<i>Arabidopsis</i> VASCULAR-RELATED NAC-DOMAIN6 Directly Regulates the Genes That Govern Programmed Cell Death and Secondary Wall Formation during Xylem Differentiation

Ohashi-Ito, Kyoko; Oda, Y.; Fukuda, Hiroo

doi:10.1105/tpc.110.075036

Cited by 297 publications

(304 citation statements)

References 38 publications

(81 reference statements)

Supporting

Mentioning

287

Contrasting

Unclassified

Order By: Relevance

“…In Arabidopsis, MYB-type (MYB46, MYB58, and MYB63) and NAC-type (SND1, SND2, VND6, VND7, NST1, and NST2) transcription factors function as positive regulators of secondary cell wall synthesis. [18][19][20][21][22][23][24] Some rice NAC-type transcription factors have also been described to control secondary cell wall metabolism. 25 In rss3, several NAC genes that belong to the subfamily, in which Arabidopsis NST1 and SND2 are classified, were upregulated (Fig.…”

mentioning

confidence: 99%

RICE SALT SENSITIVE3 binding to bHLH and JAZ factors mediates control of cell wall plasticity in the root apex

Toda

Yoshida

Hattori

et al. 2013

Plant Signaling & Behavior

View full text Add to dashboard Cite

mentioning

confidence: 99%

RICE SALT SENSITIVE3 binding to bHLH and JAZ factors mediates control of cell wall plasticity in the root apex

Toda

Yoshida

Hattori

et al. 2013

Plant Signaling & Behavior

View full text Add to dashboard Cite

“…For example, in Arabidopsis, VASCULAR-RELATED NAC-DOMAIN6 (VND6) and VND7 regulate the development of metaxylem and protoxylem vessel elements, respectively (Kubo et al 2005;Yamaguchi et al 2008), while NAC SECONDARY WALL THICKENING PROMOTING FACTOR1 (NST1) and NST3 [also called SECONDARY WALL-ASSOCIATED NAC DOMAIN PROTEIN1 (SND1) or ARABIDOPSIS NAC DOMAIN CONTAINING PROTEIN012 (ANAC012)] redundantly act as master switches that turn on secondary wall formation in fibers (Mitsuda et al 2007;Zhong et al 2006). MYB46 and MYB83 are direct downstream transcription factors of VND6, VND7, NST1, and NST3/SND1/ANAC012 (McCarthy et al 2009;Ohashi-Ito et al 2010;Yamaguchi et al 2011). MYB46 and MYB83 can activate biosynthetic pathways for cellulose, xylan, and lignin, the three major secondary wall components (Ko et al 2009;McCarthy et al 2009;Nakano et al 2010;Zhong et al 2007).…”

mentioning

confidence: 99%

ATL54, a RING-H2 domain protein selected by a gene co-expression network analysis, is associated with secondary cell wall formation in Arabidopsis

Noda

Takahashi

Tsurumaki

et al. 2013

Plant Biotechnology

View full text Add to dashboard Cite

Biosynthesis of plant secondary cell walls is controlled by several master transcription factors. Ubiquitin ligases, which mediate ubiquitination of proteins, including transcription factors in the protein degradation pathway, are also believed to regulate secondary wall biosynthesis; however, the exact ubiquitin ligases involved in secondary wall formation have not yet been identified. We conducted a gene co-expression network analysis and found that ATL54, annotated as a RING-finger protein, was highly co-expressed with several transcription factor and enzyme genes involved in secondary wall formation. A recombinant ATL54 protein showed ubiquitin ligase activity. The expression of several biosynthetic genes of cellulose, lignin, and xylan in apical portions of inflorescence stems was up-regulated by ATL54 knock-out. The expression of Xylem Cysteine Peptidase1 (XCP1), which participates in the programmed cell death process of xylem tracheary elements, was down-regulated in middle stem portions of both ATL54-knock-out and ATL54-overexpressed mutants. Alteration of ATL54 expression levels did not, however, affect lignin and polysaccharide content and composition in whole mature stems. Our results suggest that ATL54 is an E3 ubiquitin ligase involved in secondary wall biosynthesis and programmed cell death during xylogenesis.

show abstract

“…The functional suppression of VND6 and VND7 causes defects in the formation of vessel elements (Kubo et al 2005;Yamaguchi et al, 2008). Subsequently, Ohashi-Ito et al (2010) found that VND6 is a direct regulator of genes related to programmed cell death as well as to secondary wall formation. These results strongly suggest that VND6 and VND7 act as key regulators of xylem vessel differentiation.…”

Section: In Vitro Tracheary Element Systems In Herbaceous Angiospermsmentioning

confidence: 99%

“…Three common methods used to transform xylogenic lines are biolistic particle delivery (Ito and Fukuda 2002;Möller et al 2003;Wagner et al 2012), Agrobacterium tumefaciens-mediated transformation (Pyo et al 2007;Pesquet et al 2010;Ohashi-Ito et al 2010) and electroporation (Endo et al 2008).…”

Section: Tracheary Elements and Genetic Transformationmentioning

confidence: 99%

Formation of plant tracheary elements in vitro – a review

Devillard¹,

Walter²

2014

N.Z. j. of For. Sci.

View full text Add to dashboard Cite

This review summarises two key aspects of in vitro plant tracheary element (TE) culture systems: establishment of in vitro TE systems and methods for analysing TEs, based on examples of in vitro TE systems in angiosperms and gymnosperms. A comparison between different TE systems suitable for various species and recent research studies are also presented along with a presentation of the issues and future challenges underlying in vitro TE systems.

show abstract

Arabidopsis VASCULAR-RELATED NAC-DOMAIN6 Directly Regulates the Genes That Govern Programmed Cell Death and Secondary Wall Formation during Xylem Differentiation

Cited by 297 publications

References 38 publications

RICE SALT SENSITIVE3 binding to bHLH and JAZ factors mediates control of cell wall plasticity in the root apex

RICE SALT SENSITIVE3 binding to bHLH and JAZ factors mediates control of cell wall plasticity in the root apex

ATL54, a RING-H2 domain protein selected by a gene co-expression network analysis, is associated with secondary cell wall formation in Arabidopsis

Formation of plant tracheary elements in vitro – a review

Contact Info

Product

Resources

About