Publication Title: 
Liang et al. (2019)
Title: 
High-resolution DNA methylome reveals that demethylation enhances adaptability to continuous cropping comprehensive stress in soybean.
Authors: 
Liang Xilong, Hou Xue, Li Jianying, Han Yiqiang, Zhang Yuxian, Feng Naijie, Du Jidao, Zhang Wenhui, Zheng Dianfeng, Fang Shumei
Publication Year: 
2019
Series Name: 
BMC plant biology
Abstract: 
Continuous cropping stress involves such factors as biological barriers, allelopathic autotoxicity, deterioration of soil physicochemical properties, and soil fertility imbalance and is regarded as a kind of comprehensive stress limiting soybean yield and quality. Genomic DNA methylation is an important regulatory mechanism for plants to resist various environmental stresses. Therefore, it is especially worthwhile to reveal genomic methylation characteristics under stress and clarify the relationship between DNA methylation status and continuous cropping stress adaptability in soybean.
Keywords: 
  • Adaptation, Physiological
  • Agriculture
  • DNA Demethylation
  • DNA Methylation
  • Genome, Plant genetics
  • Genomics
  • Metabolomics
  • Molecular Sequence Annotation
  • Soybeans genetics
  • Soybeans physiology
  • Stress, Physiological
  • Whole Genome Sequencing
Volume: 
19
Issue: 
1
Page Numbers: 
79
PubMed: