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Literature DB >> 35467200

Shoot Branching Phenotyping in Arabidopsis and Tomato.

Ana Confraria^1,2, Aitor Muñoz-Gasca³, Liliana Ferreira^4,5, Elena Baena-González^4,5, Pilar Cubas³.

Abstract

Shoot branching is an important trait that depends on the activity of axillary meristems and buds and their outgrowth into branches. It is remarkably plastic, being influenced by a number of external cues, such as light, temperature, soil nutrients, and mechanical manipulation. These are transduced into an internal hormone signaling network where auxin, cytokinins, and strigolactones play leading regulatory roles. Recently, sugars have also emerged as important signals promoting bud activation. These signals are in part integrated by the bud-specific growth repressor BRANCHED1 (BRC1).To understand how shoot branching is affected by particular growth conditions or in specific plant lines, it is necessary to count the number of branches and/or quantify other branch-related parameters. Here we describe how to perform such quantifications in Arabidopsis and in tomato.

Entities: Chemical

Keywords: Apical dominance; Arabidopsis thaliana; Branching; Decapitation; Shoot architecture; Solanum lycopersicum

Mesh：

Substances：

Year: 2022 PMID： 35467200 DOI： 10.1007/978-1-0716-2297-1_5

Source DB: PubMed Journal: Methods Mol Biol ISSN： 1064-3745

32 in total

1. The hormonal regulation of axillary bud growth in Arabidopsis.

Authors: S P Chatfield; P Stirnberg; B G Forde; O Leyser
Journal: Plant J Date: 2000-10 Impact factor: 6.417

2. Control of bud activation by an auxin transport switch.

Authors: Przemyslaw Prusinkiewicz; Scott Crawford; Richard S Smith; Karin Ljung; Tom Bennett; Veronica Ongaro; Ottoline Leyser
Journal: Proc Natl Acad Sci U S A Date: 2009-09-24 Impact factor: 11.205

Review 3. An Update on the Signals Controlling Shoot Branching.

Authors: Francois F Barbier; Elizabeth A Dun; Stephanie C Kerr; Tinashe G Chabikwa; Christine A Beveridge
Journal: Trends Plant Sci Date: 2019-03 Impact factor: 18.313

Review 4. Signal integration in the control of shoot branching.

Authors: Malgorzata A Domagalska; Ottoline Leyser
Journal: Nat Rev Mol Cell Biol Date: 2011-04 Impact factor: 94.444

5. Strigolactones enhance competition between shoot branches by dampening auxin transport.

Authors: Scott Crawford; Naoki Shinohara; Tobias Sieberer; Lisa Williamson; Gilu George; Jo Hepworth; Dörte Müller; Malgorzata A Domagalska; Ottoline Leyser
Journal: Development Date: 2010-07-28 Impact factor: 6.868

6. Strigolactone inhibition of shoot branching.

Authors: Victoria Gomez-Roldan; Soraya Fermas; Philip B Brewer; Virginie Puech-Pagès; Elizabeth A Dun; Jean-Paul Pillot; Fabien Letisse; Radoslava Matusova; Saida Danoun; Jean-Charles Portais; Harro Bouwmeester; Guillaume Bécard; Christine A Beveridge; Catherine Rameau; Soizic F Rochange
Journal: Nature Date: 2008-09-11 Impact factor: 49.962

Shoot Branching Phenotyping in Arabidopsis and Tomato.

1. The hormonal regulation of axillary bud growth in Arabidopsis.

2. Control of bud activation by an auxin transport switch.

Review 3. An Update on the Signals Controlling Shoot Branching.

Review 4. Signal integration in the control of shoot branching.

5. Strigolactones enhance competition between shoot branches by dampening auxin transport.

6. Strigolactone inhibition of shoot branching.

7. Cytokinin Targets Auxin Transport to Promote Shoot Branching.

8. Cytokinin is required for escape but not release from auxin mediated apical dominance.

9. Multiple pathways regulate shoot branching.

10. Auxin flow-mediated competition between axillary buds to restore apical dominance.

Review 1. Multiple Facets of Nitrogen: From Atmospheric Gas to Indispensable Agricultural Input.