Deep Sequencing of Maize Small RNAs Reveals a Diverse Set of MicroRNA in Dry and Imbibed Seeds

Seed germination plays a pivotal role during the life cycle of plants. As dry seeds imbibe water, the resumption of energy metabolism and cellular repair occur and miRNA-mediated gene expression regulation is involved in the reactivation events. This research was aimed at understanding the role of miRNA in the molecular control during seed imbibition process. Small RNA libraries constructed from dry and imbibed maize seed embryos were sequenced using the Illumina platform. Twenty-four conserved miRNA families were identified in both libraries. Sixteen of them showed significant expression differences between dry and imbibed seeds. Twelve miRNA families, miR156, miR159, miR164, miR166, miR167, miR168, miR169, miR172, miR319, miR393, miR394 and miR397, were significantly down-regulated; while four families, miR398, miR408, miR528 and miR529, were significantly up-regulated in imbibed seeds compared to that in dry seeds. Furthermore, putative novel maize miRNAs and their target genes were predicted. Target gene GO analysis was performed for novel miRNAs that were sequenced more than 50 times in the normalized libraries. The result showed that carbohydrate catabolic related genes were specifically enriched in the dry seed, while in imbibed seed target gene enrichment covered a broad range of functional categories including genes in amino acid biosynthesis, isomerase activity, ligase activity and others. The sequencing results were partially validated by quantitative RT-PCR for both conserved and novel miRNAs and the predicted target genes. Our data suggested that diverse and complex miRNAs are involved in the seed imbibition process. That miRNA are involved in plant hormone regulation may play important roles during the dry-imbibed seed transition.     

家蚕5龄幼虫精巢和卵巢microRNA芯片及转录组比较分析

【目的】本研究旨在通过对家蚕Bombyx mori 5龄幼虫精巢和卵巢组织微小RNA (microRNA, miRNA)基因芯片及转录组进行分析,找到参与家蚕性腺发育相关的miRNA分子及可能的靶基因。【方法】采用新一代高通量测序平台对家蚕5龄幼虫精巢和卵巢(分别定义为Test和Control)进行miRNA基因芯片检测及转录组测序分析,根据P＜0.05且log₂(fold change, FC)≥2的标准,通过比较筛选出Test vs Control的差异表达miRNA;根据q≤0.05且|log₂(fold change)|≥1的标准,通过比较筛选出Test vs Control的差异表达基因 (differentially expressed genes, DEGs);随机选取8个上调和12个下调差异表达miRNA,对其表达及其预测的5个靶基因进行qRT-PCR验证;对DEGs以及差异表达miRNA的靶基因进行KEGG通路富集分析。【结果】从精巢和卵巢样本中(Test vs Control)分别鉴定出68个差异表达miRNA和3 991个DEGs,其中上调和下调miRNA分别为36和32个,上调和下调DEGs分别为2 033和1 958个。差异表达miRNA的qRT PCR验证结果均与芯片数据一致。KEGG通路富集分析结果显示DEGs在新陈代谢及核糖体的信号通路显著富集。对差异表达miRNA在DEGs中的可能靶基因进行预测,结果找到了4组表达趋势相反的miRNA与靶基因：分别是bmo-miR-2774a与LOC101745556;bmo-miR-92b与LOC101735954以及bmo-miR-3266与LOC733130和LOC778467;1组表达趋势一致的miRNA与靶基因：bmo-miR-3321与LOC101744895。5个靶基因的qRT-PCR验证结果与转录组测序结果一致。【结论】本研究获得了家蚕5龄幼虫精巢和卵巢转录组及miRNA芯片数据,筛选并验证了4组差异表达和1组一致表达miRNA及潜在靶基因,为探究家蚕精巢和卵巢发育差异奠定了基础。     

Importance of methionine biosynthesis for Arabidopsis seed germination and seedling growth

Proteomics of Arabidopsis seeds revealed the differential accumulation during germination of two housekeeping enzymes. The first corresponded to methionine synthase that catalyses the last step in the plant methionine biosynthetic pathway. This protein was present at low level in dry mature seeds, and its level was increased strongly at 1-day imbibition, prior to radicle emergence. Its level was not increased further at 2-day imbibition, coincident with radicle emergence. However, its level in 1-day imbibed seeds strongly decreased upon subsequent drying of the imbibed seeds back to the original water content of the dry mature seeds. The second enzyme corresponded to S -adenosylmethionine synthetase that catalyses the synthesis of S -adenosylmethionine from methionine and ATP. In this case, this enzyme was detected in the form of two isozymes with different p I and M r. Both proteins were absent in dry mature seeds and in 1-day imbibed seeds, but specifically accumulated at the moment of radicle protrusion. Arabidopsis seed germination was strongly delayed in the presence of dl -propargylglycine, a specific inhibitor of methionine synthesis. Furthermore, this compound totally inhibited seedling growth. These phenotypic effects were largely alleviated upon methionine supplementation in the germination medium. The results indicated that methionine synthase and S -adenosylmethionine synthetase are fundamental components controlling metabolism in the transition from a quiescent to a highly active state during seed germination. Moreover, the observed temporal patterns of accumulation of these proteins are consistent with an essential role of endogenous ethylene in Arabidopsis only after radicle protrusion.     

