An Ethylene-Response Factor LlERF092 Coordinates With LlETO1 to Improve Thermotolerance by Activating LlMBF1c in Lily [0.03%]
乙烯响应因子LlERF092通过激活LlMBF1c与LlETO1协同作用提高百合热 tolerance
Jun Xiang,Xue Gong,Qianqian Fang et al.
Jun Xiang et al.
Multiprotein bridging factor 1c (MBF1c) has been shown to play a critical role in plant responses to heat stress. Previous studies have implicated MBF1c roles in ethylene-mediated thermotolerance; however, the upstream regulatory mechanisms...
Natural variation of the wheat root exudate metabolome and its influence on biological nitrification inhibition activity [0.03%]
小麦根分泌代谢组的自然变异及其对生物硝化抑制活性的影响
Arindam Ghatak,Alexandros E Kanellopoulos,Cristina López-Hidalgo et al.
Arindam Ghatak et al.
Excessive nitrogen use and low nitrogen use efficiency (NUE) in current agroecosystems are disrupting the global nitrogen cycle. Chemical inhibitors offer only temporary relief, while plant-derived biological nitrification inhibitors (BNIs)...
Structural Design and Immunogenicity of a Novel Self-Adjuvanting Mucosal Vaccine Candidate for SARS-CoV-2 Expressed in Plants [0.03%]
一种新型的用于SARS-CoV-2的植物表达自佐剂粘膜疫苗候选者的设计、结构及其免疫原性研究
Mi-Young Kim,Andy Cano Tran,Ju Kim et al.
Mi-Young Kim et al.
Mucosal vaccination for COVID-19 to boost preexisting though insufficient systemic and local/mucosal immunity remains an attractive prospect but there are currently no licensed mucosal vaccines against this infection. Here, using a plant ex...
Manipulation of the Expression of Tryptophan Decarboxylase Boosts Grain Functional Quality and Stress Resilience Capacity of Wheat [0.03%]
色氨酸脱羧酶表达调控提高小麦籽粒功能性品质和抗逆性能力
Haili Zhang,Qiulan Huang,Ling Yi et al.
Haili Zhang et al.
Tryptophan decarboxylase (TDC), the rate-limiting enzyme of tryptophan metabolism in plants, is essential for the production of a series of bioactive molecules, such as serotonin, melatonin and the plant hormone indole-3-acetic acid and the...
Complex engineering of Solanum alkaloids structural diversity in Nicotiana benthamiana [0.03%]
利用 Nicotiana benthamiana 工程化复杂 Solanum 低聚生物碱结构多样性
Sachin A Gharat,Adam Jozwiak,Ilana Rogachev et al.
Sachin A Gharat et al.
Transient expression in Nicotiana benthamiana offers a powerful and versatile platform for rapid production of complex specialized metabolites. Steroidal glycoalkaloids (SGAs) and steroidal saponins produced by members of the Solanaceae fam...
A semi-dominant NLR allele regulates growth and disease resistance in wheat [0.03%]
半显性的NLR等位基因调控小麦的生长和抗病性
Shuiquan Tian,Tingting Du,Jianqing Niu et al.
Shuiquan Tian et al.
Wheat powdery mildew is a significant threat to wheat production, necessitating the development of disease-resistant varieties as an economically viable and environmentally sustainable strategy. In this study, we investigated a semi-dominan...
High-level production of health-beneficial glucoraphanin by multiplex editing of AOP2 gene family in mustard [0.03%]
通过多重编辑印度芥子AOP2基因家族实现高异硫氰酸盐含量品系的培育
Pravin Kumar,Naveen C Bisht
Pravin Kumar
Intake of glucosinolates through the consumption of cruciferous vegetables has been associated with numerous health benefits. In recent decades, glucosinolate glucoraphanin has gained a lot of attention, as its hydrolysis product (sulforaph...
Duckweed-based edible vaccine confers complete protection against avian infectious bronchitis virus by inducing robust mucosal and systemic immunity [0.03%]
基于满江红的可食用疫苗通过诱导强大的黏膜和全身免疫完全保护禽传染性支气管炎病毒
Xiao Tan,Ling Guo,Shuang Chen et al.
Xiao Tan et al.
Molecular farming using edible plants offers a cost-effective strategy for vaccine production because plants serve as both bioreactors and oral delivery systems. Owing to its rapid clonal propagation and high protein content, duckweed repre...
IbPIF1 confers stem nematode resistance by regulating secondary metabolites in sweet potato [0.03%]
IbPIF1通过调节甘薯次生代谢产物来赋予线虫抗性
Nan Nie,Yinghui Yang,Jinxi Huo et al.
Nan Nie et al.
The stem nematode (Ditylenchus destructor Thorne) is a pervasive and destructive plant-parasitic nematode worldwide, inflicting severe agricultural and economic losses in a wide range of crops. Despite its global impact, the molecular mecha...
LAZY5 acts in an LAZY1-independent pathway to regulate rice tiller angle [0.03%]
LAZY5通过独立于LAZY1的途径调控水稻分蘖角度
Wenguang Wang,Dajun Sang,Peng Li et al.
Wenguang Wang et al.
Tiller angle is a key agronomic trait that influences plant architecture and thus grain yield by optimizing rice planting density. Although great progress has been made in understanding the LAZY1-dependent pathway mediating rice tiller angl...