Consecutive steps of kaempferol biosynthesis pathways in Arabidopsis and maize stigmas.

Genetic dissection of phenylpropanoid metabolism in Arabidopsis

Hemm, Matthew Robert

January 2003

Phenylpropanoid biosynthesis has been studied for decades in many different plant species. In the la...

Fig. 3 in Specialized diterpenoid metabolism in monocot crops: Biosynthesis and chemical diversity

Murphy, Katherine M.
Zerbe, Philipp

April 2020

Fig. 3. Diterpenoid metabolism in maize. Overview of the established modular diterpenoid-metabolic n...

Articulation of three core metabolic processes in Arabidopsis: Fatty acid biosynthesis, leucine catabolism and starch metabolism-10

Wieslawa I Mentzen (69594)
Jianling Peng (69595)
Nick Ransom (69596)
Basil J Nikolau (69597)
Eve Syrkin Wurtele (69598)

December 2011

links structure as the original graph (μ = 111.7; σ = 6.8). Red arrow denotes number of within-pathw...

Consecutive enzymes and metabolic routes required for the synthesis of PA in maize and Arabidopsis.

Xun Yue (628928)
Xin-Qi Gao (628929)
Fang Wang (105926)
YuXiu Dong (628930)
XingGuo Li (3282903)
Xian Sheng Zhang (105935)

September 2014

(1)–(9) present the significant DEGs that encoded the enzymes, enzymes and substrates that cataly...

Consecutive steps of glycolysis IV pathways in Arabidopsis and maize stigmas.

Xun Yue (628928)
Xin-Qi Gao (628929)
Fang Wang (105926)
YuXiu Dong (628930)
XingGuo Li (3282903)
Xian Sheng Zhang (105935)

September 2014

(1)–(7) present the significant DEGs that encoded the enzymes, enzymes and substrates that cataly...

Consecutive steps of glutamate degradation IV pathways in Arabidopsis and maize stigmas.

Xun Yue (628928)
Xin-Qi Gao (628929)
Fang Wang (105926)
YuXiu Dong (628930)
XingGuo Li (3282903)
Xian Sheng Zhang (105935)

September 2014

(1)–(3) present the significant DEGs that encoded the enzymes, enzymes and substrates that cataly...

Cooperating of kaempferol and dTDP-alpha-L-rhamnose biosynthesis.

Xun Yue (628928)
Xin-Qi Gao (628929)
Fang Wang (105926)
YuXiu Dong (628930)
XingGuo Li (3282903)
Xian Sheng Zhang (105935)

September 2014

(1)–(4) present the significant DEGs that encoded the enzymes, enzymes and substrates that cataly...

Articulation of three core metabolic processes in Arabidopsis: Fatty acid biosynthesis, leucine catabolism and starch metabolism-4

Wieslawa I Mentzen (69594)
Jianling Peng (69595)
Nick Ransom (69596)
Basil J Nikolau (69597)
Eve Syrkin Wurtele (69598)

December 2011

font. , branched-chain amino acid aminotransferase; , branched-chain alpha-keto acid dehydrogenase; ...

Fig. 2 in A pair of threonines mark ent-kaurene synthases for phytohormone biosynthesis

Brown, Reid
Jia, Meirong
Peters, Reuben J.

April 2021

Fig. 2. Representative phylogenetic tree for plant KS(L)/TPS-e subfamily. Green lines indicate KS ac...

Fig. 1 in 3-O-glycosylation of kaempferol restricts the supply of the benzenoid precursor of ubiquinone (Coenzyme Q) in Arabidopsis thaliana

Soubeyrand, Eric
Latimer, Scott
Bernert, Ann C.
Keene, Shea A.
Johnson, Timothy S.
Shin, Doosan
Block, Anna K.
Colquhoun, Thomas A.
Sch, Anton R.
affner
Kim, Jeongim
Basset, Gilles J.

June 2021

Fig. 1. Metabolic origins of 4-hydroxybenzoate for ubiquinone biosynthesis in plant cells. Note that...

Fig. 6 in Characterization of the PRODUCTION of ANTHOCYANIN PIGMENT 1 Arabidopsis dominant mutant using DLEMMA dual isotope labeling approach

Dong, Yonghui
Feldberg, Liron
Rogachev, Ilana
Aharoni, Asaph

June 2021

Fig. 6. Differential analysis of phenylpropanoid pathway metabolites between WT and pap1-D mutant Ar...

