An Hue Vy Tran scite author profile

Histones package DNA and regulate epigenetic states. For the latter, probably the most important histone is H3. Mammals have three near-identical H3 isoforms: canonical H3.1 and H3.2, and the replication-independent variant H3.3. This variant can accumulate in slowly dividing somatic cells, replacing canonical H3. Some replication-independent histones, through their ability to incorporate outside S-phase, are functionally important in the very slowly dividing mammalian germ line. Much remains to be learned of H3.3 functions in germ cell development.Histone H3.3 presents a unique genetic paradigm in that two conventional intron-containing genes encode the identical protein. Here, we present a comprehensive analysis of the developmental effects of null mutations in each of these genes. H3f3a mutants were viable to adulthood. Females were fertile, while males were subfertile with dysmorphic spermatozoa. H3f3b mutants were growth-deficient, dying at birth. H3f3b heterozygotes were also growth-deficient, with males being sterile because of arrest of round spermatids. This sterility was not accompanied by abnormalities in sex chromosome inactivation in meiosis I. Conditional ablation of H3f3b at the beginning of folliculogenesis resulted in zygote cleavage failure, establishing H3f3b as a maternal-effect gene, and revealing a requirement for H3.3 in the first mitosis. Simultaneous ablation of H3f3a and H3f3b in folliculogenesis resulted in early primary oocyte death, demonstrating a crucial role for H3.3 in oogenesis.These findings reveal a heavy reliance on H3.3 for growth, gametogenesis, and fertilization, identifying developmental processes that are particularly susceptible to H3.3 deficiency. They also reveal partial redundancy in function of H3f3a and H3f3b, with the latter gene being generally the most important.

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Functional interaction between hMYH and hTRADD in the TNF-α-mediated survival and death pathways of HeLa cells

Tran

Hahm

Han

et al. 2015

Mutation Research/Fundamental and Molecular Mechanisms of Mutag

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A Fluorophore‐labeled Peptide of Human Ribosomal Protein S3 for the Detection of the 8‐Oxoguanine within the Cells

Han

Hahm

Tran

et al. 2015

Bulletin Korean Chem Soc

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Visualization of the physical and functional interaction between hMYH and hRad9 by Dronpa bimolecular fluorescence complementation

et al. 2014

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BackgroundHuman MutY glycosylase homolog (hMYH), a component of the base excision repair pathway, is responsible for the generation of apurinic/apyrimidinic sites. Rad9-Rad1-Hus1 (9-1-1) is a heterotrimeric protein complex that plays a role in cell cycle checkpoint control and DNA repair. In humans, hMYH and 9-1-1 interact through Hus1 and to a lesser degree with Rad1 in the presence of DNA damage. In Saccharomyces pombe, each component of the 9-1-1 complex interacts directly with SpMYH. The glycosylase activity of hMYH is stimulated by Hus1 and the 9-1-1 complex and enhanced by DNA damage treatment. Cells respond to different stress conditions in different manners. Therefore, we investigated whether Rad9 interacted with hMYH under different stresses. Here, we identified and visualized the interaction between hRad9 and hMYH and investigated the functional consequences of this interaction.ResultsCo-IP and BiFC indicates that hMYH interacts with hRad9. As shown by GST-pull down assay, this interaction is direct. Furthermore, BiFC with deletion mutants of hMYH showed that hRad9 interacts with N-terminal region of hMYH. The interaction was enhanced by hydroxyurea (HU) treatment. mRNA and protein levels of hMYH and hRad9 were increased following HU treatment. A marked increase in p-Chk1 (S345) and p-Cdk2 (T14, Y15) was observed. But this phosphorylation decreased in siMYH- or siRad9-transfected cells, and more pronounced decrease observed in co-transfected cells.ConclusionsOur data reveal that hRad9 interacts directly with N-terminal region of hMYH. This interaction is enhanced by HU treatment. Knockdown of one or both protein result in decreasing Chk1 and Cdk2 phosphorylation. Since both protein functions in the early detection of DNA damage, we suggest that this interaction occurs early in DNA damage pathway.

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Cross-Recognition ofN-Formylmethionine Peptides Is a General Characteristic of H2-M3-Restricted CD8⁺T Cells

et al. 2005

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An Hue Vy Tran

Contribution of the Two Genes Encoding Histone Variant H3.3 to Viability and Fertility in Mice

Functional interaction between hMYH and hTRADD in the TNF-α-mediated survival and death pathways of HeLa cells

A Fluorophore‐labeled Peptide of Human Ribosomal Protein S3 for the Detection of the 8‐Oxoguanine within the Cells

Visualization of the physical and functional interaction between hMYH and hRad9 by Dronpa bimolecular fluorescence complementation

Cross-Recognition ofN-Formylmethionine Peptides Is a General Characteristic of H2-M3-Restricted CD8⁺T Cells

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An Hue Vy Tran

Contribution of the Two Genes Encoding Histone Variant H3.3 to Viability and Fertility in Mice

Functional interaction between hMYH and hTRADD in the TNF-α-mediated survival and death pathways of HeLa cells

A Fluorophore‐labeled Peptide of Human Ribosomal Protein S3 for the Detection of the 8‐Oxoguanine within the Cells

Visualization of the physical and functional interaction between hMYH and hRad9 by Dronpa bimolecular fluorescence complementation

Cross-Recognition ofN-Formylmethionine Peptides Is a General Characteristic of H2-M3-Restricted CD8+T Cells

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Cross-Recognition ofN-Formylmethionine Peptides Is a General Characteristic of H2-M3-Restricted CD8⁺T Cells