Personal information

Activities

Employment (1)

New York University School of Medicine: New York, NY, US

2006-02-14 to present | PI (Pathology)
Employment
Source: Self-asserted source
Jane Skok

Education and qualifications (4)

Imperial College Faculty of Medicine - Hammersmith Campus: London, GB

1997 to 2002 | Postdoctoral Fellow
Education
Source: Self-asserted source
Jane Skok

Imperial College Faculty of Medicine - Hammersmith Campus: London, GB

1996 to 1997 | MS Immunology - Distinction
Education
Source: Self-asserted source
Jane Skok

Cancer Research UK: London, GB

1979 to 1985 | PhD Immunology and Genetics
Education
Source: Self-asserted source
Jane Skok

University College: London, GB

1976 to 1979 | BS Microbiology and Genetics - 1st Class Honors
Education
Source: Self-asserted source
Jane Skok

Professional activities (2)

NYU Langone’s Laura and Isaac Perlmutter Cancer Center: New York, US

2019 to present | Director of Basic Sciences
Invited position
Source: Self-asserted source
Jane Skok

Affiliate member New York Genome Centre: New York, New York, US

2018 to present
Invited position
Source: Self-asserted source
Jane Skok

Funding (23)

Molecular ontology of drug tolerant persisters in HER2 positive breast cancer - Resubmission - 1

2022-01-01 to 2026-12-31 | Grant
National Cancer Institute (Bethesda, US)
GRANT_NUMBER: R01CA264933
Source: Self-asserted source
Jane Skok via DimensionsWizard

The impact of changes in chromatin architecture on cancer phenotypes and tumor progression

2019-06-12 to 2024-05-31 | Grant
National Cancer Institute (Bethesda, US)
GRANT_NUMBER: P01CA229086
Source: Self-asserted source
Jane Skok via DimensionsWizard

The biochemical, topological and functional impact of cancer associated Ctcf mutations and their contribution to cancer

2018-06-07 to 2023-05-31 | Grant
National Cancer Institute (Rockville, US)
GRANT_NUMBER: R01CA229235
Source: Self-asserted source
Jane Skok via DimensionsWizard

Mechanisms Underlying the Control of Recombination and Gene Regulation

2017-04-03 to 2022-03-31 | Grant
National Institute of General Medical Sciences (Bethesda, US)
GRANT_NUMBER: R35GM122515
Source: Self-asserted source
Jane Skok via DimensionsWizard

Translocations And Their Widespread Impact on Gene Regulation

Source: Self-asserted source
Jane Skok via DimensionsWizard

Translocations And Their Widespread Impact on Gene Regulation

2015-08-01 to 2017-07-31 | Grant
National Cancer Institute (Bethesda, US)
GRANT_NUMBER: R21CA188968
Source: Self-asserted source
Jane Skok via DimensionsWizard

Enhancer Driven Gene Regulation During Lymphocyte Development

2014-09-05 to 2018-08-31 | Grant
National Institute of General Medical Sciences (Bethesda, US)
GRANT_NUMBER: 5R01GM112192-02
Source: Self-asserted source
Jane Skok via DimensionsWizard

Enhancer Driven Gene Regulation During Lymphocyte Development

2014-09-05 to 2017-08-31 | Grant
National Institute of General Medical Sciences (Bethesda, US)
GRANT_NUMBER: R01GM112192
Source: Self-asserted source
Jane Skok via DimensionsWizard

Role of ATM and RAG in maintaining genome stability during Tcra/d rearrangement.

2013-08-15 to 2014-09-30 | Grant
National Institute of Allergy and Infectious Diseases (Bethesda, US)
GRANT_NUMBER: 3R56AI099111-01S1
Source: Self-asserted source
Jane Skok via DimensionsWizard

The Role of RNA in Regulating recombination and allelic exclusion

2013-06-05 to 2016-05-31 | Grant
National Institute of Allergy and Infectious Diseases (Bethesda, US)
GRANT_NUMBER: 5R21AI107069-02
Source: Self-asserted source
Jane Skok via DimensionsWizard

The Role of RNA in Regulating recombination and allelic exclusion

2013-06-05 to 2016-05-31 | Grant
National Institute of Allergy and Infectious Diseases (Bethesda, US)
GRANT_NUMBER: R21AI107069
Source: Self-asserted source
Jane Skok via DimensionsWizard

Role of ATM and RAG in maintaining genome stability during Tcra/d rearrangement.

