Your search keyword '"Kikuchi, Shinji"' showing total 4 results

1. Two pathways of 2n gamete formation and differences in the frequencies of 2n gametes between wild species and interspecific hybrids.

Author

Kondo, Haruka, Deguchi, Ayumi, Kikuchi, Shinji, and Miyoshi, Kazumitsu

Subjects

GAMETOGENESIS, GAMETES, STEM cells, POLYPLOIDY, GERM cells, KARYOTYPES, PLANT evolution, SPECIES

Abstract

Key message: Epidendrum produces 2n gametes with high frequency. This paper is the first to report on multiple pathways for forming 2n gametes, meiotic defeats, and pre-meiotic chromosome doubling. Unreduced 2n reproductive cells are predominantly involved in pathways that lead to polyploid plants. Although one of the most common pathways for inducing 2n gametes is through meiotic defects, a small set of isolated species alternatively generates 2n gametes from tetraploid pollen mother cells in the pre-meiotic phase. Hence, determining the mechanisms underlying 2n gamete formation is critical to improving breeding programmes and understanding plant evolution. We investigated sporads to reveal the pathway(s) accounting for the formation and frequencies of 2n gametes in wild species and interspecific hybrids in the genus Epidendrum. We investigated different types of sporads with varying frequencies, sizes, and viability in the wild species and hybrids of the genus Epidendrum. Large tetrad-estimated pre-meiotic chromosome doubling was observed in wild species. The Epidendrum is unique in that it forms 2n pollens via two pathways, namely, meiotic defects and pre-meiotic chromosome doubling. These two pathways of 2n pollen formation could influence the high diversity generation of polyploidy with different degrees of heterozygosity and genetic backgrounds in the genus Epidendrum. Therefore, these findings are proposed to influence polyploid breeding of Epidendrum via 2n pollen, helping us understand evolution and speciation via unreduced 2n gamete formation in Orchidaceae. [ABSTRACT FROM AUTHOR]

Published

2022

2. Behavior of chromosomes from the Mexican wild diploid species Solanum pinnatisectum in the interspecific hybrid with cultivated potato and its backcross progenies.

Author

Kikuchi, Shinji, Ishii, Hikari, Hosaka, Kazuyoshi, and Sanetomo, Rena

Subjects

*CHROMOSOMES, *SOLANUM, *CHROMOSOME analysis, *KARYOTYPES, *SPECIES, *IN situ hybridization, *POLYPLOIDY, *INTROGRESSION (Genetics)

Abstract

The genomic relationship between Mexican wild diploid species and South American wild and cultivated potato species is ambiguous because these species are reproductively isolated from each other. Previously, we successfully obtained triploid interspecific hybrids between a chromosome-doubled clone of the Mexican wild diploid species Solanum pinnatisectum (2n = 2x = 24) and a cultivated diploid species (A-genome species); these hybrids were then chromosome-doubled and backcrossed to tetraploid potatoes. In this study, we conducted a genomic in situ hybridization (GISH) analysis to reveal the chromosome behaviors of the S. pinnatisectum chromosomes in the hybrid progenies. Due to the high specificity of the A-genome probe for A-genome chromosomes, the chromosomes of the two species were differentially painted. In the triploid hybrid, bivalents with two S. pinnatisectum chromosomes and univalents with cultivated species chromosomes were exclusively observed at meiosis. However, in the hexaploid hybrid, 20% of the S. pinnatisectum chromosomes showed allosyndetic pairing with A-genome chromosomes and formed bivalents and multivalents. From the BC1 to BC4 plants, the number of S. pinnatisectum chromosomes was drastically reduced from 24 to an average of 0.9, and translocation chromosomes were observed. Therefore, we conclude that the S. pinnatisectum germplasm was actually introgressed by recombination into the S. tuberosum genome, which was demonstrated by the presence of an S. pinnatisectum-derived late blight resistance gene (Rpi-blb3) in BC4 plants whose chromosomes were all painted with the A-genome probe. [ABSTRACT FROM AUTHOR]

Published

2022

3. Two jatropha karyotypes constructed from meiotic pachytene chromosomes: Pericentric distribution of heterochromatin and variation in repetitive DNAs.

Author

Muakrong, Narathid, Kikuchi, Shinji, Fukuhara, Shuto, Tanya, Patcharin, and Srinives, Peerasak

Subjects

*JATROPHA, *EUPHORBIACEAE, *BIODIESEL fuels, *HETEROCHROMATIN, *CHROMATIN

Abstract

Jatropha (Jatropha curcas) is an oil-bearing plant used for biodiesel production. Construction of its standard karyotype and identification of the euchromatin/heterochromatin distribution associated with gene expression and meiotic recombination are essential to fully characterize its genome. Here, we developed a J. curcas karyotype based on meiotic pachytene chromosomes. In addition, a karyotype of J. integerrima, a useful species for jatropha breeding, was also constructed. Five out of eleven J. curcas chromosomes were metacentric, but only two were metacentric in J. integerrima. Almost all of the heterochromatin was distributed around the pericentric regions. The interstitial and distal regions were euchromatic without heterochromatic knobs, except for small heterochromatin regions associated with the subtelomeric repeat sequence JcSat1. These pericentric heterochromatin distribution patterns, together with chromosome structure data and the results of FISH probing with rDNA and JcSat1, allowed us to classify all chromosomes of both species. The two species had two 35S rDNA loci and one 5S rDNA locus; one 35S rDNA locus in J. integerrima was located on the interstitial region of the short arms. In addition, JcSat1 was found at only the heterochromatic ends of the J. curcas chromosome, not the J. integerrima chromosome. Despite the same chromosome number, the two pachytene chromosome-based karyotypes suggest variation in chromosome structure and distribution of repetitive DNAs in these two species. [ABSTRACT FROM AUTHOR]

Published

2018

4. An improved method for inducing prometaphase chromosomes in plants.

Author

Setiawan, Agus Budi, Teo, Chee How, Kikuchi, Shinji, Sassa, Hidenori, and Koba, Takato

Subjects

PLANT chromosomes, KARYOTYPES, METAPHASE (Mitosis), MELONS, RIBOSOMAL DNA

Abstract

Background: Detailed karyotyping using metaphase chromosomes in melon (Cucumis melo L.) remains a challenge because of their small chromosome sizes and poor stainability. Prometaphase chromosomes, which are two times longer and loosely condensed, provide a significantly better resolution for fluorescence in situ hybridization (FISH) than metaphase chromosomes. However, suitable method for acquiring prometaphase chromosomes in melon have been poorly investigated. Results: In this study, a modified Carnoy's solution II (MC II) [6:3:1 (v/v) ethanol: acetic acid: chloroform] was used as a pretreatment solution to obtain prometaphase chromosomes. We demonstrated that the prometaphase chromosomes obtained using the MC II method are excellent for karyotyping and FISH analysis. We also observed that a combination of MC II and the modified air dry (ADI) method provides a satisfactory meiotic pachytene chromosome preparation with reduced cytoplasmic background and clear chromatin spreads. Moreover, we demonstrated that pachytene and prometaphase chromosomes of melon and Abelia × grandiflora generate significantly better FISH images when prepared using the method described. We confirmed, for the first time, that Abelia × grandiflora has pairs of both strong and weak 45S ribosomal DNA signals on the short arms of their metaphase chromosomes. Conclusion: The MC II and ADI method are simple and effective for acquiring prometaphase and pachytene chromosomes with reduced cytoplasm background in plants. Our methods provide high-resolution FISH images that can help accelerate molecular cytogenetic research in plants. [ABSTRACT FROM AUTHOR]

Published

2018