Brenda Y. Han scite author profile

Brenda Y. Han

3Publications

84Citation Statements Received

192Citation Statements Given

How they've been cited

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152

182

Affiliations

University of California, San Francisco, Howard Hughes Medical Institute, Agency for Science, Technology and Research

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Zinc finger protein Zfp335 is required for the formation of the naïve T cell compartment

Han

Foo

et al. 2014

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The generation of naïve T lymphocytes is critical for immune function yet the mechanisms governing their maturation remain incompletely understood. We have identified a mouse mutant, bloto, that harbors a hypomorphic mutation in the zinc finger protein Zfp335. Zfp335bloto/bloto mice exhibit a naïve T cell deficiency due to an intrinsic developmental defect that begins to manifest in the thymus and continues into the periphery, affecting T cells that have recently undergone thymic egress. The effects of Zfp335bloto are multigenic and cannot be attributed to altered thymic selection, proliferation or Bcl2-dependent survival. Zfp335 binds to promoter regions via a consensus motif, and its target genes are enriched in categories related to protein metabolism, mitochondrial function, and transcriptional regulation. Restoring the expression of one target, Ankle2, partially rescues T cell maturation. These findings identify Zfp335 as a transcription factor and essential regulator of late-stage intrathymic and post-thymic T cell maturation.DOI: http://dx.doi.org/10.7554/eLife.03549.001

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The C2H2-ZF transcription factor Zfp335 recognizes two consensus motifs using separate zinc finger arrays

Han

Foo

et al. 2016

Genes Dev.

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The complexities of DNA recognition by transcription factors (TFs) with multiple Cys2-His2 zinc fingers (C2H2-ZFs) remain poorly studied. We previously reported a mutation (R1092W) in the C2H2-ZF TF Zfp335 that led to selective loss of binding at a subset of targets, although the basis for this effect was unclear. We show that Zfp335 binds DNA and drives transcription via recognition of two distinct consensus motifs by separate ZF clusters and identify the specific motif interaction disrupted by R1092W. Our work presents Zfp335 as a model for understanding how C2H2-ZF TFs may use multiple recognition motifs to control gene expression.

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Global translation during early development depends on the essential transcription factor PRDM10

et al. 2020

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Members of the PR/SET domain-containing (PRDM) family of zinc finger transcriptional regulators play diverse developmental roles. PRDM10 is a yet uncharacterized family member, and its function in vivo is unknown. Here, we report an essential requirement for PRDM10 in pre-implantation embryos and embryonic stem cells (mESCs), where loss of PRDM10 results in severe cell growth inhibition. Detailed genomic and biochemical analyses reveal that PRDM10 functions as a sequence-specific transcription factor. We identify Eif3b , which encodes a core component of the eukaryotic translation initiation factor 3 (eIF3) complex, as a key downstream target, and demonstrate that growth inhibition in PRDM10-deficient mESCs is in part mediated through EIF3B-dependent effects on global translation. Our work elucidates the molecular function of PRDM10 in maintaining global translation, establishes its essential role in early embryonic development and mESC homeostasis, and offers insights into the functional repertoire of PRDMs as well as the transcriptional mechanisms regulating translation.

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Brenda Y. Han

Zinc finger protein Zfp335 is required for the formation of the naïve T cell compartment

The C2H2-ZF transcription factor Zfp335 recognizes two consensus motifs using separate zinc finger arrays

Global translation during early development depends on the essential transcription factor PRDM10

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