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MADS-box gene expression in lateral primordia, meristems and differentiated tissues of <SMALL>Arabidopsis thaliana</SMALL> roots

MADS-box gene expression in lateral primordia, meristems and differentiated tissues of Arabidopsis thaliana roots

JournalPlanta
PublisherSpringer Berlin / Heidelberg
ISSN0032-0935 (Print) 1432-2048 (Online)
IssueVolume 214, Number 3 / January, 2002
CategoryOriginal Article
DOI10.1007/s004250100637
Pages365-372
Subject CollectionBiomedical and Life Sciences
SpringerLink DateThursday, February 19, 2004
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Abstract

Although MADS-box genes involved in flower and fruit development have been well characterized, the function of MADS-box genes expressed in vegetative structures has yet to be explored. At least seven members of this family are grouped in clades of genes that are preferentially expressed in roots of Arabidopsis thaliana (L.) Heynh.. We report here the cloning of the AGL21 MADS-box gene, which belongs to the ANR1 clade, and the mRNA in situ expression patterns of this and two other root MADS-box genes. AGL17 appears to be a lateral root cap marker in the root tip, and towards the elongation zone this gene is expressed in the epidermal cells. AGL21 is highly expressed in lateral root primordia and it has a punctate expression pattern in the primary root meristem. AGL12 also has a punctate expression pattern in the primary root meristem. AGL12 and AGL21 are also expressed in the central cylinder of differentiated roots and both are expressed in developing embryos. This study, combined with previous phylogenetic analyses, indicates that these MADS-box genes may play distinct regulatory roles during root development.

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  1. Oliveira, Raphael Ricon (2010) In Silico and Quantitative Analyses of MADS-Box Genes in Coffea arabica . Plant Molecular Biology Reporter
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  2. Whittle, Carrie A. (2009) Comparative transcript analyses of the ovule, microspore, and mature pollen in Brassica napus . Plant Molecular Biology
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  3. FORDE, BRIAN G. (2009) Nitrate and glutamate as environmental cues for behavioural responses in plant roots. Plant Cell & Environment 32(6)
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  4. Zhu, Cong (2005) Control of expression and autoregulation of AGL15, a member of the MADS-box family. The Plant Journal 41(4)
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  5. Czechowski, Tomasz (2004) Real-time RT-PCR profiling of over 1400 Arabidopsis transcription factors: unprecedented sensitivity reveals novel root- and shoot-specific genes. The Plant Journal 38(2)
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  6. Ku, A. T. (2008) IbMADS1 (Ipomoea batatas MADS-box 1 gene) is Involved in Tuberous Root Initiation in Sweet Potato (Ipomoea batatas). Annals of Botany 102(1)
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  7. Han, Ping (2008) AGAMOUS-LIKE 17, a novel flowering promoter, acts in a FT-independent photoperiod pathway. The Plant Journal 0(0)
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  8. Tang, Jiabin (2005) Gene expression profiling in rice young panicle and vegetative organs and identification of panicle-specific genes through known gene functions. Molecular Genetics and Genomics 274(5)
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  9. Gan, Yinbo (2005) Nutritional regulation of ANR1 and other root-expressed MADS-box genes in Arabidopsis thaliana . Planta 222(4)
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