Na Jong-Kuk, Kim Jae-Kwang, Kim Dool-Yi, Assmann Sarah M
Biology Department, Pennsylvania State University, University Park, Pennsylvania 16802 USA Molecular Breeding Division, National Academy of Agricultural Science, RDA, Wanju-gun, Jeollabuk-do 565-851, Republic of Korea.
Division of Life Sciences, College of Life Sciences and Bioengineering, Incheon National University, Incheon 406-772, Republic of Korea.
J Exp Bot. 2015 Jul;66(13):4023-33. doi: 10.1093/jxb/erv207. Epub 2015 May 5.
The Arabidopsis thaliana genome encodes three RNA-binding proteins (RBPs), UBP1-associated protein 2a (UBA2a), UBA2b, and UBA2c, that contain two RNA-recognition motif (RRM) domains. They play important roles in wounding response and leaf senescence, and are homologs of Vicia faba abscisic-acid-activated protein kinase-interacting protein 1 (VfAKIP1). The potato (Solanum tuberosum) genome encodes at least seven AKIP1-like RBPs. Here, two potato RBPs have been characterized, StUBA2a/b and StUBA2c, that are homologous to VfAKIP1 and Arabidopsis UBA2s. Transient expression of StUBA2s induced a hypersensitive-like cell death phenotype in tobacco leaves, and an RRM-domain deletion assay of StUBA2s revealed that the first RRM domain is crucial for the phenotype. Unlike overexpression of Arabidopsis UBA2s, constitutive expression of StUBA2a/b in Arabidopsis did not cause growth arrest and lethality at the young seedling stage, but induced early leaf senescence. This phenotype was associated with increased expression of defence- and senescence-associated genes, including pathogen-related genes (PR) and a senescence-associated gene (SAG13), and it was aggravated upon flowering and ultimately resulted in a shortened life cycle. Leaf senescence of StUBA2a/b Arabidopsis plants was enhanced under darkness and was accompanied by H2O2 accumulation and altered expression of autophagy-associated genes, which likely cause cellular damage and are proximate causes of the early leaf senescence. Expression of salicylic acid signalling and biosynthetic genes was also upregulated in StUBA2a/b plants. Consistent with the localization of UBA2s-GFPs and VfAKIP1-GFP, soluble-modified GFP-StUBA2s localized in the nucleus within nuclear speckles. StUBA2s potentially can be considered for transgenic approaches to induce potato shoot senescence, which is desirable at harvest.
拟南芥基因组编码三种RNA结合蛋白(RBPs),即UBP1相关蛋白2a(UBA2a)、UBA2b和UBA2c,它们含有两个RNA识别基序(RRM)结构域。它们在伤口应答和叶片衰老中发挥重要作用,并且是蚕豆脱落酸激活蛋白激酶相互作用蛋白1(VfAKIP1)的同源物。马铃薯(茄属)基因组编码至少七种AKIP1样RBPs。在此,已对两种马铃薯RBPs,即StUBA2a/b和StUBA2c进行了表征,它们与VfAKIP1和拟南芥UBA2s同源。StUBA2s的瞬时表达在烟草叶片中诱导了类似过敏反应的细胞死亡表型,并且对StUBA2s的RRM结构域缺失分析表明,第一个RRM结构域对该表型至关重要。与拟南芥UBA2s的过表达不同,StUBA2a/b在拟南芥中的组成型表达在幼苗早期不会导致生长停滞和致死,但会诱导叶片早衰。该表型与防御和衰老相关基因的表达增加有关,包括病程相关基因(PR)和一个衰老相关基因(SAG13),并且在开花时加剧,最终导致生命周期缩短。黑暗条件下,StUBA2a/b拟南芥植株的叶片衰老增强,并伴有H2O2积累和自噬相关基因表达改变,这可能导致细胞损伤,是叶片早衰的直接原因。水杨酸信号传导和生物合成基因的表达在StUBA2a/b植株中也上调。与UBA2s-GFPs和VfAKIP1-GFP的定位一致,可溶性修饰的GFP-StUBA2s定位于核内斑点中的细胞核中。StUBA2s有可能被用于转基因方法来诱导马铃薯地上部衰老,这在收获时是可取的。
