Isolation of transcription factors binding auxin response elements using a yeast one-hybrid system

Plant hormones play an important role during higher plant embryogenesis. Auxin is central to the development of vascular tissues, formation of lateral and adventitious roots, control of apical dominance, and tropic responses. Auxin response element (AuxRE), present in the promoters of many auxin-induced genes, can confer auxin responsiveness. Using carrot somatic embryo under specific developmental phase, a cDNA expression library was constructed. Several plasmids were recombined containing the tetramer of AuxRE as a bait. After screening by a yeast one-hybrid system, one positive clone was confirmed and characterized. Electrophoretic mobility shift assay showed that AxRF1 protein expressed in yeast cell could bind AuxRE in vitro. It suggests that AxRF1 participates in regulation of the expression of auxin responsive gene during carrot somatic embryogenesis.     

Isolation of carrot basic leucine zipper transcription factor using yeast one-hybrid screening

Abscisic acid (ABA) is involved in various physiological and developmental processes, including stress responses and seed maturation. Many ABA-regulated genes associated with these processes have been identified and analyzed. Previously, we identified 2 important elements in the promoter of the carrotDcECP31 gene: motif X (CACACGTGGG), which is like an ABA-responsive element (ABRE), and motif Y (CACACGTATC). Together, these are sufficient for embryo-specific ABA-inducible promoter activity. We also showed that motif X functions is an enhancerlike element and that motif Y participates in ABA responsiveness. In this study, we isolated the nuclear protein that interacts with motif Y of theDcECP31 promoter. We performed yeast one-hybrid screening using integrated motif Y as bait and isolated clones. Sequence analysis revealed that clone 22 included the carboxyl-terminal half of bZIP, which contains the basic and leucine zipper domains and binds to G-boxes containing the sequence ACGT. This result supports the hypothesis that carrot C-ABI3, a homologue of theArabidopsis ABI3 protein, functions as a coactivator that interacts with the G-box via protein-protein contacts and suggests that the complex controls the expression of theDcECP31 gene.     

OsmiR167a‐targeted auxin response factors modulate tiller angle via fine‐tuning auxin distribution in rice

Rice tiller angle determines plant growth density and further contributes grain production. Although a few genes have been characterized to regulate tiller angle in rice, the molecular mechanism underlying the control of tiller angle via microRNA is poorly understood. Here, we report that rice tiller angle is controlled by OsmiR167a‐targeted auxin response factors OsARF12, OsARF17 and OsARF25. In the overexpression of OsMIR167a plants, the expression of OsARF12, OsARF17 and OsARF25 was severely repressed and displayed larger tiller angle as well as the osarf12/osarf17 and osarf12/ osarf25 plants. In addition, those plants showed compromised abnormal auxin distribution and less sensitive to gravity. We also demonstrate that OsARF12, OsARF17 and OsARF25 function redundantly and might be involved in HSFA2D and LAZY1‐dependent asymmetric auxin distribution pathway to control rice tiller angle. Our results reveal that OsmiR167a represses its targets, OsARF12, OsARF17 and OsARF25, to control rice tiller angle by fine‐tuning auxin asymmetric distribution in shoots.     

A yeast one-hybrid system to detect methylation-dependent DNA-protein interactions

We developed a method for site-selective CpG methylation of the budding yeast genome. The method recruits LexA-fused M.SssI DNA methyltransferase to LexA operator sequences integrated adjacent to the target site. Microarray analysis of methylated DNAs indicated that the tethered enzyme selectively methylates the region around the target site. Exploiting this method to methylate bait DNA in the one-hybrid system, we demonstrated methylation-dependent DNA binding of methyl-CpG binding proteins, MBD1 and Kaiso, in vivo. This methylation-dependent one-hybrid system would provide a versatile tool for the search and analysis of proteins that recognize methylated DNA to participate in epigenetic regulation.     

OsARF16, a transcription factor,is required for auxin and phosphate starvation response in rice (Oryza sativa L.)

Plant responses to auxin and phosphate (Pi) starvation are closely linked. However, the underlying mechanisms connecting auxin to phosphate starvation (?Pi) responses are largely unclear. Here, we show that OsARF16, an auxin response factor, functions in both auxin and ?Pi responses in rice (Oryza sativa L.). The knockout of OsARF16 led to primary roots (PR), lateral roots (LR) and root hair losing sensitivity to auxin and ?Pi response. OsARF16 expression and OsARF16::GUS staining in PR and LR of rice Nipponbare (NIP) were induced by indole acetic acid and ?Pi treatments. In ?Pi conditions, the shoot biomass of osarf16 was slightly reduced, and neither root growth nor iron content was induced, indicating that the knockout of OsARF16 led to loss of response to Pi deficiency in rice. Six phosphate starvation‐induced genes (PSIs) were less induced by ?Pi in osarf16 and these trends were similar to a knockdown mutant of OsPHR2 or AtPHR1, which was a key regulator under ?Pi. These data first reveal the biological function of OsARF16, provide novel evidence of a linkage between auxin and ?Pi responses and facilitate the development of new strategies for the efficient utilization of Pi in rice.     

酚类化合物代谢中受UV-C辐照调控的转录因子的筛选

SlPAL5基因是酚类化合物代谢的关键基因.UV-C辐照可以有效提高番茄果实中酚类化合物的含量.因此研究调控SlPAL5基因表达的转录因子,对于进一步阐明UV-C诱导番茄果实酚类化合物合成的调控机制具有重要意义.文中通过构建番茄酵母单杂交文库,利用酵母单杂交技术筛选调控酚类化合物合成关键基因SlPAL5表达的转录因子....     

植物MYB转录因子与非生物胁迫响应研究

MYB转录因子家族是植物中最大的转录因子家族之一,在植物体内的多种生理生化反应中起着关键性作用,其中一项重要功能就是对非生物逆境的应答。这类转录因子通过调控生长发育,影响代谢产物的合成和影响激素信号等多方面参与非生物逆境的应答。介绍了MYB转录因子的结构特点和分类上的新发现,并综述了近几年MYB转录因子家族在植物响应干旱、高温、低温和高盐等非生物胁迫方面的研究进展。