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Literature DB >> 21427763

Signal integration in the control of shoot branching.

Malgorzata A Domagalska¹, Ottoline Leyser.

Abstract

Shoot branching is a highly plastic developmental process in which axillary buds are formed in the axil of each leaf and may subsequently be activated to give branches. Three classes of plant hormones, auxins, cytokinins and strigolactones (or strigolactone derivatives) are central to the control of bud activation. These hormones move throughout the plant forming a network of systemic signals. The past decade brought great progress in understanding the mechanisms of shoot branching control. Biological and computational studies have led to the proposal of two models, the auxin transport canalization-based model and the second messenger model, which provide mechanistic explanations for apical dominance.

Entities: Chemical

Mesh：

Substances：

Year: 2011 PMID： 21427763 DOI： 10.1038/nrm3088

Source DB: PubMed Journal: Nat Rev Mol Cell Biol ISSN： 1471-0072 Impact factor: 94.444

86 in total

1. Mutational analysis of branching in pea. Evidence that Rms1 and Rms5 regulate the same novel signal.

Authors: S E Morris; C G Turnbull; I C Murfet; C A Beveridge
Journal: Plant Physiol Date: 2001-07 Impact factor: 8.340

2. Auxin inhibits endocytosis and promotes its own efflux from cells.

Authors: Tomasz Paciorek; Eva Zazímalová; Nadia Ruthardt; Jan Petrásek; York-Dieter Stierhof; Jürgen Kleine-Vehn; David A Morris; Neil Emans; Gerd Jürgens; Niko Geldner; Jirí Friml
Journal: Nature Date: 2005-06-30 Impact factor: 49.962

3. Identification and characterization of HTD2: a novel gene negatively regulating tiller bud outgrowth in rice.

Authors: Wenzhen Liu; Chao Wu; Yaping Fu; Guocheng Hu; Huamin Si; Li Zhu; Weijiang Luan; Zhengquan He; Zongxiu Sun
Journal: Planta Date: 2009-07-05 Impact factor: 4.116

4. Computational modeling and molecular physiology experiments reveal new insights into shoot branching in pea.

Authors: Elizabeth A Dun; Jim Hanan; Christine A Beveridge
Journal: Plant Cell Date: 2009-11-30 Impact factor: 11.277

5. Nitrogen-dependent accumulation of cytokinins in root and the translocation to leaf: implication of cytokinin species that induces gene expression of maize response regulator.

Authors: K Takei; H Sakakibara; M Taniguchi; T Sugiyama
Journal: Plant Cell Physiol Date: 2001-01 Impact factor: 4.927

6. Suppression of tiller bud activity in tillering dwarf mutants of rice.

Authors: Shinji Ishikawa; Masahiko Maekawa; Tomotsugu Arite; Kazumitsu Onishi; Itsuro Takamure; Junko Kyozuka
Journal: Plant Cell Physiol Date: 2005-01-19 Impact factor: 4.927

Review 7. Auxin biosynthesis and its role in plant development.

Authors: Yunde Zhao
Journal: Annu Rev Plant Biol Date: 2010 Impact factor: 26.379

Review 8. Local and long-range signaling pathways regulating plant responses to nitrate.

Authors: Brian G Forde
Journal: Annu Rev Plant Biol Date: 2002 Impact factor: 26.379

9. MAX1 and MAX2 control shoot lateral branching in Arabidopsis.

Authors: Petra Stirnberg; Karin van De Sande; H M Ottoline Leyser
Journal: Development Date: 2002-03 Impact factor: 6.868

10. The Arabidopsis MAX pathway controls shoot branching by regulating auxin transport.

Authors: Tom Bennett; Tobias Sieberer; Barbara Willett; Jon Booker; Christian Luschnig; Ottoline Leyser
Journal: Curr Biol Date: 2006-03-21 Impact factor: 10.834

214 in total

1. PhEXPA1, a Petunia hybrida expansin, is involved in cell wall metabolism and in plant architecture specification.

Authors: Silvia Dal Santo; Marianna Fasoli; Erika Cavallini; Giovanni Battista Tornielli; Mario Pezzotti; Sara Zenoni
Journal: Plant Signal Behav Date: 2011-12

2. Reduced tillering in Basmati rice T-DNA insertional mutant OsTEF1 associates with differential expression of stress related genes and transcription factors.

Authors: Priyanka Paul; Anjali Awasthi; Amit Kumar Rai; Santosh Kumar Gupta; R Prasad; T R Sharma; H S Dhaliwal
Journal: Funct Integr Genomics Date: 2012-02-25 Impact factor: 3.410

3. Structure-activity relationship studies of strigolactone-related molecules for branching inhibition in garden pea: molecule design for shoot branching.

Authors: François-Didier Boyer; Alexandre de Saint Germain; Jean-Paul Pillot; Jean-Bernard Pouvreau; Victor Xiao Chen; Suzanne Ramos; Arnaud Stévenin; Philippe Simier; Philippe Delavault; Jean-Marie Beau; Catherine Rameau
Journal: Plant Physiol Date: 2012-06-21 Impact factor: 8.340

Review 4. The phytohormone crosstalk paradigm takes center stage in understanding how plants respond to abiotic stresses.

Authors: Ajay Kohli; Nese Sreenivasulu; Prakash Lakshmanan; Prakash P Kumar
Journal: Plant Cell Rep Date: 2013-06-08 Impact factor: 4.570