Li He scite author profile

Developing the karyotype of a eukaryotic species relies on identification of individual chromosomes, which has been a major challenge for most nonmodel plant and animal species. We developed a novel chromosome identification system by selecting and labeling oligonucleotides (oligos) located in specific regions on every chromosome. We selected a set of 54,672 oligos (45 nt) based on single copy DNA sequences in the potato genome. These oligos generated 26 distinct FISH signals that can be used as a "bar code" or "banding pattern" to uniquely label each of the 12 chromosomes from both diploid and polyploid (43 and 63) potato species. Remarkably, the same bar code can be used to identify the 12 homeologous chromosomes among distantly related Solanum species, including tomato and eggplant. Accurate karyotypes based on individually identified chromosomes were established in six Solanum species that have diverged for .15 MY. These six species have maintained a similar karyotype; however, modifications to the FISH signal bar code led to the discovery of two reciprocal chromosomal translocations in Solanum etuberosum and S. caripense. We also validated these translocations by oligo-based chromosome painting. We demonstrate that the oligo-based FISH techniques are powerful new tools for chromosome identification and karyotyping research, especially for nonmodel plant species.

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Nuclear and cytoplasmic genome components of Solanum tuberosum + S. chacoense somatic hybrids and three SSR alleles related to bacterial wilt resistance

Chen

Guo

Xie

et al. 2013

Theor Appl Genet

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The somatic hybrids were derived previously from protoplast fusion between Solanum tuberosum and S. chacoense to gain the bacterial wilt resistance from the wild species. The genome components analysis in the present research was to clarify the nuclear and cytoplasmic composition of the hybrids, to explore the molecular markers associated with the resistance, and provide information for better use of these hybrids in potato breeding. One hundred and eight nuclear SSR markers and five cytoplasmic specific primers polymorphic between the fusion parents were used to detect the genome components of 44 somatic hybrids. The bacterial wilt resistance was assessed thrice by inoculating the in vitro plants with a bacterial suspension of race 1. The disease index, relative disease index, and resistance level were assigned to each hybrid, which were further analyzed in relation to the molecular markers for elucidating the potential genetic base of the resistance. All of the 317 parental unique nuclear SSR alleles appeared in the somatic hybrids with some variations in the number of bands detected. Nearly 80 % of the hybrids randomly showed the chloroplast pattern of one parent, and most of the hybrids exhibited a fused mitochondrial DNA pattern. One hundred and nine specific SSR alleles of S. chacoense were analyzed for their relationship with the disease index of the hybrids, and three alleles were identified to be significantly associated with the resistance. Selection for the resistant SSR alleles of S. chacoense may increase the possibility of producing resistant pedigrees.

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Interstitial telomeric repeats are enriched in the centromeres of chromosomes in Solanum species

Liu

Torres

et al. 2012

Chromosome Res

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Interstitial telomeric repeats (ITRs) were reported in a number of animal and plant species. Most ITRs are organized as short tandem arrays and are likely evolutionary relics derived from chromosomal rearrangements and DNA repairs. However, megabase-sized ITR arrays were reported in Solanum species. Here, we report a fluorescence in situ hybridization (FISH) survey of ITRs in all representative diploid Solanum species, including potato, tomato, and eggplant. FISH revealed massive amplification of ITRs in the centromeric regions of chromosomes from the Solanum species containing the B and P genomes. A significant proportion of the ITR FISH signals was mapped within the primary constrictions of the pachytene chromosomes of Solanum pinnatisectum (B genome). In addition, some ITR sites overlapped with St49, a satellite repeat enriched in centromeric DNA sequences associated with CENH3 nucleosomes, in both A and B genome Solanum species. These results show that some ITR subfamilies have been amplified and invaded in the functional centromeres of chromosomes in Solanum species.

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Characterization and identification of ISSR markers associated with resistance to dried-shrink disease in sea buckthorn

Ruan

Mopper

2009

Mol Breeding

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FveRGA1, encoding a DELLA protein, negatively regulates runner production in Fragaria vesca

Zhang

Sun

et al. 2017

Planta

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FveRGA1 was highly expressed in tender tissues such as young leaves and stem apices and was localized in the nucleus. RNAi silencing of FveRGA1 in non-runnering woodland strawberry produced many runners. FveRGA1 is thus a key gene controlling strawberry runner formation. The propagation of strawberry is mainly based on runners, while the genes controlling runner production have not been well characterized. Exogenous applications of optimum concentration gibberellins (GAs) promote runner formation in strawberry cultivation and GA can accelerate the degradation of DELLA proteins. To investigate whether DELLA proteins are responsible for runner production, we analyzed all the DELLA genes in Fragaria vesca and cloned a DELLA protein-encoding gene FveRGA1 in woodland strawberry using RT-PCR. Subcellular localization analysis indicated that FveRGA1 was localized in the nucleus. A transcription analysis suggested that FveRGA1 was expressed ubiquitously in all examined strawberry organs, especially in young leaves, petioles, and stem apices. RNA interference (RNAi) technology was carried out to investigate the function of FveRGA1 in woodland strawberry 'Yellow Wonder' (YW) and 'Ruegen' (RG) via an Agrobacterium-mediated transformation. Interestingly, the RNAi silencing transgenic plants in the naturally non-runnering YW and RG strains produced many runners, suggesting FveRGA1 as a key gene controlling strawberry runner formation. Our study lays a solid basis for unraveling the detailed molecular mechanism of runner formation in strawberry.

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Li He

Comparative Oligo-FISH Mapping: An Efficient and Powerful Methodology To Reveal Karyotypic and Chromosomal Evolution

Nuclear and cytoplasmic genome components of Solanum tuberosum + S. chacoense somatic hybrids and three SSR alleles related to bacterial wilt resistance

Interstitial telomeric repeats are enriched in the centromeres of chromosomes in Solanum species

Characterization and identification of ISSR markers associated with resistance to dried-shrink disease in sea buckthorn

FveRGA1, encoding a DELLA protein, negatively regulates runner production in Fragaria vesca

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