Deep sequencing discovery and profiling of conserved and novel miRNAs in the ovule of <Emphasis Type="Italic">Ginkgo biloba</Emphasis>

Key message

High-throughput sequencing and subsequent analysis identified multiple miRNAs closely related to ovule, indicating that miRNAs are important in Ginkgo biloba ovule.

Abstract

MicroRNAs (miRNAs) are small, noncoding, regulatory RNAs that play crucial regulatory roles in the process of plant growth and development. However, limited information regarding their functions in gymnosperm reproduction is available. Here, we used high-throughput sequencing combined with computational analysis to identify and characterize miRNAs from ovules of G. biloba, and identified 34 conserved miRNA families and 99 novel miRNAs. The precursor sequences of several of the conserved and novel miRNAs were further validated by RT-PCR and sequencing. Furthermore, we found that some target genes, e.g. MYB, homeodomain-leucine zipper (HD-ZIPIII) and auxin response factor (ARF), may be involved in ovule development, and that the significantly enriched pathways of some miRNA targets were related to plant–pathogen interactions and the biosynthesis of secondary metabolites. Twenty-six conserved miRNA families were found to be expressed in both leaves and ovules, while miRNA156, miRNA164, miRNA167, miRNA169, miRNA172 and miRNA390 were up-regulated in ovules. Thus, multiple miRNAs closely related to G. biloba ovule development were identified, resulting in a greater understanding of the important regulatory functions of miRNAs in plant ovules.

     

油棕（Elaeis guineensis）中果皮发育过程中miRNA的表达动态分析

以CTAB法提取油棕（Elaeis guineensis）中果皮5个不同发育时期（G1～G5）的小RNA。从前期研究获得的油棕小RNA测序数据库中筛选12个候选miRNA,实时荧光定量PCR法（qRT-PCR）检测其在果实发育过程中的表达量变化,并进一步对显著差异表达的miRNA进行靶基因预测。结果表明：中果皮5个不同发育时期小RNA的OD260/OD280比值在1.7～2.0之间;浓度分别是289、364、476、213、390 ng/μL;qRT-PCR检测结果显示,12个候选miRNA在5个发育时期均显著性差异表达,特别是在中果皮发育第4个时期（G4）和第5个时期（G5）表达量极显著增高,其中miR395和miR156在第4个时期表达量最高;miR395和miR528在发育第5时期表达量最高;靶基因预测结果显示差异表达的部分miRNA,其靶基因可能参与了脂肪酸代谢通路,如磷脂酸磷酸脂酶和磷脂酶D。本研究筛选的与脂肪酸代谢相关的miRNA为今后油棕脂肪酸代谢调控通路研究提供了可能的线索。     

Identification and analyses of miRNA genes in allotetraploid Gossypium hirsutum fiber cells based on the sequenced diploid G. raimondii genome

The plant genome possesses a large number of microRNAs（miRNAs）mainly 21-24 nucleotides in length.They play a vital role in regulation of target gene expression at various stages throughout the whole plant life cycle.Here we sequenced and analyzed～10 million non-coding RNAs（ncRNAs）derived from fiber tissue of the allotetraploid cotton（Gossypium hirsutum）1 days post-anthesis using ncRNA-seq technology.In terms of distinct reads,24 nt ncRNA is by far the dominant species,followed by 21 nt and 23 nt ncRNAs. Using ab initio prediction,we identified and characterized a total of 562 candidate miRNA gene loci on the recently assembled D₅ genome of the diploid cotton G.raimondii.Of all the 562 predicted miRNAs,22 were previously discovered in cotton species and 187 had sequence conservation and homology to homologous miRNAs of other plant species.Nucleotide bias analysis showed that the 9th and 1 st positions were significantly conserved among different types of miRNA genes.Among the 463 putative miRNA target genes,most significant up/down-regulation occurred in 10-20 days post-anthesis,indicating that miRNAs played an important role during the elongation and secondary cell wall synthesis stages of cotton fiber development.The discovery of new miRNA genes will help understand the mechanisms of miRNA generation and regulation in cotton.     

