Arabidopsis phytochromes A and B synergistically repress SPA1 under blue light [0.03%]
蓝光下拟南芥的phyA和phyB协同抑制SPA1蛋白
Xiaolin Jia,Meifang Song,Shaoci Wang et al.
Xiaolin Jia et al.
In Arabidopsis, although studies have demonstrated that phytochrome A (phyA) and phyB are involved in blue light signaling, how blue light-activated phytochromes modulate the activity of the CONSTITUTIVELY PHOTOMORPHOGENIC1 (COP1)-SUPPRESSO...
Evolution of lmiRNAs and their targets from MITEs for rice adaptation [0.03%]
lmirnas及其目标从MITEs的进化以适应水稻
Tianxiao Huang,Yan Li,Wei Wang et al.
Tianxiao Huang et al.
Twenty-four nucleotide long microRNAs (lmiRNAs) direct DNA methylation at target genes and regulate their transcription. The evolutionary origin of lmiRNAs and the range of lmiRNA-mediated regulation remain obscure. Here, we reannotated lmi...
Complete protection from Henosepilachna vigintioctopunctata by expressing long double-stranded RNAs in potato plastids [0.03%]
通过在土豆质体中表达长双链RNA实现对二十点豆象的完全保护作用
Wenbo Xu,Miao Zhang,Yangcun Li et al.
Wenbo Xu et al.
RNA interference (RNAi) has emerged as a powerful technology for pest management. Previously, we have shown that plastid-mediated RNAi (PM-RNAi) can be utilized to control the Colorado potato beetle, an insect pest in the Chrysomelidae fami...
Jie Wu,Wentao Zhu,Qiao Zhao
Jie Wu
The phytohormone salicylic acid (SA) regulates biotic and abiotic stress responses in plants. Two distinct biosynthetic pathways for SA have been well documented in plants: the isochorismate (IC) pathway in the chloroplast and the phenylala...
Hao Wang,Yuanhao Li,Zhenhua Zhang et al.
Hao Wang et al.
Horizontal gene transfer greatly contributes to the diversification and long-term evolution of green plants. Recent studies suggest that horizontal gene transfer events drove the evolution and adaptation of charophyte green algae and land p...
Positional cloning and characterization reveal the role of a miRNA precursor gene ZmLRT in the regulation of lateral root number and drought tolerance in maize [0.03%]
位置克隆和特征鉴定揭示了miRNA前体基因ZmLRT在调节玉米侧根数量和干旱耐受性中的作用
Ming Zhang,Yanhong Chen,Hongyan Xing et al.
Ming Zhang et al.
Lateral roots play essential roles in drought tolerance in maize (Zea mays L.). However, the genetic basis for the variation in the number of lateral roots in maize remains elusive. Here, we identified a major quantitative trait locus (QTL)...
Arabidopsis Trithorax histone methyltransferases are redundant in regulating development and DNA methylation [0.03%]
阿拉伯芥Trithorax组蛋白甲基转移酶在调节发育和DNA甲基化方面是冗余的
Ji-Yun Shang,Xue-Wei Cai,Yin-Na Su et al.
Ji-Yun Shang et al.
Although the Trithorax histone methyltransferases ATX1-5 are known to regulate development and stress responses by catalyzing histone H3K4 methylation in Arabidopsis thaliana, it is unknown whether and how these histone methyltransferases a...
ZmMYC2s play important roles in maize responses to simulated herbivory and jasmonate [0.03%]
ZmMYC2s在模拟食草动物伤害和茉莉酸反应中的重要作用分析
Canrong Ma,Ruoyue Li,Yan Sun et al.
Canrong Ma et al.
Both herbivory and jasmonic acid (JA) activate the biosynthesis of defensive metabolites in maize, but the mechanism underlying this remains unclear. We generated maize mutants in which ZmMYC2a and ZmMYC2b, two transcription factor genes im...
GmFtsH25 overexpression increases soybean seed yield by enhancing photosynthesis and photosynthates [0.03%]
GmFtsH25过表达通过提高光合作用和光合产物增加大豆种子产量
Li Wang,Yuming Yang,Zhongyi Yang et al.
Li Wang et al.
Increasing plant photosynthetic capacity is a promising approach to boost yields, but it is particularly challenging in C3 crops, such as soybean (Glycine max (L.) Merr.). Here, we identified GmFtsH25, encoding a member of the filamentation...
Plasma membrane-localized Hsp40/DNAJ chaperone protein facilitates OsSUVH7-OsBAG4-OsMYB106 transcriptional complex formation for OsHKT1;5 activation [0.03%]
定位在细胞膜上的Hsp40/DNAJ分子伴侣蛋白促进OsSUVH7-OsBAG4-OsMYB106转录复合体的形成以激活OsHKT1;5
Yutong Liu,Mengting Li,Jinlei Yu et al.
Yutong Liu et al.
The salinization of irrigated land affects agricultural productivity. HIGH-AFFINITY POTASSIUM (K+ ) TRANSPORTER 1;5 (OsHKT1;5)-dependent sodium (Na+ ) transport is a key salt tolerance mechanism during rice growth and development. Using a p...