Your search keyword '"Pauli, Florencia"' showing total 5 results

1. Role of CCCTC binding factor (CTCF) and cohesin in the generation of single-cell diversity of Protocadherin-α gene expression

Author

Monahan, Kevin, Rudnick, Noam D., Kehayova, Polina D., Pauli, Florencia, Newberry, Kimberly M., Myers, Richard M., and Maniatis, Tom

Published

2012

2. Role of CCCTC binding factor (CTCF) and cohesin in the generation of single-cell diversity of Protocadherin-&agr; gene expression.

Author

Monahan, Kevin, Rudnick, Noam D., Kehayova, Polina D., Pauli, Florencia, Newberry, Kimberly M., Myers, Richard M., and Maniatis, Tom

Subjects

CADHERINS, VERTEBRATE physiology, NERVOUS system, RNA splicing, PROMOTERS (Genetics), GENE expression, NUCLEOTIDE sequence, COHESINS

Abstract

Extraordinary single-cell diversity is generated in the vertebrate nervous system by the combinatorial expression of the clustered protocadherin genes (Pcdha, -ß, and -y). This diversity is generated by a combination of stochastic promoter choice and alternative premRNA splicing. Here we show that both the insulator-binding protein CTCF and the cohesin complex subunit Rad21 bind to two highly conserved DNA sequences, the first within and the second downstream of transcriptionally active Pcdha promoters. Both CTCF and Rad21 bind to these sites in vitro and in vivo, this binding directly correlates with alternative isoform expression, and knocking down CTCF expression reduces alternative isoform expression. Remarkably, a similarly spaced pair of CTCF/Rad21 binding sites was identified within a distant enhancer element (HS5-1), which is required for normal levels of alternative isoform expression. We also identify an additional, unique regulatory role for cohesin, as Rad21 binds to another enhancer (HS7) independently of CTCF, and knockdown of Rad21 reduces expression of the constitutive, biallelically expressed Pcdha isoforms ad and ac2. We propose that CTCF and the cohesin complex initiate and maintain Pcdha promoter choice by mediating interactions between Pcdha promoters and enhancers. [ABSTRACT FROM AUTHOR]

Published

2012

3. Chromosomal clustering and GATA transcriptional regulation of intestine-expressed genes in C. elegans.

Author

Pauli, Florencia, Yueyi Liu, Kim, Yoona A., Chen, Pei-Jiun, and Kim, Stuart K.

Subjects

*MESSENGER RNA, *GENE expression, *EPITOPES, *DNA microarrays, *INTESTINES

Abstract

We used mRNA tagging to identify genes expressed in the intestine of C. elegans. Animals expressing an epitope-tagged protein that binds the poly-A tail of mRNAs (FLAG::PAB-1) from an intestine-specific promoter (ges-1) were used to immunoprecipitate FLAG::PAB-1/mRNA complexes from the intestine. A total of 1938 intestine-expressed genes (P<0.001) were identified using DNA microarrays. First, we compared the intestine-expressed genes with those expressed in the muscle and germline, and identified 510 genes enriched in all three tissues and 624 intestine-, 230 muscle- and 1135 germ line-enriched genes. Second, we showed that the 1938 intestine-expressed genes were physically clustered on the chromosomes, suggesting that the order of genes in the genome is influenced by the effect of chromatin domains on gene expression. Furthermore, the commonly expressed genes showed more chromosomal clustering than the tissue-enriched genes, suggesting that chromatin domains may influence housekeeping genes more than tissue-specific genes. Third, in order to gain further insight into the regulation of intestinal gene expression, we searched for regulatory motifs. This analysis found that the promoters of the intestine genes were enriched for the GATA transcription factor consensus binding sequence. We experimentally verified these results by showing that the GATA motif is required in cis and that GATA transcription factors are required in trans for expression of these intestinal genes. [ABSTRACT FROM AUTHOR]

Published

2006

4. A Validated Regulatory Network for Th17 Cell Specification

Author

Ciofani, Maria, Madar, Aviv, Galan, Carolina, Sellars, MacLean, Mace, Kieran, Pauli, Florencia, Agarwal, Ashish, Huang, Wendy, Parkurst, Christopher N., Muratet, Michael, Newberry, Kim M., Meadows, Sarah, Greenfield, Alex, Yang, Yi, Jain, Preti, Kirigin, Francis K., Birchmeier, Carmen, Wagner, Erwin F., Murphy, Kenneth M., and Myers, Richard M.

Subjects

*GENE regulatory networks, *CELL differentiation, *T helper cells, *TRANSCRIPTION factors, *BIOLOGY experiments, *GENE expression

Abstract

Summary: Th17 cells have critical roles in mucosal defense and are major contributors to inflammatory disease. Their differentiation requires the nuclear hormone receptor RORγt working with multiple other essential transcription factors (TFs). We have used an iterative systems approach, combining genome-wide TF occupancy, expression profiling of TF mutants, and expression time series to delineate the Th17 global transcriptional regulatory network. We find that cooperatively bound BATF and IRF4 contribute to initial chromatin accessibility and, with STAT3, initiate a transcriptional program that is then globally tuned by the lineage-specifying TF RORγt, which plays a focal deterministic role at key loci. Integration of multiple data sets allowed inference of an accurate predictive model that we computationally and experimentally validated, identifying multiple new Th17 regulators, including Fosl2, a key determinant of cellular plasticity. This interconnected network can be used to investigate new therapeutic approaches to manipulate Th17 functions in the setting of inflammatory disease. [ABSTRACT FROM AUTHOR]

Published

2012

5. Effects of sequence variation on differential allelic transcription factor occupancy and gene expression.

Author

Reddy, Timothy E., Gertz, Jason, Pauli, Florencia, Kucera, Katerina S., Varley, Katherine E., Newberry, Kimberly M., Marinov, Georgi K., Mortazavi, Ali, Williams, Brian A., Song, Lingyun, Crawford, Gregory E., Wold, Barbara, Willard, Huntington F., and Myers, Richard M.

Subjects

*TRANSCRIPTION factors, *GENOMES, *GENE expression, *CELL lines, *PROTEINS

Abstract

A complex interplay between transcription factors (TFs) and the genome regulates transcription. However, connecting variation in genome sequence with variation in TF binding and gene expression is challenging due to environmental differences between individuals and cell types. To address this problem, we measured genome-wide differential allelic occupancy of 24 TFs and EP300 in a human lymphoblastoid cell line GM12878. Overall, 5% of human TF binding sites have an allelic imbalance in occupancy. At many sites, TFs clustered in TF-binding hubs on the same homolog in especially open chromatin. While genetic variation in core TF binding motifs generally resulted in large allelic differences in TF occupancy, most allelic differences in occupancy were subtle and associated with disruption of weak or noncanonical motifs. We also measured genome-wide differential allelic expression of genes with and without heterozygous exonic variants in the same cells. We found that genes with differential allelic expression were overall less expressed both in GM12878 cells and in unrelated human cell lines. Comparing TF occupancy with expression, we found strong association between allelic occupancy and expression within 100 bp of transcription start sites (TSSs), and weak association up to 100 kb from TSSs. Sites of differential allelic occupancy were significantly enriched for variants associated with disease, particularly autoimmune disease, suggesting that allelic differences in TF occupancy give functional insights into intergenic variants associated with disease. Our results have the potential to increase the power and interpretability of association studies by targeting functional intergenic variants in addition to protein coding sequences. [ABSTRACT FROM AUTHOR]

Published

2012