Biosciences Division, Oak Ridge National Laboratory, Oak Ridge, TN, USA.
Center for Bioenergy Innovation, Oak Ridge National Laboratory, Oak Ridge, TN, USA.
Plant Biotechnol J. 2020 Mar;18(3):859-871. doi: 10.1111/pbi.13254. Epub 2019 Sep 27.
Prefoldin (PFD) is a group II chaperonin that is ubiquitously present in the eukaryotic kingdom. Six subunits (PFD1-6) form a jellyfish-like heterohexameric PFD complex and function in protein folding and cytoskeleton organization. However, little is known about its function in plant cell wall-related processes. Here, we report the functional characterization of a PFD gene from Populus deltoides, designated as PdPFD2.2. There are two copies of PFD2 in Populus, and PdPFD2.2 was ubiquitously expressed with high transcript abundance in the cambial region. PdPFD2.2 can physically interact with DELLA protein RGA1_8g, and its subcellular localization is affected by the interaction. In P. deltoides transgenic plants overexpressing PdPFD2.2, the lignin syringyl/guaiacyl ratio was increased, but cellulose content and crystallinity index were unchanged. In addition, the total released sugar (glucose and xylose) amounts were increased by 7.6% and 6.1%, respectively, in two transgenic lines. Transcriptomic and metabolomic analyses revealed that secondary metabolic pathways, including lignin and flavonoid biosynthesis, were affected by overexpressing PdPFD2.2. A total of eight hub transcription factors (TFs) were identified based on TF binding sites of differentially expressed genes in Populus transgenic plants overexpressing PdPFD2.2. In addition, several known cell wall-related TFs, such as MYB3, MYB4, MYB7, TT8 and XND1, were affected by overexpression of PdPFD2.2. These results suggest that overexpression of PdPFD2.2 can reduce biomass recalcitrance and PdPFD2.2 is a promising target for genetic engineering to improve feedstock characteristics to enhance biofuel conversion and reduce the cost of lignocellulosic biofuel production.
Prefoldin (PFD) 是一种普遍存在于真核生物中的 II 型分子伴侣。六个亚基(PFD1-6)形成一个水母状的异六聚体 PFD 复合物,在蛋白质折叠和细胞骨架组织中发挥作用。然而,关于其在植物细胞壁相关过程中的功能知之甚少。在这里,我们报道了从杨属(Populus deltoides)中分离得到的 PFD 基因(命名为 PdPFD2.2)的功能特征。杨树中有两个 PFD2 拷贝,PdPFD2.2 在形成层区域广泛表达,转录本丰度较高。PdPFD2.2 可以与 DELLA 蛋白 RGA1_8g 发生物理相互作用,其亚细胞定位受相互作用的影响。在过表达 PdPFD2.2 的杨属转基因植物中,木质素的愈创木基/紫丁香基比例增加,但纤维素含量和结晶度指数不变。此外,两个转基因株系中总释放糖(葡萄糖和木糖)量分别增加了 7.6%和 6.1%。转录组和代谢组分析表明,过表达 PdPFD2.2 影响次生代谢途径,包括木质素和类黄酮生物合成。基于过表达 PdPFD2.2 的杨属转基因植物中差异表达基因的 TF 结合位点,共鉴定出 8 个 hub 转录因子(TF)。此外,几个已知的细胞壁相关 TF,如 MYB3、MYB4、MYB7、TT8 和 XND1,也受到 PdPFD2.2 过表达的影响。这些结果表明,过表达 PdPFD2.2 可以降低生物质的抗降解性,PdPFD2.2 是遗传工程的一个有前途的目标,可以改善原料特性,提高生物燃料转化效率,降低木质纤维素生物燃料生产成本。
