Changes in DNA content and chromosomal size during cell culture and plant regeneration of Scilla siberica: selective chromatin diminution in response to environmental conditions

Abstract

The chromosomal complement and DNA content of cells of the monocotyledonous plant Scilla siberica were studied at various stages of growth, such as callus outgrowths from bulb tissue (“bulb callus”), callus grown from single protoplasts prepared from bulb callus (“protoplast callus”), regenerated plants kept for 2–4 years on agar medium and under constant climatic conditions, and regenerated plants grown first for 2 years on agar and then for 1 year in the garden. During callus culture, several different forms of chromatin loss were observed: (1) chromosome elimination early during cell culture, resulting in cells which were mostly diploid but still had large chromosomes similar to those of the original triploid plants (“type 1 cells”); from these cells no plants could be regenerated. (2) Dramatic reduction in heterochromatin containing the satellite DNA and, apparently subsequently, also of many other chromatin moieties, resulting in the formation of small chromosomes; frequent polyploidization in these cells, resulting in a variable number of chromosomes per cell (preferentially 30–40, in ca. 70% of the cells; “type 2 cells”). (3) Appearance of a large number of very small ( 95%) of the satellite sequences. Southern DNA blot analysis revealed that sequences hybridizing with certain protein-coding genes such as that for chalcone synthase were also drastically reduced in copy number whereas the proportion of rDNA was even somewhat increased. In plants regenerated from type 2 cells of protoplast calli, which were aneuploid at near-pentaploidy to hexaploidy, further conspicuous changes in chromosomal and DNA content were not observed, as long as they were kept on agar medium and under constant climatic conditions. However, when such plants were grown in the garden for at least 1 year, the satellite DNA as well as the sequences hybridizing with the chalcone synthase gene were disproportionately increased to 30%–40% of their normal proportion, whereas the total DNA had increased by only approximately 15%. The chromosome numbers remained near-pentaploid to hexaploid as in the cell cultures from which these plants had been regenerated. These phenomena of selective loss and regain of chromatin in response to environmental conditions (cell culture, regenerated plants on agar, regenerated plants grown outdoors) are discussed in relation to other forms of chromatin loss, including developmentally controlled chromatin diminution in certain animals.