Overexpression of the Mentha canadensis McTTG2 gene positively regulates trichome development and proanthocyanidins biosynthesis in transgenic Arabidopsis [0.03%]
加拿大薄荷McTTG2基因的过表达通过转基因拟南芥中三帖和原花青素表型正向调控多功能基因功能研究
Yang Bai,Yichuan Xu,Xiwu Qi et al.
Yang Bai et al.
WRKY transcription factors play key roles in plant development and growth, as well as in response to stress and metabolism. Hence, WRKY members have been identified in many plant species; however, few reports are available on the WRKY famil...
Fvchli Deficiency Impairs ABA-Mediated Stomatal Closure and Enhances Susceptibility to Xanthomonas fragariae in Strawberry [0.03%]
费乌里基因缺陷影响草莓ABA介导的气孔关闭并增加其对草莓疫病菌的感病性
Jingnan Luo,Jiangsong Jin,Yangyang Ma et al.
Jingnan Luo et al.
The magnesium chelatase subunit CHLI is well-characterized in chlorophyll biosynthesis, but its role in plant immunity remains unclear. In this study, we generated chimeric Fvchli mutant strawberries via CRISPR/Cas9 and obtained T1-T3 proge...
Integrative analysis of physiology, transcriptomics, and metabolomics unveils mechanisms in soybean (Glycine max (Linn.) Merr) response to alkaline stress [0.03%]
生理、转录组和代谢组的整合分析揭示了大豆对碱胁迫响应的机制
Qian Li,Bo Chen,Ziyu Yang et al.
Qian Li et al.
Soybean (Glycine max (Linn.) Merr), an important economic crop, is significantly impacted by alkaline stress, but the regulatory networks involved under such stress remain largely unclear. This study aimed to elucidate the regulatory mechan...
Xinmeng Geng,Zesheng Liu,Caiting An et al.
Xinmeng Geng et al.
DNA methylation, as a central mechanism of epigenetic regulation, plays a key role in coordinating plant growth and stress responses. Simultaneously, the gaseous phytohormone ethylene is also a crucial regulator in these processes. Both for...
Genome-wide characterization and functional analysis of ScALDH genes reveals their contribution to growth maintenance and drought tolerance in plants [0.03%]
全基因组ScALDH基因的特征及功能分析揭示其对植物生长维持和抗旱性的作用
Haojie Fan,Aerguli Jiamahate,Jianwei Zhang et al.
Haojie Fan et al.
Plants are often subjected to drought stress, which can significantly inhibit their growth and development. Previous studies have found that the aldehyde dehydrogenase (ALDH) gene family plays an important role in plant stress adaptation by...
Long Hypocotyl 1 mediates nitrogen regulation of flowering time and nitrogen use efficiency [0.03%]
氮调节开花时间与氮利用效率介导基因长下胚轴1的功能分析
Xingliang Duan,Guanjie Wang,Qinglin Song et al.
Xingliang Duan et al.
Flowering time is of great significance for crop yield, reproduction and regional adaptability, which is regulated by complex gene network and environmental signals, such as nitrogen (N) nutrition. Long hypocotyl 1 (HY1) encodes a heme oxyg...
SmNAC68 transcription factor negatively regulate tanshinone biosynthesis under low-temperature conditions in Salvia miltiorrhiza [0.03%]
低温度下 SmNAC68 转录因子通过抑制丹参素生物合成负调控丹参酮类成分的积累
Gaoyang Qu,Ruibo Shen,Mingwan Sun et al.
Gaoyang Qu et al.
Salvia miltiorrhiza Bge. (S. miltiorrhiza) is a traditional Chinese herbal medicine, primarily used for treating cardiovascular diseases. Tanshinones as the main medicinal components of S. miltiorrhiza, their content is an important factor ...
Vernalization responses in Brassica: An insight into key regulatory genes, long non-coding RNAs, associated co-regulatory networks, and their epigenetics [0.03%]
春化反应在芸苔属植物中的研究进展:关键调控基因、长链非编码RNA及其相关协同调控网络和表观遗传学方面的见解
Aftab Ahmad,Afrasyab Khan,Muhammad Ahmad Hassan et al.
Aftab Ahmad et al.
Flowering time is influenced by intricate networks between genetic and epigenetic pathways. Vernalization is the process through which prolonged exposure to cold induces flowering, which plays a crucial role in the growth cycle of the Brass...
Functional analysis of TRY from Rosa roxburghii (RrTRY) involved in prickle development and response to cytokinin [0.03%]
Rhodomyrtus属刺皮叶锈素发育和反应的功能分析
Wentao Ma,Min Wang,Mingcao Wang et al.
Wentao Ma et al.
The aerial organs of Rosa roxburghii Tratt (RR), an economically important fruit crop endemic to southwestern China, have a dense prickle covering that severely impedes horticultural practices and industrial processing. Given the conserved ...
GmMYB84, a transcription factor, confers cadmium tolerance in soybean via regulation of the phenylpropanoid pathway [0.03%]
转录因子GmMYB84通过调控苯丙素代谢途径提高大豆的镉耐性
Zehua Gong,Jinni Zhao,Jing Xu et al.
Zehua Gong et al.
GmMYB84, an R2R3-MYB transcription factor, plays a vital role in regulating plant responses to abiotic stress. To elucidate how GmMYB84 mediates Cd tolerance, we performed functional analyses using overexpression lines (OE-GmMYB84) in Arabi...