The DNA-encoded nucleosome organization of a eukaryotic genome.

Gene expression divergence in yeast is coupled to evolution of DNA-encoded nucleosome organization.

High nucleosome occupancy is encoded at human regulatory sequences.

Predicting nucleosome positioning using a duration Hidden Markov Model.

Nucleosome sequence preferences influence in vivo nucleosome organization.

Controls of nucleosome positioning in the human genome.

Archaeal nucleosome positioning in vivo and in vitro is directed by primary sequence motifs.

The chromatin architectural proteins HMGD1 and H1 bind reciprocally and have opposite effects on chromatin structure and gene regulation.

Sudemycin E influences alternative splicing and changes chromatin modifications.

Inorganic Arsenic-induced cellular transformation is coupled with genome wide changes in chromatin structure, transcriptome and splicing patterns.

Inorganic Arsenic-induced cellular transformation is coupled with genome wide changes in chromatin structure, transcriptome and splicing patterns.

[Anonymous].  2015.  Inorganic Arsenic-induced cellular transformation is coupled with genome wide changes in chromatin structure, transcriptome and splicing patterns.. BMC genomics. 16:212.