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1.
Sheng Li Ke Xue Jin Zhan ; 47(3): 182-6, 2016 Jun.
Article in Zh | MEDLINE | ID: mdl-29888881

ABSTRACT

Piwi-interacting RNA (piRNA)is the largest class of small non-coding RNA,which usually expressed in germline cells.piRNA has a role in transposon silencing,and contributes to maintain ge-nome integrity.The C.elegans piRNA has a special role in a memory of previous gene expression.The discovery of piRNA in somatic cells and cancers showed the functional diversity of piRNA.In this article, we reviewed the piRNA's role in transposon,mRNA,lncRNA,DNA methylation and epigenetic regula-tion,and discussed the function of piRNA in cancers.


Subject(s)
RNA, Small Interfering/genetics , Animals , Argonaute Proteins , DNA Transposable Elements , Drosophila Proteins , Germ Cells
2.
BMC Microbiol ; 15: 27, 2015 Feb 12.
Article in English | MEDLINE | ID: mdl-25885565

ABSTRACT

BACKGROUND: To date, biologists have discovered a large amount of valuable information from assembled genomes, but the abundant microbial data that is hidden in the raw genomic sequence data of plants and animals is usually ignored. In this study, the richness and composition of fungal community were determined in the raw genomic sequence data of Ceratosolen solmsi (RGSD-CS). RESULTS: To avoid the interference from sequences of C. solmsi, the unmapped raw data (about 17.1%) was obtained by excluding the assembled genome of C. solmsi from RGSD-CS. Comparing two fungal reference datasets, internal transcribed spacer (ITS) and large ribosomal subunit (LSU) of rRNA, the ITS dataset discovered a more diverse fungal community and was therefore selected as the reference dataset for evaluating the fungal community based on the unmapped raw data. The threshold of 95% sequence identity revealed many more matched fungal reads and fungal richness in the unmapped raw data than those by identities above 95%. Based on the threshold of 95% sequence identity, the fungal community of RGSD-CS was primarily composed of Saccharomycetes (88.4%) and two other classes (Agaricomycetes and Sordariomycetes, 8.3% in total). Compared with the fungal community of other reported fig wasps, Agaricomycetes and Eurotiomycetes were found to be unique to C. solmsi. In addition, the ratio of total fungal reads to RGSD-CS was estimated to be at least 4.8 × 10(-3), which indicated that a large amount of fungal data was contained in RGSD-CS. However, rarefaction measure indicated that a deeper sequencing coverage with RGSD-CS was required to discover the entire fungal community of C. solmsi. CONCLUSION: This study investigated the richness and composition of fungal community in RGSD-CS and provided new insights into the efficient study of microbial diversity using raw genomic sequence data.


Subject(s)
Biota , Fungi/classification , Fungi/isolation & purification , Wasps/microbiology , Animals , Cluster Analysis , DNA, Fungal/chemistry , DNA, Fungal/genetics , DNA, Ribosomal Spacer/chemistry , DNA, Ribosomal Spacer/genetics , Ficus/parasitology , Fungi/genetics , Phylogeny , RNA, Ribosomal/genetics , Sequence Analysis, DNA
3.
Sci Rep ; 5: 18676, 2015 Dec 22.
Article in English | MEDLINE | ID: mdl-26691285

ABSTRACT

Invertebrates can acquire functional genes via horizontal gene transfer (HGT) from bacteria but fishes are not known to do so. We provide the first reliable evidence of one HGT event from marine bacteria to fishes. The HGT appears to have occurred after emergence of the teleosts. The transferred gene is expressed and regulated developmentally. Its successful integration and expression may change the genetic and metabolic repertoire of fishes. In addition, this gene contains conserved domains and similar tertiary structures in fishes and their putative donor bacteria. Thus, it may function similarly in both groups. Evolutionary analyses indicate that it evolved under purifying selection, further indicating its conserved function. We document the first likely case of HGT of functional gene from prokaryote to fishes. This discovery certifies that HGT can influence vertebrate evolution.


Subject(s)
Bacteria/genetics , Fishes/genetics , Gene Transfer, Horizontal , Animals , Conserved Sequence , Phylogeny , Physical Chromosome Mapping , Seawater/microbiology , Selection, Genetic , Species Specificity , Zebrafish/genetics
4.
Genome Biol ; 14(12): R141, 2013 Dec 20.
Article in English | MEDLINE | ID: mdl-24359812

ABSTRACT

BACKGROUND: Fig pollinating wasps form obligate symbioses with their fig hosts. This mutualism arose approximately 75 million years ago. Unlike many other intimate symbioses, which involve vertical transmission of symbionts to host offspring, female fig wasps fly great distances to transfer horizontally between hosts. In contrast, male wasps are wingless and cannot disperse. Symbionts that keep intimate contact with their hosts often show genome reduction, but it is not clear if the wide dispersal of female fig wasps will counteract this general tendency. We sequenced the genome of the fig wasp Ceratosolen solmsi to address this question. RESULTS: The genome size of the fig wasp C. solmsi is typical of insects, but has undergone dramatic reductions of gene families involved in environmental sensing and detoxification. The streamlined chemosensory ability reflects the overwhelming importance of females finding trees of their only host species, Ficus hispida, during their fleeting adult lives. Despite long-distance dispersal, little need exists for detoxification or environmental protection because fig wasps spend nearly all of their lives inside a largely benign host. Analyses of transcriptomes in females and males at four key life stages reveal that the extreme anatomical sexual dimorphism of fig wasps may result from a strong bias in sex-differential gene expression. CONCLUSIONS: Our comparison of the C. solmsi genome with other insects provides new insights into the evolution of obligate mutualism. The draft genome of the fig wasp, and transcriptomic comparisons between both sexes at four different life stages, provide insights into the molecular basis for the extreme anatomical sexual dimorphism of this species.


Subject(s)
Ficus/parasitology , Genome, Insect , Sequence Analysis, DNA/methods , Wasps/embryology , Wasps/genetics , Animals , Evolution, Molecular , Female , Ficus/physiology , Gene Expression Regulation, Developmental , Genome Size , Male , Phylogeny , Sex Characteristics , Symbiosis , Wasps/classification , Wasps/physiology
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