Articulation of three core metabolic processes in Arabidopsis: Fatty acid biosynthesis, leucine catabolism and starch metabolism-7

Wieslawa I Mentzen (69594)
Jianling Peng (69595)
Nick Ransom (69596)
Basil J Nikolau (69597)
Eve Syrkin Wurtele (69598)

December 2011

Ght genes from leucine catabolism module.Copyright information:Taken from "Articula...

The monolignol biosynthesis pathway in sorghum based on consensus model from dicot and monocot plants (adapted from [25, 26]).

Hannah M. Tetreault (5823971)
Erin D. Scully (172484)
Tammy Gries (5823974)
Nathan A. Palmer (617481)
Deanna L. Funnell-Harris (5823977)
Lisa Baird (102891)
Javier Seravalli (1264638)
Bruce S. Dien (356972)
Gautam Sarath (208376)
Thomas E. Clemente (5823980)
Scott E. Sattler (617484)

October 2018

Enzymes along the pathway (gray) represent: PAL, phenylalanine ammonia lyase; C4H, cinnamate 4-hydro...

Detected orthologs in the aliphatic and indolic glucosinolate biosynthetic and degradation pathways in broccoli seeds and sprouts.

Jinjun Gao (528119)
Xinxin Yu (528120)
Fengming Ma (528121)
Jing Li (10611)

February 2014

Four stages of the pathways in Arabidopsis are showed separately for chain elongation, cor...

Articulation of three core metabolic processes in Arabidopsis: Fatty acid biosynthesis, leucine catabolism and starch metabolism-2

Wieslawa I Mentzen (69594)
Jianling Peng (69595)
Nick Ransom (69596)
Basil J Nikolau (69597)
Eve Syrkin Wurtele (69598)

December 2011

E links structure as the original graph (μ = 111.7; σ = 6.8). Red arrow denotes number of within-pat...

Genetic dissection of phenylpropanoid metabolism in Arabidopsis

Hemm, Matthew Robert

January 2003

Phenylpropanoid biosynthesis has been studied for decades in many different plant species. In the la...

Fig. 3 in Specialized diterpenoid metabolism in monocot crops: Biosynthesis and chemical diversity

Murphy, Katherine M.
Zerbe, Philipp

April 2020

Fig. 3. Diterpenoid metabolism in maize. Overview of the established modular diterpenoid-metabolic n...

Articulation of three core metabolic processes in Arabidopsis: Fatty acid biosynthesis, leucine catabolism and starch metabolism-10

Wieslawa I Mentzen (69594)
Jianling Peng (69595)
Nick Ransom (69596)
Basil J Nikolau (69597)
Eve Syrkin Wurtele (69598)

December 2011

links structure as the original graph (μ = 111.7; σ = 6.8). Red arrow denotes number of within-pathw...

Consecutive enzymes and metabolic routes required for the synthesis of PA in maize and Arabidopsis.

Xun Yue (628928)
Xin-Qi Gao (628929)
Fang Wang (105926)
YuXiu Dong (628930)
XingGuo Li (3282903)
Xian Sheng Zhang (105935)

September 2014

(1)–(9) present the significant DEGs that encoded the enzymes, enzymes and substrates that cataly...

Consecutive steps of glycolysis IV pathways in Arabidopsis and maize stigmas.

Xun Yue (628928)
Xin-Qi Gao (628929)
Fang Wang (105926)
YuXiu Dong (628930)
XingGuo Li (3282903)
Xian Sheng Zhang (105935)

September 2014

(1)–(7) present the significant DEGs that encoded the enzymes, enzymes and substrates that cataly...

Consecutive steps of glutamate degradation IV pathways in Arabidopsis and maize stigmas.

Xun Yue (628928)
Xin-Qi Gao (628929)
Fang Wang (105926)
YuXiu Dong (628930)
XingGuo Li (3282903)
Xian Sheng Zhang (105935)

September 2014

(1)–(3) present the significant DEGs that encoded the enzymes, enzymes and substrates that cataly...

Cooperating of kaempferol and dTDP-alpha-L-rhamnose biosynthesis.

Xun Yue (628928)
Xin-Qi Gao (628929)
Fang Wang (105926)
YuXiu Dong (628930)
XingGuo Li (3282903)
Xian Sheng Zhang (105935)

September 2014

(1)–(4) present the significant DEGs that encoded the enzymes, enzymes and substrates that cataly...

Articulation of three core metabolic processes in Arabidopsis: Fatty acid biosynthesis, leucine catabolism and starch metabolism-4

Wieslawa I Mentzen (69594)
Jianling Peng (69595)
Nick Ransom (69596)
Basil J Nikolau (69597)
Eve Syrkin Wurtele (69598)

December 2011

font. , branched-chain amino acid aminotransferase; , branched-chain alpha-keto acid dehydrogenase; ...

