Retracted: Clinical Efficacy of Sanfeng Tongqiao Diwan in the Treatment of Allergic Rhinitis: A Randomized Controlled Trial

Summary Chromosome painting, that is visualisation of chromosome segments or whole chromosomes based on fluorescence in situ hybridization (FISH) with chromosome‐specific DNA probes is widely used for chromosome studies in mammals, birds, reptiles and insects. Attempts to establish chromosome painting in euploid plants have failed so far. Here, we report on chromosome painting in Arabidopsis thaliana (n = 5, 125 Mb C−1). Pools of contiguous 113–139 BAC clones spanning 2.6 and 13.3 Mb of the short and the long arm of chromosome 4 (17.5 Mb) were used to paint this entire chromosome during mitotic and meiotic divisions as well as in interphase nuclei. The possibility of identifying any particular chromosome region on pachytene chromosomes and within interphase nuclei using selected BACs is demonstrated by differential labelling. This approach allows us, for the first time, to paint an entire autosome of an euploid plant to study chromosome rearrangements, homologue association, interphase chromosome territories, as well as to identify homeologous chromosomes of related species.

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Molecular, genetic and evolutionary analysis of a paracentric inversion in Arabidopsis thaliana

Fransz

Linc

Lee

et al. 2016

The Plant Journal

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SummaryChromosomal inversions can provide windows onto the cytogenetic, molecular, evolutionary and demographic histories of a species. Here we investigate a paracentric 1.17‐Mb inversion on chromosome 4 of Arabidopsis thaliana with nucleotide precision of its borders. The inversion is created by Vandal transposon activity, splitting an F‐box and relocating a pericentric heterochromatin segment in juxtaposition with euchromatin without affecting the epigenetic landscape. Examination of the RegMap panel and the 1001 Arabidopsis genomes revealed more than 170 inversion accessions in Europe and North America. The SNP patterns revealed historical recombinations from which we infer diverse haplotype patterns, ancient introgression events and phylogenetic relationships. We find a robust association between the inversion and fecundity under drought. We also find linkage disequilibrium between the inverted region and the early flowering Col‐FRIGIDA allele. Finally, SNP analysis elucidates the origin of the inversion to South‐Eastern Europe approximately 5000 years ago and the FRI‐Col allele to North‐West Europe, and reveals the spreading of a single haplotype to North America during the 17th to 19th century. The ‘American haplotype’ was identified from several European localities, potentially due to return migration.

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Cohesin gene defects may impair sister chromatid alignment and genome stability in Arabidopsis thaliana

et al. 2009

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In contrast to yeast, plant interphase nuclei often display incomplete alignment (cohesion) along sister chromatid arms. Sister chromatid cohesion mediated by the multi-subunit cohesin complex is essential for correct chromosome segregation during nuclear divisions and for DNA recombination repair. The cohesin complex consists of the conserved proteins SMC1, SMC3, SCC3, and an alpha-kleisin subunit. Viable homozygous mutants could be selected for the Arabidopsis thaliana alpha-kleisins SYN1, SYN2, and SYN4, which can partially compensate each other. For the kleisin SYN3 and for the single-copy genes SMC1, SMC3, and SCC3, only heterozygous mutants were obtained that displayed between 77% and 97% of the wild-type transcript level. Compared to wild-type nuclei, sister chromatid alignment was significantly decreased along arms in 4C nuclei of the homozygous syn1 and syn4 and even of the heterozygous smc1, smc3, scc3, and syn3 mutants. Knocking out SYN1 and SYN4 additionally impaired sister centromere cohesion. Homozygous mutants of SWITCH1 (required for meiotic sister chromatid alignment) displayed sterility and decreased sister arm alignment. For the cohesin loading complex subunit SCC2, only heterozygous mutants affecting sister centromere alignment were obtained. Defects of the alpha-kleisin SYN4, which impair sister chromatid alignment in 4C differentiated nuclei, do apparently not disturb alignment during prometaphase nor cause aneuploidy in meristematic cells. The syn2, 3, 4 scc3 and swi1 mutants display a high frequency of anaphases with bridges (~10% to >20% compared to 2.6% in wild type). Our results suggest that (a) already a slight reduction of the average transcript level in heterozygous cohesin mutants may cause perturbation of cohesion, at least in some leaf cells at distinct loci; (b) the decreased sister chromatid alignment in cohesin mutants can obviously not fully be compensated by other cohesion mechanisms such as DNA concatenation; (c) some cohesin genes, in addition to cohesion, might have further essential functions (e.g., for genome stability, apparently by facilitating correct recombination repair of double-strand breaks).

