Chromatin Immunoprecipitation

"Chromatin Immunoprecipitation" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus, MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure, which enables searching at various levels of specificity.

MeSH information

Definition | Details | More General Concepts | Related Concepts | More Specific Concepts

A technique for identifying specific DNA sequences that are bound, in vivo, to proteins of interest. It involves formaldehyde fixation of CHROMATIN to crosslink the DNA-BINDING PROTEINS to the DNA. After shearing the DNA into small fragments, specific DNA-protein complexes are isolated by immunoprecipitation with protein-specific ANTIBODIES. Then, the DNA isolated from the complex can be identified by PCR amplification and sequencing.

Descriptor ID	D047369
MeSH Number(s)	E05.393.170 E05.478.605.160
Concept/Terms	Chromatin Immunoprecipitation Chromatin Immunoprecipitation Immunoprecipitation, Chromatin

Below are MeSH descriptors whose meaning is more general than "Chromatin Immunoprecipitation".

Analytical, Diagnostic and Therapeutic Techniques and Equipment [E]
Investigative Techniques [E05]
Genetic Techniques [E05.393]
Chromatin Immunoprecipitation [E05.393.170]
Immunologic Techniques [E05.478]
Immunoprecipitation [E05.478.605]
Chromatin Immunoprecipitation [E05.478.605.160]

Below are MeSH descriptors whose meaning is related to "Chromatin Immunoprecipitation".

Below are MeSH descriptors whose meaning is more specific than "Chromatin Immunoprecipitation".

publications

Timeline | Most Recent

This graph shows the total number of publications written about "Chromatin Immunoprecipitation" by people in this website by year, and whether "Chromatin Immunoprecipitation" was a major or minor topic of these publications.

Bar chart showing 354 publications over 17 distinct years, with a maximum of 36 publications in 2011

To see the data from this visualization as text, click here.

Year	Major Topic	Minor Topic	Total
2004	0	2	2
2005	1	27	28
2006	1	20	21
2007	1	29	30
2008	2	18	20
2009	0	35	35
2010	0	28	28
2011	2	34	36
2012	1	29	30
2013	4	30	34
2014	1	25	26
2015	1	22	23
2016	1	14	15
2017	3	8	11
2018	1	7	8
2019	0	5	5
2020	0	2	2

Below are the most recent publications written about "Chromatin Immunoprecipitation" by people in Profiles.

Moyer SM, Wasylishen AR, Qi Y, Fowlkes N, Su X, Lozano G. p53 drives a transcriptional program that elicits a non-cell-autonomous response and alters cell state in vivo. Proc Natl Acad Sci U S A. 2020 09 22; 117(38):23663-23673.

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Chari NS, Ivan C, Le X, Li J, Mijiti A, Patel AA, Osman AA, Peterson CB, Williams MD, Pickering CR, Caulin C, Myers JN, Calin GA, Lai SY. Disruption of TP63-miR-27a* Feedback Loop by Mutant TP53 in Head and Neck Cancer. J Natl Cancer Inst. 2020 03 01; 112(3):266-277.

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St-Jean G, Tsoi M, Abedini A, Levasseur A, Rico C, Morin M, Djordjevic B, Miinalainen I, Kaarteenaho R, Paquet M, Gévry N, Boyer A, Vanderhyden B, Boerboom D. Lats1 and Lats2 are required for the maintenance of multipotency in the Müllerian duct mesenchyme. Development. 2019 10 18; 146(20).

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Palaniappan M, Nguyen L, Grimm SL, Xi Y, Xia Z, Li W, Coarfa C. The genomic landscape of estrogen receptor a binding sites in mouse mammary gland. PLoS One. 2019; 14(8):e0220311.

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Lemon LD, Morris DK, Bertuch AA. Loss of Ku's DNA end binding activity affects telomere length via destabilizing telomere-bound Est1 rather than altering TLC1 homeostasis. Sci Rep. 2019 07 23; 9(1):10607.

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Wang C, Dou C, Wang Y, Liu Z, Roberts L, Zheng X. TLX3 repressed SNAI1-induced epithelial-mesenchymal transition by directly constraining STAT3 phosphorylation and functionally sensitized 5-FU chemotherapy in hepatocellular carcinoma. Int J Biol Sci. 2019; 15(8):1696-1711.

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Kong X, Ma L, Chen E, Shaw CA, Edelstein LC. Identification of the Regulatory Elements and Target Genes of Megakaryopoietic Transcription Factor MEF2C. Thromb Haemost. 2019 May; 119(5):716-725.

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Bethea M, Liu Y, Wade AK, Mullen R, Gupta R, Gelfanov V, DiMarchi R, Bhatnagar S, Behringer R, Habegger KM, Hunter CS. The islet-expressed Lhx1 transcription factor interacts with Islet-1 and contributes to glucose homeostasis. Am J Physiol Endocrinol Metab. 2019 03 01; 316(3):E397-E409.

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Du J, Kirk B, Zeng J, Ma J, Wang Q. Three classes of response elements for human PRC2 and MLL1/2-Trithorax complexes. Nucleic Acids Res. 2018 09 28; 46(17):8848-8864.

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Went M, Sud A, Försti A, Halvarsson BM, Weinhold N, Kimber S, van Duin M, Thorleifsson G, Holroyd A, Johnson DC, Li N, Orlando G, Law PJ, Ali M, Chen B, Mitchell JS, Gudbjartsson DF, Kuiper R, Stephens OW, Bertsch U, Broderick P, Campo C, Bandapalli OR, Einsele H, Gregory WA, Gullberg U, Hillengass J, Hoffmann P, Jackson GH, Jöckel KH, Johnsson E, Kristinsson SY, Mellqvist UH, Nahi H, Easton D, Pharoah P, Dunning A, Peto J, Canzian F, Swerdlow A, Eeles RA, Kote-Jarai Z, Muir K, Pashayan N, Nickel J, Nöthen MM, Rafnar T, Ross FM, da Silva Filho MI, Thomsen H, Turesson I, Vangsted A, Andersen NF, Waage A, Walker BA, Wihlborg AK, Broyl A, Davies FE, Thorsteinsdottir U, Langer C, Hansson M, Goldschmidt H, Kaiser M, Sonneveld P, Stefansson K, Morgan GJ, Hemminki K, Nilsson B, Houlston RS. Identification of multiple risk loci and regulatory mechanisms influencing susceptibility to multiple myeloma. Nat Commun. 2018 09 13; 9(1):3707.

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