[HTML][HTML] TINC—a method to dissect regulatory complexes at single-locus resolution—reveals an extensive protein complex at the nanog promoter
Cellular identity is ultimately dictated by the interaction of transcription factors with regulatory
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
TINC—A Method to Dissect Regulatory Complexes at Single-Locus Resolution—Reveals an Extensive Protein Complex at the Nanog Promoter
AS Knaupp, M Mohenska… - Stem Cell …, 2020 - research-repository.uwa.edu.au
Cellular identity is ultimately dictated by the interaction of transcription factors with regulatory
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
[引用][C] TINC-A Method to Dissect Regulatory Complexes at Single-Locus Resolution-Reveals an Extensive Protein Complex at the Nanog Promoter
AS Knaupp, M Mohenska, MR Larcombe… - Stem Cell …, 2020 - espace.library.uq.edu.au
Cellular identity is ultimately dictated by the interaction of transcription factors with regulatory
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
TINC—A Method to Dissect Regulatory Complexes at Single-Locus Resolution—Reveals an Extensive Protein Complex at the Nanog Promoter
AS Knaupp, M Mohenska, MR Larcombe, E Ford… - 2020 - digital.library.adelaide.edu.au
Cellular identity is ultimately dictated by the interaction of transcription factors with regulatory
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
[引用][C] TINC—A Method to Dissect Regulatory Complexes at Single-Locus Resolution—Reveals an Extensive Protein Complex at the Nanog Promoter
AS Knaupp, M Mohenska, MR Larcombe, E Ford… - Stem Cell …, 2020 - cir.nii.ac.jp
TINC— A Method to Dissect Regulatory Complexes at Single-Locus Resolution— Reveals an
Extensive Protein Complex at the Nanog Promoter | CiNii Research CiNii 国立情報学研究所 …
Extensive Protein Complex at the Nanog Promoter | CiNii Research CiNii 国立情報学研究所 …
[HTML][HTML] TINC—A Method to Dissect Regulatory Complexes at Single-Locus Resolution—Reveals an Extensive Protein Complex at the Nanog Promoter
AS Knaupp, M Mohenska, MR Larcombe, E Ford… - Stem Cell Reports, 2020 - Elsevier
Cellular identity is ultimately dictated by the interaction of transcription factors with regulatory
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
TINC—A Method to Dissect Regulatory Complexes at Single-Locus Resolution—Reveals an Extensive Protein Complex at the Nanog Promoter
AS Knaupp, M Mohenska, MR Larcombe… - Stem Cell …, 2020 - research.monash.edu
Here, Knaupp and colleagues describe TINC, an epigenetic method that allows
interrogation of mammalian regulatory complexes at a single-locus resolution. TINC was …
interrogation of mammalian regulatory complexes at a single-locus resolution. TINC was …
TINC-A Method to Dissect Regulatory Complexes at Single-Locus Resolution-Reveals an Extensive Protein Complex at the Nanog Promoter
AS Knaupp, M Mohenska, MR Larcombe… - Stem cell …, 2020 - pubmed.ncbi.nlm.nih.gov
Cellular identity is ultimately dictated by the interaction of transcription factors with regulatory
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
TINC-A Method to Dissect Regulatory Complexes at Single-Locus Resolution-Reveals an Extensive Protein Complex at the Nanog Promoter.
AS Knaupp, M Mohenska, MR Larcombe, E Ford… - Stem Cell …, 2020 - europepmc.org
Cellular identity is ultimately dictated by the interaction of transcription factors with regulatory
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
[HTML][HTML] TINC—A Method to Dissect Regulatory Complexes at Single-Locus Resolution—Reveals an Extensive Protein Complex at the Nanog Promoter
AS Knaupp, M Mohenska, MR Larcombe, E Ford… - Stem Cell …, 2020 - ncbi.nlm.nih.gov
Cellular identity is ultimately dictated by the interaction of transcription factors with regulatory
elements (REs) to control gene expression. Advances in epigenome profiling techniques …
elements (REs) to control gene expression. Advances in epigenome profiling techniques …