Rosenquist M, Alsterfjord M, Larsson C, Sommarin M
Department of Plant Biochemistry, Lund University, P.O. Box 117, SE-221 00 Lund, Sweden.
Plant Physiol. 2001 Sep;127(1):142-9. doi: 10.1104/pp.127.1.142.
In plants, 14-3-3 proteins are key regulators of primary metabolism and membrane transport. Although the current dogma states that 14-3-3 isoforms are not very specific with regard to target proteins, recent data suggest that the specificity may be high. Therefore, identification and characterization of all 14-3-3 (GF14) isoforms in the model plant Arabidopsis are important. Using the information now available from The Arabidopsis Information Resource, we found three new GF14 genes. The potential expression of these three genes, and of two additional novel GF14 genes (Rosenquist et al., 2000), in leaves, roots, and flowers was examined using reverse transcriptase-polymerase chain reaction and cDNA library polymerase chain reaction screening. Under normal growth conditions, two of these genes were found to be transcribed. These genes were named grf11and grf12, and the corresponding new 14-3-3 isoforms were named GF14omicron and GF14iota, respectively. The gene coding for GF14omicron was expressed in leaves, roots, and flowers, whereas the gene coding for GF14iota was only expressed in flowers. Gene structures and relationships between all members of the GF14 gene family were deduced from data available through The Arabidopsis Information Resource. The data clearly support the theory that two 14-3-3 genes were present when eudicotyledons diverged from monocotyledons. In total, there are 15 14-3-3 genes (grfs 1-15) in Arabidopsis, of which 12 (grfs 1-12) now have been shown to be expressed.
在植物中,14-3-3蛋白是初级代谢和膜运输的关键调节因子。尽管目前的理论认为14-3-3亚型对靶蛋白的特异性不强,但最近的数据表明其特异性可能很高。因此,鉴定和表征模式植物拟南芥中的所有14-3-3(GF14)亚型很重要。利用拟南芥信息资源库现有的信息,我们发现了三个新的GF14基因。使用逆转录聚合酶链反应和cDNA文库聚合酶链反应筛选,检测了这三个基因以及另外两个新的GF14基因(Rosenquist等人,2000年)在叶、根和花中的潜在表达。在正常生长条件下,发现其中两个基因被转录。这些基因被命名为grf11和grf12,相应的新14-3-3亚型分别命名为GF14omicron和GF14iota。编码GF14omicron的基因在叶、根和花中表达,而编码GF14iota的基因仅在花中表达。从拟南芥信息资源库获得的数据推断出GF14基因家族所有成员之间的基因结构和关系。这些数据清楚地支持了双子叶植物与单子叶植物分化时存在两个14-3-3基因的理论。拟南芥中共有15个14-3-3基因(grfs 1-15),其中12个(grfs 1-12)现已证明可以表达。