the lap1 myb transcription factor orchestrates

References

Peel GJ Pang Y Modolo LV Dixon RA The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Plant J 59: 136-149 (2009) Perrin RM Wigge PA Physiology and metabolism: Web alert Curr Opin Plant Biol 4: 177-178 (2001) Peterhansel C Niessen M Kebeish RM

Metabolic engineering of anthocyanins and condensed

Apr 01 2013A MYB transcription factor DkMYB4 was found to be the key regulator responsible for the downregulation of these structural genes in PCNA fruits G J Peel L V Modolo Y Pang R A DixonThe LAP1 MYB transcription factor orchestrates

The 'ins' and 'outs' of flavonoid transport

Feb 01 2010The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Plant J 59 (2009) pp 136-149 Google Scholar 35 Z S Li et al Vacuolar uptake of the phytoalexin medicarpin by the glutathione conjugate pump Phytochemistry 45

SlMYC1 Regulates Type VI Glandular Trichome Formation and

Furthermore tomato Wo which encodes an HD-ZIP IV transcription factor specifically controls the initiation and development of type I trichomes (Yang et al 2011) Together these data suggest that MYB/bHLH/WD40 complexes and downstream HD-ZIP IV and TRY transcription factors may indeed function in glandular trichome development

Flavonoids and Isoflavonoids: From Plant Biology to

Transcription factor overexpression can lead to pleiotropic off-target effects but it seems likely that this technology can be developed to provide crop plants with enhanced levels of health-beneficial phytonutrients in the absence of unwanted side products (2009) The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis

Metabolic engineering of anthocyanins and condensed

Apr 01 2013A MYB transcription factor DkMYB4 was found to be the key regulator responsible for the downregulation of these structural genes in PCNA fruits G J Peel L V Modolo Y Pang R A DixonThe LAP1 MYB transcription factor orchestrates

References

The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Plant J 2009 59(1):136-49 Rey et al (2013) Rey T Nars A Bonhomme M Bottin A Huguet S Balzergue S Jardinaud MF Bono JJ Cullimore J Dumas B Gough C Jacquet C NFP a LysM protein controlling Nod factor perception also

MtPAR MYB transcription factor acts as an on switch for

The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Plant J 2009 59:136–149 19 Mathews H et al Activation tagging in tomato identifies a transcriptional regulator of anthocyanin biosynthesis modification and transport Plant Cell 2003 15:1689–1703 20

The 'ins' and 'outs' of flavonoid transport: Trends in

The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Plant J 2009 59: 136-149 Crossref PubMed Scopus (110) Google Scholar] Initially it was proposed that GST is required for GS-X pump type ABC transporter-mediated vacuolar sequestration of glutathione-conjugated anthocyanins based on

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Peel GJ Pang Y Modolo LV Dixon RA (2009) The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago The Plant Journal 59 136–149 | The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago

References

Peel GJ Pang Y Modolo LV Dixon RA The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Plant J 59: 136-149 (2009) Perrin RM Wigge PA Physiology and metabolism: Web alert Curr Opin Plant Biol 4: 177-178 (2001) Peterhansel C Niessen M Kebeish RM

Isolation and functional characterization of a R2R3

A R2R3-MYB transcription factor EsAN2 was isolated from Epimedium sagittatum and functionally characterized to regulate the anthocyanin biosynthetic pathway Epimedium plants are used widely both as traditional Chinese medicinal herbs and ornamental perennials Anthocyanins acting as major contributors to plant color diversity their biosynthesis are regulated by a series of transcription

MtPAR MYB transcription factor acts as an on switch for

The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Plant J 2009 59:136–149 19 Mathews H et al Activation tagging in tomato identifies a transcriptional regulator of anthocyanin biosynthesis modification and transport Plant Cell 2003 15:1689–1703 20

Richard A Dixon M A D Phil D Sc

The MtPAR MYB transcription factor acts as an on-switch for proanthocyanidin biosynthesis in Medicago truncatula Proceedings of the National Academy of Sciences USA 109 1766-1771 Chen F Tobimatsu Y Havkin-Frenkel D Dixon R A and Ralph J

Isolation and functional characterization of a R2R3

A R2R3-MYB transcription factor EsAN2 was isolated from Epimedium sagittatum and functionally characterized to regulate the anthocyanin biosynthetic pathway Epimedium plants are used widely both as traditional Chinese medicinal herbs and ornamental perennials Anthocyanins acting as major contributors to plant color diversity their biosynthesis are regulated by a series of transcription

The 'ins' and 'outs' of flavonoid transport: Trends in

The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Plant J 2009 59: 136-149 Crossref PubMed Scopus (110) Google Scholar] Initially it was proposed that GST is required for GS-X pump type ABC transporter-mediated vacuolar sequestration of glutathione-conjugated anthocyanins based on