beta]-Tubulin Accumulation and DNA Replication in Imbibing Tomato Seeds

The activation of the cell cycle in embryo root tips of imbibing tomato (Lycopersicon esculentum Mill. cv Lerica) seeds was studied by flow cytometric analyses of the nuclear DNA content and by immunodelection of [beta]-tubulin. With dry seeds, flow cytometric profiles indicated that the majority of the cells were arrested at the G1 phase of the cell cycle. In addition, [beta]-tubulin was not detectable on western blots. Upon imbibition of water, the number of cells in G2 started to increase after 24 h, and a 55-kD [beta]-tubulin signal was detected between 24 and 48 h. Two-dimensional immunoblots revealed at least three different [beta]-tubulin isotypes. Thus, [beta]-tubulin accumulation and DNA replication were induced during osmotic priming. These processes, as well as seed germination rate, were enhanced upon subsequent imbibition of water, compared with control seeds that imbibed but were not primed. By contrast, when aged seeds imbibed, DNA replication, [beta]-tubulin accumulation, and germination were delayed. In all cases studied, both DNA replication and [beta]-tubulin accumulation preceded visible germination. We suggest that activation of these cell-cycle-related processes is a prerequisite for tomato seed germination. Furthermore, [beta]-tubulin expression can be used as a parameter for following the initial processes that are activated during seed imbibition.     

七星瓢虫滞育关联基因的转录组学分析

对七星瓢虫正常发育、滞育以及滞育解除的雌成虫进行RNA测序,并对筛选出来的滞育相关基因进行KEGG通路富集分析,从分子水平解析七星瓢虫滞育发机理。本研究以正常发育产卵、滞育30 d以及滞育贮存30 d后解除产卵的七星瓢虫雌成虫为研究对象,分别抽提RNA,合成c DNA,构建c DNA文库,文库检测合格后在Illummina Hiseq 2500测序仪上进行双向测序。根据测序结果,共获取unigene 82820个。采用两两比较法对正常发育组和滞育组、滞育组和滞育解除组进行差异表达分析,分别获得差异表达基因3501个和1427个。深入分析两组比对结果,将在滞育组上调且滞育解除组下调的unigene定义为滞育关联基因,共有443个基因为滞育关联基因。应用KEGG KAAS在线pathway比对分析工具对滞育关联基因进行通路富集分析,结果发现这些基因主要集中在碳水化合物代谢、脂质代谢以及信号转导等途径中。     

Patterns of protein synthesis during the germination of pea axes,and the effects of an interrupting desiccation period

As germination of axes of Pisum sativum L. seeds progressed, profound quantitative and qualitative changes occurred in the patterns of protein synthesis. This was shown by fluorography of gels following two-dimensional polyacrylamide gel electrophoresis separation of [³⁵S]methioninelabelled proteins. The effects of desiccation during germination on these in-vivo protein-synthesis patterns were followed. Desiccation differentially affected the synthesis of proteins. Usually, however, upon rehydration following desiccation the types of proteins being synthesized were recognizable as those synthesized earlier during imbibition of control, once-imbibed axes: seeds imbibed for 8 h, and then dried, did not recommence synthesis of proteins typical of 8-h-imbibed control seeds, but rather of 4-h-imbibed control seeds. Seeds imbibed for 12 h, and then dried and rehydrated, synthesized proteins typical of 4-h-and 8-h-control seeds. Thus drying of germinating pea axes caused the proteinsynthesizing mechanism to revert to producing proteins typical of earlier stages of imbibition. Drying during germination never caused the seed to revert to the metabolic status of the initial mature dry state, however.Abbreviation DR dried and rehydrated     

