Yichen Mao scite author profile

Nuclear bodies including nucleoli, Cajal bodies, nuclear speckles, Polycomb bodies, and paraspeckles are membrane-less subnuclear organelles. They are steady-state structures that dynamically respond to basic physiological processes as well as various forms of stress, altered metabolic conditions and alterations in cellular signaling. The formation of specific nuclear bodies has been suggested to follow stochastic and ordered assembly models. 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 three-dimensional organization of the genome and nuclear bodies is essential to fully uncover the regulation of gene expression and its implications in human diseases.

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The lncRNA Malat1 Is Dispensable for Mouse Development but Its Transcription Plays a cis-Regulatory Role in the Adult

Zhang

et al. 2012

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SUMMARY Genome-wide studies have identified thousands of long noncoding RNAs (lncRNAs) lacking protein coding capacity. However, most lncRNAs are expressed at a very low level, and in most cases there is no genetic evidence to support their in vivo function. Malat1 (metastasis associated lung adenocarcinoma transcript 1) is among the most abundant and highly conserved lncRNAs, and it exhibits an uncommon 3′-end processing mechanism. In addition, its specific nuclear localization, developmental regulation, and dysregulation in cancer are suggestive of it having a critical biological function. We have characterized a Malat1 loss-of-function genetic model that indicates Malat1 is not essential for mouse pre- and post-natal development. Furthermore, depletion of Malat1 does not impact global gene expression, splicing factor level and phosphorylation status, or alternative pre-mRNA splicing. However, among a small number of genes that were dysregulated in adult Malat1 knockout mice, many were Malat1 neighboring genes, thus indicating a potential cis regulatory role of Malat1 gene transcription.

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Direct visualization of the co-transcriptional assembly of a nuclear body by noncoding RNAs

et al. 2010

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Immunoglobulin Gene Transcripts Have Distinct VHDJH Recombination Characteristics in Human Epithelial Cancer Cells

Zheng

Huang

Mao

et al. 2009

Journal of Biological Chemistry

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Palmitoylation Controls the Catalytic Activity and Subcellular Distribution of Phosphatidylinositol 4-Kinase IIα

Baryłko

Mao

Włodarski

et al. 2009

Journal of Biological Chemistry

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Here we identify the first two cysteines in the CCPCC motif as the principal sites of palmitoylation under basal conditions, and we demonstrate the importance of the central proline for enzymatic activity, although not for membrane binding. We further show that palmitoylation is critical for targeting PI4KII␣ to the trans-Golgi network and for enhancement of its association with low buoyant density membrane fractions, commonly termed lipid rafts. Replacement of the four cysteines in CCPCC with a hydrophobic residue, phenylalanine, substantially restores catalytic activity of PI4KII␣ in vitro and in cells without restoring integral membrane binding. Although this FFPFF mutant displays a perinuclear distribution, it does not strongly co-localize with wild-type PI4KII␣ and associates more weakly with lipid rafts.

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Yichen Mao

Biogenesis and function of nuclear bodies

The lncRNA Malat1 Is Dispensable for Mouse Development but Its Transcription Plays a cis-Regulatory Role in the Adult

Direct visualization of the co-transcriptional assembly of a nuclear body by noncoding RNAs

Immunoglobulin Gene Transcripts Have Distinct VHDJH Recombination Characteristics in Human Epithelial Cancer Cells

Palmitoylation Controls the Catalytic Activity and Subcellular Distribution of Phosphatidylinositol 4-Kinase IIα

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