Mycorrhizal fungi enhance plant resistance to environmental stresses: from mechanisms to applications

Genetic variations in ZmEREB179 are associated with waterlogging tolerance in maize

PPR21 is involved in the splicing of nad2 introns via interacting with PPR-SMR1 and SPR2 and is essential to maize seed development

An LRR-RLK protein modulates drought- and salt-stress responses in maize

Time-course transcriptomic analysis reveals transcription factors involved in modulating nitrogen sensibility in maize

Maize transcription factor ZmEREB167 negatively regulates starch accumulation and kernel size

The maize mTERF18 regulates transcriptional termination of the mitochondrial nad6 gene and is essential for kernel development

Natural variation of CT2 affects the embryo/kernel weight ratio in maize

Maize plastid terminal oxidase (ZmPTOX) regulates the color formation of leaf and kernel by modulating plastid development

PURINE PERMEASE 4 regulates plant height in maize

Genetic and molecular mechanisms underlying nitrogen use efficiency in maize

Phosphorus acquisition, translocation, and redistribution in maize

Metal ion transport in maize: survival in a variable stress environment

Epigenetic variation in maize agronomical traits for breeding and trait improvement

Decoding maize meristems maintenance and differentiation: integrating single-cell and spatial omics

ZmL75 is required for colonization by arbuscular mycorrhizal fungi and for saline–alkali tolerance in maize

ZmGolS1 underlies natural variation of raffinose content and salt tolerance in maize

LG1 promotes preligule band formation through directly activating ZmPIN1 genes in maize