Journal
PLANT CELL TISSUE AND ORGAN CULTURE
Volume 81, Issue 3, Pages 323-329Publisher
SPRINGER
DOI: 10.1007/s11240-004-6662-1
Keywords
conditioning factors; development of somatic embryos; embryogenic cell suspension; gene transformation; genetic regulation; Norway spruce; programmed cell death
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Somatic embryogenesis combined with cryopreservation is an attractive method to propagate Norway spruce (Picea abies) vegetatively both as a tool in the breeding programme and for large-scale clonal propagation of elite material. Somatic embryos are also a valuable tool for studying regulation of embryo development. Embryogenic cell lines of Norway spruce are established from zygotic embryos. The cell lines proliferate as proembryogenic masses (PEMs). Somatic embryos develop from PEMs. PEM-to-somatic embryo transition is a key developmental switch that determines the yield and quality of mature somatic embryos. Withdrawal of plant growth regulators (PGRs) stimulates PEM-to-somatic embryo transition accompanied by programmed cell death (PCD) in PEMs. This PCD is mediated by a marked decrease in extracellular pH. If the acidification is abolished by buffering the culture medium, PEM-to-somatic embryo transition together with PCD is inhibited. Cell death, induced by withdrawal of PGRs, can be suppressed by extra supply of lipo-chitooligosaccharides (LCOs). Extracellular chitinases are probably involved in production and degradation of LCOs. During early embryogeny, the embryos form an embryonal mass surrounded by a surface layer. The formation of a surface layer is accompanied by a switch in the expression pattern of an Ltp-like gene (Pa18) and a homeobox gene (PaHB1), from ubiquitous expression in PEMs to surface layer-specific in somatic embryos. Ectopic expression of Pa18 and PaHB1 leads to an early developmental block. Transgenic embryos and plants of Norway spruce are routinely produced by using a biolistic approach. The transgenic material is used for studying the importance of specific genes for regulating plant development, but transgenic plants can also be used for identification of candidate genes for use in the breeding programme.
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