Integrated Analysis of Physiological, mRNA Sequencing, and miRNA Sequencing Data Reveals a Specific Mechanism for the Response to Continuous Cropping Obstacles in Pogostemon cablin Roots [0.03%]
生理、mRNA和miRNA测序数据集成分析揭示了薄荷脑 Boehmeria cavaleriei 对连作障碍响应的特异性机制
Wuping Yan,Shijia Cao,Yougen Wu et al.
Wuping Yan et al.
In addition, the candidate miRNAs and genes can provide a new strategy for breeding continuous cropping-tolerant patchouli.
Rhizosphere Soil Bacterial Communities of Continuous Cropping-Tolerant and Sensitive Soybean Genotypes Respond Differently to Long-Term Continuous Cropping in Mollisols [0.03%]
连续种植耐受和敏感大豆基因型的根际土壤细菌群落在黑土长期连续种植下的不同响应
Ming Yuan,Taobing Yu,Qihan Shi et al.
Ming Yuan et al.
The continuous planting of soybeans leads to soil acidification, aggravation of soil-borne diseases, reduction in soil enzyme activity, and accumulation of toxins in the soil. Microorganisms in the rhizosphere play a very important role in ...
High-resolution DNA methylome reveals that demethylation enhances adaptability to continuous cropping comprehensive stress in soybean [0.03%]
高分辨率DNA甲基化谱揭示了大豆连作障碍复合逆境下去甲基化增强适应性的机制
Xilong Liang,Xue Hou,Jianying Li et al.
Xilong Liang et al.
Conclusions: Genomic DNA demethylation was closely associated with continuous cropping comprehensive stress adaptability, highlighting the promising potential of screening continuous cropping-tolerant cultivars by DNA methylation index and further exploring the application of DNA demethylases