Paweł Osipowski - Academia.edu (original) (raw)

Paweł Osipowski

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Papers by Paweł Osipowski

Research paper thumbnail of Molecular Cytogenetic Analysis of <b><i>Cucumis</i></b> Wild Species Distributed in Southern Africa: Physical Mapping of 5S and 45S rDNA with DAPI

Cytogenetic and Genome Research, 2015

Wild Cucumis species have been divided into Australian/Asian and African groups using morphologic... more Wild Cucumis species have been divided into Australian/Asian and African groups using morphological and phylogenetic characteristics, and new species have been described recently. No molecular cytogenetic information is available for most of these species. The crossability between 5 southern African Cucumis species (C. africanus, C. anguria, C. myriocarpus, C. zeyheri, and C. heptadactylus) has been reported; however, the evolutionary relationship among them is still unclear. Here, a molecular cytogenetic analysis using FISH with 5S and 45S ribosomal DNA (rDNA) was used to investigate these Cucumis species based on sets of rDNA-bearing chromosomes (rch) types I, II and III. The molecular cytogenetic and phylogenetic results suggested that at least 2 steps of chromosomal rearrangements may have occurred during the evolution of tetraploid C. heptadactylus. In step 1, an additional 45S rDNA site was observed in the chromosome (type III). In particular, C. myriocarpus had a variety of rch sets. Our results suggest that chromosomal rearrangements may have occurred in the 45S rDNA sites. We propose that polyploid evolution occurred in step 2. This study provides insights into the chromosomal characteristics of African Cucumis species and contributes to the understanding of chromosomal evolution in this genus.

Research paper thumbnail of Molecular Cytogenetic Analysis of <b><i>Cucumis</i></b> Wild Species Distributed in Southern Africa: Physical Mapping of 5S and 45S rDNA with DAPI

Cytogenetic and Genome Research, 2015

Wild Cucumis species have been divided into Australian/Asian and African groups using morphologic... more Wild Cucumis species have been divided into Australian/Asian and African groups using morphological and phylogenetic characteristics, and new species have been described recently. No molecular cytogenetic information is available for most of these species. The crossability between 5 southern African Cucumis species (C. africanus, C. anguria, C. myriocarpus, C. zeyheri, and C. heptadactylus) has been reported; however, the evolutionary relationship among them is still unclear. Here, a molecular cytogenetic analysis using FISH with 5S and 45S ribosomal DNA (rDNA) was used to investigate these Cucumis species based on sets of rDNA-bearing chromosomes (rch) types I, II and III. The molecular cytogenetic and phylogenetic results suggested that at least 2 steps of chromosomal rearrangements may have occurred during the evolution of tetraploid C. heptadactylus. In step 1, an additional 45S rDNA site was observed in the chromosome (type III). In particular, C. myriocarpus had a variety of rch sets. Our results suggest that chromosomal rearrangements may have occurred in the 45S rDNA sites. We propose that polyploid evolution occurred in step 2. This study provides insights into the chromosomal characteristics of African Cucumis species and contributes to the understanding of chromosomal evolution in this genus.

Research paper thumbnail of CORRECTED VERSION Identification and characterization of genes connected with flower morphogenesis in cucumber

Research paper thumbnail of RESEARCH PAPER Identification and characterization of genes connected with flower morphogenesis in cucumber

Research paper thumbnail of The discrepancies in the results of bioinformatics tools for genomic structural annotation

Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments 2014, 2014

Research paper thumbnail of Computational structural variation discovery in genomes: state of the art and challenges

Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments 2014, 2014

Research paper thumbnail of Comparative analysis of novel CsABI1 and CsABI2 genes in the male and female flowers of cucumber

Research paper thumbnail of Molecular Cytogenetic Analysis of <b><i>Cucumis</i></b> Wild Species Distributed in Southern Africa: Physical Mapping of 5S and 45S rDNA with DAPI

Cytogenetic and Genome Research, 2015

Wild Cucumis species have been divided into Australian/Asian and African groups using morphologic... more Wild Cucumis species have been divided into Australian/Asian and African groups using morphological and phylogenetic characteristics, and new species have been described recently. No molecular cytogenetic information is available for most of these species. The crossability between 5 southern African Cucumis species (C. africanus, C. anguria, C. myriocarpus, C. zeyheri, and C. heptadactylus) has been reported; however, the evolutionary relationship among them is still unclear. Here, a molecular cytogenetic analysis using FISH with 5S and 45S ribosomal DNA (rDNA) was used to investigate these Cucumis species based on sets of rDNA-bearing chromosomes (rch) types I, II and III. The molecular cytogenetic and phylogenetic results suggested that at least 2 steps of chromosomal rearrangements may have occurred during the evolution of tetraploid C. heptadactylus. In step 1, an additional 45S rDNA site was observed in the chromosome (type III). In particular, C. myriocarpus had a variety of rch sets. Our results suggest that chromosomal rearrangements may have occurred in the 45S rDNA sites. We propose that polyploid evolution occurred in step 2. This study provides insights into the chromosomal characteristics of African Cucumis species and contributes to the understanding of chromosomal evolution in this genus.

Research paper thumbnail of Molecular Cytogenetic Analysis of <b><i>Cucumis</i></b> Wild Species Distributed in Southern Africa: Physical Mapping of 5S and 45S rDNA with DAPI

Cytogenetic and Genome Research, 2015

Wild Cucumis species have been divided into Australian/Asian and African groups using morphologic... more Wild Cucumis species have been divided into Australian/Asian and African groups using morphological and phylogenetic characteristics, and new species have been described recently. No molecular cytogenetic information is available for most of these species. The crossability between 5 southern African Cucumis species (C. africanus, C. anguria, C. myriocarpus, C. zeyheri, and C. heptadactylus) has been reported; however, the evolutionary relationship among them is still unclear. Here, a molecular cytogenetic analysis using FISH with 5S and 45S ribosomal DNA (rDNA) was used to investigate these Cucumis species based on sets of rDNA-bearing chromosomes (rch) types I, II and III. The molecular cytogenetic and phylogenetic results suggested that at least 2 steps of chromosomal rearrangements may have occurred during the evolution of tetraploid C. heptadactylus. In step 1, an additional 45S rDNA site was observed in the chromosome (type III). In particular, C. myriocarpus had a variety of rch sets. Our results suggest that chromosomal rearrangements may have occurred in the 45S rDNA sites. We propose that polyploid evolution occurred in step 2. This study provides insights into the chromosomal characteristics of African Cucumis species and contributes to the understanding of chromosomal evolution in this genus.

Research paper thumbnail of CORRECTED VERSION Identification and characterization of genes connected with flower morphogenesis in cucumber

Research paper thumbnail of RESEARCH PAPER Identification and characterization of genes connected with flower morphogenesis in cucumber

Research paper thumbnail of The discrepancies in the results of bioinformatics tools for genomic structural annotation

Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments 2014, 2014

Research paper thumbnail of Computational structural variation discovery in genomes: state of the art and challenges

Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments 2014, 2014

Research paper thumbnail of Comparative analysis of novel CsABI1 and CsABI2 genes in the male and female flowers of cucumber

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