Vernalization, the acceleration of flowering by a long period of cold temperature, ensures that many plants overwinter vegetatively and flower in spring. In Arabidopsis, allelic variation at the FRIGIDA (FRI) locus is a major determinant of natural variation in flowering time. Dominant alleles of FRI confer late flowering, which is reversed to earliness by vernalization. We cloned FRI and analyzed the molecular basis of the allelic variation. Most of the early-flowering ecotypes analyzed carry FRI alleles containing one of two different deletions that disrupt the open reading frame. Loss-of-function mutations at FRI have thus provided the basis for the evolution of many early-flowering ecotypes.
A physical map of Arabidopsis thaliana chromosome 4 was constructed in yeast artificial chromosome clones and used to analyze the organization of the chromosome. Mapping of the nucleolar organizing region and the centromere integrated the physical and cytogenetic maps. Detailed comparison of physical with genetic distances showed that the frequency of recombination varied substantially, with relative hot and cold spots occurring along the whole chromosome. Eight repeated DNA sequence families were found in a complex arrangement across the centromeric region and nowhere else on the chromosome.
We have characterized the beta-tubulin gene family of Arabidopsis thaliana. Five distinct genes were cloned and analyzed by restriction enzyme mapping and cross-hybridization studies. Three of the genes appear to be dispersed, whereas two others are linked within 1.5 kb of one another. The two linked genes are closely related and appear to have resulted from a fairly recent duplication. The three dispersed genes do not cross-hybridize to one another or to the two linked genes under highly stringent hybridization conditions, suggesting that they arose from more ancient duplications. From Southern analysis we estimate that there are a total of between six and ten beta-tubulin genes in Arabidopsis. Additional analyses indicate that the gene family is equal in size or larger than those in other plants, but significantly smaller than those in related Brassica species. Sequence determination of one of the Arabidopsis genes revealed a highly unusual transcribed leader sequence. The leader contains two fairly long tracks of adenines. One is located toward the 5' end of the mRNA and the other is just before the initiation codon. A track of uridines is located between the adenine tracks. This leader can form two different secondary structures that may have regulatory significance.
SummaryThe detailed arrangement of 563 YAC clones comprising four contigs covering -17 Mbp of chromosome 4 is presented. YAC clones were positioned relative to each other and to markers by taking into account marker and end fragment hybridization data and the sizes of all YAC clones. This analysis made it possible to estimate physical distances between the majority of chromosome 4 markers. It also identified a relatively large number of YAC clones containing chimaeric inserts. The YAC contig map of the Columbia ecotype presents an important resource for map-based cloning experiments, rapid mapping of DNA sequences and large-scale genomic sequencing programs.
Abstract4C nuclear DNA amounts were determined in 16 large decorative cultivars of Narcissus (Amaryllidaceae), 13 of Hyacinthus (Hyacinthaceae) and 12 of Tulipa (Liliaceae) at different levels of ploidy. Within each genus, nuclear DNA amounts and ploidy levels are positively correlated, with no DNA loss in polyploids.Based on wide surveys of chromosome numbers, the maximum numbers of cultivars, interpreted as the optimum levels of selective success or horticultural fitness, were found to be at the tetraploid level in Narcissus (2n = 4x = 28), the triploid in Hyacinthus (2n = 3x = 24) and the diploid in Tulipa (2n = 2x --24).All these ploidy optima were shown to correspond to a small range of nuclear DNA amounts (4C = 96-139 pg), which could suggest the existence of a single DNA value optimal for the three biologically similar but unrelated genera. In each case the optimum is at an equilibrium reached between enhanced size and other morphological characteristics on one hand and reduced growth rate on the other, both resulting from increase in ploidy and nuclear DNA amounts.
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