月季‘绿萼’花器官发育相关microRNA的鉴定及分析

利用高通量测序技术,构建了中国古老月季‘绿萼’(Rosa chinensis ‘Viridiflora’)和‘月月粉’(R.chinensis‘Old Blush’)花蕾期的microRNA(miRNA)文库,并对其进行了测序和序列分析。结果显示,在‘绿萼’文库中,鉴定到已知的miRNA成熟体39个,miRNA前体42个;预测到新的miRNA成熟体56个,前体57个。在‘月月粉’文库中,鉴定到已知RNA成熟体39个,已知miRNA前体40个;预测到新的miRNA成熟体53个,前体57个。与‘月月粉’相比,‘绿萼’中差异表达的miRNA有31个,其中17个上调、14个下调。荧光定量PCR实验结果表明,miR156、miR398和miR535在2种月季的花蕾期表达上调,而miR167、miR172和miR396表达下调。进一步检测miR172和miR156在2种月季不同花器官中的表达差异,发现miR172在‘绿萼’的花瓣、雌、雄蕊中表达显著下调,提示miR172可能通过负调控其靶基因RcAP2的表达,在‘绿萼’花器官发育过程中起重要作用。     

Regulation of miR319 during cold stress in sugarcane

MicroRNAs (miRNAs) are part of a novel mechanism of gene regulation that is active in plants under abiotic stress conditions. In the present study, 12 miRNAs were analysed to identify miRNAs differentially expressed in sugarcane subjected to cold stress (4 °C). The expression of miRNAs assayed by stem–loop RT‐PCR showed that miR319 is up‐regulated in sugarcane plantlets exposed to 4 °C for 24 h. The induction of miR319 expression during cold stress was observed in both roots and shoots. Sugarcane miR319 was also regulated by treatment with abscisic acid. Putative targets of this miRNA were identified and their expression levels were decreased in sugarcane plantlets exposed to cold. The cleavage sites of two targets were mapped using a 5′ RACE PCR assay confirming the regulation of these genes by miR319. When sugarcane cultivars contrasting in cold tolerance were subjected to 4 °C, we observed up‐regulation of miR319 and down‐regulation of the targets in both varieties; however, the changes in expression were delayed in the cold‐tolerant cultivar. These results suggest that differences in timing and levels of the expression of miR319 and its targets could be tested as markers for selection of cold‐tolerant sugarcane cultivars.     

Identification and Characterization of ABA-Responsive MicroRNAs in Rice

MicroRNAs(miRNAs) are endogenous non-coding small RNAs that silence genes through mRNA degradation or translational inhibition.The phytohormone abscisic acid(ABA) is essential for plant development and adaptation to abiotic and biotic stresses.In Arabidopsis,miRNAs are implicated in ABA functions.However,ABA-responsive miRNAs have not been systematically studied in rice.Here high throughput sequencing of small RNAs revealed that 107 miRNAs were differentially expressed in the rice ABA deficient mutant,Osabal.Of these,13 were confirmed by stem-loop RT-PCR.Among them,miR1425-5P,miR169 a,miR169n,miR390-5P,miR397 a and miR397 b were up-regulated,but miR162 b reduced in expression in Osabal.The targets of these 13 miRNAs were predicted and validated by gene expression profiling.Interestingly,the expression levels of these miRNAs and their targets were regulated by ABA.Cleavage sites were detected on 7 of the miRNA targets by 5'-Rapid Amplification of cDNA Ends(5'-RACE).Finally,miR162 b and its target OsTREl were shown to affect rice resistance to drought stress,suggesting that miR162 b increases resistance to drought by targeting OsTREl.Our work provides important information for further characterization and functional analysis of ABA-responsive miRNAs in rice.     

Identification and validation of Asteraceae miRNAs by the expressed sequence tag analysis

MicroRNAs (miRNAs) are small non-coding RNA molecules that play a vital role in the regulation of gene expression. Despite their identification in hundreds of plant species, few miRNAs have been identified in the Asteraceae, a large family that comprises approximately one tenth of all flowering plants. In this study, we used the expressed sequence tag (EST) analysis to identify potential conserved miRNAs and their putative target genes in the Asteraceae. We applied quantitative Real-Time PCR (qRT-PCR) to confirm the expression of eight potential miRNAs in Carthamus tinctorius and Helianthus annuus. We also performed qRT-PCR analysis to investigate the differential expression pattern of five newly identified miRNAs during five different cotyledon growth stages in safflower. Using these methods, we successfully identified and characterized 151 potentially conserved miRNAs, belonging to 26 miRNA families, in 11 genus of Asteraceae. EST analysis predicted that the newly identified conserved Asteraceae miRNAs target 130 total protein-coding ESTs in sunflower and safflower, as well as 433 additional target genes in other plant species. We experimentally confirmed the existence of seven predicted miRNAs, (miR156, miR159, miR160, miR162, miR166, miR396, and miR398) in safflower and sunflower seedlings. We also observed that five out of eight miRNAs are differentially expressed during cotyledon development. Our results indicate that miRNAs may be involved in the regulation of gene expression during seed germination and the formation of the cotyledons in the Asteraceae. The findings of this study might ultimately help in the understanding of miRNA-mediated gene regulation in important crop species.     

