Genome Regulation and Cellular Fates in Homeostasis and Disease

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Reveal the power of the 6-base genome – introducing duet multiomics solution evoC

13 May 2024
to 14 May 2024

CaixaForum, Madrid

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About the event

The University of Cambridge and the Centre for Genomic Regulation are delighted to announce a new conference, Genome Regulation and Cellular Fates in Homeostasis and Disease, to be held on Monday 13th and Tuesday 14th May 2024 at CaixaForum Madrid.The conference will be chaired by Dr Renée Beekman, Professor Brian Huntly and Dr David Lara-Astiaso and include two days of talks by world leaders in the field of genome regulation and cell fate.Thanks to support from LaCaixa Foundation and our other sponsors, we are able to hold the conference at CaixaForum in the centre of Madrid and to make no charge for registration for the conference.

One sample. One workflow. One solution.

Here are the relevant biomodal resources for information. Find poster presentation information, case studies, interviews, and more.

duet multiomics solution evoC product sheet

duet multiomics solution evoC product sheet

Novel single-base-resolution solution that delivers the standard four-base sequencing (A, C, G, and T), and distinguishes between 5‑methylcytosine (5mC) and 5-hydroxymethylcytosine (5hmC), on the same DNA molecule.

Related resources

Measuring genetics 5mC and 5hmC at single-base resolution

Measuring genetics, 5mC and 5hmC at single‑base resolution

DNA comprises molecular information stored in genetic and epigenetic bases, both of which are vital to our understanding of biology. In human genomes, an epigenetic modification at the fifth carbon of cytosines bases comprises one fundamental pathway by which genes can be silenced or activated.

Deep, targeted simultaneous sequencing of genetics and epigenetics in DNA

Deep, targeted simultaneous sequencing of genetics and epigenetics in DNA

DNA comprises molecular information stored in genetic and epigenetic bases, both of which are vital to our understanding of biology. The interplay between genetics and the DNA epigenome orchestrates complex biological phenomena as diverse as cell fate, ageing, the response to environmental stimuli, and disease pathogenesis.

Attending from biomodal

Roel Sprengers

Roel Sprengers

Business Development Director
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Aziz Mustafa

Aziz Mustafa, PhD

Director of Sales and Business Development, Europe
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Genome Regulation and Cellular Fates 13-14May24

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