Applying Peptide and Protein Synthesis to Study Post-translational Modifications in Epigenetics and Beyond

Applying Peptide and Protein Synthesis to Study Post-translational Modifications in Epigenetics and Beyond

Epigenetics research focuses on the study of heritable gene regulatory mechanisms that do not involve changes of the DNA sequence. Such mechanisms include post-translational modifications of histone proteins that organize the genome in the nucleus into a nucleoprotein complex called chromatin, and w...

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Main Author: Beat Fierz
Format: Article
Language:deu
Published: Swiss Chemical Society 2021-06-01
Series:CHIMIA
Subjects:
chromatin
epigenetics
protein ligation
synthetic histones
Online Access:https://www.ingentaconnect.com/contentone/scs/chimia/2021/00000075/00000006/art00004
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spelling doaj-6657b7f80a7f4d4eb301cceef4b7e8252021-07-16T13:18:53ZdeuSwiss Chemical SocietyCHIMIA0009-42932673-24242021-06-0175648448810.2533/chimia.2021.484Applying Peptide and Protein Synthesis to Study Post-translational Modifications in Epigenetics and BeyondBeat Fierz0 École Polytechnique Fédérale de Lausanne (EPFL), ISIC, CH-1015 Lausanne, SwitzerlandEpigenetics research focuses on the study of heritable gene regulatory mechanisms that do not involve changes of the DNA sequence. Such mechanisms include post-translational modifications of histone proteins that organize the genome in the nucleus into a nucleoprotein complex called chromatin, and which are of key importance in development and disease. Chemical biology tools as developed by my group, in particular synthetic peptide and protein chemistry, have been critical to elucidate epigenetic signaling mechanisms. As outlined below, they allow the reconstitution of chromatin carrying defined modifications and thus the elucidation of detailed molecular mechanisms.https://www.ingentaconnect.com/contentone/scs/chimia/2021/00000075/00000006/art00004chromatinepigeneticsprotein ligationsynthetic histones
collection DOAJ
language deu
format Article
sources DOAJ
author Beat Fierz
spellingShingle Beat Fierz
Applying Peptide and Protein Synthesis to Study Post-translational Modifications in Epigenetics and Beyond
CHIMIA
chromatin
epigenetics
protein ligation
synthetic histones
author_facet Beat Fierz
author_sort Beat Fierz
title Applying Peptide and Protein Synthesis to Study Post-translational Modifications in Epigenetics and Beyond
title_short Applying Peptide and Protein Synthesis to Study Post-translational Modifications in Epigenetics and Beyond
title_full Applying Peptide and Protein Synthesis to Study Post-translational Modifications in Epigenetics and Beyond
title_fullStr Applying Peptide and Protein Synthesis to Study Post-translational Modifications in Epigenetics and Beyond
title_full_unstemmed Applying Peptide and Protein Synthesis to Study Post-translational Modifications in Epigenetics and Beyond
title_sort applying peptide and protein synthesis to study post-translational modifications in epigenetics and beyond
publisher Swiss Chemical Society
series CHIMIA
issn 0009-4293
2673-2424
publishDate 2021-06-01
description Epigenetics research focuses on the study of heritable gene regulatory mechanisms that do not involve changes of the DNA sequence. Such mechanisms include post-translational modifications of histone proteins that organize the genome in the nucleus into a nucleoprotein complex called chromatin, and which are of key importance in development and disease. Chemical biology tools as developed by my group, in particular synthetic peptide and protein chemistry, have been critical to elucidate epigenetic signaling mechanisms. As outlined below, they allow the reconstitution of chromatin carrying defined modifications and thus the elucidation of detailed molecular mechanisms.
topic chromatin
epigenetics
protein ligation
synthetic histones
url https://www.ingentaconnect.com/contentone/scs/chimia/2021/00000075/00000006/art00004
work_keys_str_mv AT beatfierz applyingpeptideandproteinsynthesistostudyposttranslationalmodificationsinepigeneticsandbeyond
_version_ 1721297652134445056

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