2012-09-01 to 2014-09-30 | Grant
National Institute of Allergy and Infectious Diseases (Bethesda, US)
GRANT_NUMBER: R56AI099111
Source: Self-asserted source
Jane Skok via DimensionsWizard

Spatiotemporal regulation of Immunoglobulin recombination

2010-07-01 to 2015-06-30 | Grant
Leukemia and Lymphoma Society (White Plains, US)
GRANT_NUMBER:

1406-11

Source: Self-asserted source
Jane Skok via DimensionsWizard

Spatiotemporal control of recombination by the RAG proteins and ATM

Source: Self-asserted source
Jane Skok via DimensionsWizard

Spatiotemporal control of recombination by the RAG proteins and ATM

2009-09-30 to 2011-08-31 | Grant
National Cancer Institute (Bethesda, US)
GRANT_NUMBER: RC1CA145746
Source: Self-asserted source
Jane Skok via DimensionsWizard

Co-ordination of Immunoglobulin gene regulation.

2008-10-01 to 2011-09-30 | Grant
Wellcome Trust (London, GB)
GRANT_NUMBER:

085096/Z/08/Z

Source: Self-asserted source
Jane Skok via DimensionsWizard

Role Of Nuclear Organization In Protecting Genome Stability During Recombination

2008-09-11 to 2017-03-31 | Grant
National Institute of General Medical Sciences (Bethesda, US)
GRANT_NUMBER: 5R01GM086852-08
Source: Self-asserted source
Jane Skok via DimensionsWizard

Role Of Nuclear Organization In Protecting Genome Stability During Recombination

2008-09-11 to 2017-03-31 | Grant
National Institute of General Medical Sciences (Bethesda, US)
GRANT_NUMBER: R01GM086852
Source: Self-asserted source
Jane Skok via DimensionsWizard

Factors involved in regulating immunoglobulin genes in developing and mature B lymphocytes.

Source: Self-asserted source
Jane Skok via DimensionsWizard

Nuclear organisations of immunoglobulin genes during the development, maturation and activation of B lymphocytes.

Source: Self-asserted source
Jane Skok via DimensionsWizard

Nuclear organisations of immunoglobulin genes during the developmentmaturation and activation of B lymphocytes.

2002-08-01 to 2007-07-31 | Grant
Wellcome Trust (London, GB)
GRANT_NUMBER:

067387/Z/02/A

Source: Self-asserted source
Jane Skok via DimensionsWizard

UCL Centre for Medical Molecular Virology

Source: Self-asserted source
Jane Skok via DimensionsWizard

Cancer Center Support Grant

1975-06-30 to 2029-02-28 | Grant
National Cancer Institute (Bethesda, US)
GRANT_NUMBER: P30CA016087
Source: Self-asserted source
Jane Skok via DimensionsWizard

Works (50 of 127)

Items per page:
Page 1 of 3

MethNet Results

figshare
2024 | Dataset
Contributors: Theodore Sakellaropoulos; Catherine Do; Guimei Jiang; Aristotelis Tsirigos; Jane Skok
Source: check_circle
DataCite

MethNet Results

figshare
2024 | Dataset
Contributors: Theodore Sakellaropoulos; Jane Skok; Aristotelis Tsirigos; Catherine Do; Guimei Jiang
Source: check_circle
DataCite

MethNet: a robust approach to identify regulatory hubs and their distal targets in cancer

figshare
2024 | Dataset
Contributors: Theodore Sakellaropoulos; Catherine Do; Guimei Jiang; Aristotelis Tsirigos; Jane Skok
Source: check_circle
DataCite

A genome wide code to define cell-type specific CTCF binding and chromatin organization

2024-11-03 | Preprint
Contributors: Catherine Do; Guimei Jiang; Paul Zappile; Adriana Heguy; Jane A Skok
Source: check_circle
Crossref

MethNet: a robust approach to identify regulatory hubs and their distal targets from cancer data

Nature Communications
2024-07-17 | Journal article
Contributors: Theodore Sakellaropoulos; Catherine Do; Guimei Jiang; Giulia Cova; Peter Meyn; Dacia Dimartino; Sitharam Ramaswami; Adriana Heguy; Aristotelis Tsirigos; Jane A. Skok
Source: check_circle
Crossref

MethNet: a robust approach to identify regulatory hubs and their distal targets in cancer

2023-07-31 | Preprint
Contributors: Jane Skok; Theodore Sakellaropoulos; Catherine Do; Guimei Jiang; Giulia Cova; Peter Meyn; Dacia Dimartino; Sitharam Ramaswami; Adriana Heguy; Aristotelis Tsirigos
Source: check_circle
Crossref

Returning to the lab after a career break

Nature Reviews Molecular Cell Biology
2022-06 | Journal article
Contributors: Jane A. Skok
Source: check_circle
Crossref

