C Maddie Brightbill,Sibum Sung
C Maddie Brightbill
Throughout a plant's life cycle, temperature plays a major role in development. Regulatory modules use temperature cues to control gene expression, facilitating physiological change from germination to flowering. These regulatory modules co...
Post-translational modification: a strategic response to high temperature in plants [0.03%]
蛋白修饰:植物应对高温的战略手段
Danlu Han,Zhibo Yu,Jianbin Lai et al.
Danlu Han et al.
With the increasing global warming, high-temperature stress is affecting plant growth and development with greater frequency. Therefore, an increasing number of studies examining the mechanism of temperature response contribute to a more op...
The genetic and molecular basis for improving heat stress tolerance in wheat [0.03%]
提高小麦热应激抗性的遗传和分子基础
Lv Sun,Jingjing Wen,Huiru Peng et al.
Lv Sun et al.
Wheat production requires at least ~ 2.4% increase per year rate by 2050 globally to meet food demands. However, heat stress results in serious yield loss of wheat worldwide. Correspondingly, wheat has evolved genetic basis and molecular me...
Yifeng Hou,Yan Yan,Xiaofeng Cao
Yifeng Hou
Temperature is a key factor in determining plant growth and development, geographical distribution, and seasonal behavior. Plants accurately sense subtle changes in ambient temperature and alter their growth and development accordingly to i...
bZIP17 regulates heat stress tolerance at reproductive stage in Arabidopsis [0.03%]
AtbZIP17正调控拟南芥生殖期的高温抗性
Juan Gao,Mei-Jing Wang,Jing-Jing Wang et al.
Juan Gao et al.
High temperature elicits a well-conserved response called the unfolded protein response (UPR) to bring protein homeostasis in the endoplasmic reticulum (ER). Two key UPR regulators bZIP28 and bZIP60 have been shown to be essential for maint...
Recurrent breakdown and rebalance of segregation distortion in the genomes: battle for the transmission advantage [0.03%]
基因组中隔代遗传扭曲的反复瓦解与重建:传播优势之战
Fan Xia,Yidan Ouyang
Fan Xia
Mendel's laws state that each of the two alleles would segregate during gamete formation and show the same transmission ratio in the next generation. However, an unexpected biased allele transmission was first detected in Drosophila a centu...
Improving coordination of plant growth and nitrogen metabolism for sustainable agriculture [0.03%]
改善植物生长与氮代谢的协调以实现可持续农业
Xiang Han,Kun Wu,Xiangdong Fu et al.
Xiang Han et al.
The agricultural green revolution of the 1960s boosted cereal crop yield was in part due to cultivation of semi-dwarf green revolution varieties. The semi-dwarf plants resist lodging and require high nitrogen (N) fertilizer inputs to maximi...
Hua Wei,Xiling Wang,Hang Xu et al.
Hua Wei et al.
Flowering time is of great significance for crop reproduction, yield, and regional adaptability, which is intricately regulated by various environmental cues and endogenous signals. Genetic approaches in Arabidopsis have revealed the elabor...
Molecular and genetic pathways for optimizing spikelet development and grain yield [0.03%]
优化小穗和籽粒发育的分子及遗传途径研究进展
Zheng Yuan,Staffan Persson,Dabing Zhang
Zheng Yuan
The spikelet is a unique structure of inflorescence in grasses that generates one to many flowers depending on its determinate or indeterminate meristem activity. The growth patterns and number of spikelets, furthermore, define inflorescenc...
Gene editing applications to modulate crop flowering time and seed dormancy [0.03%]
基因编辑在调控农作物开花时间和种子休眠中的应用
Olena Kishchenko,Yuzhen Zhou,Satyvaldy Jatayev et al.
Olena Kishchenko et al.
Gene editing technologies such as CRISPR/Cas9 have been used to improve many agricultural traits, from disease resistance to grain quality. Now, emerging research has used CRISPR/Cas9 and other gene editing technologies to target plant repr...