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桃(Prunus persica [L.] Batsch)同源异型盒基因KNOPE3编码一种2类结状转录因子,该基因在叶片发育过程中受调控,并由糖类触发。

The peach (Prunus persica [L.] Batsch) homeobox gene KNOPE3, which encodes a class 2 knotted-like transcription factor, is regulated during leaf development and triggered by sugars.

作者信息

Testone Giulio, Condello Emiliano, Verde Ignazio, Caboni Emilia, Iannelli Maria Adelaide, Bruno Leonardo, Mariotti Domenico, Bitonti Maria Beatrice, Giannino Donato

机构信息

Institute of Agricultural Biology and Biotechnology, National Research Council of Italy (CNR), via Salaria km 29300, 00015 Monterotondo Scalo, Rome, Italy.

出版信息

Mol Genet Genomics. 2009 Jul;282(1):47-64. doi: 10.1007/s00438-009-0445-7. Epub 2009 Mar 31.

DOI:10.1007/s00438-009-0445-7
PMID:19333623
Abstract

Class 1 KNOTTED1-like transcription factors (KNOX) are known to regulate plant development, whereas information on class 2 KNOX has been limited. The peach KNOPE3 gene was cloned, belonged to a family of few class 2 members and was located at 66 cM in the Prunus spp. G1 linkage-group. The mRNA localization was diversified in leaf, stem, flower and drupe, but recurred in all organ sieves, suggesting a role in sap nutrient transport. During leaf development, the mRNA earliest localized to primordia sieves and subsequently to mesophyll cells of growing leaves. Consistently, its abundance augmented with leaf expansion. The transcription was monitored in leaves responding to darkening, supply and transport block of sugars. It peaked at 4 h after darkness and dropped under prolonged obscurity, showing a similar kinetic to that of sucrose content variation. Feeding leaflets via the transpiration stream caused KNOPE3 up-regulation at 3 h after fructose, glucose and sucrose absorption and at 12 h after sorbitol. In girdling experiments, leaf KNOPE3 was triggered from 6 h onwards along with sucrose and sorbitol raise. Both the phloem-associated expression and sugar-specific gene modulation suggest that KNOPE3 may play a role in sugar translocation during the development of agro-relevant organs such as drupe.

摘要

1类KNOTTED1样转录因子(KNOX)已知可调节植物发育,而关于2类KNOX的信息有限。桃KNOPE3基因被克隆,属于2类成员较少的一个家族,位于李属G1连锁群的66 cM处。该基因的mRNA在叶、茎、花和核果中的定位多样,但在所有器官筛管中反复出现,表明其在汁液养分运输中发挥作用。在叶片发育过程中,mRNA最早定位于原基筛管,随后定位于生长叶片的叶肉细胞。同样,其丰度随着叶片扩展而增加。在对叶片进行遮光、糖分供应和运输阻断处理时监测其转录情况。遮光4小时后转录达到峰值,长时间遮光后下降,显示出与蔗糖含量变化相似的动力学。通过蒸腾流给小叶喂食果糖、葡萄糖和蔗糖吸收后3小时以及山梨醇吸收后12小时,KNOPE3上调。在环剥实验中,从6小时起,随着蔗糖和山梨醇含量升高,叶片中的KNOPE3被激活。与韧皮部相关的表达以及糖特异性基因调节都表明,KNOPE3可能在核果等农业相关器官发育过程中的糖分转运中发挥作用。

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Natural variation in leaf morphology results from mutation of a novel KNOX gene.
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