Natural variation in the promoter of OsPDX1.2 enhances vitamin B6 accumulation and cold tolerance in rice [0.03%]
OsPDX1.2启动子的自然变异增强水稻维生素B6积累和耐冷性
Bi Wang,Qiu Yi Wang,Wen Jie Shi et al.
Bi Wang et al.
Vitamin B6 (VB6) is an essential nutrient that must be obtained from the diet by humans and livestock, and plays an important role in response to various biotic and abiotic stresses in plants. Although the VB6 biosynthesis pathway has been ...
ATXR5 and ATXR6 restrict meiotic crossover formation within heterochromatin in Arabidopsis [0.03%]
ATXR5和ATXR6通过限制异染色质中同源重组的形成来调控拟南芥减数分裂交叉互换的数量
Jun Zhang,Yue Yu,Han Wang et al.
Jun Zhang et al.
Meiotic crossover (CO) exchanges genetic information between homologs, thereby promoting genetic diversity among offspring. COs are non-randomly distributed across chromosomes, tending to occur in euchromatin, but rarely in heterochromatin....
Adrijana Smoljan,Sarah Koutnik-Abele,Dmitrii Vladimirtsev et al.
Adrijana Smoljan et al.
Auxin, primarily indole-3-acetic acid (IAA), is a central regulator of growth and development in land plants, but its physiological role in chlorophyte algae remains unclear. Here, we show that exogenous IAA modulates growth in Chlorella so...
Reconfiguring biofortification strategies to transform food systems and address micronutrient deficiency of the 21st century [0.03%]
重新配置生物强化策略以改革食品系统和解决21世纪的微量营养素缺乏问题
Rhowell Jr N Tiozon,Alisdair R Fernie,Nese Sreenivasulu
Rhowell Jr N Tiozon
Despite achieving substantial progress in caloric food security, micronutrient deficiencies remain a major global health challenge, highlighting a persistent disconnect between crop productivity and nutritional quality. Crop biofortificatio...
Watermelon genotype-independent transformation via direct organogenesis from the cotyledon base [0.03%]
基于瓜胎基部直接器官发生的西瓜基因型非依赖性遗传转化体系建立
Jing Zhang,Yu-Xuan Li,Rui Sun et al.
Jing Zhang et al.
Inducing adventitious buds from the base of watermelon cotyledon through direct organogenesis resulted in a watermelon genetic transformation system that overcomes regeneration barriers and genotype limitations. ...
Mineral nutrients as regulators of plant flowering time: A molecular perspective [0.03%]
矿质营养素作为调控植物开花时间的因子:分子视角
Houqing Zeng,Yifan Wang,Jing Xu et al.
Houqing Zeng et al.
Flowering time is a key agronomic trait that influences plant reproductive success and crop yield, and its regulation is closely associated with soil nutrient availability. This review summarizes recent advances in understanding the molecul...
High-quality genome of elite peanut cultivar ZH05 reveals subgenome asymmetry, pan-genome diversity, and breeding insights [0.03%]
优质栽培型花生品种ZH05基因组揭示亚基因组不对称性、泛基因组多样性及育种信息
Taihua Yang,Nian Liu,Li Huang et al.
Taihua Yang et al.
Peanut (Arachis hypogaea) is an allotetraploid legume crop of agricultural and economic importance worldwide. Despite advances in peanut genomics, the integration of genetic diversity with multi-omics landscapes remains limited, and a compr...
Magnetic nanoparticle-mediated genetic transformation and gene editing system in loquat (Eriobotrya japonica) [0.03%]
一种基于磁性纳米粒子的基因转化与编辑技术及其在枇杷中的应用
Xiaodong Suo,Haiyan Wang,Tingting Meng et al.
Xiaodong Suo et al.
Loquat (Eriobotrya japonica Lindl.) is a valuable subtropical fruit tree whose genetic improvement has been significantly constrained by the absence of an efficient genetic transformation system. Although Agrobacterium-mediated transformati...
Development of fragrant broomcorn millet (Panicum miliaceum L.) via CRISPR/Cas12i.3-mediated genome editing [0.03%]
通过CRISPR/Cas12i.3基因组编辑开发香性䅟子(Panicum miliaceum L.)品种
Yuhe Bai,Baichuan Li,Jiawen Peng et al.
Yuhe Bai et al.
Co-editing the broomcorn millet PmBADH2a and PmBADH2b genes using CRISPR/Cas12i.3 generated double mutants with significantly increased 2-acetyl-1-pyrroline content, producing fragrant broomcorn millet without compromising major agronomic t...
ZmMS1 coordinates ROS homeostasis, lipid allocation, and male fertility for maize breeding applications [0.03%]
玉米育种应用中的ZmMS1协调ROS稳态、脂质分配和雄性育性
Quancan Hou,Xueli An,Zhenying Dong et al.
Quancan Hou et al.
Identifying male-sterile genes and developing biotechnology-based male-sterility systems are crucial for advancing hybrid maize breeding. However, this progress is hampered by the limited number of characterized key regulators and their inc...