Chou-Tou Shii scite author profile

Developmental controls of morphological mutants of Phaseolus vulgaris L. conditioned by two independent loci, DLI and DL2, were examined through grafting experiments and hydroponic studies. Phenotypes of mutant classes were duplicated by unions of scions and stocks derived from different genotypes. Results indicate that D L , and DL2 regulate a root and shoot factor respectively, contributing to the mutant types. The allelic dosages of D L , in the root and DL2 in the shoot rather than the genotype of the whole plant per se determine the severity of the mutant expression. Plants heterozygous for both loci with a temperature-sensitive expression of the mutant phenotype were used to determine physiological components involved. The primary abnormal developmental event associated with the appearance of mutant phenotypes, the restricted root growth at high temperature, could be overcome by the addition of cytokinin in hydroponic solution. These observations suggest that D L I and DL2 may be related to the regulation of hormonal function or metabolism.

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Variations in Ribosomal RNA Gene Loci in Spider Lily (Lycoris spp.)

Chang¹,

Shii²,

Chung³

2009

J. Amer. Soc. Hort. Sci.

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ADDITIONAL INDEX WORDS. FISH, 45S rDNA, 5S rDNA, DAPI-positive band, karyotype, colocalization, interspecific hybrid ABSTRACT. Lycoris species of the Amaryllidaceae are important ornamental and medicinal plants in Asia. Karyotypes of Lycoris species have been studied extensively since the time when their chromosome numbers were first counted over 80 years ago. Based on karyotype, Lycoris taxa can be classified into the monomorphic A group, dimorphic MT group, and the sterile dikaryotype MT-A group. Numerous reports dealing with karyotype analysis and phylogenetic relationship in the genus Lycoris have been published. However, there are disputes and controversies regarding karyotype evolution resulting from lacking efficient and reliable markers for chromosome identification in the genus Lycoris. In this study, we applied fluorescent in situ hybridization (FISH) to visualize the 5S and 45S rDNA loci on chromosomes as landmarks for chromosome identification in Lycoris taxa. In total, 12 accessions of three karyotype groups, including nine species and three artificial dikaryotype hybrids, were investigated. A high degree of variation in the number and position of 5S and 45S rDNA loci was detected among Lycoris taxa. There were four to 14 FISH signals of 5S rDNAs and two to 12 FISH signals of 45S rDNAs observed in each investigated Lycoris accession. Lycoris accessions with the same karyotype 2n = 22A may have different numbers of rDNA loci, which distributed at different chromosomal positions. In an interspecific hybrid, the number and chromosomal position of both 5S and 45S rDNA loci were either the combinations of those in their parental species or considerably modified. Overlapping FISH signals of 5S and 45S rDNAs were colocalized with a 4#, 6-diamidino-2-phenylindole-positive band at the end of the p-arm on almost every T-type chromosome (but not the A-type chromosomes). Based on the features of T-type chromosomes, the possibility of centromeric fission in karyotypic evolution of Lycoris is discussed.

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Diverse chromosome complements in the functional gametes of interspecific hybrids of MT- and A-karyotype Lycoris spp.

et al. 2013

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The karyotype and numeric changes in chromosomes among taxa of Lycoris (spider lilies) have been attributed to whole-arm rearrangements; however, the history of karyotype evolution of Lycoris is still ambiguous. In the natural habitat, one-third of Lycoris taxa are interspecific hybrids that are mainly sterile and extremely diverse in morphologies. Lycoris are geophytes with the reproductive stage initiated inside the bulbs during the storage period, which brings some inconveniences in collecting meiotic materials for studying chromosome pairing. The partial fertility of an artificial F1 interspecific hybrid between L. aurea (2n = 14) and L. radiata (2n = 22) provides an alternative option for tracing the meiotic process in F1 hybrids. The chromosome compositions of those functional gametes generated by the F1 hybrid could be recovered according to the chromosome complements of backcross progenies. We perform genomic in situ hybridization (GISH) analysis on somatic chromosomes of 34 BC1 plants (2n = 14-22) to reveal chromosomal divergences in number and composition of those functional gametes. GISH results also indicated a high homology between the MT-and A-genomes of Lycoris, reflecting on the partial fertility and frequently homoeologous recombination at meiosis of the F1 interspecific hybrids. The diverse chromosome complements and recombinant patterns presented in these functional gametes suggested that interspecific hybridization is an important force in driving diversification among Lycoris species. We suggest that the MT-karyotype genome may be the ancestral type in Lycoris, and some other chromosomal rearrangements in addition to centromeric fission may have played roles in the karyotype evolution of Lycoris.

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Chou-Tou Shii

Expression of developmental abnormalities in hybrids of Phaseolus vulgaris L.

Ectopic expression of rice OsNCED3 in Arabidopsis increases ABA level and alters leaf morphology

Developmental controls of morphological mutants of Phaseolus vulgaris L.: Differential expression of mutant loci in plant organs

Variations in Ribosomal RNA Gene Loci in Spider Lily (Lycoris spp.)

Diverse chromosome complements in the functional gametes of interspecific hybrids of MT- and A-karyotype Lycoris spp.

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