Chromatin Assembly and Disassembly < Chromatin Immunoprecipitation < Chromatium

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List of bibliographic references indexed by Chromatin Immunoprecipitation

Number of relevant bibliographic references: 16.

Ident.	Authors (with country if any)	Title
000551 (2019)	Katarzyna Wreczycka [Allemagne] ; Vedran Franke [Allemagne] ; Bora Uyar [Allemagne] ; Ricardo Wurmus [Allemagne] ; Selman Bulut [Allemagne] ; Baris Tursun [Allemagne] ; Altuna Akalin [Allemagne]	HOT or not: examining the basis of high-occupancy target regions
000A83 (2018)	Yuchun Guo [États-Unis] ; Kevin Tian [États-Unis] ; Haoyang Zeng [États-Unis] ; Xiaoyun Guo [États-Unis] ; David Kenneth Gifford [États-Unis]	A novel k-mer set memory (KSM) motif representation improves regulatory variant prediction.
000E51 (2017)	Zhen Gao [États-Unis] ; Jianhua Ruan [États-Unis]	Computational modeling of in vivo and in vitro protein-DNA interactions by multiple instance learning.
001080 (2016)	Qiang Yu [République populaire de Chine] ; Hongwei Huo [République populaire de Chine] ; Dazheng Feng [République populaire de Chine]	PairMotifChIP: A Fast Algorithm for Discovery of Patterns Conserved in Large ChIP-seq Data Sets
001240 (2016)	Haoyang Zeng ; Tatsunori Hashimoto ; Daniel D. Kang ; David K. Gifford [États-Unis]	GERV: a statistical method for generative evaluation of regulatory variants for transcription factor binding.
001A87 (2014)	Jiannan Guo [États-Unis] ; Tiandao Li [États-Unis] ; Joshua Schipper [États-Unis] ; Kyle A. Nilson [États-Unis] ; Francis K. Fordjour [États-Unis] ; Jeffrey J. Cooper [États-Unis] ; Raluca Gordân [États-Unis] ; David H. Price [États-Unis]	Sequence specificity incompletely defines the genome-wide occupancy of Myc
001C66 (2014)	Mahmoud Ghandi [États-Unis] ; Dongwon Lee [États-Unis] ; Morteza Mohammad-Noori [Iran] ; Michael A. Beer [États-Unis]	Enhanced Regulatory Sequence Prediction Using Gapped k-mer Features
001D62 (2014)	Yaron Orenstein ; Ron Shamir	A comparative analysis of transcription factor binding models learned from PBM, HT-SELEX and ChIP data
002047 (2013)	Bo Jiang [États-Unis] ; Jun S. Liu ; Martha L. Bulyk	Bayesian hierarchical model of protein-binding microarray k-mer data reduces noise and identifies transcription factor subclasses and preferred k-mers.
002245 (2012)	David U. Gorkin [États-Unis] ; Dongwon Lee ; Xylena Reed ; Christopher Fletez-Brant ; Seneca L. Bessling ; Stacie K. Loftus ; Michael A. Beer ; William J. Pavan ; Andrew S. Mccallion	Integration of ChIP-seq and machine learning reveals enhancers and a predictive regulatory sequence vocabulary in melanocytes.
002485 (2011)	Xiaotu Ma ; Ashwinikumar Kulkarni ; Zhihua Zhang ; Zhenyu Xuan ; Robert Serfling [États-Unis] ; Michael Q. Zhang [République populaire de Chine]	A highly efficient and effective motif discovery method for ChIP-seq/ChIP-chip data using positional information
002789 (2009)	Cong Zhu [États-Unis] ; Kelsey J R P. Byers ; Rachel Patton Mccord ; Zhenwei Shi ; Michael F. Berger ; Daniel E. Newburger ; Katrina Saulrieta ; Zachary Smith ; Mita V. Shah ; Mathangi Radhakrishnan ; Anthony A. Philippakis ; Yanhui Hu ; Federico De Masi ; Marcin Pacek ; Andreas Rolfs ; Tal Murthy ; Joshua Labaer ; Martha L. Bulyk	High-resolution DNA-binding specificity analysis of yeast transcription factors.
002979 (2008)	Dean Tantin [États-Unis] ; Matthew Gemberling ; Catherine Callister ; William G. Fairbrother ; William Fairbrother	High-throughput biochemical analysis of in vivo location data reveals novel distinct classes of POU5F1(Oct4)/DNA complexes.
002A08 (2008)	Julian M. Rozenberg [États-Unis] ; Andrey Shlyakhtenko [États-Unis] ; Kimberly Glass [États-Unis] ; Vikas Rishi [États-Unis] ; Maxim V. Myakishev [États-Unis] ; Peter C. Fitzgerald [États-Unis] ; Charles Vinson [États-Unis]	All and only CpG containing sequences are enriched in promoters abundantly bound by RNA polymerase II in multiple tissues
002E99 (2005)	Dustin T. Holloway [États-Unis] ; Mark Kon ; Charles Delisi	Integrating genomic data to predict transcription factor binding.
005449 (????)	Ka-Chun Wong ; Yue Li ; Chengbin Peng ; Hau-San Wong	A Comparison Study for DNA Motif Modeling on Protein Binding Microarray.

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