Polyacetylene Biosynthesis

Busta, Lucas; Yim, Won Cheol; LaBrant, Evan; Wang, Peng; Grimes, L A; Malyszka, Kiah; Cushman, John C.; Santos, Procópio Miguel dos; Kosma, Dylan K.; Cahoon, Edgar B.

doi:10.1104/pp.18.01195

Cited by 32 publications

(42 citation statements)

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“…1). Early intermediates of this pathway have been identified by radiochemical studies (Barley et al, 1988;Knispel et al, 2013), and the pathway has been examined in diverse campanulid lineages (Lee et al, 1998;Cahoon et al, 2003;Carlsson et al, 2004;Nam and Kappock, 2007;Busta et al, 2018). Linoleic acid is converted to crepenynic acid by installing the first acetylenic bond in the D 12 position (the 12 th carbon relative to the fatty acid head group; this notation is used consistently throughout).…”

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confidence: 99%

“…The enzyme (D 12 -acetylenase) catalyzing the first committed step in the crepenynate pathway was characterized in the Asteraceae plant Crepis alpina and was found to be similar to Fatty Acid Desaturase 2 (FAD2; Lee et al, 1998). Additional D 12 -acetylenases have subsequently been isolated and characterized from other PA-producing plants in campanulids, such as parsley (Petroselinum crispum), English ivy (Hedera helix), and carrot (Daucus carota; Cahoon et al, 2003;Busta et al, 2018). All these enzymes were found to be encoded by FAD2 family members, which were traditionally known as D 12 -desaturases (Higashi and Murata, 1993;Okuley et al, 1994b), indicating that these acetylenases are FAD2s with diverged function.…”

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FAD2 Gene Radiation and Positive Selection Contributed to Polyacetylene Metabolism Evolution in Campanulids

et al. 2019

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Polyacetylenes (PAs) are bioactive, specialized plant defense compounds produced by some species in the eudicot clade campanulids. Early steps of PA biosynthesis are catalyzed by Fatty Acid Desaturase 2 (FAD2). Canonical FAD2s catalyze desaturation, but divergent forms can catalyze hydroxylation, conjugation, acetylenation, and epoxygenation. These alternate reactions give rise to valuable unusual fatty acids, including the precursors to PAs. The extreme functional diversity of FAD2 enzymes and the origin of PA biosynthesis are poorly understood from an evolutionary perspective. We focus here on the evolution of the FAD2 gene family. We uncovered a core eudicot-wide gene duplication event giving rise to two lineages: FAD2a and FAD2-b. Independent neofunctionalizations in both lineages have resulted in functionally diverse FAD2-LIKEs involved in unusual fatty acid biosynthesis. We found significantly accelerated rates of molecular evolution in FAD2-LIKEs and use this metric to provide a list of uncharacterized candidates for further exploration of FAD2 functional diversity. FAD2-a has expanded extensively in Asterales and Apiales, two main clades of campanulids, by ancient gene duplications. Here, we detected positive selection in both Asterales and Apiales lineages, which may have enabled the evolution of PA metabolism in campanulids. Together, these findings also imply that yet uncharacterized FAD2-a copies are involved in later steps of PA biosynthesis. This work establishes a robust phylogenetic framework in which to interpret functional data and to direct future research into the origin and evolution of PA metabolism.

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FAD2 Gene Radiation and Positive Selection Contributed to Polyacetylene Metabolism Evolution in Campanulids

et al. 2019

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“…While Δ12-desaturases influence levels of abiotic stress tolerance by modifying the physical properties of membranes, certain divergent FAD2 enzymes contribute to biotic stress responses by participating in the synthesis of defensive secondary metabolites. The antimicrobial polyacetylenes falcarindiol and falcarinol accumulate in the vasculature of tomato in response to fungal infection (De Wit and Kodde, 1981;Elgersma et al, 1984), and data from three other plant families (Apiaceae, Asteraceae, and Araliaceae) indicate that pathogen-inducible divergent FAD2-like acetylenases synthesize necessary precursors for these phytoalexins (Kirsch et al, 1997;Cahoon et al, 2003;Busta et al, 2018). In avocado (Persea americana), pathogen-inducible divergent FAD2 expression is also correlated with accumulation of an antimicrobial diene, (Z,Z)-1-acetoxy-2-hydroxy-4-oxoheneicosa-12,15-diene (Wang et al, 2004).…”