Fig. 2 in A pair of threonines mark ent-kaurene synthases for phytohormone biosynthesis

Brown, Reid
Jia, Meirong
Peters, Reuben J.

April 2021

Fig. 2. Representative phylogenetic tree for plant KS(L)/TPS-e subfamily. Green lines indicate KS ac...

Fig. 1 in 3-O-glycosylation of kaempferol restricts the supply of the benzenoid precursor of ubiquinone (Coenzyme Q) in Arabidopsis thaliana

Soubeyrand, Eric
Latimer, Scott
Bernert, Ann C.
Keene, Shea A.
Johnson, Timothy S.
Shin, Doosan
Block, Anna K.
Colquhoun, Thomas A.
Sch, Anton R.
affner
Kim, Jeongim
Basset, Gilles J.

June 2021

Fig. 1. Metabolic origins of 4-hydroxybenzoate for ubiquinone biosynthesis in plant cells. Note that...

Fig. 6 in Characterization of the PRODUCTION of ANTHOCYANIN PIGMENT 1 Arabidopsis dominant mutant using DLEMMA dual isotope labeling approach

Dong, Yonghui
Feldberg, Liron
Rogachev, Ilana
Aharoni, Asaph

June 2021

Fig. 6. Differential analysis of phenylpropanoid pathway metabolites between WT and pap1-D mutant Ar...

Articulation of three core metabolic processes in Arabidopsis: Fatty acid biosynthesis, leucine catabolism and starch metabolism-7

Wieslawa I Mentzen (69594)
Jianling Peng (69595)
Nick Ransom (69596)
Basil J Nikolau (69597)
Eve Syrkin Wurtele (69598)

December 2011

Ght genes from leucine catabolism module.Copyright information:Taken from "Articula...

The monolignol biosynthesis pathway in sorghum based on consensus model from dicot and monocot plants (adapted from [25, 26]).

Hannah M. Tetreault (5823971)
Erin D. Scully (172484)
Tammy Gries (5823974)
Nathan A. Palmer (617481)
Deanna L. Funnell-Harris (5823977)
Lisa Baird (102891)
Javier Seravalli (1264638)
Bruce S. Dien (356972)
Gautam Sarath (208376)
Thomas E. Clemente (5823980)
Scott E. Sattler (617484)

October 2018

Enzymes along the pathway (gray) represent: PAL, phenylalanine ammonia lyase; C4H, cinnamate 4-hydro...

Detected orthologs in the aliphatic and indolic glucosinolate biosynthetic and degradation pathways in broccoli seeds and sprouts.

Jinjun Gao (528119)
Xinxin Yu (528120)
Fengming Ma (528121)
Jing Li (10611)

February 2014

Four stages of the pathways in Arabidopsis are showed separately for chain elongation, cor...

Articulation of three core metabolic processes in Arabidopsis: Fatty acid biosynthesis, leucine catabolism and starch metabolism-2

Wieslawa I Mentzen (69594)
Jianling Peng (69595)
Nick Ransom (69596)
Basil J Nikolau (69597)
Eve Syrkin Wurtele (69598)

December 2011

E links structure as the original graph (μ = 111.7; σ = 6.8). Red arrow denotes number of within-pat...

Genetic dissection of phenylpropanoid metabolism in Arabidopsis

Hemm, Matthew Robert

January 2003

Phenylpropanoid biosynthesis has been studied for decades in many different plant species. In the la...

Fig. 3 in Specialized diterpenoid metabolism in monocot crops: Biosynthesis and chemical diversity

Murphy, Katherine M.
Zerbe, Philipp

April 2020

Fig. 3. Diterpenoid metabolism in maize. Overview of the established modular diterpenoid-metabolic n...

Articulation of three core metabolic processes in Arabidopsis: Fatty acid biosynthesis, leucine catabolism and starch metabolism-10

Wieslawa I Mentzen (69594)
Jianling Peng (69595)
Nick Ransom (69596)
Basil J Nikolau (69597)
Eve Syrkin Wurtele (69598)

December 2011

links structure as the original graph (μ = 111.7; σ = 6.8). Red arrow denotes number of within-pathw...

Consecutive steps of kaempferol biosynthesis pathways in <i>Arabidopsis</i> and maize stigmas.

Abstract

Extracted data

Consecutive steps of kaempferol biosynthesis pathways in <i>Arabidopsis</i> and maize stigmas.

Abstract

Extracted data

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