Jaw Jou Kang scite author profile

Loss of the RNA binding protein FMRP causes Fragile X Syndrome (FXS), the most common cause of inherited intellectual disability, yet it is unknown how FMRP function varies across brain regions and cell types and how this contributes to disease pathophysiology. Here we use conditional tagging of FMRP and CLIP (FMRP cTag CLIP) to examine FMRP mRNA targets in hippocampal CA1 pyramidal neurons, a critical cell type for learning and memory relevant to FXS phenotypes. Integrating these data with analysis of ribosome-bound transcripts in these neurons revealed CA1-enriched binding of autism-relevant mRNAs, and CA1-specific regulation of transcripts encoding circadian proteins. This contrasted with different targets in cerebellar granule neurons, and was consistent with circadian defects in hippocampus-dependent memory in Fmr1 knockout mice. These findings demonstrate differential FMRP-dependent regulation of mRNAs across neuronal cell types that may contribute to phenotypes such as memory defects and sleep disturbance associated with FXS.

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Organ biodistribution, clearance, and genotoxicity of orally administered zinc oxide nanoparticles in mice

Shen

et al. 2011

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Understanding tissue biodistribution and clearance of zinc oxide nanoparticles (ZnO-NPs) is necessary for its risk assessment. Both fed and intraperitoneally injected ZnO-NPs (2.5 g/kg) were absorbed into circulation (within 30 min post-dosing), then biodistributed to the liver, spleen, and kidney. Intraperitoneally injected ZnO-NPs remained in serum for 72 h and could more effectively spread to the heart, lung, and testes, whereas the clearance for fed ZnO-NPs in serum began 6 h after oral administration. Compared with zinc oxide microparticles (ZnO-MPs), ZnO-NPs exhibited much higher absorptivity and tissue biodistribution in fed treatment. A greater fraction of fed ZnO-NPslocalised in the liver resulted in transient histopathological lesions. However, superoxide generation and cytotoxicity were showed in vitro treatment with ZnO-NPs (above 20 μg/mL). Considering both in vitro and in vivo data, the ZnO-NPs induced acute liver toxicity which was in compliance with its absorption, biodistribution, and clearance.

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Phase separation by the polyhomeotic sterile alpha motif compartmentalizes Polycomb Group proteins and enhances their activity

et al. 2020

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Polycomb Group (PcG) proteins organize chromatin at multiple scales to regulate gene expression. A conserved Sterile Alpha Motif (SAM) in the Polycomb Repressive Complex 1 (PRC1) subunit Polyhomeotic (Ph) has been shown to play an important role in chromatin compaction and large-scale chromatin organization. Ph SAM forms helical head to tail polymers, and SAM-SAM interactions between chromatin-bound Ph/PRC1 are believed to compact chromatin and mediate long-range interactions. To understand the underlying mechanism, here we analyze the effects of Ph SAM on chromatin in vitro. We find that incubation of chromatin or DNA with a truncated Ph protein containing the SAM results in formation of concentrated, phase-separated condensates. Ph SAM-dependent condensates can recruit PRC1 from extracts and enhance PRC1 ubiquitin ligase activity towards histone H2A. We show that overexpression of Ph with an intact SAM increases ubiquitylated H2A in cells. Thus, SAM-induced phase separation, in the context of Ph, can mediate large-scale compaction of chromatin into biochemical compartments that facilitate histone modification.

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Analysis of the Yeast Transcription Factor TFIIA: Distinct Functional Regions and a Polymerase II-Specific Role in Basal and Activated Transcription

