Alain Bouvet scite author profile

Somatic embryogenesis is affected by highly variable maturation yields in Pinus pinaster. Origins of this variability were investigated by testing effects of spatial and temporal division of initial embryogenic tissue into independently cultivated pieces. One embryogenic cell-line was proliferated to obtain six embryonal-suspensor masses (ESM) treated as six sub-lines within a single dish. After proliferation to reach 2, 4 and 8 dishes (12, 24, 48 ESM), the 48 ESM (six sub-lines) were maintained by weekly subculture (34 weeks). ESM observations and maturation tests were regularly performed during the amplification and maintenance periods. Relations between maturation yields as well as cotylfedonary embryo length and immature embryo morphology were analyzed. ESM yielded variable results, independently from culture spatial (dish) and temporal (sub-line) subdivision. Maturation yields and length of regenerated embryos globally decreased as a function of subculture number. Concomitantly, morphological degradation of immature embryos occurred, indicating a global loss of embryogenic ability. Maturation variability probably results from immature embryos heterogeneity, which could be increased by manipulations during subculture. This is the first time that this evolution along time in culture is precisely described in conifers somatic embryos. Keywords Maturation AE Pinus pinaster AE Somatic embryogenesis AE Subculture AE Culture ageing Abbreviations ESM embryonal-suspensor masses f.wt fresh weight CE cotyledonary somatic embryos AE abnormally developed embryos PC precotyledonary and early cotyledonary embryos Electronic Supplementary Material Supplementary material is available to authorised users in the online version of this article at http://dx.

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High subculture frequency, maltose-based and hormone-free medium sustained early development of somatic embryos in maritime pine

Breton¹,

Harvengt²,

Trontin³

et al. 2005

In Vitro Cell. Dev. Biol. - Plant

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Effects of carbohydrate source, polyethylene glycol and gellan gum concentration on embryonal-suspensor mass (ESM) proliferation and maturation of maritime pine somatic embryos

Ramarosandratana

Harvengt

Bouvet

et al. 2001

In Vitro Cell.Dev.Biol.-Plant

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The influence of carbon sources and polyethylene glycol combined with 0.45 and 0.9% (w/v) of gellan gum on the maturation of maritime pine somatic embryos was tested. The effect of the carbon source and polyethylene glycol varied widely between lines. One out of the five lines tested showed a striking response to polyethylene glycol (PEG) treatment; the addition of this osmoticum limited the embryonal-suspensor mass (ESM) proliferation while it enhanced the maturation rate. Conversely, the ESM proliferation was stimulated by PEG in the other lines without subsequent improvement of the maturation rate. The use of a high concentration of gellan gum (0.9%) improved the maturation of the five ESM lines. It was concluded that the most efficient culture medium to recover cotyledonary embryos from all lines is one supplemented with sucrose at 6% (w/v) and gellan gum at 0.9% (w/v) without PEG. The determining factor in the maturation of maritime pine somatic embryos is the genotype and/or the quality of ESM. The possible relationship between maturation performances and ESM morphology, particularly the suspensor organization, is discussed.

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Influence of the embryonal-suspensor mass (ESM) sampling on development and proliferation of maritime pine somatic embryos

et al. 2001

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Alain Bouvet

Cloning of the Canine β-Glucuronidase cDNA, Mutation Identification in Canine MPS VII, and Retroviral Vector-Mediated Correction of MPS VII Cells

Long-term subculture randomly affects morphology and subsequent maturation of early somatic embryos in maritime pine

High subculture frequency, maltose-based and hormone-free medium sustained early development of somatic embryos in maritime pine

Effects of carbohydrate source, polyethylene glycol and gellan gum concentration on embryonal-suspensor mass (ESM) proliferation and maturation of maritime pine somatic embryos

Influence of the embryonal-suspensor mass (ESM) sampling on development and proliferation of maritime pine somatic embryos

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