Carbon usage in yellow‐fleshed <i>Manihot esculenta</i> storage roots shifts from starch biosynthesis to cell wall and raffinose biosynthesis via the <i>myo</i>‐inositol pathway

Gutschker, Sindy; Ruescher, David; Rabbi, Ismail Y.; Rosado‐Souza, Laise; Pommerrenig, Benjamin; Pauly, Markus; Robertz, Stefan; van Doorn, Anna M.; Schlereth, Armin; Neuhaus, H. Ekkehard; Fernie, Alisdair R.; Reinert, Stephan; Sonnewald, Uwe; Zierer, Wolfgang

doi:10.1111/tpj.16909

The Plant Journal

2024

DOI: 10.1111/tpj.16909

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Carbon usage in yellow‐fleshed Manihot esculenta storage roots shifts from starch biosynthesis to cell wall and raffinose biosynthesis via the myo‐inositol pathway

Sindy Gutschker,

David Ruescher,

Ismail Y. Rabbi

et al.

Abstract: SUMMARYCassava is a crucial staple crop for smallholder farmers in tropical Asia and Sub‐Saharan Africa. Although high yield remains the top priority for farmers, the significance of nutritional values has increased in cassava breeding programs. A notable negative correlation between provitamin A and starch accumulation poses a significant challenge for breeding efforts. The negative correlation between starch and carotenoid levels in conventional and genetically modified cassava plants implies the absence of … Show more

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Carotenoid‐carbohydrate crosstalk: evidence for genetic and physiological interactions in storage tissues across crop species

Villwock,

Li,

Jannink

2024

New Phytologist

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SummaryCarotenoids play essential roles in photosynthesis, photoprotection, and human health. Efforts to increase carotenoid content in several staple crops have been successful through both conventional selection and genetic engineering methods. Interestingly, in some cases, altering carotenoid content has had unexpected effects on other aspects of plant metabolism, impacting traits like sugar content, dry matter percentage, fatty acid content, stress tolerance, and phytohormone concentrations. Studies across several diverse crop species have identified negative correlations between carotenoid and starch contents, as well as positive correlations between carotenoids and soluble sugars. Collectively, these reports suggest a metabolic interaction between carotenoids and carbohydrates. We synthesize evidence pointing to four hypothesized mechanisms: (1) direct competition for precursors; (2) physical interactions in plastids; (3) influences of sugar or apocarotenoid signaling networks; and (4) nonmechanistic population or statistical sources of correlations. Though the carotenoid biosynthesis pathway is well understood, the regulation and interactions of carotenoids, especially in nonphotosynthetic tissues, remain unclear. This topic represents an underexplored interplay between primary and secondary metabolism where further research is needed.

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Carotenoid‐carbohydrate crosstalk: evidence for genetic and physiological interactions in storage tissues across crop species

Villwock,

Li,

Jannink

2024

New Phytologist

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Carbon usage in yellow‐fleshed Manihot esculenta storage roots shifts from starch biosynthesis to cell wall and raffinose biosynthesis via the myo‐inositol pathway

Cited by 1 publication

References 68 publications

Carotenoid‐carbohydrate crosstalk: evidence for genetic and physiological interactions in storage tissues across crop species

Carotenoid‐carbohydrate crosstalk: evidence for genetic and physiological interactions in storage tissues across crop species

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