The use of miRNAs as reference genes for miRNA expression normalization during <Emphasis Type="Italic">Lilium</Emphasis> somatic embryogenesis by real-time reverse transcription PCR analysis

Expression profiling of miRNAs has the ability to reveal the essence of somatic embryogenesis (SE). qRT-PCR is one of the most commonly used techniques for dynamic miRNA detection but requires optimal reference genes for data reliability. This is the first report on reference gene validation for miRNA expression normalization in Lilium (Lilium pumilum DC. Fisch. and Lilium davidii var. unicolor). In this study, seventeen miRNAs together with two snRNAs (U4, U6), one rRNA (5S rRNA) and three protein-coding genes (FP, ACT, GAPDH) were selected as reference candidates, and their expression stability was validated by qRT-PCR among eleven developing SE cultures in two lilies. Four normalization algorithms, including geNorm, BestKeeper, NormFinder and RefFinder, were also used to evaluate the stability of the reference candidates. For Lilium pumilum DC. Fisch., lpu-miR159a was the optimal reference gene during SE, followed by lpu-miR408b, while U6 was the least stable reference candidate. For Lilium davidii var. unicolor, FP presented greater stability than did half of the miRNA candidates, but the best reference gene was lda-miR162, followed by lda-miR159a. Further analysis of the expression level of miR156 and miR529 was used to evaluate the validity of the reference genes in both lilies. In general, miRNAs are superior to common protein-coding genes and snRNAs / rRNAs as reference genes for miRNA expression normalization during Lilium SE, and the most suitable reference miRNA is different between two species in the same Lilium genus. This is a pioneer study using suitable miRNAs as reference genes in Lilium and constitutes a small but essential step for the further exploration of miRNA function in Lilium, thus offering valuable references for other plants.     

Pyr-miR171f-targeted <Emphasis Type="Italic">PyrSCL6</Emphasis> and <Emphasis Type="Italic">PyrSCL22</Emphasis> genes regulate shoot growth by responding to IAA signaling in pear

MicroRNA171 (miR171) is a highly conserved miRNA family, crucial for plant growth and development, and has been reported in Arabidopsis thaliana and tomato (Solanum lycopersicum), but the role of miR171 has not been explored in pear. In this study, an effort was made to decipher the mechanism underlying dwarf in ‘Zhongai 3’, of which the shoot length and shoot growth rate during the growing season were much less than those of the vigorous cultivar ‘Zaosu’, and the same for the indole-3-acetic acid (IAA) content in shoot tips after May 22, 2016. We identified a member of the miR171 family, which was most sensitive to IAA and targeted two genes conformed by 5′-RACE, and we named Pyr-miR171f. The two targets were named as PyrSCL6 and PyrSCL22, and contained a GRAS-conserved domain and encoded nucleus proteins. Quantitative RT-PCR analysis revealed that Pyr-miR171f was more abundant in ‘Zaosu’ shoot tips than in ‘Zhongai 3’ shoot tips, whereas the PyrSCL6 and PyrSCL22 mRNAs were more abundant in ‘Zhongai 3’ shoot tips than in ‘Zaosu’ shoot tips. The abundance of Pyr-miR171f and PyrSCL6 and PyrSCL22 mRNAs increased, but the trends were opposite between Pyr-miR171f and its target mRNAs in tissue culture seedlings treated by IAA. Our results suggest that IAA-induced miR171f negatively regulates the IAA signaling cascade via the GRAS pathway to maintain apical dominance. This work reveals a role for the miR171-SCL pathway in the dwarfing of ‘Zhongai 3’, and provides a theoretical basis for dwarf pear breeding.     

Morphogenetic networks which determine the spatial expression of zygotic genes in early <Emphasis Type="Italic">Drosophila</Emphasis> embryo

This review deals with the recent studies expanding the idea of positional information in the early embryogenesis of Drosophila melanogaster. Previous studies showed that, in the course of segment determination in Drosophila, information created by gradients of products of maternal coordinate genes is not “read” statically, being interpreted by their zygotic target genes via regulatory interactions. This leads to spatial shifts in the expression of target genes relative to the original positions as well as to dynamic reduction in the zygotic expression variability. However, according to recent data, interpretation of positional information includes the interaction between not only zygotic target genes but also the maternal coordinate genes themselves. Different systems of maternal coordinate genes (maternal systems)—the posterior-anterior, terminal, and dorsoventral—can interact with each other. This is usually expressed in the regulation of zygotic target genes of one maternal system by other maternal systems. The concept of a “morphogenetic network” was introduced to define the interaction of maternal systems during determination of spatial gene expression in the early Drosophila embryo.     

Cytotoxic and toxicogenomic effects of silibinin in bladder cancer cells with different <Emphasis Type="Italic">TP53</Emphasis> status

Silibinin is a natural phenol found in the seeds of the milk thistle plant. Recent data have shown its effectiveness for preventing/treating bladder tumours. Therefore, in this study we investigated the cytotoxic and toxicogenetic activity of silibinin in bladder cancer cells with different TP53 statuses. Two bladder urothelial carcinoma cell lines were used: RT4 (wild-type TP53 gene) and T24 (mutated TP53 gene). Cell proliferation, clonogenic survival, apoptosis rates, genotoxicity and relative expression profile of FRAP/mTOR, FGFR3, AKT2 and DNMT1 genes and of miR100 and miR203 were evaluated. Silibinin promoted decreased proliferation and increased late apoptosis in TP53 mutated cells. Increased early apoptosis rates, primary DNA damage, and decrease of cell colonies in the clonogenic survival assay were detected in both RT4 and T24 cell lines. Down-regulation of FRAP/mTOR, AKT2, FGFR3, DNMT1 and miR100 expression occurred in RT4 cells. Modulation of miR203 was observed in both cell lines. In conclusion, despite the reduction of clone formation in both cell lines, the toxicogenomic effect of silibinin on FRAP/mTOR, AKT2, FGFR3, DNMT1 and miR100 was dependent on the TP53 status. Taken together, the data confirmed the role of silibinin as an antiproliferative compound, whose mechanism of action was related to the TP53 status.     

Phylogeny and Molecular Evolution of miR820 and miR396 microRNA Families in <Emphasis Type="Italic">Oryza</Emphasis> AA Genomes

The phylogeny and evolution of the microRNA families, miR820 and miR396, was analysed across the AA genomes of the Oryza species, the close relatives of domesticated rice. A highly dynamic evolution of the miR820 family was revealed. The number of copies of MIR820 genes, their chromosomal location and the mature microRNA sequence varied greatly with a total of 16 novel miR820 variants being identified. The phylogeny of pre-MIR820 sequences revealed that MIR820 genes of recently evolved Oryza AA genomes may have derived from sequence divergence of one or a few ancestral genes found in wild Australian perennial rice populations, Taxon B (jpn2)-MIR820 genes. Genomic scale duplication played an important role in the evolution of some of the miR396 family genes in AA genome Oryza species. miR396 family contained a MIR396 gene cluster (MIR396a and MIR396c) which was conserved across the cereal genomes. Nucleotide diversity analysis at these two MIR396 loci revealed that domesticated rice has retained less than 10% of the total diversity present in wild species. In contrast, the nucleotide sequence of four MIR396 loci remained almost conserved across domesticated and wild rices, indicating that they were under extreme functional constraint and may be involved in regulating some fundamental processes which are important both for wild and domesticated rices. Expression analysis demonstrated that miR820 variants were expressed in O. glaberrima O. barthi and O. longistaminata genome. These findings pose new challenges to explain the possible role of miR820 variants identified.