Preparation of Xenopus tropicalis whole chromosome painting probes using laser microdissection and reconstruction of X. laevis tetraploid karyotype by Zoo-FISH

Krylov, Vladimír; Kubı́čková, Svatava; Rubeš, Jiřı́; Mácha, J; Tlapáková, Tereza; Seifertova, Eva; Šebková, Nataša

doi:10.1007/s10577-010-9127-x

Cited by 30 publications

(58 citation statements)

References 32 publications

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“…Our results suggest that the ancestral bi-armed chromosome pair of homoeologous XLA15 and XLA18 may have been derived from the fusion of XTR9 and XTR10 in the ancestral species of X. tropicalis. The nine quartets identified in this study were not consistent with those determined by 5-bromo-2 0 -deoxyuridine/dT replication banding (Schmid and Steinlein, 1991) and cross-species chromosome hybridization with X. tropicalis-derived chromosome painting probes (Krylov et al, 2010). Krylov et al (2010) demonstrated that XLA11 þ 14 and XLA15 þ 18 were painted with XTR8 and XTR9 probes, respectively, and XLA14 and XLA18 were hybridized with XTR10 paint; however, XTR10 showed homology with XLA15 and XLA18 by comparative gene mapping in the present study.…”

Section: Discussioncontrasting

confidence: 83%

Homoeologous chromosomes of Xenopus laevis are highly conserved after whole-genome duplication

et al. 2013

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It has been suggested that whole-genome duplication (WGD) occurred twice during the evolutionary process of vertebrates around 450 and 500 million years ago, which contributed to an increase in the genomic and phenotypic complexities of vertebrates. However, little is still known about the evolutionary process of homoeologous chromosomes after WGD because many duplicate genes have been lost. Therefore, Xenopus laevis (2n ¼ 36) and Xenopus (Silurana) tropicalis (2n ¼ 20) are good animal models for studying the process of genomic and chromosomal reorganization after WGD because X. laevis is an allotetraploid species that resulted from WGD after the interspecific hybridization of diploid species closely related to X. tropicalis. We constructed a comparative cytogenetic map of X. laevis using 60 complimentary DNA clones that covered the entire chromosomal regions of 10 pairs of X. tropicalis chromosomes. We consequently identified all nine homoeologous chromosome groups of X. laevis. Hybridization signals on two pairs of X. laevis homoeologous chromosomes were detected for 50 of 60 (83%) genes, and the genetic linkage is highly conserved between X. tropicalis and X. laevis chromosomes except for one fusion and one inversion and also between X. laevis homoeologous chromosomes except for two inversions. These results indicate that the loss of duplicated genes and inter-and/or intrachromosomal rearrangements occurred much less frequently in this lineage, suggesting that these events were not essential for diploidization of the allotetraploid genome in X. laevis after WGD.

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Section: Discussioncontrasting

confidence: 83%

Homoeologous chromosomes of Xenopus laevis are highly conserved after whole-genome duplication

et al. 2013

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“…In their pioneering cytogenetic work on the genus Xenopus , Janina Tymowska and co-workers (for references, see table 1 ) did not arrange the ordinarily stained chromosomes according to decreasing lengths, but established sophisticated standard karyotypes which were based on the relative sizes of short and long chromosome arms. Subsequently, these unconventional chromosome groupings were adopted by others in studies on chromosome banding [Sekiya and Nakagawa, 1983;Schmid et al, 1987;Schmid and Steinlein, 1991], chromosome painting [Krylov et al, 2010] and mapping of genes and repetitive DNA sequences [Courtet et al, 2001;Krylov et al, 2003Krylov et al, , 2007Tlapakova et al, 2005;Nanda et al, 2008;Uno et al, 2008Uno et al, , 2013. In the present study, this system is simplified and the chromosomes are arranged according to the new nomenclature of Xenopus chromosomes established by the Xenopus Gene Nomenclature Committee [Matsuda et al, this issue].…”

Section: Resultsmentioning

confidence: 99%

“…Following this very first trial, studies using Zoo-FISH with 8 probes obtained from X. tropicalis [Krylov et al, 2010], as well as FISH with 60 cDNA clones of X. laevis [Uno et al, 2013] were used to identify the exact tetraploid X. laevis karyotype. The 9 quartets identified by Uno et al [2013] are shown in figure 5 b.…”

