Yuliang Tan • UCSD Profiles (original) (raw)

  1. An eRNA transcription checkpoint for diverse signal-dependent enhancer activation programs. Nat Genet. 2025 Apr; 57(4):962-972. Wang L, Yuan W, Gamliel A, Ma W, Lee S, Tan Y, Chen Z, Taylor H, Ohgi K, Oh S, Aggarwal AK, Rosenfeld MG. PMID: 40186057; PMCID: PMC12286646.
    View in: PubMed Mentions: 2 Fields:
    Translation:HumansAnimalsCells
  2. Signal-induced enhancer activation requires Ku70 to read topoisomerase1-DNA covalent complexes. Nat Struct Mol Biol. 2023 02; 30(2):148-158. Tan Y, Yao L, Gamliel A, Nair SJ, Taylor H, Ohgi K, Aggarwal AK, Rosenfeld MG. PMID: 36747093; PMCID: PMC9935399.
    View in: PubMed Mentions: 8 Fields:
    Translation:Cells
  3. Phase separation of ligand-activated enhancers licenses cooperative chromosomal enhancer assembly. Nat Struct Mol Biol. 2019 03; 26(3):193-203. Nair SJ, Yang L, Meluzzi D, Oh S, Yang F, Friedman MJ, Wang S, Suter T, Alshareedah I, Gamliel A, Ma Q, Zhang J, Hu Y, Tan Y, Ohgi KA, Jayani RS, Banerjee PR, Aggarwal AK, Rosenfeld MG. PMID: 30833784; PMCID: PMC6709854.
    View in: PubMed Mentions: 199 Fields:
    Translation:HumansCells
  4. Dismissal of RNA Polymerase II Underlies a Large Ligand-Induced Enhancer Decommissioning Program. Mol Cell. 2018 08 16; 71(4):526-539.e8. Tan Y, Jin C, Ma W, Hu Y, Tanasa B, Oh S, Gamliel A, Ma Q, Yao L, Zhang J, Ohgi K, Liu W, Aggarwal AK, Rosenfeld MG. PMID: 30118678; PMCID: PMC6149533.
    View in: PubMed Mentions: 14 Fields:
    Translation:HumansCells
  5. Pluripotency factors functionally premark cell-type-restricted enhancers in ES cells. Nature. 2018 04; 556(7702):510-514. Kim HS, Tan Y, Ma W, Merkurjev D, Destici E, Ma Q, Suter T, Ohgi K, Friedman M, Skowronska-Krawczyk D, Rosenfeld MG. PMID: 29670286; PMCID: PMC6021123.
    View in: PubMed Mentions: 34 Fields:
    Translation:AnimalsCells
  6. Glucocorticoid Receptor:MegaTrans Switching Mediates the Repression of an ERα-Regulated Transcriptional Program. Mol Cell. 2017 May 04; 66(3):321-331.e6. Yang F, Ma Q, Liu Z, Li W, Tan Y, Jin C, Ma W, Hu Y, Shen J, Ohgi KA, Telese F, Liu W, Rosenfeld MG. PMID: 28475868; PMCID: PMC5510478.
    View in: PubMed Mentions: 44 Fields:
    Translation:HumansCells
  7. Pseudotemporal Ordering of Single Cells Reveals Metabolic Control of Postnatal β Cell Proliferation. Cell Metab. 2017 May 02; 25(5):1160-1175.e11. Zeng C, Mulas F, Sui Y, Guan T, Miller N, Tan Y, Liu F, Jin W, Carrano AC, Huising MO, Shirihai OS, Yeo GW, Sander M. PMID: 28467932; PMCID: PMC5501713.
    View in: PubMed Mentions: 90 Fields:
    Translation:HumansAnimalsCells
  8. LSD1n is an H4K20 demethylase regulating memory formation via transcriptional elongation control. Nat Neurosci. 2015 Sep; 18(9):1256-64. Wang J, Telese F, Tan Y, Li W, Jin C, He X, Basnet H, Ma Q, Merkurjev D, Zhu X, Liu Z, Zhang J, Ohgi K, Taylor H, White RR, Tazearslan C, Suh Y, Macfarlan TS, Pfaff SL, Rosenfeld MG. PMID: 26214369; PMCID: PMC4625987.
    View in: PubMed Mentions: 92 Fields:
    Translation:AnimalsCells
  9. Ligand-dependent enhancer activation regulated by topoisomerase-I activity. Cell. 2015 Jan 29; 160(3):367-80. Puc J, Kozbial P, Li W, Tan Y, Liu Z, Suter T, Ohgi KA, Zhang J, Aggarwal AK, Rosenfeld MG. PMID: 25619691; PMCID: PMC4422651.
    View in: PubMed Mentions: 82 Fields:
    Translation:HumansCells
  10. Enhancer-bound LDB1 regulates a corticotrope promoter-pausing repression program. Proc Natl Acad Sci U S A. 2015 Feb 03; 112(5):1380-5. Zhang F, Tanasa B, Merkurjev D, Lin C, Song X, Li W, Tan Y, Liu Z, Zhang J, Ohgi KA, Krones A, Skowronska-Krawczyk D, Rosenfeld MG. PMID: 25605944; PMCID: PMC4321301.
    View in: PubMed Mentions: 15 Fields:
    Translation:AnimalsCells
  11. Tyrosine phosphorylation of histone H2A by CK2 regulates transcriptional elongation. Nature. 2014 Dec 11; 516(7530):267-71. Basnet H, Su XB, Tan Y, Meisenhelder J, Merkurjev D, Ohgi KA, Hunter T, Pillus L, Rosenfeld MG. PMID: 25252977; PMCID: PMC4461219.
    View in: PubMed Mentions: 69 Fields:
    Translation:HumansAnimalsCells

This graph shows the number and percent of publications by field. Fields are based on how the National Library of Medicine (NLM) classifies the publications' journals and might not represent the specific topics of the publications. Note that an individual publication can be assigned to more than one field. As a result, the publication counts in this graph might add up to more than the number of publications the person has written. To see the data as text, click here.

This graph shows the number and percent of publications by field. Fields are based on how the National Library of Medicine (NLM) classifies the publications' journals and might not represent the specific topics of the publications. Note that an individual publication can be assigned to more than one field. As a result, the publication counts in this graph might add up to more than the number of publications the person has written. To see the data as text, click here.

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