MicroRNA signatures associated with immortalization of EBV-transformed lymphoblastoid cell lines and their clinical traits

Objective: MicroRNAs (miRNAs) are negative regulators of gene expression that play important roles in cell processes such as proliferation, development and differentiation. Recently, it has been reported that miRNAs are related to development of carcinogenesis. The aim of this study was to identify miRNAs associated with terminal immortalization of Epstein–Barr virus (EBV)‐transformed lymphoblastoid cell line (LCL) and associated clinical traits. Material and Methods: Hence, we performed miRNA microarray approach with early‐ (p6) and late‐passage (p161) LCLs. Results and Conclusion: Microarray data showed that nine miRNAs (miR‐20b*, miR‐28‐5p, miR‐99a, miR‐125b, miR‐151‐3p, miR‐151:9.1, miR‐216a, miR‐223* and miR‐1296) were differentially expressed in most LCLs during long‐term culture. In particular, miR‐125b was up‐regulated in all the tested late‐passage LCLs. miR‐99a, miR‐125b, miR‐216a and miR‐1296 were putative negative regulators of RASGRP3, GPR160, PRKCH and XAF1, respectively, which were found to be differentially expressed in LCLs during long‐term culture in a previous study. Linear regression analysis showed that miR‐200a and miR‐296‐3p correlated with triglyceride and HbA1C levels, respectively, suggesting that miRNA signatures of LCLs could provide information on the donor’s health. In conclusion, our study suggests that expression changes of specific miRNAs may be required for terminal immortalization of LCLs. Thus, differentially expressed miRNAs would be a potential marker for completion of cell immortalization during EBV‐mediated tumorigenesis.     

Integrated small RNA profiling and degradome analysis of Anthurium andraeanum cultivars with different-colored spathes

MicroRNAs (miRNAs) are known to play vital roles in coloration of leaves, flowers, and fruits in plants. However, their functions in spathe coloration are poorly known. Anthurium andraeanum is a popular ornamental plant with various spathe colors. In this study, small RNA and degradome libraries from three A. andraeanum cultivars with different-colored spathes were constructed and sequenced. Illumina sequencing resulted in 94 conserved miRNAs, and 34 novel miRNAs in total were then identified based on precursor sequences and hairpin structures. Differential expression analysis showed that 52, 51, and 49 miRNAs were differentially expressed in comparisons of orange- versus white-colored spathe, purple- versus white-colored spathe, and purple- versus orange-colored spathe, respectively. The expression patterns of miRNAs and their corresponding targets involved in spathe coloration were further analyzed, and displayed that miR156b and miR529 were highly abundant in the spathes with higher anthocyanin content. These two miRNAs co-targeted a gene encoding SPL17, which may function as a negative regulator in anthocyanin accumulation. In addition, miR408 was also abundantly expressed in purple- and orange-colored spathes, and its typical targets were also identified. This comprehensive integrated analysis provides insight into the miRNA-mediated genetic regulation in spathe coloration of A. andraeanum.

     

Salt and Drought Stresses Induce the Aberrant Expression of microRNA Genes in Tobacco

Drought and salinity stresses significantly altered microRNA (miRNA) expression in a dose-dependent manner in tobacco. Salinity stress changed the miRNA expression levels from a 6.86-fold down-regulation to a 616.57-fold up-regulation. Alternatively, miRNAs were down-regulated by 2.68-fold and up-regulated 2810-fold under drought conditions. miR395 was most sensitive to both stresses and was up-regulated by 616 and 2810-folds by 1.00% PEG and 0.171 M NaCl, respectively. Salinity and drought stresses also changed the expression of protein-coding genes [alcohol dehydrogenase (ADH) and alcohol peroxidase (APX)]. The results suggest that miRNAs may play an important role in plant response to environmental abiotic stresses. Further investigation of miRNA-mediated gene regulation may elucidate the molecular mechanism of plant tolerance to abiotic stresses and has the potential to create a miRNA-based biotechnology for improving plant tolerance to drought and salinity stresses.