The Art of Chromosome Dynamics: An Interview with Jane Skok

Epigenomics
2022-03 | Journal article
Contributors: Jane A Skok
Source: check_circle
Crossref

Cell type-specific prediction of 3D chromatin organization enables high-throughputin silicogenetic screening

2022-03-07 | Preprint
Contributors: Jimin Tan; Nina Shenker-Tauris; Javier Rodriguez-Hernaez; Eric Wang; Theodore Sakellaropoulos; Francesco Boccalatte; Palaniraja Thandapani; Jane Skok; Iannis Aifantis; David Fenyö et al.
Source: check_circle
Crossref

SOX2-phosphorylation toggles a bistable differentiation-switch in squamous cell carcinoma

2021-08-18 | Other
Contributors: Steven Hoang-Phou; Ana Sastre-Perona; Matteo Abbruzzese; Zhe Ying; Jasmin Siegle; Beatriz Aranda Orgilles; Pedro P. Rocha; Iannis Aifantis; Jane Skok; Slobodan Beronja et al.
Source: check_circle
Crossref

Editorial: from Chromatin to Dynamic Loops and Liquid-like Phases: New Views on the Cell Nucleus

Current Opinion in Cell Biology
2021-05 | Journal article
OTHER-ID:

NYU HSL FacBib: 4854792

Source: check_circle
New York University

Editorial: from Chromatin to Dynamic Loops and Liquid-like Phases: New Views on the Cell Nucleus

Current Opinion in Cell Biology
2021-01 | Journal article
Source: check_circle
New York University

Additional file 1 of Defining the relative and combined contribution of CTCF and CTCFL to genomic regulation

figshare
2020 | Other
Contributors: Mayilaadumveettil Nishana; Caryn Ha; Javier Rodriguez-Hernaez; Ali Ranjbaran; Erica Chio; Elphege P. Nora; Sana B. Badri; Andreas Kloetgen; Benoit G. Bruneau; Aristotelis Tsirigos et al.
Source: check_circle
DataCite

Additional file 1 of Defining the relative and combined contribution of CTCF and CTCFL to genomic regulation

figshare
2020 | Other
Contributors: Mayilaadumveettil Nishana; Caryn Ha; Javier Rodriguez-Hernaez; Ali Ranjbaran; Erica Chio; Elphege P. Nora; Sana B. Badri; Andreas Kloetgen; Benoit G. Bruneau; Aristotelis Tsirigos et al.
Source: check_circle
DataCite

Additional file 2 of Defining the relative and combined contribution of CTCF and CTCFL to genomic regulation

figshare
2020 | Dataset
Contributors: Mayilaadumveettil Nishana; Caryn Ha; Javier Rodriguez-Hernaez; Ali Ranjbaran; Erica Chio; Elphege P. Nora; Sana B. Badri; Andreas Kloetgen; Benoit G. Bruneau; Aristotelis Tsirigos et al.
Source: check_circle
DataCite

Additional file 2 of Defining the relative and combined contribution of CTCF and CTCFL to genomic regulation

figshare
2020 | Dataset
Contributors: Mayilaadumveettil Nishana; Caryn Ha; Javier Rodriguez-Hernaez; Ali Ranjbaran; Erica Chio; Elphege P. Nora; Sana B. Badri; Andreas Kloetgen; Benoit G. Bruneau; Aristotelis Tsirigos et al.
Source: check_circle
DataCite

Additional file 3 of Defining the relative and combined contribution of CTCF and CTCFL to genomic regulation

figshare
2020 | Dataset
Contributors: Mayilaadumveettil Nishana; Caryn Ha; Javier Rodriguez-Hernaez; Ali Ranjbaran; Erica Chio; Elphege P. Nora; Sana B. Badri; Andreas Kloetgen; Benoit G. Bruneau; Aristotelis Tsirigos et al.
Source: check_circle
DataCite

Additional file 3 of Defining the relative and combined contribution of CTCF and CTCFL to genomic regulation

figshare
2020 | Dataset
Contributors: Mayilaadumveettil Nishana; Caryn Ha; Javier Rodriguez-Hernaez; Ali Ranjbaran; Erica Chio; Elphege P. Nora; Sana B. Badri; Andreas Kloetgen; Benoit G. Bruneau; Aristotelis Tsirigos et al.
Source: check_circle
DataCite

Additional file 4 of Defining the relative and combined contribution of CTCF and CTCFL to genomic regulation

figshare
2020 | Other
Contributors: Mayilaadumveettil Nishana; Caryn Ha; Javier Rodriguez-Hernaez; Ali Ranjbaran; Erica Chio; Elphege P. Nora; Sana B. Badri; Andreas Kloetgen; Benoit G. Bruneau; Aristotelis Tsirigos et al.
Source: check_circle
DataCite

