Cistrome

In today's world, Cistrome has become a topic of great relevance and interest to a wide spectrum of society. From its impact on the global economy to its influence on people's daily lives, Cistrome has sparked debates and discussions in different areas. In order to understand this phenomenon more deeply, it is essential to analyze its different dimensions and repercussions. In this article, we will explore the many facets of Cistrome and its relevance today, as well as the future perspectives it raises.

In simple words, the cistrome refers a collection of regulatory elements of a set of genes, including transcription factor binding sites and histone modifications. More specifically, "the set of cis-acting targets of a trans-acting factor on a genome-wide scale, also known as the in vivo genome-wide location of transcription factor binding sites or histone modifications".[1] The term cistrome is a portmanteau of cistr (from cistron) + ome (from genome). The term cistrome was coined by investigators at the Dana–Farber Cancer Institute and Harvard Medical School.[2]

Technologies such as chromatin immunoprecipitation combined with microarray analysis "ChIP-on-chip" or with massively parallel DNA sequencing "ChIP-Seq" have greatly facilitated the definition of the cistrome of transcription factors and other chromatin associated proteins.

References

  1. ^ Liu T, Ortiz JA, Taing L, Meyer CA, Lee B, Zhang Y, Shin H, Wong SS, Ma J, Lei Y, Pape UJ, Poidinger M, Chen Y, Yeung K, Brown M, Turpaz Y, Liu XS (2011). "Cistrome: an integrative platform for transcriptional regulation studies". Genome Biol. 12 (8): R83. doi:10.1186/gb-2011-12-8-r83. PMC 3245621. PMID 21859476.
  2. ^ "cistrome / FrontPage". PBWiki, Inc.

Further reading


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