We are analyzing https://link.springer.com/article/10.1007/s11240-005-2487-9.

Title:
Distribution of genes and recombination in wheat and other eukaryotes | Plant Cell, Tissue and Organ Culture (PCTOC)
Description:
The genome sizes of eukaryotes may differ as much as 10,400-fold. A part of these differences may be attributed to polyploidy, and increase in gene number and size. Most of the genome size disparity is due to non-transcribed repeated DNA including retrotransposons and pseudogenes. Only a small fraction of the larger genomes such as those of many crop plants, contain genes. Genes are distributed unevenly along the chromosomes, often organized in clusters of varying sizes and gene-densities (gene-rich regions). The regions corresponding to gene-clusters in smaller genome plants such as rice may be divided into many ‘mini’ gene-clusters in the related larger genomes. The range of gene-density within the ‘mini2019; gene-clusters is about the same among plants with varying genome sizes. Recombination per chromosome is similar among eukaryotes, and thus is considerably independent of DNA content and chromosome size. Relatively little recombination occurs outside the gene-rich regions. Recombination varies dramatically among various gene regions, and is highly uneven within gene regions as well. Consequently, a significant number of genes may be inaccessible to recombination-based manipulations such as map-based cloning.
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Keywords {🔍}

google, scholar, genome, plant, recombination, wheat, article, gene, chromosome, regions, genetics, gill, sequence, usa, pubmed, genes, genet, cas, cell, proc, natl, acad, sci, meiotic, dna, generich, science, barley, locus, maize, content, analysis, rice, nature, distribution, genomes, chromosomes, cerevisiae, genetic, yeast, human, plants, bennetzen, physical, elements, triticum, privacy, cookies, eukaryotes, evolution,

Topics {✒️}

month download article/chapter unusually gene-rich region major gene-rich region cloned a1-sh2 interval meiotic double-strand breakage 8 gene-rich region free-threshing hexaploid relatives sh2/a1-homologous regions grain texture-related loci nbs-lrr gene families high-density mapping high-resolution recombination map high gene density gene-rich regions elegans sequencing consortium disease-resistance gene nbs-lrr-encoding genes double-strand breaks gene number reveals multiple mechanisms meiotic gene conversion smaller genome plants privacy choices/manage cookies full article pdf large gene family 240-kb dna interval organ culture aims article plant cell �mini’ gene-clusters gene-density gene density applied genetics published map-based cloning lr10 resistance locus 450-kb physical contig arabidopsis genome initiative high resolution localization washington state university d-genome donor reversible genome expansion orthologous adh regions nuclear dna amounts selfish dna hypothesis barley genome based european economic area pseudogenes significant number check access bivalent chiasma frequency starch branching enzyme

Questions {❓}

Spring J (1997) Vertebrate evolution by interspecific hybridization- are we polyploid?

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         description:The genome sizes of eukaryotes may differ as much as 10,400-fold. A part of these differences may be attributed to polyploidy, and increase in gene number and size. Most of the genome size disparity is due to non-transcribed repeated DNA including retrotransposons and pseudogenes. Only a small fraction of the larger genomes such as those of many crop plants, contain genes. Genes are distributed unevenly along the chromosomes, often organized in clusters of varying sizes and gene-densities (gene-rich regions). The regions corresponding to gene-clusters in smaller genome plants such as rice may be divided into many ‘mini’ gene-clusters in the related larger genomes. The range of gene-density within the ‘mini2019; gene-clusters is about the same among plants with varying genome sizes. Recombination per chromosome is similar among eukaryotes, and thus is considerably independent of DNA content and chromosome size. Relatively little recombination occurs outside the gene-rich regions. Recombination varies dramatically among various gene regions, and is highly uneven within gene regions as well. Consequently, a significant number of genes may be inaccessible to recombination-based manipulations such as map-based cloning.
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            gene number
            gene-rich regions
            plants
            pseudogenes
            recombination
            Triticeae
            Plant Sciences
            Plant Physiology
            Plant Genetics and Genomics
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         Plant Physiology
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