Thea A. Wilkins scite author profile

We report genetic maps for diploid (D) and tetraploid (AtDt) Gossypium genomes composed of sequence-tagged sites (STS) that foster structural, functional, and evolutionary genomic studies. The maps include, respectively, 2584 loci at 1.72-cM ‫006ف(‬ kb) intervals based on 2007 probes (AtDt) and 763 loci at 1.96-cM ‫005ف(‬ kb) intervals detected by 662 probes (D). Both diploid and tetraploid cottons exhibit negative crossover interference; i.e., double recombinants are unexpectedly abundant. We found no major structural changes between Dt and D chromosomes, but confirmed two reciprocal translocations between At chromosomes and several inversions. Concentrations of probes in corresponding regions of the various genomes may represent centromeres, while genome-specific concentrations may represent heterochromatin. Locus duplication patterns reveal all 13 expected homeologous chromosome sets and lend new support to the possibility that a more ancient polyploidization event may have predated the A-D divergence of 6-11 million years ago. Identification of SSRs within 312 RFLP sequences plus direct mapping of 124 SSRs and exploration for CAPS and SNPs illustrate the "portability" of these STS loci across populations and detection systems useful for marker-assisted improvement of the world's leading fiber crop. These data provide new insights into polyploid evolution and represent a foundation for assembly of a finished sequence of the cotton genome.

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Rate Variation Among Nuclear Genes and the Age of Polyploidy in Gossypium

Senchina

Álvarez

Cronn³

et al. 2003

320

302

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Molecular evolutionary rate variation in Gossypium (cotton) was characterized using sequence data for 48 nuclear genes from both genomes of allotetraploid cotton, models of its diploid progenitors, and an outgroup. Substitution rates varied widely among the 48 genes, with silent and replacement substitution levels varying from 0.018 to 0.162 and from 0.000 to 0.073, respectively, in comparisons between orthologous Gossypium and outgroup sequences. However, about 90% of the genes had silent substitution rates spanning a more narrow threefold range. Because there was no evidence of rate heterogeneity among lineages for any gene and because rates were highly correlated in independent tests, evolutionary rate is inferred to be a property of each gene or its genetic milieu rather than the clade to which it belongs. Evidence from approximately 200,000 nucleotides (40,000 per genome) suggests that polyploidy in Gossypium led to a modest enhancement in rates of nucleotide substitution. Phylogenetic analysis for each gene yielded the topology expected from organismal history, indicating an absence of gene conversion or recombination among homoeologs subsequent to allopolyploid formation. Using the mean synonymous substitution rate calculated across the 48 genes, allopolyploid cotton is estimated to have formed circa 1.5 million years ago (MYA), after divergence of the diploid progenitors about 6.7 MYA.

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Toward Sequencing Cotton (Gossypium) Genomes: Figure 1.

et al. 2007

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Despite rapidly decreasing costs and innovative technologies, sequencing of angiosperm genomes is not yet undertaken lightly. Generating larger amounts of sequence data more quickly does not address the difficulties of sequencing and assembling complex genomes de novo. The cotton (Gossypium spp.) genomes represent a challenging case. To this end, a coalition of cotton genome scientists has developed a strategy for sequencing the cotton genomes, which will vastly expand opportunities for cotton research and improvement worldwide.

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The Arabidopsis det3 mutant reveals a central role for the vacuolar H+-ATPase in plant growth and development

Schumacher

Vafeados²,

McCarthy³

et al. 1999

Genes & Development

295

247

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In all multicellular organisms growth and morphogenesis must be coordinated, but for higher plants, this is of particular importance because the timing of organogenesis is not fixed but occurs in response to environmental constraints. One particularly dramatic developmental juncture is the response of dicotyledonous seedlings to light. The det3 mutant of Arabidopsis develops morphologically as a light-grown plant even when it is grown in the dark. In addition, it shows organ-specific defects in cell elongation and has a reduced response to brassinosteroids (BRs). We have isolated the DET3 gene by positional cloning and provide functional and biochemical evidence that it encodes subunit C of the vacuolar H + -ATPase (V-ATPase). We show that the hypocotyl elongation defect in the det3 mutant is conditional and provide evidence that this is due to an alternative mechanism of V-ATPase assembly. Together with the expression pattern of the DET3 gene revealed by GFP fluorescence, our data provide in vivo evidence for a role for the V-ATPase in the control of cell elongation and in the regulation of meristem activity. During the development of multicellular organisms, an intricate coordination of cell division and cell enlargement is necessary to achieve both morphogenesis and growth. In contrast to our rapidly growing knowledge of pattern formation and morphogenesis in a variety of model organisms, relatively little is known about the mechanisms that control cell and organ growth and integrate it with morphogenesis. Because plants are sessile, such mechanisms are of pivotal importance as their postembryonic development takes place under a multitude of environmental constraints, including the quality and quantity of light and the availability of water and nutrients. To compensate for their lack of mobility, plants have achieved a unique plasticity of development, which allows them to adapt to their environment. Both the initiation of organs by the apical meristems, and their subsequent growth through further cell divisions and cell expansion, continue throughout the plant life cycle. Therefore, growth and morphogenesis are not only coordinated with each other, but must provide the flexibility for adaptation to suboptimal environmental conditions.One of the most striking examples for developmental plasticity in response to an environmental cue is found during early seedling development. When dicotyledenous seedlings germinate in the absence of light, morphogenesis is inhibited and growth is achieved mostly by organ-specific cell expansion. Hypocotyl cells elongate Ն100-fold of their embryonic length to position the shoot apical meristem into an environment providing light necessary to establish photoautotrophic growth. The closed cotyledons and the formation of the apical hook protect the largely inactive shoot apical meristem. Once this so-called etiolated seedling reaches the light, however, it switches to the photomorphogenetic program in which new organs develop and growth is achieved by both cell division and cell e...

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Thea A. Wilkins

A Modified Hot Borate Method Significantly Enhances the Yield of High-Quality RNA from Cotton (Gossypium hirsutum L.)

A 3347-Locus Genetic Recombination Map of Sequence-Tagged Sites Reveals Features of Genome Organization, Transmission and Evolution of Cotton (Gossypium)

Rate Variation Among Nuclear Genes and the Age of Polyploidy in Gossypium

Toward Sequencing Cotton (Gossypium) Genomes: Figure 1.

The Arabidopsis det3 mutant reveals a central role for the vacuolar H+-ATPase in plant growth and development

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