Section: Reconstruction Of the Tetraploid Karyotype Of X Laevismentioning

confidence: 99%

Chromosome Banding in Amphibia. XXXII. The Genus Xenopus (Anura, Pipidae)

Schmid¹,

Steinlein²

2015

Cytogenet Genome Res

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Mitotic chromosomes of 16 species of the frog genus Xenopus were prepared from kidney and lung cell cultures. In the chromosomes of 7 species, high-resolution replication banding patterns could be induced by treating the cultures with 5-bromodeoxyuridine (BrdU) and deoxythymidine (dT) in succession, and in 6 of these species the BrdU/dT-banded chromosomes could be arranged into karyotypes. In the 3 species of the clade with 2n = 20 and 4n = 40 chromosomes (X. tropicalis, X. epitropicalis, X. new tetraploid 1), as well as in the 3 species with 4n = 36 chromosomes (X. laevis, X. borealis, X. muelleri), the BrdU/dT-banded karyotypes show a high degree of homoeology, though differences were detected between these groups. Translocations, inversions, insertions or sex-specific replication bands were not observed. Minor replication asynchronies found between chromosomes probably involve heterochromatic regions. BrdU/dT replication banding of Xenopus chromosomes provides the landmarks necessary for the exact physical mapping of genes and repetitive sequences. FISH with an X. laevis 5S rDNA probe detected multiple hybridization sites at or near the long-arm telomeric regions in most chromosomes of X. laevis and X. borealis, whereas in X. muelleri, the 5S rDNA sequences are located exclusively at the long-arm telomeres of a single chromosome pair. Staining with the AT base pair-specific fluorochrome quinacrine mustard revealed brightly fluorescing heterochromatic regions in the majority of X. borealis chromosomes which are absent in other Xenopus species.

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“…It has been known for some time that X. tropicalis is a true diploid species, but X. laevis is an ancient allotetraploid (Tymowska 1991). A recent chromosome painting analysis provides confirmation of this hypothesis (Krylov et al 2010). Now that the X. laevis genome has been sequenced and annotated (xenbase.org), it is possible to find numerous cases of duplicate genes in this species.…”

Section: Comparison Of Sisrnas In X Tropicalis and X Laevismentioning

confidence: 99%

Lariat intronic RNAs in the cytoplasm of Xenopus tropicalis oocytes

Talhouarne

Gall

2014

RNA

124

141

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We previously demonstrated that the oocyte nucleus (germinal vesicle or GV) of Xenopus tropicalis contains a population of stable RNA molecules derived from the introns of most expressed genes. Here we show that similar stable intronic sequence (sis) RNAs occur in the oocyte cytoplasm. About 9000 cytoplasmic sisRNAs have been identified, all of which are resistant to the exonuclease RNase R. About half have been confirmed as lariat molecules and the rest are presumed to be lariats, whereas nuclear sisRNAs are a mixture of lariat and linear molecules. Cytoplasmic sisRNAs are more abundant on a molar basis than nuclear sisRNAs and are derived from short introns, mostly under 1 kb in length. Both nuclear and cytoplasmic sisRNAs are transmitted intact to the egg at GV breakdown and persist until at least the blastula stage of embryogenesis, when zygotic transcription begins. We compared cytoplasmic sisRNAs derived from orthologous genes of X. tropicalis and X. laevis, and found that the specific introns from which sisRNAs are derived are not conserved. The existence of sisRNAs in the cytoplasm of the oocyte, their transmission to the fertilized egg, and their persistence during early embryogenesis suggest that they might play a regulatory role in mRNA translation.

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Preparation of Xenopus tropicalis whole chromosome painting probes using laser microdissection and reconstruction of X. laevis tetraploid karyotype by Zoo-FISH

Cited by 30 publications

References 32 publications

Homoeologous chromosomes of Xenopus laevis are highly conserved after whole-genome duplication

Homoeologous chromosomes of Xenopus laevis are highly conserved after whole-genome duplication

Chromosome Banding in Amphibia. XXXII. The Genus Xenopus (Anura, Pipidae)

Lariat intronic RNAs in the cytoplasm of Xenopus tropicalis oocytes

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