Expression Profiles of Arabidopsis thaliana VQ Gene Family in Defense Related Hormones Treatments

Several VQ proteins are recently identified as WRKY factors interacting partners in Arabidopsis and involved in regulating physiological processes. Searching of genomic databases found that VQ gene family is specific to land plants and these VQ genes encode proteins characteristic of a conserved VQ motif. It consists of 34 representatives in Arabidopsis and can be divided into two groups based on the similarity of the amino acid sequences. To understand the functions of Arabidopsis VQ proteins, we examined the expression profiles of AtVQ genes in various defense related hormones treatments. qRT PCR analysis revealed that a majority of them were differently regulated in response to salicylic acid (SA), methyl jasmonate (MeJA), or 1 aminocyclopropane 1 carboxylate (ACC). And some members are induced by two of these three hormones. Moreover, four members (AtVQ3, AtVQ18, AtVQ23 and AtVQ24) are induced by SA, MeJA and ACC simultaneity. However, there is only one AtVQ gene (AtVQ27) is up regulated after spraying of abscisic acid (ABA). These results suggest that Arabidopsis VQ genes may be involved in plant defense responses.     

拟南芥VQ基因家族响应抗性相关激素表达谱分析

近年来与WRKY转录因子相互作用的VQ-motif蛋白逐渐引起广泛关注.它是一类植物特异性蛋白,目前在拟南芥(Arabidopsis thaliana)中已鉴定到34个成员,据其所编码氨基酸的序列相似性构建系统进化树,这34个成员聚集成两大簇.实时定量荧光PCR分析表明在SA(水杨酸),MeJA(茉莉酸甲酯),ACC(乙烯前体),ABA(脱落酸)处理下AtVQ基因家族中有多个成员分别受SA,JA,ET高倍诱导,部分成员受SA,JA,ET中两种激素诱导,其中AtVQ3,AtVQ18,AtVQ23和AtVQ24同时受SA,JA,ET诱导,仅AtVQ27受ABA诱导,推测拟南芥VQ家族成员在抗病方面起作用.     

ROP11 GTPase Negatively Regulates ABA Signaling by Protecting ABI1 Phosphatase Activity from Inhibition by the ABA Receptor RCAR1/PYL9 in Arabidopsis

The phytohormone abscisic acid (ABA) regulates many key processes in plants, such as seed germina- tion, seedling growth, and abiotic stress tolerance. In recent years, a minimal set of core components of a major ABA signaling pathway has been discovered. These components include a RCAR/PYR/PYL family of ABA receptors, a group of PP2C phosphatases, and three SnRK2 kinases. However, how the interactions between the receptors and their targets are regulated by other proteins remains largely unknown. In a companion paper published in this issue, we showed that ROP11, a member of the plant- specific Rho-like small GTPase family, negatively regulates multiple ABA responses in Arabidopsis. The current work demonstrated that the constitutively active ROP11 (CA-ROP11) can modulate the RCAR1/PYL9-mediated ABA signaling pathway based on reconstitution assays in Arabidopsis thaliana protoplasts. Furthermore, using luciferase complementation imaging, yeast two-hybrid assays, co- immunoprecipitation assays in Nicotiana benthamiana and bimolecular fluorescence complementation assays, we demonstrated that CA-ROP11 directly interacts with ABI1, a signaling component downstream of RCAR1/PYL9. Finally, we provided biochemical evidence that CA-ROP11 protects ABI1 phosphatase activity from inhibition by RCAR1/PYL9 and thus negatively regulates ABA signaling in plant cells. A model of how ROP11 acts to negatively regulate ABA signaling is presented.     

Genome-wide analysis of poplar VQ gene family and expression profiling under PEG,NaCl, and SA treatments

The past research has demonstrated that the VQ genes in Arabidopsis thaliana, Oryza sativa, and Vitis vinifera L play vital roles in their growth, development, and stress responses. So far, no information available describes the functions of the VQ genes in Populus trichocarpa. In our study, comprehensive analysis of poplar VQ genes were performed including genome-wide identification, characterization, and expression analysis under polyethylene glycerol (PEG), NaCl, and salicylic acid (SA) treatment. Fifty-one VQ genes were identified and classified into seven subfamilies (I–VII), distributed randomly on 17 of the 19 chromosomes in poplar. Moreover, these VQ genes expanded primarily due to segmental duplication. In addition, gene structure and protein motif analysis indicated that these genes were relatively conserved within each subfamily; especially 39 of the 51 VQ genes had no introns. The results of quantitative real-time RT-PCR (qRT-PCR) analysis indicated that the VQ genes were variously expressed under different stresses. Our study provides a comprehensive overview of poplar VQ genes, which will be beneficial to the molecular breeding of poplar to promote its resistance to environment stresses, as well as overall thorough research about VQ gene functions.     

脱落酸激素诱导拟南芥幼苗中花青素的合成

脱落酸(abscisic acid,ABA)激素是一类重要的生长调节物质,参与调控植物的多种生理过程。花青素(anthocyanins)是植物次生代谢产生的类黄酮化合物,对植物的生长发育和逆境胁迫响应有重要作用。该文以拟南芥(Arabidopsis thaliana)为研究对象,探讨ABA信号对花青素生物合成的调控功能和作用机制。结果表明:外源施加ABA显著提高野生型幼苗茎尖中花青素的积累。相一致的是,ABA能诱导某些与花青素合成相关的转录因子及合成酶基因的表达。遗传学分析发现,ABA诱导花青素合成部分依赖于MBW复合体中的核心转录因子,如TTG1、TT8及MYB75等。初步机制研究揭示,ABA信号途径中的bZIP类转录因子ABI5能与TTG1、TT8及MYB75等相互作用形成蛋白复合物。综上结果认为,ABA信号诱导拟南芥幼苗中花青素的积累,并可能通过ABI5与MBW复合体协同作用调控花青素的合成。