Heterotopic expression of B-class floral homeotic genes PISTILLATA/GLOBOSA supports a modified model for crocus (Crocus sativus L.) flower formation.

Apostolos Kalivas, Konstantinos Pasentsis, Alexios N Polidoros, Athanasios S Tsaftaris
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引用次数: 32

Abstract

For uncovering and understanding the molecular mechanisms controlling flower development in cultivated Crocus sativus and particularly the transformation of sepals in outer whorl (whorl 1) tepals, we have cloned and characterized the expression of a family of five PISTILLATA/GLOBOSA-like (PI/GLO-like) MADS-box genes expressed in the C. sativus flower. The deduced amino acid sequences of the coded proteins indicated high homology with members of the MADS-box family of transcription factors, and particularly with other members of the PI/GLO family of MADS-box proteins that control floral organ identity. PI/GLO expression studies in cultivated C. sativus uncover the presence of PI/GLO transcripts not only in the second and third whorls of flower organs as expected, but also in the outer whorl tepals that are the sepals in most typical flowers. This heterotopic expression of both B-class genes: PI/GLO and AP3/DEF, known to form heterodimers for stamens and petals (petaloid inner whor l-whorl 2-tepals in C. sativus), explains the homeotic transformation of sepals into outer whorl tepals in this species. Analysis of PI/GLO sequences from C. sativus for putative targets to known micro-RNAs (miRNAs) showed that the target site for ath-miRNA167 found in Arabidopsis thaliana PI is not present in C. sativus, however, the PI/GLO sequences may be regulated by an ath-miRNA163.

b类花同源基因PISTILLATA/GLOBOSA的异位表达支持了藏红花(crocus sativus L.)花形成的改进模型。
为了揭示和理解藏红花花发育的分子机制,特别是控制花被片外轮(第1轮)萼片的转化,我们克隆了一个家族5个PISTILLATA/GLOBOSA-like (PI/ gloa -like) MADS-box基因在藏红花花中的表达,并对其进行了表征。编码蛋白的氨基酸序列与MADS-box转录因子家族成员,特别是与控制花器官身份的MADS-box蛋白PI/GLO家族的其他成员具有高度的同源性。PI/GLO在栽培C. sativus中的表达研究发现,PI/GLO转录本不仅如预期的那样存在于花器官的第二轮和第三轮,而且存在于大多数典型花的外轮花被片(萼片)中。这两个b类基因:PI/GLO和AP3/DEF的异位表达,已知形成雄蕊和花瓣的异位二聚体(C. sativus的花瓣状内轮和l-轮2-花被片),解释了该物种的萼片向外轮花被片的同位转化。对拟南芥PI/GLO序列进行分析,发现拟南芥PI中ath-miRNA167的靶点不存在于拟南芥中,但PI/GLO序列可能受ath-miRNA163的调控。
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