The LAP1 MYB transcription factor orchestrates

The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Plant J 2009 Jul 59(1):136-49 doi: 10 1111/j 1365-313X 2009 03885 x Epub 2009 Apr 2 Authors Gregory J Peel 1 Yongzhen Pang Luzia V Modolo Richard A Dixon Affiliation 1

Combined analysis of transcriptome and metabolite data

The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Plant J (2007) Transcriptome analysis reveals a critical role of CHS7 and CHS8 genes for isoflavonoid synthesis in soybean seeds Plant Physiol (2003) Vodkin L: Cloning of the pleiotropic T locus in soybean and two recessive alleles that

The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago The Plant Journal 59(1) 136-149 [7] Tian L Pang Y and Dixon RA 2008 Biosynthesis and genetic engineering of proanthocyanidins and (iso)flavonoids Phytochemistry Reviews 7 445-465

strawberry transcription factor FaMYB1 inhibits the

The MYB–bHLH–WD40 (MBW) complex regulates the expression of flavonoid biosynthetic genes at the transcription level (Lepiniec et al 2006) The combinatorial interactions between MYB and bHLH transcription factors are central to the regulation of gene expression in order to control various stages of flavonoid pathway(s)

A review of target gene specificity of flavonoid R2R3

Sep 28 2013Flavonoid biosynthetic genes are often coordinately regulated in a temporal manner during flower or fruit development resulting in specific accumulation profiles of flavonoid compounds R2R3-MYB-type transcription factors (TFs) "recruit" a set of biosynthetic genes to produce flavonoids and therefore R2R3-MYBs are responsible for the coordinated expression of structural genes

The LAP1 MYB transcription factor orchestrates

The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Gregory J Peel† Yongzhen Pang Luzia V Modolo‡ and Richard A Dixon* Plant Biology Division Roberts Noble Foundation 2510 Sam Noble Parkway Ardmore OK 73401 USA

PlantTFDB

The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Plant J 2009 59(1): p 136-49 [PMID:19368693] Pan Y et al Cytochrome P450 monooxygenases as reporters for circadian-regulated pathways Plant Physiol 2009 150(2): p 858-78 [PMID:19386812] Hugueney P et al

PlantTFDB

The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago Plant J 2009 59(1): p 136-49 [PMID:19368693] Pan Y et al Cytochrome P450 monooxygenases as reporters for circadian-regulated pathways Plant Physiol 2009 150(2): p 858-78 [PMID:19386812] Hugueney P et al

Flavonoids and Isoflavonoids: From Plant Biology to

Transcription factor overexpression can lead to pleiotropic off-target effects but it seems likely that this technology can be developed to provide crop plants with enhanced levels of health-beneficial phytonutrients in the absence of unwanted side products (2009) The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis

ZmMYB14 is an important transcription factor involved in

The MYB transcription factors in maize were identified from the Plant Transcription Factor Database The expression profiling of the maize MYB transcription factors was performed based on the genome‐wide atlas of transcription during maize development which included 60 distinct tissues representing 11 major organ systems of inbred line B73

Regulation of anthocyanin and proanthocyanidin

These transcription factor genes however were not affected in the mttt8 mutant suggesting that all these WD40 and MYB transcription factors regulate MtTT8 unidirectionally A Y1H assay revealed a direct interaction between MYB transcription factors and MtWD40‐1 protein complexes with MtTT8 promoter cis ‐elements in yeast

The LAP1 MYB transcription factor orchestrates anthocyanidin biosynthesis and glycosylation in Medicago The Plant Journal 59(1) 136-149 Tian L Pang Y and Dixon RA 2008 Biosynthesis and genetic engineering of proanthocyanidins and (iso)flavonoids Phytochemistry Reviews 7 445-465 Pang Y Peel GJ Wright E Wang Z and Dixon RA 2007

strawberry transcription factor FaMYB1 inhibits the

The MYB–bHLH–WD40 (MBW) complex regulates the expression of flavonoid biosynthetic genes at the transcription level (Lepiniec et al 2006) The combinatorial interactions between MYB and bHLH transcription factors are central to the regulation of gene expression in order to control various stages of flavonoid pathway(s)

MYB30 orchestrates systemic reactive oxygen signaling and

Jul 22 2020522 Dubos C Stracke R Grotewold E Weisshaar B Martin C Lepiniec L (2010) MYB 523 transcription factors in Arabidopsis Trends Plant Sci 15: 573–581 524 Fichman Y Miller G Mittler R (2019) Whole-plant live imaging of reactive oxygen species 525 Mol Plant 12: 1203–1210