侧孢短芽孢杆菌S2-31拮抗下细辛叶枯病菌转录组差异表达分析

通过分析侧孢短芽孢杆菌拮抗作用下叶枯病菌的转录组学特征,研究差异表达基因(DEGs)和代谢通路的富集情况,初步探索侧孢短芽孢杆菌拮抗叶枯病菌的分子机制。首先利用S2-31与叶枯病菌的对峙培养观察其拮抗作用,然后利用转录组测序探究侧孢短芽孢杆菌拮抗下和正常生长下的叶枯病菌的基因表达水平差异,并进行RT-qPCR验证,最后,利用相关数据库对DEGs进行注释和富集分析。对峙培养后,叶枯病菌菌丝出现皱缩、扭曲等现象。测序后共得到3681个DEGs,其中2224个相对上调,1457个相对下调。GO功能注释分析表明,上调和下调表达的DEGs均注释到生物过程8个亚群、细胞组分8个亚群和分子功能4个亚群。KEGG富集分析中,共有732个unigenes定位到115条生物学通路中,其中富集程度相对较高的通路有氨基糖和核苷糖代谢、糖基磷脂酰肌醇(GPI)锚定生物合成和过氧化物酶体;涉及差异基因较多的通路有淀粉和蔗糖代谢、剪接体和胞吞作用;上调表达的DEGs主要富集在代谢途径,下调表达的DEGs主要富集在遗传信息处理和细胞过程途径。从显著富集的通路中筛选出与菌丝生长发育相关的差异表达基因,结果表明侧孢短芽孢杆菌主要抑制病原菌菌丝过氧化物酶体的形成、胞吞过程和GPI锚定的合成等过程。差异表达基因的RT-qPCR验证结果与转录组测序的结果一致。在侧孢短芽孢杆菌S2-31的拮抗下抑制了叶枯病菌的生长,其转录组特征也发生显著变化,差异基因主要涉及代谢、细胞过程以及遗传信息处理等途径的相关通路。     

伞裙追寄蝇滞育关联基因和滞育关联代谢物的联合分析

为探索伞裙追寄蝇蛹滞育调控的分子机制,本文对伞裙追寄蝇Exorista civilis滞育蛹和非滞育蛹进行转录组测序以及代谢组检测,鉴定其关键的滞育关联基因（diapause-associated genes, DEGs）和滞育关联代谢物（diapasuse-associated metabolites, DEMs）。本研究基于高通量测序以及液质联用技术,通过筛选,在转录组中获得了差异表达基因7 513个,在代谢组中,获得差异代谢物501个,其中氨基酸占比最多。将所有差异表达基因与差异表达代谢物同时向KEGG映射,获得两者共同的pathway信息,明确差异表达基因与差异代谢物共同参与的主要生化途径和信号转导途径。本研究通过转录组和代谢组的联合分析,在正、负离子模式下,差异表达基因与差异代谢物共同富集到70条通路。在负离子模式下,滞育关联因子主要参与氨基酸代谢和神经系统;在正离子模式下,滞育关联因子主要参与消化系统和信号转导途径。本研究重点分析了柠檬酸循环、cAMP信号通路、氨酰-tRNA的生物合成,将为进一步深入研究伞裙追寄蝇滞育调控的分子机制奠定理论基础。     

Integrative Analysis of mRNA and miRNA Expression Profiles of the Tuberous Root Development at Seedling Stages in Turnips

The tuberous root of Brassica rapa L. (turnip) is an important modified organ for nutrition storage. A better understanding of the molecular mechanisms involved in the process of tuberous root development is of great value in both economic and biological context. In this study, we analyzed the expression profiles of both mRNAs and miRNAs in tuberous roots at an early stage before cortex splitting (ES), cortex splitting stage (CSS), and secondary root thickening stage (RTS) in turnip based on high-throughput sequencing technology. A large number of differentially expressed genes (DEGs) and several differentially expressed miRNAs (DEMs) were identified. Based on the DEG analysis, we propose that metabolism is the dominant pathway in both tuberous root initiation and secondary thickening process. The plant hormone signal transduction pathway may play a predominant role in regulating tuberous root initiation, while the starch and sucrose metabolism may be more important for the secondary thickening process. These hypotheses were partially supported by sequential DEM analyses. Of all DEMs, miR156a, miR157a, and miR172a exhibited relatively high expression levels, and were differentially expressed in both tuberous root initiation and the secondary thickening process with the expression profiles negatively correlated with those of their target genes. Our results suggest that these miRNAs play important roles in tuberous root development in turnips.     

Exudation of an allelopathic substance lepidimoide from seeds during germination

Lepidimoide promotes growth of the cockscomb hypocotyl. It is exuded from germinating seeds of various plant species into their culture environment. The mode of exudation of lepidimoide from seeds into the culture solution, using sunflower and buckwheat seeds, was studied in relation to seed germination. In the dry seeds, about 75% of the lepidimoide was found in the seed coat and about 25% in the kernel. Upon water imbibition it was released into the culture solution. However, the quantity of lepidimoide detected in the seed exudate was more than three times the total amount in dry and imbibed seeds, suggesting that lepidimoide was also produced de novo in the seeds and subsequently released. When seed coats or kernels were imbibed separately, the quantity of lepidimoide released from the seed coats into the culture solution was much the same as that in the dry seeds, but the amount of lepidimoide detected in the exudate of kernels was about 16 times that in the dry kernels. These results suggest that lepidimoide, already present in dry seeds, as well as that newly produced in the kernels following imbibition, was released into the environment.