Genome-Wide Prediction of Metabolic Enzymes, Pathways, and Gene Clusters in Plants

Schläpfer, Pascal; Zhang, Peifen; Wang, Chuan; Kim, Taehyong; Banf, Michael; Chae, Lee; Dreher, Kate; Chavali, Arvind K.; Nilo-Poyanco, Ricardo; Bernard, Thomas; Kahn, Daniel; Rhee, Seung Y.

doi:10.1104/pp.16.01942

Cited by 316 publications

(312 citation statements)

References 86 publications

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“…[18,21,22] The kab gene clustering is consistent with early examples of red algae clustering genes. Many organisms,i ncluding bacteria, fungi, plants,and unicellular algae,are known to cluster genes from the same biosynthetic pathway.…”

supporting

confidence: 76%

Scalable Biosynthesis of the Seaweed Neurochemical, Kainic Acid

et al. 2019

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Kainic acid, the flagship member of the kainoid family of natural neurochemicals,i sawidely used neuropharmacological agent that helped unravel the key role of ionotropic glutamate receptors,including the kainate receptor, in the central nervous system. Worldwide shortages of this seaweed natural product in the year 2000 prompted numerous chemical syntheses,including scalable preparations with as few as six-steps.H erein we report the discovery and characterization of the concise two-enzyme biosynthetic pathwayt o kainic acid from l-glutamic acid and dimethylallyl pyrophosphate in red macroalgae and show that the biosynthetic genes are co-clustered in genomes of Digenea simplex and Palmaria palmata. Moreover,w ea pplied ak ey biosynthetic a-ketoglutarate-dependent dioxygenase enzyme in ab iotransformation methodology to efficiently construct kainic acid on the gram scale.T his study establishes both the feasibility of mining seaweed genomes for their biotechnological prowess.

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supporting

confidence: 76%

Scalable Biosynthesis of the Seaweed Neurochemical, Kainic Acid

et al. 2019

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“…A gene co‐expression analysis was performed for each expression path by evaluating co‐expression of A. thaliana homologs to P. persica genes (Table S4) in the STRING database (Szklarczyk et al ) as well as searching for P. persica genes in pathways at the PpersicaCyc (Schläpfer et al ). Among those genes with a P1 expression pattern (gene expression downregulation by cold, followed by upregulation during ripening, but to a lesser degree than regular ripening) in all varieties, six genes were related to DNA replication (GO: 0006268, Fig.…”

Section: Resultsmentioning

confidence: 99%

A Prunus persica genome‐wide RNA‐seq approach uncovers major differences in the transcriptome among chilling injury sensitive and non‐sensitive varieties

Nilo-Poyanco

Vizoso

Sanhueza

et al. 2018

Physiologia Plantarum

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Chilling injury represents a major constrain for crops productivity. Prunus persica, one of the most relevant rosacea crops, have early season varieties that are resistant to chilling injury, in contrast to late season varieties, which display chilling symptoms such as mealiness (dry, sandy fruit mesocarp) after prolonged storage at chilling temperatures. To uncover the molecular processes related to the ability of early varieties to withstand mealiness, postharvest and genome-wide RNA-seq assessments were performed in two early and two late varieties. Differences in juice content and ethylene biosynthesis were detected among early and late season fruits that became mealy after exposed to prolonged chilling. Principal component and data distribution analysis revealed that cold-stored late variety fruit displayed an exacerbated and unique transcriptome profile when compared to any other postharvest condition. A differential expression analysis performed using an empirical Bayes mixture modeling approach followed by co-expression and functional enrichment analysis uncover processes related to ethylene, lipids, cell wall, carotenoids and DNA metabolism, light response, and plastid homeostasis associated to the susceptibility or resistance of P. persica varieties to chilling stress. Several of the genes related to these processes are in quantitative trait loci (QTL) associated to mealiness in P. persica. Together, these analyses exemplify how P. persica can be used as a model for studying chilling stress in plants.

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“…Network analyses can be simple, moderate, or highly complex in nature and usage, although all seek to provide contextual information to differential metabolites. Recently, Schläpfer et al developed a pipeline to identify metabolic enzymes, pathways, and gene clusters from a sequenced genome . With this computational pipeline, they uncovered more than 10 000 metabolic gene clusters that were proposed as an untapped source to uncover new metabolite biosynthesis pathways.…”

Section: Understand Biological Impact Of Metabolomicsmentioning

confidence: 99%

Challenges and emergent solutions for LC‐MS/MS based untargeted metabolomics in diseases

Liang

Lee

2018

Mass Spectrometry Reviews

269

169

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In the past decade, advances in liquid chromatography-mass spectrometry (LC-MS) have revolutionized untargeted metabolomics analyses. By mining metabolomes more deeply, researchers are now primed to uncover key metabolites and their associations with diseases. The employment of untargeted metabolomics has led to new biomarker discoveries and a better mechanistic understanding of diseases with applications in precision medicine. However, many major pertinent challenges remain. First, compound identification has been poor, and left an overwhelming number of unidentified peaks. Second, partial, incomplete metabolomes persist due to factors such as limitations in mass spectrometry data acquisition speeds, wide-range of metabolites concentrations, and cellular/tissue/temporal-specific expression changes that confound our understanding of metabolite perturbations. Third, to contextualize metabolites in pathways and biology is difficult because many metabolites partake in multiple pathways, have yet to be described species specificity, or possess unannotated or more-complex functions that are not easily characterized through metabolomics analyses. From a translational perspective, information related to novel metabolite biomarkers, metabolic pathways, and drug targets might be sparser than they should be. Thankfully, significant progress has been made and novel solutions are emerging, achieved through sustained academic and industrial community efforts in terms of hardware, computational, and experimental approaches. Given the rapidly growing utility of metabolomics, this review will offer new perspectives, increase awareness of the major challenges in LC-MS metabolomics that will significantly benefit the metabolomics community and also the broader the biomedical community metabolomics aspire to serve.

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Genome-Wide Prediction of Metabolic Enzymes, Pathways, and Gene Clusters in Plants

Cited by 316 publications

References 86 publications

Scalable Biosynthesis of the Seaweed Neurochemical, Kainic Acid

Scalable Biosynthesis of the Seaweed Neurochemical, Kainic Acid

A Prunus persica genome‐wide RNA‐seq approach uncovers major differences in the transcriptome among chilling injury sensitive and non‐sensitive varieties

Challenges and emergent solutions for LC‐MS/MS based untargeted metabolomics in diseases

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