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Identification and characterization of petiolule- like pulvinus mutants with abolished nyctinastic leaf movement in the model legume Medicago truncatula
Article first published online: 14 AUG 2012
© 2012 The Authors. New Phytologist © 2012 New Phytologist Trust
Volume 196, Issue 1, pages 92–100, October 2012
How to Cite
New Phytologist (2012) 196: 92–100
- Issue published online: 24 AUG 2012
- Article first published online: 14 AUG 2012
- Manuscript Accepted: 10 JUL 2012
- Manuscript Received: 23 MAY 2012
- Samuel Roberts Noble Foundation
- the National Science Foundation. Grant Number: EPS-0814361
- BioEnergy Science Center
- Office of Biological and Environmental Research
- 2009. The NAC-domain transcription factor GOBLET specifies leaflet boundaries in compound tomato leaves. Development 136: 823–832. , , , , , , , , , .
- 2008. A conserved molecular framework for compound leaf development. Science 322: 1835–1839. , , , , , , , , .
- 2010. Control of dissected leaf morphology by a Cys(2)His(2) zinc finger transcription factor in the model legume Medicago truncatula. Proceedings of the National Academy of Sciences, USA 107: 10754–10759. , , , , , , , , , et al.
- 2012. NO APICAL MERISTEM (MtNAM) regulates floral organ identity and lateral organ separation in Medicago truncatula. New Phytologist 195: 71–84. , , , , , , .
- 1994. Impact of low-temperature stress on general phenylpropanoid and anthocyanin pathways enhancement of transcript abundance and anthocyanin pigmentation in maize seedlings. Planta 194: 541–549. , , .
- 2006. Medicago truncatula transformation using leaf explants. Methods Molecular Biology 343: 115–127. , , , , .
- 1880. The power of movement in plants. London, UK: J. Murray. .
- 2005. Metabolic engineering of isoflavonoid biosynthesis in alfalfa. Plant Physiology 138: 2245–2259. , .
- 1995. Stress-induced phenylpropanoid metabolism. Plant Cell 7: 1085–1097. , .
- 2005. Plant circadian clocks increase photosynthesis, growth, survival, and competitive advantage. Science 309: 630–633. , , , , , , , , .
- 2006. Gateway-compatible vectors for plant functional genomics and proteomics. Plant Journal 45: 616–629. , , , , , , .
- 2010. Morphogenesis of simple and compound leaves: a critical review. Plant Cell 22: 1019–1032. , , .
- 2000. Functional role of anthocyanins in the leaves of Quintinia serrata A. Cunn. Journal of Experimental Botany 51: 1107–1115. , , , .
- 2010. KNOX genes: versatile regulators of plant development and diversity. Development 137: 3153–3165. , .
- 2010. Opinion on the possible role of flavonoids as energy escape valves: novel tools for nature's Swiss army knife? Plant Science 179: 297–301. , .
- 1987. GUS fusions: beta-glucuronidase as a sensitive and versatile gene fusion marker in higher plants. EMBO Journal 6: 3901–3907. , , .
- 2002. Molecular response of plant cells to UV-B stress. Functional Plant Biology 29: 909–916. .
- 2011. System responses to long-term drought and re-watering of two contrasting alfalfa varieties. Plant Journal 68: 871–889. , , , , , , .
- 2003. SLEEPLESS, a gene conferring nyctinastic movement in legume. Journal of Plant Research 116: 151–154. .
- 2011. Defining the boundaries: structure and function of LOB domain proteins. Trends in Plant Science 16: 47–52. , .
- 1987. A suite of mutants that modify pattern formation in pea leaves. Plant Molecular Biology Reporter 5: 311–335. .
- 2006. Plant circadian rhythms. Plant Cell 18: 792–803. .
- 2010. Plant development goes like clockwork. Trends in Genetics 26: 296–306. , , .
- 2009. MERE1, a low-copy-number copia-type retroelement in Medicago truncatula active during tissue culture. Plant Physiology 151: 1250–1263. , , , , , , , , , .
- 2011. Hormone crosstalk in plant disease and defense: more than just jasmonate–salicylate antagonism. Annual Review of Phytopathology 49: 317–343. , , .
- 2002. The lateral organ boundaries gene defines a novel, plant-specific gene family. Plant Physiology 129: 747–761. , , .
- 2008. Making sense of hormone crosstalk during plant immune responses. Cell Host & Microbe 3: 348–351. , .
- 2008. Large-scale insertional mutagenesis using the Tnt1 retrotransposon in the model legume Medicago truncatula. Plant Journal 54: 335–347. , , , , , , , , , et al.
- 2007. MEGA4: Molecular Evolutionary Genetics Analysis (MEGA) software version 4.0. Molecular Biology and Evolution 24: 1596–1599. , , , .
- 2004. MAPMAN: a user-driven tool to display genomics data sets onto diagrams of metabolic pathways and other biological processes. Plant Journal 37: 914–939. , , , , , , , , , .
- 2007. Chemical basis of plant leaf movement. Plant & Cell Physiology 48: 900–907. , .
- 2008. Aquaporins and plant leaf movements. Annals of Botany 101: 1–4. , .
- 2006. PageMan: an interactive ontology tool to generate, display, and annotate overview graphs for profiling experiments. BMC Bioinformatics 7: 535. , , , , , , , , , et al.
- 2005. Genome-wide analysis of hydrogen peroxide-regulated gene expression in Arabidopsis reveals a high light-induced transcriptional cluster involved in anthocyanin biosynthesis. Plant Physiology 139: 806–821. , , , , , , , .
- 2008. Control of compound leaf development by FLORICAULA/LEAFY ortholog SINGLE LEAFLET1 in Medicago truncatula. Plant Physiology 146: 1759–1772. , , , , , , , , .
- 2009. Jalview Version 2–a multiple sequence alignment editor and analysis workbench. Bioinformatics 25: 1189–1191. , , , , .
- 2009. Survival of the flexible: hormonal growth control and adaptation in plant development. Nature Reviews Genetics 10: 305–317. , .
- 2011b. Developmental analysis of a Medicago truncatula smooth leaf margin1 mutant reveals context-dependent effects on compound leaf development. Plant Cell 23: 2106–2124. , , , , , , , .
- 2011a. From model to crop: functional analysis of a STAY-GREEN gene in the model legume Medicago truncatula and effective use of the gene for alfalfa improvement. Plant Physiology 157: 1483–1496. , , , , , , , , , et al.