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Gabriella Ficz

Showing results (11-20 of 37) with videos related to

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Cellular Reprogramming|May 12, 2025
Old Habits Die Hard: DNA Methylation Patterns Persist in Experimental TransdifferentiationAlice E Lord, Leo J Dudley, Lynette Graver, et al.
Epigenetics|March 24, 2022
An shRNA kinase screen identifies regulators of UHRF1 stability and activity in mouse embryonic stem cellsMichael D Rushton, Emily A Saunderson, Hemalvi Patani, et al.
Science (New York, N.Y.)|April 28, 2012
Quantitative sequencing of 5-methylcytosine and 5-hydroxymethylcytosine at single-base resolutionMichael J Booth, Miguel R Branco, Gabriella Ficz, et al.
Scientific Reports|February 5, 2021
Histone modifications form a cell-type-specific chromosomal bar code that persists through the cell cycleJohn A Halsall, Simon Andrews, Felix Krueger, et al.
NAR Genomics and Bioinformatics|December 24, 2019
A novel use of random priming-based single-strand library preparation for whole genome sequencing of formalin-fixed paraffin-embedded tissue samplesEmily A Saunderson, Ann-Marie Baker, Marc Williams, et al.
Nature Communications|July 24, 2020
Transition to naïve human pluripotency mirrors pan-cancer DNA hypermethylationHemalvi Patani, Michael D Rushton, Jonathan Higham, et al.
Plos Genetics|June 28, 2008
Global mapping of DNA methylation in mouse promoters reveals epigenetic reprogramming of pluripotency genesCassandra R Farthing, Gabriella Ficz, Ray Kit Ng, et al.
Genome Biology|October 26, 2013
A screen for hydroxymethylcytosine and formylcytosine binding proteins suggests functions in transcription and chromatin regulationMario Iurlaro, Gabriella Ficz, David Oxley, et al.
Cancer Research|October 30, 2024
H4K20me3-Mediated Repression of Inflammatory Genes Is a Characteristic and Targetable Vulnerability of Persister Cancer CellsValentina Ramponi, Laia Richart, Marta Kovatcheva, et al.
Nucleic Acids Research|July 24, 2023
Identification of mammalian transcription factors that bind to inaccessible chromatinRomana T Pop, Alessandra Pisante, Dorka Nagy, et al.
Pageof 4

Showing results (11-20 of 37) with videos related to

Sort By:
Pageof 4
Cellular Reprogramming|May 12, 2025
Old Habits Die Hard: DNA Methylation Patterns Persist in Experimental TransdifferentiationAlice E Lord, Leo J Dudley, Lynette Graver, et al.
Epigenetics|March 24, 2022
An shRNA kinase screen identifies regulators of UHRF1 stability and activity in mouse embryonic stem cellsMichael D Rushton, Emily A Saunderson, Hemalvi Patani, et al.
Science (New York, N.Y.)|April 28, 2012
Quantitative sequencing of 5-methylcytosine and 5-hydroxymethylcytosine at single-base resolutionMichael J Booth, Miguel R Branco, Gabriella Ficz, et al.
Scientific Reports|February 5, 2021
Histone modifications form a cell-type-specific chromosomal bar code that persists through the cell cycleJohn A Halsall, Simon Andrews, Felix Krueger, et al.
NAR Genomics and Bioinformatics|December 24, 2019
A novel use of random priming-based single-strand library preparation for whole genome sequencing of formalin-fixed paraffin-embedded tissue samplesEmily A Saunderson, Ann-Marie Baker, Marc Williams, et al.
Nature Communications|July 24, 2020
Transition to naïve human pluripotency mirrors pan-cancer DNA hypermethylationHemalvi Patani, Michael D Rushton, Jonathan Higham, et al.
Plos Genetics|June 28, 2008
Global mapping of DNA methylation in mouse promoters reveals epigenetic reprogramming of pluripotency genesCassandra R Farthing, Gabriella Ficz, Ray Kit Ng, et al.
Genome Biology|October 26, 2013
A screen for hydroxymethylcytosine and formylcytosine binding proteins suggests functions in transcription and chromatin regulationMario Iurlaro, Gabriella Ficz, David Oxley, et al.
Cancer Research|October 30, 2024
H4K20me3-Mediated Repression of Inflammatory Genes Is a Characteristic and Targetable Vulnerability of Persister Cancer CellsValentina Ramponi, Laia Richart, Marta Kovatcheva, et al.
Nucleic Acids Research|July 24, 2023
Identification of mammalian transcription factors that bind to inaccessible chromatinRomana T Pop, Alessandra Pisante, Dorka Nagy, et al.
Pageof 4