Additional file 4 of Defining the relative and combined contribution of CTCF and CTCFL to genomic regulation

figshare
2020 | Other
Contributors: Mayilaadumveettil Nishana; Caryn Ha; Javier Rodriguez-Hernaez; Ali Ranjbaran; Erica Chio; Elphege P. Nora; Sana B. Badri; Andreas Kloetgen; Benoit G. Bruneau; Aristotelis Tsirigos et al.
Source: check_circle
DataCite

Additional file 5 of Defining the relative and combined contribution of CTCF and CTCFL to genomic regulation

figshare
2020 | Other
Contributors: Mayilaadumveettil Nishana; Caryn Ha; Javier Rodriguez-Hernaez; Ali Ranjbaran; Erica Chio; Elphege P. Nora; Sana B. Badri; Andreas Kloetgen; Benoit G. Bruneau; Aristotelis Tsirigos et al.
Source: check_circle
DataCite

Additional file 5 of Defining the relative and combined contribution of CTCF and CTCFL to genomic regulation

figshare
2020 | Other
Contributors: Mayilaadumveettil Nishana; Caryn Ha; Javier Rodriguez-Hernaez; Ali Ranjbaran; Erica Chio; Elphege P. Nora; Sana B. Badri; Andreas Kloetgen; Benoit G. Bruneau; Aristotelis Tsirigos et al.
Source: check_circle
DataCite

Defining the relative and combined contribution of CTCF and CTCFL to genomic regulation

figshare
2020 | Other
Contributors: Mayilaadumveettil Nishana; Caryn Ha; Javier Rodriguez-Hernaez; Ali Ranjbaran; Erica Chio; Elphege P. Nora; Sana B. Badri; Andreas Kloetgen; Benoit G. Bruneau; Aristotelis Tsirigos et al.
Source: check_circle
DataCite

Defining the relative and combined contribution of CTCF and CTCFL to genomic regulation

figshare
2020 | Other
Contributors: Mayilaadumveettil Nishana; Caryn Ha; Javier Rodriguez-Hernaez; Ali Ranjbaran; Erica Chio; Elphege P. Nora; Sana B. Badri; Andreas Kloetgen; Benoit G. Bruneau; Aristotelis Tsirigos et al.
Source: check_circle
DataCite

Somatic Focal Copy Number Gains of Noncoding Regions of Receptor Tyrosine Kinase Genes in Treatment-resistant Epilepsy

Journal of Neuropathology & Experimental Neurology
2020-12 | Journal article
PMID:

33274363

Source: check_circle
New York University

Scaffold Association Factor B (safb) is Required for Expression of Prenyltransferases and Ras Membrane Association

Proceedings of the National Academy of Sciences of the United States of America (pnas)
2020-11 | Journal article
PMID:

33257571

Source: check_circle
New York University

The Ig Heavy Chain Protein but Not Its Message Controls Early B Cell Development

Proceedings of the National Academy of Sciences of the United States of America (pnas)
2020-11 | Journal article
PMID:

33229554

Source: check_circle
New York University

Context-dependent Requirement of Euchromatic Histone Methyltransferase Activity During Reprogramming to Pluripotency

Stem Cell Reports
2020-09 | Journal article
PMID:

32976761

Source: check_circle
New York University

A CRISPR Screen Identifies Myc-associated Zinc Finger Protein (MAZ) as an Insulator Functioning at CTCF boundaries inHoxClusters

2020-08-26 | Preprint
Contributors: Havva Ortabozkoyun-Kara; Pin-Yao Huang; Hyunwoo Cho; Varun Narendra; Gary Leroy; Jane A. Skok; Aristotelis Tsirigos; Esteban O. Mazzoni; Danny Reinberg
Source: check_circle
Crossref

CRISPR-Decryptr reveals cis-regulatory elements from noncoding perturbation screens

2020-08-14 | Preprint
Contributors: Anders Rasmussen; Tarmo Äijö; Mariano Ignacio Gabitto; Nicholas Carriero; Neville Sanjana; Jane Skok; Richard Bonneau
Source: check_circle
Crossref

Author Correction: Defining the Relative and Combined Contribution of Ctcf and Ctcfl to Genomic Regulation

Genome Biology
2020-06 | Journal article
PMID:

32487268

Source: check_circle
New York University

Erratum: Author Correction: Defining the Relative and Combined Contribution of Ctcf and Ctcfl to Genomic Regulation (genome Biology (2020) 21 1 (108))