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Chromosomal localization of rDNA in the Brassicaceae

Ali

Lysak²,

Schubert³

2005

Genome

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A survey is given about the number and chromosomal position of rDNA loci in 45 Brassicaceae species. For 34 species, 5S and 45S rDNA loci have been localized by two-colour fluorescence in situ hybridization for the first time. These data show the variability of rDNA within karyotypes of the Brassicaceae, provide anchor points for (comparative) genetic maps, and might be important for studies on concerted evolution of internal transcribed sequence types of rDNA in cruciferous plants.

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DNA content, rDNA loci, and DAPI bands reflect the phylogenetic distance between Lathyrus species

Ali¹,

Meister²,

Schubert³

2000

Genome

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The nuclear DNA content, the proportion of A+T base pairs, the chromosomal positions of 5S and 25S rRNA genes, as well as of DAPI (4,6-diamidino-2-phenylindole) bands are described for seven species belonging to three different sections of the genus Lathyrus. These data and chromosome measurements allowed to establish precise idiograms and to discriminate most of the chromosome pairs of the seven species. The karyotypic features correlate well with the phylogenetic distances between these species.

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Genomic in situ hybridization in plants with small genomes is feasible and elucidates the chromosomal parentage in interspecific Arabidopsis hybrids

Ali

Lysak²,

Schubert³

2004

Genome

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Genomic in situ hybridization (GISH) is a useful tool to analyse natural polyploids, hybrid plants, and their backcross progenies as to their origin, genomic composition, and intergenomic rearrangements. However, in angiosperms with very small genomes (<0.6 pg/1 C), often only heterochromatic regions were found to be labeled. We have modified the GISH technique to label entire mitotic and meiotic chromosomes of Arabidopsis thaliana (2n = 10) and closely related species with very small genomes by using high concentrations of DNA (7.5-15 microg per probe per slide) or 5 microg of probe and long hybridization times (>60 h). According to our GISH data, Cardaminopsis carpatica (2n = 16) is most likely the diploid ancestor of the autotetraploid Arabidopsis arenosa (2n = 32). Furthermore, within the allotetraploid species Arabidopsis suecica (2n = 26), it was possible to elucidate the origin of chromosomes contributed by the parental species A. thaliana and A. arenosa for a specimen with 2n = 26 or a deviating chromosome number.

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Gene-specific sex-linked genetic markers in date palm (Phoenix dactylifera L.)

Ali

Abubakari

Wiehle

et al. 2017

Genet Resour Crop Evol

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Genetic Diversity of Five Lathyrus Species using RAPD, ISSR and SCoT Markers

Osman¹,

Ali²

2020

Asian J. of Plant Sciences

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Hoda Badry Mohammed Ali

Chromosome painting in Arabidopsis thaliana

Molecular, genetic and evolutionary analysis of a paracentric inversion in Arabidopsis thaliana

Cohesin gene defects may impair sister chromatid alignment and genome stability in Arabidopsis thaliana

Chromosomal localization of rDNA in the Brassicaceae

DNA content, rDNA loci, and DAPI bands reflect the phylogenetic distance between Lathyrus species

Genomic in situ hybridization in plants with small genomes is feasible and elucidates the chromosomal parentage in interspecific Arabidopsis hybrids

Gene-specific sex-linked genetic markers in date palm (Phoenix dactylifera L.)

Genetic Diversity of Five Lathyrus Species using RAPD, ISSR and SCoT Markers

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