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Unusual semi‐extractability as a hallmark of nuclear body‐associated architectural noncoding RNAs
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Takeshi Chujo Tomohiro Yamazaki Tetsuya Kawaguchi Satoshi Kurosaka Toru Takumi Shinichi Nakagawa Tetsuro Hirose 《The EMBO journal》2017,36(10):1447-1462
NEAT1_2 long noncoding RNA (lncRNA) is the molecular scaffold of paraspeckle nuclear bodies. Here, we report an improved RNA extraction method: extensive needle shearing or heating of cell lysate in RNA extraction reagent improved NEAT1_2 extraction by 20‐fold (a property we term “semi‐extractability”), whereas using a conventional method NEAT1_2 was trapped in the protein phase. The improved extraction method enabled us to estimate that approximately 50 NEAT1_2 molecules are present in a single paraspeckle. Another architectural lncRNA, IGS16, also exhibited similar semi‐extractability. A comparison of RNA‐seq data from needle‐sheared and control samples revealed the existence of multiple semi‐extractable RNAs, many of which were localized in subnuclear granule‐like structures. The semi‐extractability of NEAT1_2 correlated with its association with paraspeckle proteins and required the prion‐like domain of the RNA‐binding protein FUS. This observation suggests that tenacious RNA–protein and protein–protein interactions, which drive nuclear body formation, are responsible for semi‐extractability. Our findings provide a foundation for the discovery of the architectural RNAs that constitute nuclear bodies. 相似文献
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Paraspeckles are subpopulation-specific nuclear bodies that are not essential in mice 总被引:1,自引:0,他引:1
Nuclei of higher organisms are well structured and have multiple, distinct nuclear compartments or nuclear bodies. Paraspeckles are recently identified mammal-specific nuclear bodies ubiquitously found in most cells cultured in vitro. To investigate the physiological role of paraspeckles, we examined the in vivo expression patterns of two long noncoding RNAs, NEAT1_1 and NEAT1_2, which are essential for the architectural integrity of nuclear bodies. Unexpectedly, these genes were only strongly expressed in a particular subpopulation of cells in adult mouse tissues, and prominent paraspeckle formation was observed only in the cells highly expressing NEAT1_2. To further investigate the cellular functions of paraspeckles, we created an animal model lacking NEAT1 by gene targeting. These knockout mice were viable and fertile under laboratory growth conditions, showing no apparent phenotypes except for the disappearance of paraspeckles. We propose that paraspeckles are nonessential, subpopulation-specific nuclear bodies formed secondary to particular environmental triggers. 相似文献
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Diminished nuclear RNA decay upon Salmonella infection upregulates antibacterial noncoding RNAs
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Katsutoshi Imamura Akiko Takaya Yo‐ichi Ishida Yayoi Fukuoka Toshiki Taya Ryo Nakaki Miho Kakeda Naoto Imamachi Aiko Sato Toshimichi Yamada Rena Onoguchi‐Mizutani Gen Akizuki Tanzina Tanu Kazuyuki Tao Sotaro Miyao Yutaka Suzuki Masami Nagahama Tomoko Yamamoto Torben Heick Jensen Nobuyoshi Akimitsu 《The EMBO journal》2018,37(13)
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U.M. Sreenivasa Murthy 《FEBS letters》2010,584(8):1531-1535
The virus inducible non-coding RNA (VINC) was detected initially in the brain of mice infected with Japanese encephalitis virus (JEV) and rabies virus. VINC is also known as NEAT1 or Men epsilon RNA. It is localized in the nuclear paraspeckles of several murine as well as human cell lines and is essential for paraspeckle formation. We demonstrate that VINC interacts with the paraspeckle protein, P54nrb through three different protein interaction regions (PIRs) one of which (PIR-1) is localized near the 5′ end while the other two (PIR-2, PIR-3) are localized near the 3′ region of VINC. Our studies suggest that VINC may interact with P54nrb through a novel mechanism which is different from that reported for protein coding RNAs. 相似文献
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Biogenesis and function of nuclear bodies 总被引:1,自引:0,他引:1
Nuclear bodies including nucleoli, Cajal bodies, nuclear speckles, Polycomb bodies, and paraspeckles are membraneless subnuclear organelles. They are present at steady-state and dynamically respond to basic physiological processes as well as to various forms of stress, altered metabolic conditions and alterations in cellular signaling. The formation of a specific nuclear body has been suggested to follow a stochastic or ordered assembly model. In addition, a seeding mechanism has been proposed to assemble, maintain, and regulate particular nuclear bodies. In coordination with noncoding RNAs, chromatin modifiers and other machineries, various nuclear bodies have been shown to sequester and modify proteins, process RNAs and assemble ribonucleoprotein complexes, as well as epigenetically regulate gene expression. Understanding the functional relationships between the 3D organization of the genome and nuclear bodies is essential to fully uncover the regulation of gene expression and its implications for human disease. 相似文献
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Hui Ming Qianfeng Wang Yuwen Zhang Luzhang Ji Lu Cheng Xiangru Huo Zixiang Yan Zhexiao Liu Yongjun Dang Bo Wen 《蛋白质与细胞》2021,12(4):297-304
Dear Editor,
In the nucleus of higher eukaryotes, chromatin occupies only a small proportion of the nuclear space, while many proteins and RNAs segregate into membrane-less nuclear bodies (NBs).These NBs follow a stochastic or ordered assembly model and constantly exchange components with the surrounding nucleoplasm (Jain et al., 2016).Typical NBs include nucleoli, nuclear speckles, paraspeckles, PML bodies, Cajal bodies, polycomb bodies and Sam68 bodies,which play critical roles in various biological processes such as ribosome assembly, RNA processing, and protein modification.The dysfunction of nuclear bodies may cause diseases, such as cancer (Li et al., 2019). 相似文献
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Nucleation of nuclear bodies by RNA 总被引:1,自引:0,他引:1