Felipe Were scite author profile

In Drosophila, the products of the Polycomb group (Pc‐G) of genes act as chromatin‐associated multimeric protein complexes that repress expression of homeotic genes. Vertebrate Pc‐G homologues have been identified, but the nature of the complexes they form and the mechanisms of their action are largely unknown. The Polycomb homologue M33 is implicated in mesoderm patterning in the mouse and here we show that it acts as a transcriptional repressor in transiently transfected cells. Furthermore, we have identified two murine proteins, Ring1A and Ring1B, that interact directly with the repressor domain of M33. Ring1A and Ring1B display blocks of similarity throughout their sequences, including an N‐terminal RING finger domain. However, the interaction with M33 occurs through a region at the C‐terminus. Ring1A represses transcription through sequences not involved in M33 binding. Ring1A protein co‐localizes in nuclear domains with M33 and other Pc‐G homologues, such as Bmi1. The expression of Ring1A at early stages of development is restricted to the neural tube, whereas M33 is expressed ubiquitously. Within the neural tube, Ring1A RNA is located at the rhombomere boundaries of the hindbrain. Taken together, these data suggest that Ring1A may contribute to a tissue‐specific function of Pc‐G–protein complexes during mammalian development.

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Dynamics of Transcription Regulation in Human Bone Marrow Myeloid Differentiation to Mature Blood Neutrophils

Grassi

et al. 2018

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Neutrophils are short-lived blood cells that play a critical role in host defense against infections. To better comprehend neutrophil functions and their regulation, we provide a complete epigenetic overview, assessing important functional features of their differentiation stages from bone marrow-residing progenitors to mature circulating cells. Integration of chromatin modifications, methylation, and transcriptome dynamics reveals an enforced regulation of differentiation, for cellular functions such as release of proteases, respiratory burst, cell cycle regulation, and apoptosis. We observe an early establishment of the cytotoxic capability, while the signaling components that activate these antimicrobial mechanisms are transcribed at later stages, outside the bone marrow, thus preventing toxic effects in the bone marrow niche. Altogether, these data reveal how the developmental dynamics of the chromatin landscape orchestrate the daily production of a large number of neutrophils required for innate host defense and provide a comprehensive overview of differentiating human neutrophils.

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Exocrine pancreatic disorders in transsgenic mice expressing human keratin 8

Casanova¹,

Bravo²,

Ramı́rez³

et al. 1999

J. Clin. Invest.

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c-Jun N-terminal Kinase (JNK) Positively Regulates NFATc2 Transactivation through Phosphorylation within the N-terminal Regulatory Domain

Ortega-Pérez

Cano

Were

et al. 2005

Journal of Biological Chemistry

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The nuclear factor of activated T cells (NFAT) family of transcription factors regulates the transcription of cytokine genes and other genes involved in the regulation and function of the immune system. NFAT activity is regulated by the phosphatase calcineurin, which binds and dephosphorylates the NFAT N-terminal regulatory domain, a critical step required for nuclear translocation and transcriptional activity. Here we show that the mitogen-activated protein kinase (

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Felipe Were

Ring1A is a transcriptional repressor that interacts with the Polycomb-M33 protein and is expressed at rhombomere boundaries in the mouse hindbrain

Dynamics of Transcription Regulation in Human Bone Marrow Myeloid Differentiation to Mature Blood Neutrophils

Exocrine pancreatic disorders in transsgenic mice expressing human keratin 8

c-Jun N-terminal Kinase (JNK) Positively Regulates NFATc2 Transactivation through Phosphorylation within the N-terminal Regulatory Domain

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