Engineering Cyanobacteria for High-Yield Photosynthetic Isoprene Production With Long-Term Phenotypic Stability [0.03%]
用于长期表型稳定的高产异戊二烯光合工程蓝藻菌株
Kim N Janssen,Paul Bolay,Adrian Tüllinghoff et al.
Kim N Janssen et al.
In light of the looming climate crisis, a key cornerstone for a sustainable bioeconomy is photosynthetic production of chemicals and fuels from CO2 and water, powered by sunlight. Isoprene is a five-carbon volatile hydrocarbon with industri...
The Rhus chinensis Genome Provides Insights Into Tannin, Flavonoid Biosynthesis, and Glandular Trichome Development [0.03%]
漆树基因组的组装及分析揭示单宁、黄酮类化合物生物合成和腺毛发育的遗传基础
Zhaogeng Lu,Helin Zou,Jiawen Cui et al.
Zhaogeng Lu et al.
The "salt tree", Rhus chinensis, holds significant economic and medicinal value due to its ability to produce Galla chinensis (Chinese gall/gallnut), a plant-derived medicinal material used in both traditional Chinese and modern medicine th...
The ZmFKF1b-ZmDi19-5 Regulatory Module Coordinates Drought Tolerance and Flowering Time in Maize [0.03%]
玉米ZmFKF1b-ZmDi19-5调控模块协调干旱耐受性和开花时间
Haixia Zeng,Dandan Dou,Yang Yang et al.
Haixia Zeng et al.
Drought is a major environmental stress that inhibits plant growth and reduces crop yields. The Di19 gene family is known to play a pivotal role in mediating plant responses to drought. However, the mechanisms by which Di19 proteins integra...
TaSPX3 Enhances Wheat Resistance to Leaf Rust by Antagonising TaDi19-Mediated Repression of Pathogenesis-Related Genes [0.03%]
TaSPX3通过拮抗TaDi19介导的抗病基因抑制提高小麦对叶锈病的抗性
Huimin Qian,Chuang Li,Yanan Lu et al.
Huimin Qian et al.
Wheat leaf rust, caused by Puccinia triticina (Pt), threatens global wheat production, with yield losses further exacerbated by the pathogen's evolving virulence. Although Syg1/Pho81/Xpr1 (SPX) domain-containing proteins are known regulator...
Removal of Transgenes and Evaluation of Yield Penalties in Genome Edited Bacterial Blight Resistant Rice Varieties [0.03%]
基因编辑的水稻细菌性条斑病抗性品种中的外源基因删除及产量评估
Eliza P I Loo,José C Huguet-Tapia,Michael Selvaraj et al.
Eliza P I Loo et al.
Bacterial blight (BB) of rice, caused by Xanthomonas oryzae pv. oryzae (Xoo), is one of the major drivers of yield losses in Africa and Asia. Xoo secretes TAL-effectors (TALe) that induce host SWEET sucrose uniporter by binding to the effec...
The RNA m6A Methyltransferase PvFIP37 Activates Vacuole Transport and Glutathione Detoxification Pathways to Increase Switchgrass Cd Tolerance [0.03%]
RNA甲基转移酶PvFIP37通过激活囊泡转运和谷胱甘肽解毒途径提高能源植物巨菌草的Cd耐性
Mengzhuo Lin,Lei Wang,Bowen Liu et al.
Mengzhuo Lin et al.
Cadmium (Cd) pollution is a growing global issue that poses significant threats to ecosystems and human health. N6-methyladenosine (m6A) plays an essential role in regulating plant growth and stress responses, but the biological functions a...
MicroRNA-Induced Gene Silencing (MIGS): A Tool for Multi-Gene Silencing and Targeting Viruses in Plants [0.03%]
植物中的MIGS(微RNA诱导的基因沉默):多基因沉默和靶向病毒的工具
Marie-Emilie A Gauthier,Kylie Shand,Satomi Hayashi et al.
Marie-Emilie A Gauthier et al.
Since its discovery, RNA interference (RNAi, also known as gene silencing) has been a key tool to downregulate gene expression in plants for a range of applications, including protection against viruses. Many of these applications require t...
ZmmiR1432-ZmCML21-ZmPMA2 Module Affects Maize Low Phosphate Tolerance via Regulating Organic Acid Secretion [0.03%]
ZmmiR1432-ZmCML21-ZmPMA2模块通过调节有机酸分泌影响玉米低磷耐受性
Laming Pei,Yaqing Yang,Zhe Wang et al.
Laming Pei et al.
Phosphorus is indispensable in agricultural production. The growing global demand for food necessitates the development of crops with enhanced phosphorus utilisation efficiency. However, the molecular mechanisms coordinating phosphorus util...
Design of High-Diacylglycerol and Lecithin Soybean Seed Oil Using GmPDATs and GmDGATs Knockout via a CRISPR-Cas9 System [0.03%]
利用CRISPR-Cas9系统编辑大豆中甘油磷脂酰胆碱二酰基转移酶和二酰glycerol acyltransferase基因设计高1,2-二酰基-sn-甘油-3-磷酸胆碱大豆种子油
Ying Zhao,Binshuo Zhang,Huilin Tian et al.
Ying Zhao et al.
Single Cell Multi-Omics Reveals Rare Biosynthetic Cell Types in the Medicinal Tree Camptotheca acuminata [0.03%]
单细胞多组学揭示抗癌药物来源植物喜树的罕见次生代谢细胞类型
Van-Hung Bui,Joshua C Wood,Brieanne Vaillancourt et al.
Van-Hung Bui et al.