Regulation of Compound Leaf Development in Medicago truncatula by Fused Compound Leaf1, a Class M KNOX Gene

Jisheng, Peng; Yu, Jun; Wang, Hongliang; Guo, Yingqing; Li, Guangming; Bai, Guihua; Chen, Rujin

doi:10.1105/tpc.111.089128

Cited by 53 publications

(61 citation statements)

References 55 publications

(84 reference statements)

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“…KD1 is known to modulate boundary separation and proximal-distal axis development in leaves (Kimura et al, 2008;Magnani and Hake, 2008;Peng et al, 2011), and our previous microarray analysis suggested a role for KD1 in leaf and flower abscission (Meir et al, 2010). Manipulating expression of KD1 by silencing or overexpression affects various aspects of plant development.…”

Section: Discussionmentioning

confidence: 96%

A KNOTTED1-LIKE HOMEOBOX Protein Regulates Abscission in Tomato by Modulating the Auxin Pathway

Meir

Xiao

et al. 2015

Plant Physiology

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A gene encoding a KNOTTED1-LIKE HOMEOBOX PROTEIN1 (KD1) is highly expressed in both leaf and flower abscission zones. Reducing the abundance of transcripts of this gene in tomato (Solanum lycopersicum) by both virus-induced gene silencing and stable transformation with a silencing construct driven by an abscission-specific promoter resulted in a striking retardation of pedicel and petiole abscission. In contrast, Petroselinum, a semidominant KD1 mutant, showed accelerated pedicel and petiole abscission. Complementary DNA microarray and quantitative reverse transcription-polymerase chain reaction analysis indicated that regulation of abscission by KD1 was associated with changed abundance of genes related to auxin transporters and signaling components. Measurement of auxin content and activity of a DR5::b-glucuronidase auxin reporter assay showed that changes in KD1 expression modulated the auxin concentration and response gradient in the abscission zone.

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Section: Discussionmentioning

confidence: 96%

A KNOTTED1-LIKE HOMEOBOX Protein Regulates Abscission in Tomato by Modulating the Auxin Pathway

Meir

Xiao

et al. 2015

Plant Physiology

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“…M. truncatula elp1 mutants were isolated from FN and Tnt1 mutant collections as previously reported (19,36). Pea apu mutants were identified from the pea germplasm collections at The John Innes Centre (http://data.jic.bbsrc.ac.uk/cgi-bin/germplasm/pisum/) and the US Department of Agriculture-Agricultural Research Service Pacific West.…”

Section: Methodsmentioning

confidence: 99%

“…Jemalong A20. The ELP1 locus was mapped by bulked segregant analysis (BSA) and fine genetic mapping following procedures as previously reported (19,36). For BSA, two bulked pools from 50 F2 mutant plants each were analyzed using 93 SSR markers distributed on the eight chromosomes (37).…”

Section: Methodsmentioning

confidence: 99%

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Conserved genetic determinant of motor organ identity in Medicago truncatula and related legumes

Chen

Moreau

Liu

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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Plants exhibit various kinds of movements that have fascinated scientists and the public for centuries. Physiological studies in plants with the so-called motor organ or pulvinus suggest that cells at opposite sides of the pulvinus mediate leaf or leaflet movements by swelling and shrinking. How motor organ identity is determined is unknown. Using a genetic approach, we isolated a mutant designated elongated petiolule1 ( elp1 ) from Medicago truncatula that fails to fold its leaflets in the dark due to loss of motor organs. Map-based cloning indicated that ELP1 encodes a putative plant-specific LOB domain transcription factor. RNA in situ analysis revealed that ELP1 is expressed in primordial cells that give rise to the motor organ. Ectopic expression of ELP1 resulted in dwarf plants with petioles and rachises reduced in length, and the epidermal cells gained characteristics of motor organ epidermal cells. By identifying ELP1 orthologs from other legume species, namely pea ( Pisum sativum ) and Lotus japonicus , we show that this motor organ identity is regulated by a conserved molecular mechanism.

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“…31,No. 6 numbers and often fused leaflets [64,65]. FCL1 has targets similar to those of class 1 KNOX and is likely to work to extend the organogenic potential in dissected leaves.…”

Section: Reviewmentioning

confidence: 99%

Organogenesis in plants: initiation and elaboration of leaves

Sluis

Hake

2015

Trends in Genetics

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Regulation of Compound Leaf Development in Medicago truncatula by Fused Compound Leaf1, a Class M KNOX Gene

Cited by 53 publications

References 55 publications

A KNOTTED1-LIKE HOMEOBOX Protein Regulates Abscission in Tomato by Modulating the Auxin Pathway

A KNOTTED1-LIKE HOMEOBOX Protein Regulates Abscission in Tomato by Modulating the Auxin Pathway

Conserved genetic determinant of motor organ identity in Medicago truncatula and related legumes

Organogenesis in plants: initiation and elaboration of leaves

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