Genome Biology
2020-06 | Journal article
OTHER-ID:

NYU HSL FacBib: 4475522

Source: check_circle
New York University

Erratum: Defining the Relative and Combined Contribution of Ctcf and Ctcfl to Genomic Regulation (genome Biol (2020) 21 (108) Doi: 10.1186/s13059-020-02024-0)

Genome Biology
2020-06 | Journal article
OTHER-ID:

NYU HSL FacBib: 4515942

Source: check_circle
New York University

Defining the Relative and Combined Contribution of Ctcf and Ctcfl to Genomic Regulation

Genome Biology
2020-05 | Journal article
PMID:

32393311

Source: check_circle
New York University

Ctcf and Ctcfl in Cancer

Current Opinion in Genetics & Development
2020-04 | Journal article
PMID:

32334335

Source: check_circle
New York University

Dna Methylation Disruption Reshapes the Hematopoietic Differentiation Landscape

Nature Genetics
2020-03 | Journal article
PMID:

32203468

Source: check_circle
New York University

The Novel Lncrna Blackmamba Controls the Neoplastic Phenotype of Alk<sup>-</sup> Anaplastic Large Cell Lymphoma by Regulating the Dna Helicase Hells

Leukemia
2020-03 | Journal article
PMID:

32123306

Source: check_circle
New York University

Rna Interactions Are Essential for Ctcf-mediated Genome Organization

Molecular Cell
2019-12 | Journal article
OTHER-ID:

NYU HSL FacBib: 4221472

Source: check_circle
New York University

Epimethyltag: Simultaneous Detection of Atac-seq or Chip-seq Signals with Dna Methylation

Genome Biology
2019-11 | Journal article
PMID:

31752933

Source: check_circle
New York University

Low Grade Astrocytoma Mutations Cooperate to Disrupt Sox2 Genomic Architecture and Block Differentiation Via Previously Unidentified Enhancer Elements

Neuro-oncology
2019-11 | Journal article
Source: check_circle
New York University

Nsd2 Overexpression Drives Clustered Chromatin and Transcriptional Changes in a Subset of Insulated Domains

Nature Communications
2019-10 | Journal article
PMID:

31649247

Source: check_circle
New York University

B-1a cells acquire their unique characteristics by bypassing the pre-BCR selection stage

Nature Communications
2019-10-18 | Journal article
Contributors: Jason B. Wong; Susannah L. Hewitt; Lynn M. Heltemes-Harris; Malay Mandal; Kristen Johnson; Klaus Rajewsky; Sergei B. Koralov; Marcus R. Clark; Michael A. Farrar; Jane A. Skok
Source: check_circle
Crossref
grade
Preferred source (of 2)‎

Rna Interactions Are Essential for Ctcf-mediated Genome Organization

Molecular Cell
2019-09 | Journal article
PMID:

31522988

Source: check_circle
New York University

Rag1D600A, a novel catalytically inactive RAG mouse model

2019-07-10 | Other
Contributors: Jason B Wong; Jane A Skok
Source: check_circle
Crossref

Impaired Expression of Rearranged Immunoglobulin Genes and Premature P53 Activation Block B Cell Development in Bmi1 Null Mice

Cell Reports
2019-01 | Journal article
PMID:

30605667

Source: check_circle
New York University

Analysis of 3D genomic interactions identifies candidate host genes that transposable elements potentially regulate

Genome Biology
2018-12 | Journal article
Contributors: Ramya Raviram; Pedro P. Rocha; Vincent M. Luo; Emily Swanzey; Emily R. Miraldi; Edward B. Chuong; Cédric Feschotte; Richard Bonneau; Jane A. Skok
Source: check_circle
Crossref
grade
Preferred source (of 2)‎

Stage-specific Epigenetic Regulation of Cd4 Expression by Coordinated Enhancer Elements During T Cell Development

Nature Communications
2018-09 | Journal article
PMID:

30185805

Source: check_circle
New York University

Capturing the Onset of Prc2-mediated Repressive Domain Formation

Molecular Cell
2018-06 | Journal article
Source: check_circle
New York University

Enhancer Talk

Epigenomics
2018-03 | Journal article
PMID:

29583027

Source: check_circle
New York University

Control of B-1a Cell Development by Instructive Bcr Signaling

Current Opinion in Immunology
2018-02 | Journal article
PMID:

29414528

Source: check_circle
New York University
Items per page:
Page 1 of 3

Peer review (7 reviews for 5 publications/grants)

Review activity for Genome biology. (1)
Review activity for Nature (3)
Review activity for Nature communications (1)
Review activity for Nature immunology. (1)
Review activity for Nature structural & molecular biology. (1)