分子生物学
IVD分子诊断
细胞培养与分析
蛋白研究
细胞因子
重组蛋白
抗体
高通量测序建库
病原检测UCF系列
生物医药
工具酶
抑制剂激活剂与常用试剂
仪器
耗材

ZmLBD42 coordinates cell proliferation and organogenesis to enhance somatic embryogenesis and regeneration in maize

Yan Wang, Weigang Yao, Yiming Yuan, Yongbin Dong, Ju Wu, Huan Hu, Feiyan Li, Lingwei Hu, Zhiwei Zhang, Shengkun Li, Ran Li, Xiaojing Xue, Guifang Zhang, Yangliu Ren, Wenyu Li, Yuling Li

Journal:PLANT JOURNAL

IF:6.2

DOI:10.1111/tpj.70861

PMID:

Published:2026-04-08

research field:植物生物学分子遗传学作物生物技术发育生物学

Abstract

SUMMARY The genotype-dependent recalcitrance of maize somatic embryogenesis necessitates key regulatory gene identification. However, the efficiency and genotype-dependence of somatic embryogenesis, especially in major cereal crops like maize, remain a challenge. Here, through integrated bioinformatics screening, spatiotemporal expression profiling, and comprehensive genetic functional validation in both heterologous Arabidopsis and homologous maize systems, we identify that LATERAL ORGAN BOUNDARIES DOMAIN (LBD) transcription factor ZmLBD42 acts as a positive regulator of embryogenic callus morphogenesis, organogenic differentiation, and plantlet regeneration competence. Heterologous overexpression of ZmLBD42 in Arabidopsis enhanced callus biomass and projected area from root and leaf explants. Loss-of-function maize mutants (Mu transposon insertion zmlbd42-mu and CRISPR-Cas9-generated zmlbd42-crispr ) showed severe proliferative defects, including reduced callus biomass accumulation and impaired cellular architecture characterized by enlarged cells and reduced cell density. zmlbd42 mutants displayed compromised organogenic competence, with lower greening callus formation and reduced regeneration efficiency. Moreover, ZmLBD42 overexpression in maize enhances callus induction rates, accelerates differentiation initiation, and elevates plantlet regeneration efficiency by 102.31% in maize. These results establish ZmLBD42 as an integrator that potentiates somatic reprogramming through coordinated modulation of cell proliferation, light-responsive organogenesis, and plantlet regeneration, providing a strategic target for improving genetic transformation and regeneration efficiency in maize.

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