Novel transcriptome data analysis implicates circulating microRNAs in epigenetic inheritance in mammals

Experimental evidence supports a role of mobile small non-coding RNAs in mediating soma to germline hereditary information transfer in epigenetic inheritance in plants and worms. Similar evidence in mammals has not been reported so far. In this bioinformatic analysis, differentially expressed microRNAs (miRNAs) or mRNAs reported previously in genome level expression profiling studies related to or relevant in epigenetic inheritance in mammals were examined for circulating miRNA association. The reported sets of differentially expressed miRNAs or miRNAs that are known to target the reported sets of differentially expressed genes, in that order, showed enrichment of circulating miRNAs across environmental factors, tissues, life cycle stages, generations, genders and species. Circulating miRNAs commonly representing the expression profiles enriched various epigenetic processes. These results provide bioinformatic evidence for a role of circulating miRNAs in epigenetic inheritance in mammals.     

东方蜜蜂微孢子虫孢子中微小RNA的鉴定与分析

【目的】丰富东方蜜蜂微孢子虫Nosema ceranae的微小RNA(microRNA, miRNA)信息,并为深入探究miRNA在病原孢子和病原侵染中的功能提供理论和实验依据。【方法】基于已获得的small RNA-seq数据,利用生物信息学软件对东方蜜蜂微孢子虫的纯净孢子中的miRNA进行鉴定和分析。采用茎环反转录PCR(stem-loop RT-PCR)检测已鉴定的miRNA的表达;通过分子克隆与Sanger测序验证miRNA的序列。使用TargetFinder软件预测这些miRNA的靶基因,并对靶基因进行数据库注释。根据miRNA与靶基因的靶向结合关系构建调控网络,再利用Cytoscape软件进行可视化。【结果】在东方蜜蜂微孢子虫孢子中共鉴定到10个miRNA;这些miRNA的长度分布介于21~25 nt,首位碱基表现出U偏向性,每一位碱基的偏向性差异明显。Stem-loop RT-PCR检测结果表明这10个miRNA均真实表达;Sanger测序结果证实了随机选取的其中2个miRNA的序列真实性。共预测出249个靶基因,其中分别有249, 118, 136和3个靶基因可注释到Nr,Swiss-Prot, KOG和eggNOG数据库。此外,分别有134和71个靶基因可分别注释到GO数据库的30个功能条目和KEGG数据库的54条通路。【结论】本研究揭示了东方蜜蜂微孢子虫孢子中miRNA的存在和表达;这些miRNA通过调控潜在靶基因的表达参与孢子的生命活动。     

Macro effects of microRNAs in plants

MicroRNAs (miRNAs) are 20- to 22-nucleotide fragments that regulate expression of mRNAs that have complementary sequences. They are numerous and widespread among eukaryotes, being conserved throughout evolution. The few miRNAs that have been fully characterized were found in Caenorhabditis elegans and are required for development. Recently, a study of miRNAs isolated from Arabidopsis showed that here also developmental genes are putative regulatory targets. A role for miRNAs have in plant development is supported by the developmental phenotypes of mutations in the genes required for miRNA processing.     

Identification of cold-inducible inner membrane proteins of the psychrotrophic bacterium, Shewanella livingstonensis Ac10, by proteomic analysis

Shewanella livingstonensis Ac10 is a psychrotrophic Gram-negative bacterium that grows at temperatures close to 0°C. Previous proteomic studies of this bacterium identified cold-inducible soluble proteins and outer membrane proteins that could possibly be involved in its cold adaptation (Kawamoto et al. in Extremophiles 11:819–826, 2007). In this study, we established a method for separating the inner and outer membranes by sucrose density gradient ultracentrifugation and performed proteomic studies of the inner membrane fraction. The cells were grown at temperatures of 4 and 18°C, and phospholipid-enriched inner membrane fractions were obtained. Two-dimensional polyacrylamide gel electrophoresis and peptide mass fingerprinting analysis of the proteins identified 14 cold-inducible proteins (more than a 2-fold increase at 4°C). Six of these proteins were predicted to be inner membrane proteins. Two predicted periplasmic proteins, 5 predicted cytoplasmic proteins, and 1 predicted outer membrane protein were also found in the inner membrane fraction, suggesting their association with the inner membrane proteins and/or lipids. These cold-inducible proteins included proteins that are presumed to be involved in chemotaxis (AtoS and PspA), membrane protein biogenesis (DegP, SurA, and FtsY), and morphogenesis (MreB). These findings provide a basis for further studies on the cold-adaptation mechanism of this bacterium.     

Prediction of Bacterial microRNAs and possible targets in human cell transcriptome

Recent studies have examined gene transfer from bacteria to humans that would result in vertical inheritance. Bacterial DNA appears to integrate into the human somatic genome through an RNA intermediate, and such integrations are detected more frequently in tumors than normal samples and in RNA than DNA samples. Also, vertebrate viruses encode products that interfere with the RNA silencing machinery, suggesting that RNA silencing may indeed be important for antiviral responses in vertebrates. RNA silencing in response to virus infection could be due to microRNAs encoded by either the virus or the host. We hypothesized that bacterial expression of RNA molecules with secondary structures is potentially able to generate miRNA molecules that can interact with the human host mRNA during bacterial infection. To test this hypothesis, we developed a pipelinebased bioinformatics approach to identify putative micro-RNAs derived from bacterial RNAs that may have the potential to regulate gene expression of the human host cell. Our results suggest that 68 bacterial RNAs predicted from 37 different bacterial genomes have predicted secondary structures potentially able to generate putative microRNAs that may interact with messenger RNAs of genes involved in 47 different human diseases. As an example, we examined the effect of transfecting three putative microRNAs into human embryonic kidney 293 (HEK293) cells. The results show that the bacterially derived microRNA sequence can significantly regulate the expression of the respective target human gene. We suggest that the study of these predicted microRNAs may yield important clues as to how the human host cell processes involved in human diseases like cancer, diabetes, rheumatoid arthritis, and others may respond to a particular bacterial environment.     

Identification and characterization of new plant microRNAs using EST analysis

Seventy-five previously known plant microRNAs (miRNAs) were classified into 14 families according to their gene sequence identity. A total of 18,694 plant expressed sequence tags (EST) were found in the GenBank EST databases by comparing all previously known Arabidopsis miRNAs to GenBank‘s plant EST databases with BLAST algorithms. After removing the EST sequences with high numbers (more than 2) of mismatched nucleotides, a total of 812 EST contigs were identified. After predicting and scoring the RNA secondary structure of the 812 EST sequences using mFold software, 338 new potential miRNAs were identified in 60 plant species, miRNAs are widespread. Some microRNAsmay highly conserve in the plant kingdom, and they may have the same ancestor in very early evolution. There is no nucleotide substitution in most miRNAs among many plant species. Some of the new identified potential miRNAs may be induced and regulated by environmental biotic and abiotic stresses. Some may be preferentially expressed in specific tissues, and are regulated by developmental switching. These findings suggest that EST analysis is a good alternative strategy for identifying new miRNA candidates, their targets, and other genes. A large number of miRNAs exist in different plant species and play important roles in plant developmental switching and plant responses to environmental abiotic and biotic stresses as well as signal transduction. Environmental stresses and developmental switching may be the signals for synthesis and regulation of miRNAs in plants. A model for miRNA induction and expression, and gene regulation by miRNA is hypothesized.