Kang

Auble

Ranish

et al. 1995

Molecular and Cellular Biology

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To probe the structure and function of the Saccharomyces cerevisiae general transcription factor TFIIA, we have systematically mutagenized the genes encoding both subunits and analyzed the effects of the mutations both in vivo and in vitro. We found that the central nonconserved region of the large subunit is not essential for function and likely acts as a spacer between the conserved N-and C-terminal regions. Deletion mutagenesis of the large subunit defined a region which is required for TATA binding protein (TBP) interaction. Alanine scanning mutagenesis defined a cluster of four basic residues which are likely required for interaction with DNA in the TBP-DNA complex. Much of the conserved regions of both subunits is required for subunit association, suggesting that these conserved regions fold into compact domains which extensively interact. In vitro transcription performed with extracts from yeast strains with mutations in either the large or the small TFIIA subunit demonstrated that TFIIA stimulates both basal and activated polymerase II (Pol II) transcription. The TFIIA-depleted extracts have normal Pol I and Pol III transcription activity, showing that TFIIA is a Pol II-specific factor. In vivo depletion of TFIIA activity reduced transcription from four different Pol II promoters. Finally, alanine scanning mutagenesis of TFIIA's small subunit has identified at least one mutation which is defective in transcription but which is not defective in subunit association or binding to TBP or TBP-DNA complexes.Initiation of transcription by RNA polymerase (Pol) II requires a set of general transcription factors in addition to Pol. These factors can form a stable preinitiation complex on core promoter elements through a multistep pathway (reviewed in reference 53). TFIIA has been a particularly controversial general factor. The requirement for TFIIA has been variable, and its function in activated and basal transcription has varied depending on the transcription system used (11,14,36,39,41,42,49). TFIIA has even been reported to stimulate Pol III transcription at the human U6, tRNA, and adenovirus VAI 5S rRNA promoters (32,48).TFIIA enters the preinitiation complex through specific protein-protein interactions with the TATA binding protein (TBP) component of TFIID (6). Purified TBP and TFIIA interact as measured by affinity chromatography (14,36,47), and TFIIA can copurify with TFIID (30, 52). However, several lines of evidence suggest that TFIIA also makes important contacts with DNA: (i) the affinity of TFIIA for TBP is much higher when TBP is bound to DNA (36), (ii) TFIIA causes a 5Ј extension of the TBP-TATA footprint as measured by DNase I (14, 20) or hydroxy radical footprinting (19), and (iii) TBP bound to a short oligonucleotide lacking sequences 5Ј to the 8-bp TATA box (25) does not bind TFIIA with a high affinity (19). Since TBP greatly bends and untwists DNA upon binding (25,26), the target for TFIIA is likely TBP bound to distorted DNA. The exact sequence of DNA 5Ј to the TATA box is not important for ...

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Intravesicular calcium transient during calcium release from sarcoplasmic reticulum

Ikemoto¹,

Antoniu²,

Kang³

et al. 1991

Biochemistry

106

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The time course of changes in the intravesicular Ca2+ concentration ([Ca2+]i) in terminal cisternal sarcoplasmic reticulum vesicles upon the induction of Ca2+ release was investigated by using tetramethylmurexide (TMX) as an intravesicular Ca2+ probe. Upon the addition of polylysine at the concentration that led to the maximum rate of Ca2+ release, [Ca2+]i decreased monotonically in parallel with Ca2+ release. Upon induction of Ca2+ release by lower concentrations of polylysine, [Ca2+]i first increased above the resting level, followed by a decrease well below it. The release triggers polylysine, and caffeine brought about dissociation of calcium that bound to a nonvesicular membrane segment consisting of the junctional face membrane and calsequestrin bound to it, as monitored with TMX. No Ca2+ dissociation from calsequestrin-free junctional face membranes or from the dissociated calsequestrin was produced by release triggers, but upon reassociation of the dissociated calsequestrin and the junctional face membrane, Ca2+ dissociation by triggers was restored. On the basis of these results, we propose that the release triggers elicit a signal in the junctional face membrane, presumably in the foot protein moiety, which is then transmitted to calsequestrin, leading to the dissociation of the bound calcium; and in SR vesicles, to the transient increase of [Ca2+]i, and subsequently release across the membrane.

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Jaw Jou Kang

FMRP has a cell-type-specific role in CA1 pyramidal neurons to regulate autism-related transcripts and circadian memory

Organ biodistribution, clearance, and genotoxicity of orally administered zinc oxide nanoparticles in mice

Phase separation by the polyhomeotic sterile alpha motif compartmentalizes Polycomb Group proteins and enhances their activity

Analysis of the Yeast Transcription Factor TFIIA: Distinct Functional Regions and a Polymerase II-Specific Role in Basal and Activated Transcription

Intravesicular calcium transient during calcium release from sarcoplasmic reticulum

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