Min Chu scite author profile

Min Chu

5Publications

113Citation Statements Received

332Citation Statements Given

How they've been cited

107

How they cite others

184

320

Affiliations

East China Normal University

Publications

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Transcriptional Repression by the BRG1-SWI/SNF Complex Affects the Pluripotency of Human Embryonic Stem Cells

Zhang

et al. 2014

Stem Cell Reports

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SummaryThe SWI/SNF complex plays an important role in mouse embryonic stem cells (mESCs), but it remains to be determined whether this complex is required for the pluripotency of human ESCs (hESCs). Using RNAi, we demonstrated that depletion of BRG1, the catalytic subunit of the SWI/SNF complex, led to impaired self-renewing ability and dysregulated lineage specification of hESCs. A unique composition of the BRG1-SWI/SNF complex in hESCs was further defined by the presence of BRG1, BAF250A, BAF170, BAF155, BAF53A, and BAF47. Genome-wide expression analyses revealed that BRG1 participated in a broad range of biological processes in hESCs through pathways different from those in mESCs. In addition, chromatin immunoprecipitation sequencing (ChIP-seq) demonstrated that BRG1 played a repressive role in transcriptional regulation by modulating the acetylation levels of H3K27 at the enhancers of lineage-specific genes. Our data thus provide valuable insights into molecular mechanisms by which transcriptional repression affects the self-renewal and differentiation of hESCs.

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A Novel Role of CDX1 in Embryonic Epicardial Development

Chu

Wang

et al. 2014

PLoS ONE

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The molecular mechanism that regulates epicardial development has yet to be understood. In this study, we explored the function of CDX1, a Caudal-related family member, in epicardial epithelial-to-mesenchymal transition (EMT) and in the migration and the differentiation of epicardium-derived progenitors into vascular smooth muscle cells. We detected a transient expression of CDX1 in murine embryonic hearts at 11.5 days post coitum (dpc). Using a doxycycline-inducible CDX1 mouse model, primary epicardium, and ex vivo heart culture, we further demonstrated that ectopic expression of CDX1 promoted epicardial EMT. In addition, a low-dose CDX1 induction led to enhanced migration and differentiation of epicardium-derived cells into α-SMA+ vascular smooth muscles. In contrast, either continued high-level induction of CDX1 or CDX1 deficiency attenuated the ability of epicardium-derived cells to migrate and to mature into smooth muscles induced by TGF-β1. Further RNA-seq analyses showed that CDX1 induction altered the transcript levels of genes involved in neuronal development, angiogenesis, and cell adhesions required for EMT. Our data have revealed a previously undefined role of CDX1 during epicardial development, and suggest that transient expression of CDX1 promotes epicardial EMT, whereas subsequent down-regulation of CDX1 after 11.5 dpc in mice is necessary for further subepicardial invasion of EPDCs and contribution to coronary vascular endothelium or smooth muscle cells.

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Integrated Study of Transcriptome-wide m6A Methylome Confirms a Potential Mechanism for Transcriptional Regulation During Yak Adipocytes Differentiation

Zhang¹,

Liang²,

Wu³

et al. 2020

Preprint

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Background: Yak (Bos grunniens) is considered as an iconic symbol of Tibet and high altitude, but they suffer from malnutrition during the cold season that challenges the metabolism of energy. Adipocytes perform crucial role in maintaining the energy balance and adipocyte differentiation is a complex process involving multiple changes in expression of genes. N6-methyladenosine (m6A) plays an dynamic role in post-transcription gene expression regulation as the most widespread mRNA modification of the higher eukaryotes. However, currently there is no research existing on the m6A transcriptome-wide map of bovine animals and their potential biological functions in adipocyte differentiation. Results: We performed methylated RNA immunoprecipitation sequence (MeRIP-seq) and RNA sequence (RNA-seq) to determine the distinctions in m6A methylation and gene expression during yak adipocyte differentiation. In yak adipocyte and preadipocyte the content of m6A and m6A associated enzymes were substantially different. In the two groups, a total of 14,710 m6A peaks and 13,388 m6A peaks were identified. In the most part, m6A peaks were enriched in stop codons, 3’-untranslated regions and coding regions. The functional enrichment exploration displayed that differentially methylated genes participated in some of the pathways associated with adipogenic metabolism. In addition to that there was a positive association between m6A abundance and levels of gene expression, which displayed that m6A plays vital role in modulating gene expression during yak adipocyte differentiation.Conclusions: In short, it could be concluded that the current study provides a comprehensive explanation of the m6A features in the yak transcriptome, offering in-depth insights into m6A topology and associated molecular mechanisms underlying bovine adipocyte differentiation which might be helpful for further understanding its mechanisms.

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Identification of two regulatory regions of the α1 (VI) collagen promoter that are modulated by B-myb expression

Saitta¹,

Bolognese²,

Sala³

et al. 1998

Matrix Biology

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The Transcriptome-Wide N6-Methyladenosine (m6A) Map Profiling Reveals the Regulatory Role of m6A in the Yak Ovary

Guo¹,

Wang²,

Cao³

et al. 2021

Preprint

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Background and aim: Yak estrus is a seasonal phenomenon, probably involving epigenetic regulation of synthesis and secretion of sex hormones as well as growth and development of follicles. N6-methyladenosine (m6A) is the most common internal modification of the eukaryotic mRNA. However, there are no detailed reports on the m6A transcriptome map of yak ovary. Therefore, this study aimed to collected the yak ovarian tissues at three different states of anestrus (YO-A), estrus (YO-F), and pregnancy (YO-P), and obtained the full transcriptome m6A map in yak by MeRIP-seq. Results: The HE staining revealed that the number of growing follicles and mature follicles in the ovary during the estrus period was relatively higher than those in the estrus period and the pregnancy period. The RT-qPCR showed that the expression of METTL3, METTL14, FTO, YTHDC1 were significantly different across different periods in the ovaries, which suggests that m6A may play a regulatory role in ovarian activity. Next, we identified 20174, 19747 and 13523 m6A peaks in the three ovarian samples of YO-A, YO-F and YO-P using the methylated RNA immunoprecipitation sequencing (MeRIP-seq). The m6A peaks are highly enriched in the coding sequence (CDS) region and 3′untranslated region (3′UTR) as well as the conserved sequence of “RRACH.” Functional analysis revealed the involvement of m6A in many physiological activities of the yak’s ovary during reproductive cycle. The association analysis found that some genes such as BNC1, HOMER1, BMP15, BMP6, GPX3, and WNT11 were related to ovarian functions. Conclusions: The comparison of the distribution patterns of methylation peaks in the ovarian tissues across different periods further explored the m6A markers related to the regulation of ovarian ovulation and follicular development in the yak ovary. This comprehensive map provides a solid foundation for revealing the potential function of the mRNA m6A modification in the yak ovary.

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Min Chu

Transcriptional Repression by the BRG1-SWI/SNF Complex Affects the Pluripotency of Human Embryonic Stem Cells

A Novel Role of CDX1 in Embryonic Epicardial Development

Integrated Study of Transcriptome-wide m6A Methylome Confirms a Potential Mechanism for Transcriptional Regulation During Yak Adipocytes Differentiation

Identification of two regulatory regions of the α1 (VI) collagen promoter that are modulated by B-myb expression

The Transcriptome-Wide N6-Methyladenosine (m6A) Map Profiling Reveals the Regulatory Role of m6A in the Yak Ovary

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