S. Roest scite author profile

A wide range of phenotypic variation occurred among protoplast - derived plants of tetraploid potato cultivar 'Bintje'. The variant plants had alterations in growth and vigour, and in leaf and stem characteristics. The results suggest that the altered morphologies are caused predominantly by changes in ploidy levels. Some alterations could be attributed typically to octoploidy and aneuploidy. The occurrence of mixoploidy indicates that at least part of the observed variation arose during culture stage. The exogeneous cytokinin or auxin level and their combination during in vitro phase influenced the frequency of the variants observed. The origin of variation is discussed.

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Mutation breeding of Chrysanthemum morifolium Ram. using in vivo and in vitro adventitious bud techniques

Broertjes¹,

Roest²,

Bokelmann³

1976

Euphytica

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Chrysanthemum morifolium, explants, mutation breeding, adventitious bud technique, chimeral and nonchimeral mutants, in vivo, in vitro, X-rays, solid mutants. SUMMARYDuring experiments, which are being carried out to study the factors which control the process of adventitious bud formation in vivo on detached leaves of Chrysanthemum morifolium RAM, adventitious shoots were produced from leaves, irradiated with 500 rad of X-rays. The most important but disadvantageous result was that the majority of the adventitious shoots proved to be of a chimeral nature and obviously developed from more than one cell.An in vitro adventitious bud technique was developed using different types of explants. Pedicel segments regenerated the highest number of adventitious shoots and, moreover, they developed faster as compared to explants of young flower heads or leaves. The mutants produced by irradiating the various explants were almost exclusively of a solid (non-chimeral) nature. In addition, histological observations suggest that single epidermal cells are involved in the initiation of the adventitious shoot apices.The optimum dose for mutant production is approximately 800 rad X-rays. Rather often, more than one phenotypically identical mutant was found, which was always derived from the same explant. They could for instance originate from a multi-apical meristem formed by a single mutated cell.

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Plant regeneration from protoplasts: a literature review

Roest¹,

Gilissen²

1989

Acta Botanica Neerlandica

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Vegetative propagation ofSolanum tuberosum L. in vitro

Roest¹,

Bokelmann²

1976

Potato Res

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S. Roest

Plant Regeneration from Protoplasts of Potato (Solarium tuberosum cv. Bintje)

Phenotypic variation and ploidy level of plants regenerated from protoplasts of tetraploid potato (Solanum tuberosum L. cv. ‘Bintje’)

Mutation breeding of Chrysanthemum morifolium Ram. using in vivo and in vitro adventitious bud techniques

Plant regeneration from protoplasts: a literature review

Vegetative propagation ofSolanum tuberosum L. in vitro

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