Small RNAs in pollen

In plants, each pollen mother cell undergoes two rounds of cell divisions to form a mature pollen grain, which contains a vegetative cell(VC) and two sperm cells(SC). As a companion cell, the VC carries the SCs to an ovule by germinating a pollen tube. In-depth sequencing analyses of mature pollen showed that micro RNAs(mi RNAs) and short interfering RNAs(si RNAs) are present in both the VC and SCs. Additionally, epigenetically-regulated transposable elements(TEs) are reactivated in the VC and these TE m RNAs are further processed into 21-nt epigenetically reactivated si RNA(easiR NA) in SCs, which prevent 24-nt si RNA accumulation and sequester mi RNA loading. Small RNAs are thought to move from the VC to SCs, where they regulate gene expression and reinforce TE silencing. Here, we summarize current knowledge of the biogenesis and function of mi RNAs, si RNAs, and easi RNAs in pollen, emphasizing how these different small RNAs coordinately contribute to sperm cell formation and TE silencing.     

Improved detection and annotation of transposable elements in sequenced genomes using multiple reference sequence sets

Transposable elements (TEs) are ubiquitous components of eukaryotic genomes that impact many aspects of genome function. TE detection in genomic sequences is typically performed using similarity searches against a set of reference sequences built from previously identified TEs. Here, we demonstrate that this process can be improved by designing reference sets that incorporate key aspects of the structure and evolution of TEs and by combining these sets with Repbase Update (RU), which is composed mainly of consensus sequences. Using the Arabidopsis genome as a test case, our approach leads to the detection of an extra 12.4% of TE sequences. These correspond to novel TE fragments as well as to the extension of TE fragments already detected by RU. Significantly, we find that TE detection could be readily optimized using only two reference sets, one containing true consensus sequences and the other mosaic sequences that capture the structural diversity of TE copies within a family.     

Turning gold into ‘junk’: transposable elements utilize central proteins of cellular networks

The numerous discovered cases of domesticated transposable element (TE) proteins led to the recognition that TEs are a significant source of evolutionary innovation. However, much less is known about the reverse process, whether and to what degree the evolution of TEs is influenced by the genome of their hosts. We addressed this issue by searching for cases of incorporation of host genes into the sequence of TEs and examined the systems-level properties of these genes using the Saccharomyces cerevisiae and Drosophila melanogaster genomes. We identified 51 cases where the evolutionary scenario was the incorporation of a host gene fragment into a TE consensus sequence, and we show that both the yeast and fly homologues of the incorporated protein sequences have central positions in the cellular networks. An analysis of selective pressure (Ka/Ks ratio) detected significant selection in 37% of the cases. Recent research on retrovirus-host interactions shows that virus proteins preferentially target hubs of the host interaction networks enabling them to take over the host cell using only a few proteins. We propose that TEs face a similar evolutionary pressure to evolve proteins with high interacting capacities and take some of the necessary protein domains directly from their hosts.     

白菜和甘蓝基因组转座子表达及其对基因调控的潜在影响

转座子或转座元件是大多数真核生物基因组的主要组成成分。甘蓝(Brassica oleracea)基因组比白菜(B. rapa)大主要是转座子的扩增差异造成的。然而, 这两个芸薹属近缘物种转座子表达水平以及对基因的调控和功能的影响目前还不清楚。文章对白菜和甘蓝叶、根、茎3个器官的转录组数据进行了初步分析。结果显示, 转座子的表达量很低, 转录组reads中有1%来自转座子的转录本; 转座子的表达存在器官差异, 且不同类别和家族的转座子表达量相差很大, 相同类别和同一家族的转座子在白菜和甘蓝基因组中的表达活性也不相同。进一步鉴定到转录读出的LTR反转座子, 其与下游基因距离小于2 kb的有41个, 小于100 bp的有9个, 这些LTR的转录读出很可能通过正义或反义的转录本激活或干扰下游基因的表达。同时, 具有转录读出的intact LTR比solo LTR具有更强的读出活性。通过深入分析转座子的插入位点发现, 白菜基因组中转座子插入基因内部的频率比甘蓝基因组中的高; 与反转座子相比, DNA转座子更偏向于插入或保留在基因的内含子当中。这些结果为认识转座子对其他蛋白编码基因的影响提供了基础。