Ana Raquel Pengelly

Ana Raquel Pengelly
The Francis Crick Institute · Physiology and Metabolism

PhD

About

9
Publications
719
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453
Citations
Citations since 2017
7 Research Items
338 Citations
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20172018201920202021202220230102030405060
20172018201920202021202220230102030405060
20172018201920202021202220230102030405060
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Introduction
Skills and Expertise
Animal Genetics
Drosophila Biology
Confocal Fluorescence Microscopy
Epigenetics
Immunohistochemistry
Western Blot
Biochemistry
Immunoprecipitation
Chromatin Biology
Gene Expression and Chromatin Biology
Additional affiliations
September 2010 - December 2014
Max Planck Institute of Biochemistry
Max Planck Institute of Biochemistry
  • Department of Chromatin Biology
  • München, Germany
Position
  • PhD Student
January 2010 - July 2010
The University of Edinburgh
The University of Edinburgh
  • Wellcome Trust Centre for Cell Biology
  • United Kingdom
Position
  • Dissecting centromeres in fission yeast
April 2009 - August 2009
Fred Hutchinson Cancer Center
Fred Hutchinson Cancer Center
  • Division of Human Biology
Position
  • The role of the miR-200 family in the hypoxia pathway

Publications

Publications (9)
Developmental dietary history alters adult physiology and lifespan. a...
Developmental diet regulates lifespan in heterogeneous genetic...
Adult stress resistance and autotoxins are regulated by developmental...
STD and LOW flies of both sexes produce and respond to autotoxins. a, b...
+4 Autotoxins are oenocyte-derived cuticular lipids. a, b Survival curves...
Developmental diet regulates Drosophila lifespan via lipid autotoxins
Article
Full-text available
  • Nov 2017
Early-life nourishment exerts long-term influences upon adult physiology and disease risk. These lasting effects of diet are well established but the underlying mechanisms are only partially understood. Here we show that restricting dietary yeast during Drosophila development can, depending upon the subsequent adult environment, more than double me...
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Figure 1. Embryos lacking H2Aub maintain repression of PcG target...
Figure 3. Larval cells containing mutated H2A and H2Av proteins that...
Transcriptional repression by PRC1 in the absence of H2A monoubiquitylation
Article
Full-text available
  • Jul 2015
Histone H2A monoubiquitylation (H2Aub) is considered to be a key effector in transcriptional repression by Polycomb-repressive complex 1 (PRC1). We analyzed Drosophila with a point mutation in the PRC1 subunit Sce that abolishes its H2A ubiquitylase activity or with point mutations in the H2A and H2Av residues ubiquitylated by PRC1. H2Aub is essent...
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Fig. 1. H3-K27R mutant cells show the same phenotypes as PRC2 mutant...
Fig. 2. Homeotic transformation of tissues formed by differentiated...
A Histone Mutant Reproduces the Phenotype Caused by Loss of Histone-Modifying Factor Polycomb
Article
Full-text available
  • Feb 2013
Although many metazoan enzymes that add or remove specific modifications on histone proteins are essential transcriptional regulators, the functional significance of posttranslational modifications on histone proteins is not well understood. Here, we show in Drosophila that a point mutation in lysine 27 of histone H3 (H3-K27) fails to repress trans...
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