Klaus Pistrick scite author profile

The C-value paradox remains incompletely resolved after >40 yr and is exemplified by 2,350-fold variation in genome sizes of flowering plants. The carnivorous Lentibulariaceae genus Genlisea, displaying a 25-fold range of genome sizes, is a promising subject to study mechanisms and consequences of evolutionary genome size variation. Applying genomic, phylogenetic, and cytogenetic approaches, we uncovered bidirectional genome size evolution within the genus Genlisea. The Genlisea nigrocaulis Steyerm. genome (86 Mbp) has probably shrunk by retroelement silencing and deletion-biased double-strand break (DSB) repair, from an ancestral size of 400 to 800 Mbp to become one of the smallest among flowering plants. The G. hispidula Stapf genome has expanded by whole-genome duplication (WGD) and retrotransposition to 1550 Mbp. Genlisea hispidula became allotetraploid after the split from the G. nigrocaulis clade ~29 Ma. Genlisea pygmaea A. St.-Hil. (179 Mbp), a close relative of G. nigrocaulis, proved to be a recent (auto)tetraploid. Our analyses suggest a common ancestor of the genus Genlisea with an intermediate 1C value (400-800 Mbp) and subsequent rapid genome size evolution in opposite directions. Many abundant repeats of the larger genome are absent in the smaller, casting doubt on their functionality for the organism, while recurrent WGD seems to safeguard against the loss of essential elements in the face of genome shrinkage. We cannot identify any consistent differences in habitat or life strategy that correlate with genome size changes, raising the possibility that these changes may be selectively neutral.

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Molecular Evidence for Transcription of Genes on a B Chromosome in Crepis capillaris

Leach

Houben

Field

et al. 2005

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Dispensable, supernumerary (B) chromosomes are found in diverse eukaryotic species. The origin and genetic consequences of B chromosomes have been the subjects of speculation for more than a century. Until now, there has been no molecular evidence that B chromosome DNA is transcribed and there is no unequivocal evidence as to their origin. B chromosomes are considered to be genetically inert although they appear to cause a variety of phenotypic effects. We report that members of one of two ribosomal RNA gene families that are confined to the B chromosomes of a plant, Crepis capillaris, are transcribed-thus providing the first molecular evidence of gene activity on B chromosomes. Sequence analysis of part of the A and B chromosome rRNA genes, together with comparisons with related species, indicates that the B chromosome rRNA genes originate from the A chromosome.

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Supernumerary B chromosomes of Aegilops speltoides undergo precise elimination in roots early in embryo development

Ruban

Schmutzer

et al. 2020

Nat Commun

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Not necessarily all cells of an organism contain the same genome. Some eukaryotes exhibit dramatic differences between cells of different organs, resulting from programmed elimination of chromosomes or their fragments. Here, we present a detailed analysis of programmed B chromosome elimination in plants. Using goatgrass Aegilops speltoides as a model, we demonstrate that the elimination of B chromosomes is a strictly controlled and highly efficient root-specific process. At the onset of embryo differentiation B chromosomes undergo elimination in proto-root cells. Independent of centromere activity, B chromosomes demonstrate nondisjunction of chromatids and lagging in anaphase, leading to micronucleation. Chromatin structure and DNA replication differ between micronuclei and primary nuclei and degradation of micronucleated DNA is the final step of B chromosome elimination. This process might allow root tissues to survive the detrimental expression, or overexpression of B chromosome-located root-specific genes with paralogs located on standard chromosomes.

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The evolution of the hexaploid grass Zingeria kochii (Mez) Tzvel. (2n=12) was accompanied by complex hybridization and uniparental loss of ribosomal DNA

Kotseruba

Pistrick

Blattner

et al. 2010

Molecular Phylogenetics and Evolution

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Phenology and Genome Size Variation in Allium L. ‐ a Tight Correlation?

Ohri

Pistrick

2001

Plant Biology

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A very wide diversity of genome size and phenology has been shown in 75 Allium species belonging to all of the six subgenera. The 2C DNA amounts per genome, which range from 16.93 to 63.57 pg, do not show any significant negative correlation with flowering period or any direct relation with foliage leaf dormancy. This means that there is no general correlation between evolution of genome size and life strategies in the differentiation of the genus Allium. This conclusion is rather unexpected in being contrary to the ecological perspective of the nucleotype theory in the genus Allium.

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Klaus Pistrick

Comparative Genome Analysis Reveals Divergent Genome Size Evolution in a Carnivorous Plant Genus

Molecular Evidence for Transcription of Genes on a B Chromosome in Crepis capillaris

Supernumerary B chromosomes of Aegilops speltoides undergo precise elimination in roots early in embryo development

The evolution of the hexaploid grass Zingeria kochii (Mez) Tzvel. (2n=12) was accompanied by complex hybridization and uniparental loss of ribosomal DNA

Phenology and Genome Size Variation in Allium L. ‐ a Tight Correlation?

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