Section: Table 2 Relative Gene Expression In Tomato Foliagementioning

confidence: 99%

“…For example, soybean has seven FAD2 gene family members (Lakhssassi et al, 2017), cotton has nine (Feng et al, 2017), safflower has 11 (Cao et al, 2013), and parsley (Petroselinum crispum) and carrot (Daucus carota ssp. sativus) have 17 and 24, respectively, the highest number of family members documented so far, indicating that functional divergence of FAD2 is not limited to oil seed crops (Somssich et al, 1989;Busta et al, 2018).…”

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“…Although the functions of the majority of FAD2 homologs are untested, analyses of plant species that produce unusual fatty acids or fatty acid derivatives have identified so-called divergent FAD2 proteins with novel enzymatic capabilities. FAD2 family members that encode hydroxylases (van de Loo et al, 1995;Broun et al, 1998a), epoxidases (Lee et al, 1998), acetylenases (Cahoon et al, 2001;Okada et al, 2013;Busta et al, 2018), or conjugases (Cahoon et al, 1999;Liu et al, 2001;Dyer et al, 2002;Reed et al, 2002;Cahoon and Kinney, 2004) have been identified in medicinal species from a diversity of taxa, including the Apiaceae, Asteraceae, Balsaminaceae, Brassicaceae, Cucurbitaceae, Euphorbiaceae, and Santalaceae. Despite the evidence for functional diversification of FAD2 in multiple plant families, the potential for such diversification in major crops has been largely unexplored.…”

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The FATTY ACID DESATURASE2 Family in Tomato Contributes to Primary Metabolism and Stress Responses

Lee

Padilla

Gupta³

et al. 2019

Plant Physiol.

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The conversion of oleic acid (C18:1) to linoleic acid (C18:2) in the endoplasmic reticulum is critical to the accumulation of polyunsaturated fatty acids in seeds and other tissues, and this reaction is catalyzed by a D12-desaturase, FATTY ACID DESATURASE2 (FAD2). Here, we report that the tomato (Solanum lycopersicum) genome harbors two genes, SlFAD2-1 and SlFAD2-2, which encode proteins with in vitro D12-desaturase activity. In addition, tomato has seven divergent FAD2 members that lack D12-desaturase activity and differ from canonical FAD2 enzymes at multiple amino acid positions important to enzyme function. Whereas SlFAD2-1 and SlFAD2-2 are downregulated by biotic stress, the majority of divergent FAD2 genes in tomato are upregulated by one or more stresses. In particular, SlFAD2-7 is induced by the potato aphid (Macrosiphum euphorbiae) and has elevated constitutive expression levels in suppressor of prosystemin-mediated responses2 (spr2), a tomato mutant with enhanced aphid resistance and altered fatty acid profiles. Virus-induced gene silencing of SlFAD2-7 in spr2 results in significant increases in aphid population growth, indicating that a divergent FAD2 gene contributes to aphid resistance in this genotype. Thus, the FAD2 gene family in tomato is important both to primary fatty acid metabolism and to responses to biotic stress.

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Genetics and Genomics of Carrot Sugars and Polyacetylenes

Cavagnaro

2019

The Carrot Genome

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Identification of Genes Encoding Enzymes Catalyzing the Early Steps of Carrot Polyacetylene Biosynthesis

Cited by 32 publications

References 63 publications

FAD2 Gene Radiation and Positive Selection Contributed to Polyacetylene Metabolism Evolution in Campanulids

FAD2 Gene Radiation and Positive Selection Contributed to Polyacetylene Metabolism Evolution in Campanulids

The FATTY ACID DESATURASE2 Family in Tomato Contributes to Primary Metabolism and Stress Responses

Genetics and Genomics of Carrot Sugars and Polyacetylenes

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