Introgression of cotton leaf curl virus-resistant genes from Asiatic cotton (Gossypium arboreum) into upland cotton (G. hirsutum)

Cotton is under the constant threat of leaf curl virus, which is a major constraint for successful production of cotton in the Pakistan. A total of 3338 cotton genotypes belonging to different research stations were screened, but none were found to be resistant against the Burewala strain of cotton leaf curl virus (CLCuV). We explored the possibility of transferring virus-resistant genes from Gossypium arboreum (2n = 26) into G. hirsutum (2n = 52) through conventional breeding techniques. Hybridization was done manually between an artificial autotetraploid of G. arboreum and an allotetraploid G. hirsutum, under field conditions. Boll shedding was controlled by application of exogenous hormones, 50 mg/L gibberellic acid and 100 mg/L naphthalene acetic acid. Percentage pollen viability in F(1) hybrids was 1.90% in 2(G. arboreum) x G. hirsutum and 2.38% in G. hirsutum x G. arboreum. Cytological studies of young buds taken from the F(1) hybrids confirmed that they all were sterile. Resistance against CLCuV in the F(1) hybrids was assessed through grafting, using the hybrid plant as the scion; the stock was a virus susceptible cotton plant, tested under field and greenhouse conditions. All F(1) cotton hybrids showed resistance against CLCuV, indicating that it is possible to transfer resistant genes from the autotetraploid of the diploid donor specie G. arboreum into allotetraploid G. hirsutum through conventional breeding, and durable resistance against CLCuV can then be deployed in the field.     

Role of MicroRNAs and small RNAs in regulation of developmental processes and agronomic traits in Gossypium species

Small RNAs (sRNAs) are short, non-coding, 17–24 nucleotides long RNA molecules that play vital roles in regulating gene expression in every known organism investigated to date including cotton (Gossypium ssp.). These tiny RNA molecules target diverse categories of genes from different bioliogical and metabolic processes and have been reported in the three domains of life. Small RNAs, including miRNAs, are involved in ovule and fiber development, biotic and abiotic stresses, fertility, and other biochemical processes in cotton species. Also, sRNAs are the critical components in RNA interference pathway. In this article, we have reviewed the research efforts related to the isolation and characterization of miRNAs using molecular and genomic approaches. The progress made in understanding the functional roles of miRNAs in regulation, alteration, and inactivation of fundamental plant processes and traits of importance in cotton are presented here.     

Cloning and characterization of maize miRNAs involved in responses to nitrogen deficiency

Although recent studies indicated that miRNAs regulate plant adaptive responses to nutrient deprivation, the functional significance of miRNAs in adaptive responses to nitrogen (N) limitation remains to be explored. To elucidate the molecular biology underlying N sensing/signaling in maize, we constructed four small RNA libraries and one degradome from maize seedlings exposed to N deficiency. We discovered a total of 99 absolutely new loci belonging to 47 miRNA families by small RNA deep sequencing and degradome sequencing, as well as 9 new loci were the paralogs of previously reported miR169, miR171, and miR398, significantly expanding the reported 150 high confidence genes within 26 miRNA families in maize. Bioinformatic and subsequent small RNA northern blot analysis identified eight miRNA families (five conserved and three newly identified) differentially expressed under the N-deficient condition. Predicted and degradome-validated targets of the newly identified miRNAs suggest their involvement in a broad range of cellular responses and metabolic processes. Because maize is not only an important crop but is also a genetic model for basic biological research, our research contributes to the understanding of the regulatory roles of miRNAs in plant adaption to N-deficiency stress.     

利用深度测序技术检测玉米根系和叶片中已知的microRNAs

microRNA(miRNA)是一类具有20～24nt核苷酸长度的非蛋白质编码的内源小分子RNA,它在植物生长发育和逆境胁迫响应等过程中发挥着重要作用。文章利用基于Illumina/Solexa原理的小分子RNA深度测序技术,结合生物信息学的方法对玉米根系和叶片中已知miRNA的类型、丰度及靶基因进行了分析。研究发现,在根系中共检测到92个已知的miRNA,分别属于18个miRNA家族,其表达丰度在1～105943之间;在叶片中,共发现86个已知的miRNA,分别属于17个miRNA家族,其表达丰度在1～85973之间。靶基因预测结果表明,根系中的18个miRNA家族共靶向54个蛋白,进一步的功能预测发现,这些基因涉及了转录调控、物质能量代谢、电子传递、胁迫响应和信号转导等过程。以上研究结果表明,就已知的miRNA而言,无论是miRNA的类型还是表达丰度,在玉米根系和叶片中都存在较大差异。