Shigeru Imanishi

RFLP analysis and genomic in situ hybridization (GISH) in somatic hybrids and their progeny between Lycopersicon esculentum and Solanum lycopersicoides

Abstract RFLP (restriction fragment length polymorphism) and GISH (genomic in situ hybridization) analyses were employed to identify the chloroplast and nuclear genomes of the somatic hybrids and progeny between tomato ‘Ohgata zuiko’ and Solanum lycopersicoides (‘LA 2386’). A random distribution of the chloroplast genotype was determined using a cloned 19.6-kb BamHI fragment (Ba1) of tobacco chloroplast DNA. Eight selected hybrids were analyzed for their chromosomal compositions; 4 were tetraploids (2n=48) with an equal number of chromosomes derived from each parent as accurately determined by GISH, and the other 4 were hexaploids, containing an average of two sets of tomato chromosomes and one set from the wild parent. RFLP analysis with six tomato nuclear probes of known chromosomal locations revealed no major variation among the 44 hybrid plants surveyed. However, it also showed the presence of both parent-specific alleles and the loss of some and the presence of a few non-parental alleles, indicating rearrangement and/or recombination of the nuclear DNA. The relevance of the molecular and cytological methods and the potential use of somatic hybrids for plant breeding are demonstrated.

Screening of wild accessions resistant to gray mold (Botrytis cinerea Pers.) in Lycopersicon

Tomato gray mold (Botrytis cinerea Pers.) is a common disease worldwide, and often causes serious production loss by infecting leaves, stems, flowers and fruits. Presently, no resistant cultivars are available. To find new breeding materials for gray mold resistance, assessment for resistance of the leaflet and stem in six tomato cultivars, 44 wild tomato accessions and a Solanum lycopersicoides accession was performed. Although no correlation was observed (r=−0.127ns) between resistance of the leaflet and the stem, L. peruvianum LA2745, L. hirsutum LA2314 and L. pimpinellifolium LA1246 showed high resistance both in the leaflet and in the stem. Particularly, in the leaves of LA2745, no lesions were observed even more than two weeks after the inoculation with conidia, and F1s between a cultivated tomato and LA2745 also showed high resistance as observed in LA2745. From these results, LA2745 is thought to be a promising material for breeding gray-mold resistant cultivars.

An improvement of tomato protoplast culture for rapid plant regeneration

Tomato mesophyll protoplasts were cultured in TM2 medium containing 5.7 μM α-naphthaleneacetic acid and 2.4 μM benzyladenine and were incubated either in stationary culture or on an orbital shaker at 25–30 strokes per min, in combination with interval addition of fresh medium. The effects of stationary and shaking conditions on the growth of the colonies and their subsequent shoot organogenesis were significantly different. The cultures maintained in stationary condition without adding fresh medium accumulated a thin membranous layer on the medium surface and whitish substance in the medium that seemed to precede cell browning and premature colony death. Mild shaking conditions along with the reduction of colony density by one half by dividing the contents of one dish into two dishes, after adding 2 ml of fresh medium on the 4th day and further addition of fresh medium (0.5 ml) on the 8th day of plating, provided optimal conditions for colony growth and suppressed thin layer and whitish substance accumulation. Ten-day-old colonies raised through this protocol regenerated shoots rapidly (within 19–20 days after initial plating) after transfer to regeneration medium (MS medium with 2.8 μM zeatin riboside, 0.06–0.1 μM gibberellic acid, 4% sucrose and 1% type VII agarose) directly bypassing the callus phase.