Metabolomic approaches for the Characterisation of Carotenoid Metabolic Engineering in planta : Metabolomic Characterisation of Carotenoid Metabolic Engineering. / Perez, Laura; Drapal, Margit; Nogueira, Marilise; Berry, Harriet; Almeida Barros da Silva, Juliana; Enfissi, Genny; Fraser, Paul.
Metabolomic approaches for the Characterisation of Carotenoid Metabolic Engineering in planta: Metabolomic Characterisation of Carotenoid Metabolic Engineering. Vol. 670 1st. ed. 2022.Research output: Chapter in Book/Report/Conference proceeding › Chapter
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Metabolomic approaches for the Characterisation of Carotenoid Metabolic Engineering in planta : Metabolomic Characterisation of Carotenoid Metabolic Engineering. / Perez, Laura; Drapal, Margit; Nogueira, Marilise; Berry, Harriet; Almeida Barros da Silva, Juliana; Enfissi, Genny; Fraser, Paul.
Metabolomic approaches for the Characterisation of Carotenoid Metabolic Engineering in planta: Metabolomic Characterisation of Carotenoid Metabolic Engineering. Vol. 670 1st. ed. 2022.Research output: Chapter in Book/Report/Conference proceeding › Chapter
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TY - CHAP
T1 - Metabolomic approaches for the Characterisation of Carotenoid Metabolic Engineering in planta
T2 - Metabolomic Characterisation of Carotenoid Metabolic Engineering
AU - Perez, Laura
AU - Drapal, Margit
AU - Nogueira, Marilise
AU - Berry, Harriet
AU - Almeida Barros da Silva, Juliana
AU - Enfissi, Genny
AU - Fraser, Paul
PY - 2022/4/17
Y1 - 2022/4/17
N2 - Carotenoid biosynthesis has now been subjected to metabolic engineering for over two decades. The outputs clearly show that carotenoid formation is an integral component of metabolism. Perturbations can affect intermediary metabolism and other isoprenoids. The advances in omic technologies have enabled the quantitative assessment of changes in the transcriptome, proteome and metabolome in response to altered carotenoid biosynthesis. In the present article, the approaches and procedures relating to the capture of the metabolome in response to modulation of the carotenoid biosynthesis pathway are described. These data will contribute to the fundamental understanding of metabolic biology, underpinning future rationale design of New Plant Breeding Techniques (NPBTs) and associated regulatory affairs.
AB - Carotenoid biosynthesis has now been subjected to metabolic engineering for over two decades. The outputs clearly show that carotenoid formation is an integral component of metabolism. Perturbations can affect intermediary metabolism and other isoprenoids. The advances in omic technologies have enabled the quantitative assessment of changes in the transcriptome, proteome and metabolome in response to altered carotenoid biosynthesis. In the present article, the approaches and procedures relating to the capture of the metabolome in response to modulation of the carotenoid biosynthesis pathway are described. These data will contribute to the fundamental understanding of metabolic biology, underpinning future rationale design of New Plant Breeding Techniques (NPBTs) and associated regulatory affairs.
M3 - Chapter
SN - 9780323999755
VL - 670
BT - Metabolomic approaches for the Characterisation of Carotenoid Metabolic Engineering in planta
ER -