Establishment of a somatic embryo regeneration system and expression analysis of somatic embryogenesis-related genes in Chinese chestnut (Castanea mollissima Blume)

Abstract

Somatic embryogenesis is a reliable and important tool, and the relevant genes controlling this process act as vital roles through the whole development of somatic embryos. However, regeneration via somatic embryogenesis in Chinese chestnut has been impeded and its molecular mechanism is not known. Therefore, firstly we described a protocol for somatic embryo initiation, development, maturation and germination. Embryogenic calli were obtained in embryo initiation medium containing 1.8 μM 2,4-D and 1.1 μM 6-BA, and then were transferred to embryo development medium without any hormones for at least 4 weeks, until cotyledonary embryos appeared. Next, the somatic embryos were transferred to embryo maturation medium containing Gamborg’s B-5 Basal Salt Mixture with 0.5 μM NAA and 0.5 μM 6-BA for 3 weeks. Finally, these mature embryos were germinated in embryo germination medium consisting of WPM with 0.5 μM NAA and 0.5 μM 6-BA, resulting in shoot regeneration with a 2.1% conversion rate. Additionally, eight embryogenesis-related genes were identified, and the expression profiles of these genes during embryogenesis were analyzed via quantitative real-time RT-PCR (qRT-PCR). The CmSERK, CmLEC1, CmWUS and CmAGL15 genes exhibited high expression in the initial embryo stages, which inferred that these genes played key roles during the initiation of embryogenesis. Studies on embryogenesis-related genes will provide an insight for further elucidating molecular mechanism during somatic embryogenesis of Chinese chestnut. Furthermore, the successful establishment of a somatic embryo regeneration system for Chinese chestnut will lay a significant foundation for a stable genetic transformation system and genetic improvement.