2009
DOI: 10.1111/j.1365-313x.2009.03913.x
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STAMENLESS 1, encoding a single C2H2 zinc finger protein, regulates floral organ identity in rice

Abstract: SUMMARYFloral organ identity is defined by organ homoetic genes whose coordinated expression is crucial with respect to the time and place of floral organ formation. Here, we report molecular cloning and characterization of the rice STAMENLESS 1 (SL1) gene that is involved in floral development. The sl1 mutant largely resembles the rice B-class gene mutant spw1; both exhibit homeotic conversions of lodicules and stamens to palea/lemmalike organs and carpels. Additionally, sl1 produces flowers with varied numbe… Show more

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Cited by 102 publications
(112 citation statements)
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“…Both TF classes regulate KNOX gene expression in a shared pathway together with AtBOP1/2 and are repressed in Arabidopsis leaves and bracts (Norberg et al, 2005;Ha et al, 2007;Jun et al, 2010). Mutations of members belonging to these TF families are associated with changes in the spatiotemporal expression of KNOX genes causing pleiotropic alterations in the rice inflorescences: (1) elongated panicles (Horigome et al, 2009); (2) reduced growth of the lemma and palea; and (3) alterations in the number and identity of floral organs (Horigome et al, 2009;Xiao et al, 2009;Tanaka et al, 2012). These analogies in rice and barley anatomy and the similarities in the regulatory networks among rice and Arabidopsis may again imply that BOP gene regulatory pathways are partially conserved between monocot and dicot plants, suggesting that the barley BOP-like gene HvLax-a could fulfill a central function in controlling meristem identity, as BOP1/2 does in Arabidopsis.…”
Section: Hvlax-a a Key Regulatory Gene Of Barley Inflorescence Archimentioning
confidence: 99%
“…Both TF classes regulate KNOX gene expression in a shared pathway together with AtBOP1/2 and are repressed in Arabidopsis leaves and bracts (Norberg et al, 2005;Ha et al, 2007;Jun et al, 2010). Mutations of members belonging to these TF families are associated with changes in the spatiotemporal expression of KNOX genes causing pleiotropic alterations in the rice inflorescences: (1) elongated panicles (Horigome et al, 2009); (2) reduced growth of the lemma and palea; and (3) alterations in the number and identity of floral organs (Horigome et al, 2009;Xiao et al, 2009;Tanaka et al, 2012). These analogies in rice and barley anatomy and the similarities in the regulatory networks among rice and Arabidopsis may again imply that BOP gene regulatory pathways are partially conserved between monocot and dicot plants, suggesting that the barley BOP-like gene HvLax-a could fulfill a central function in controlling meristem identity, as BOP1/2 does in Arabidopsis.…”
Section: Hvlax-a a Key Regulatory Gene Of Barley Inflorescence Archimentioning
confidence: 99%
“…The SL1ORF-GFP protein acted as a positive nuclear gene control (Xiao et al, 2009). Green fluorescence was detected in the nuclei of rice protoplasts for both MFS1ORF-GFP and SL1ORF-GFP fusion proteins (Fig.…”
Section: Mfs1 Encodes An Erf Domain Proteinmentioning
confidence: 99%
“…Esta estrategia presenta ventajas frente al uso de microarrays. En primer lugar, tiene mayor sensibilidad y reproductibilidad, además de requerir menor cantidad de RNA de partida (Wang et al, 2009;Oshlack et al, 2010, Chen et al, 2011. En segundo lugar, permite capturar un mayor nñumero de tránscritos expresados.…”
Section: Secuenciación Por Rna Sequnclassified
“…En tercer lugar, genera información no solo de la secuencia, sino también de la estructura de exones y posibles eventos de splicing alternativo (Lister et al, 2009;Gulledge et al, 2012). Por si fuera por los datos arrojados por RNA-seq tienen en general una precisión alta, comparable a los estudios de expresión génica que se obtienen a través de qRT-PCR (Nagalakshmi et al, 2008;Wang et al, 2009;Ward et al, 2012).…”
Section: Secuenciación Por Rna Sequnclassified
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