Aviezer-Hagai Keren, Skovorodnikova Julia, Galigniana Mario, Farchi-Pisanty Odelia, Maayan Erez, Bocovza Shmuel, Efrat Yael, von Koskull-Döring Pascal, Ohad Nir, Breiman Adina
Department of Plant Sciences, Tel Aviv University, Tel Aviv, Israel.
Plant Mol Biol. 2007 Jan;63(2):237-55. doi: 10.1007/s11103-006-9085-z. Epub 2006 Nov 2.
The plant co-chaperones FK506-binding proteins (FKBPs) are peptidyl prolyl cis-trans isomerases that function in protein folding, signal transduction and chaperone activity. We report the characterization of the Arabidopsis large FKBPs ROF1 (AtFKBP62) and ROF2 (AtFKBP65) expression and protein accumulation patterns. Transgenic plants expressing ROF1 promoter fused to GUS reporter gene reveal that ROF1 expression is organ specific. High expression was observed in the vascular elements of roots, in hydathodes and trichomes of leaves and in stigma, sepals, and anthers. The tissue specificity and temporal expression of ROF1 and ROF2 show that they are developmentally regulated. Although ROF1 and ROF2 share 85% identity, their expression in response to heat stress is differentially regulated. Both genes are induced in plants exposed to 37 degrees C, but only ROF2 is a bonafide heat-stress protein, undetected when plants are grown at 22 degrees C. ROF1/ROF2 proteins accumulate at 37 degrees C, remain stable for at least 4 h upon recovery at 22 degrees C, whereas, their mRNA level is reduced after 1 h at 22 degrees C. By protein interaction assays, it was demonstrated, that ROF1 is a novel partner of HSP90. The five amino acids identified as essential for recognition and interaction between the mammalian chaperones and HSP90 are conserved in the plant ROF1-HSP90. We suggest that ROF/HSP90 complexes assemble in vivo. We propose that specific complexes formation between an HSP90 and ROF isoforms depends on their spatial and temporal expression. Such complexes might be regulated by environmental conditions such as heat stress or internal cues such as different hormones.
植物共伴侣蛋白FK506结合蛋白(FKBPs)是肽基脯氨酰顺反异构酶,在蛋白质折叠、信号转导和伴侣活性中发挥作用。我们报道了拟南芥大型FKBPs ROF1(AtFKBP62)和ROF2(AtFKBP65)的表达及蛋白质积累模式的特征。表达与GUS报告基因融合的ROF1启动子的转基因植物表明,ROF1的表达具有器官特异性。在根的维管组织、叶的排水器和毛状体以及柱头、萼片和花药中观察到高表达。ROF1和ROF2的组织特异性和时间表达表明它们受发育调控。尽管ROF1和ROF2有85%的同源性,但它们对热胁迫的表达受到不同的调控。在暴露于37℃的植物中,这两个基因都被诱导,但只有ROF2是真正的热胁迫蛋白,在22℃生长的植物中未检测到。ROF1/ROF2蛋白在37℃积累,在22℃恢复后至少4小时保持稳定,而它们的mRNA水平在22℃ 1小时后降低。通过蛋白质相互作用分析表明,ROF1是HSP90的新伙伴。在哺乳动物伴侣蛋白和HSP90之间识别和相互作用所必需的五个氨基酸在植物ROF1-HSP90中是保守的。我们认为ROF/HSP90复合物在体内组装。我们提出HSP90和ROF异构体之间特定复合物的形成取决于它们的空间和时间表达。这种复合物可能受热胁迫等环境条件或不同激素等内部信号的调控。
