A methylome and transcriptome analysis of normal human scar cells reveals a role for FOXF2 in scar maintenance

A Snapshot of Gene Expression Signatures Generated Using Microarray Datasets Associated With Excessive Scarring

Huang, Chen
Nie, Fangfei
Qin, Zelian
Li, Bolun
Zhao, Xia

January 2013

Objective: The aim of this study was to examine the gene expression signatures of 2 types of excessi...

Identifying the molecular and genetic basis for non-healing wounds, scarless healing and scarring: study of human fibroblasts

Enoch, Stuart
Price, Patricia Elaine
Harding, Keith Gordon
Thomas, David William
Stephens, Philip

May 2004

Aims: In contrast to dermal wounds, oral mucosal wounds heal rapidly with minimal scarring and seldo...

Foxn1 Transcription Factor Regulates Wound Healing of Skin through Promoting Epithelial-Mesenchymal Transition.

Barbara Gawronska-Kozak
Anna Grabowska
Anna Kur-Piotrowska
Marta Kopcewicz

Transcription factors are key molecules that finely tune gene expression in response to injury. We f...

A methylome and transcriptome analysis of normal human scar cells reveals a role for FOXF2 in scar maintenance

Stevenson, AW
Melton, PE
Moses, EK
Wallace, HJ
Wood, FM
Rea, S
Danielsen, PL
Alghamdi, M
Hortin, N
Borowczyk, J
Deng, Z
Manzur, M
Fear, MW

January 2021

Scars are maintained for life and increase in size during periods of growth such as puberty. Epigene...

Identification of differentially methylated CpG sites in fibroblasts from keloid scars

Alghamdi, MA
Wallace, HJ
Melton, PE
Moses, EK
Stevenson, A
Al-Eitan, LN
Rea, S
Duke, JM
Danielsen, PL
Prele, CM
Wood, FM
Fear, MW

January 2020

As a part of an abnormal healing process of dermal injuries and irritation, keloid scars arise on th...

Identification of differentially methylated CpG Sites in fibroblasts from Keloid Scars

Alghamdi, M.A.
Wallace, H.J.
Melton, P.E.
Moses, E.K.
Stevenson, A.
Al-Eitan, L.N.
Rea, S.
Duke, J.M.
Danielsen, P.L.
Prêle, C.M.
Wood, F.M.
Fear, M.W.

January 2020

As a part of an abnormal healing process of dermal injuries and irritation, keloid scars arise on th...

FOXM1 Induces a Global Methylation Signature That Mimics the Cancer Epigenome in Head and Neck Squamous Cell Carcinoma

Muy-Teck Teh (155335)
Emilios Gemenetzidis (176601)
Deeviyaben Patel (176603)
Rameez Tariq (176604)
Ayesha Nadir (176609)
Adiam W. Bahta (176614)
Ahmad Waseem (155362)
Iain L. Hutchison (155346)

March 2012

<div>The oncogene FOXM1 has been implicated in all major types of human cancer. We recently showe...

Transcription factor binding site analysis identifies FOXO transcription factors as regulators of the cutaneous wound healing process.

Roupé, Karl Markus
Veerla, Srinivas
Olson, Joshua
Stone, Erica L
Sørensen, Ole E
Hedrick, Stephen M
Nizet, Victor

January 2014

The search for significantly overrepresented and co-occurring transcription factor binding sites in ...

Transcription Factor Binding Site Analysis Identifies FOXO Transcription Factors as Regulators of the Cutaneous Wound Healing Process.

Roupé, Karl Markus
Veerla, Srinivas
Olson, Joshua
Stone, Erica L
Sørensen, Ole E
Hedrick, Stephen M
Nizet, Victor

January 2014

The search for significantly overrepresented and co-occurring transcription factor binding sites in ...

Transcription factor binding site analysis identifies FOXO transcription factors as regulators of the cutaneous wound healing process. PLoS One 2014

Karl Markus Roupé
Srinivas Veerla
Joshua Olson
Erica L. Stone
Ole E. Sørensen
Stephen M. Hedrick
Victor Nizet

August 2016

The search for significantly overrepresented and co-occurring transcription factor binding sites in ...

Suppressed inflammatory gene expression during human hypertrophic scar compared to normotrophic scar formation

van den Broek, Lenie J.
van der Veer, Willem M.
de Jong, Etty H.
Gibbs, Susan
Niessen, Frank B.

August 2015

Hypertrophic scar formation is a result of adverse cutaneous wound healing. The pathogenesis of hype...

Gene expression in fetal murine keratinocytes and fibroblasts

January 2014

Background: Early fetuses heal wounds without the formation of a scar. Many studies have attempted t...

The m6A RNA Modification Modulates Gene Expression and Fibrosis-Related Pathways in Hypertrophic Scar

Si-Yu Liu
Jun-Jie Wu
Zhong-hua Chen
Ming-Li Zou
Ying-ying Teng
Kai-Wen Zhang
Yue-Yue Li
Dang-yang Guo
Feng-Lai Yuan
Feng-Lai Yuan
Feng-Lai Yuan

November 2021

Purpose: To systematically analyze the overall m6A modification pattern in hyperplastic scars (HS).M...

Foxn1 in Skin Development, Homeostasis and Wound Healing

Joanna Bukowska

July 2018

Intensive research effort has focused on cellular and molecular mechanisms that regulate skin biolog...

Upregulation of FOXM1 (isoform B) induces a global shift in methylation pattern that mimics the cancer epigenome.

Muy-Teck Teh (155335)
Emilios Gemenetzidis (176601)
Deeviyaben Patel (176603)
Rameez Tariq (176604)
Ayesha Nadir (176609)
Adiam W. Bahta (176614)
Ahmad Waseem (155362)
Iain L. Hutchison (155346)

March 2012

(A) Genome-wide promoter microarray analysis of primary normal oral human keratinocytes ex...

A Snapshot of Gene Expression Signatures Generated Using Microarray Datasets Associated With Excessive Scarring

Huang, Chen
Nie, Fangfei
Qin, Zelian
Li, Bolun
Zhao, Xia

January 2013

Objective: The aim of this study was to examine the gene expression signatures of 2 types of excessi...

Identifying the molecular and genetic basis for non-healing wounds, scarless healing and scarring: study of human fibroblasts

Enoch, Stuart
Price, Patricia Elaine
Harding, Keith Gordon
Thomas, David William
Stephens, Philip

May 2004

Aims: In contrast to dermal wounds, oral mucosal wounds heal rapidly with minimal scarring and seldo...

Foxn1 Transcription Factor Regulates Wound Healing of Skin through Promoting Epithelial-Mesenchymal Transition.

Barbara Gawronska-Kozak
Anna Grabowska
Anna Kur-Piotrowska
Marta Kopcewicz

Transcription factors are key molecules that finely tune gene expression in response to injury. We f...

A methylome and transcriptome analysis of normal human scar cells reveals a role for FOXF2 in scar maintenance

Stevenson, AW
Melton, PE
Moses, EK
Wallace, HJ
Wood, FM
Rea, S
Danielsen, PL
Alghamdi, M
Hortin, N
Borowczyk, J
Deng, Z
Manzur, M
Fear, MW

January 2021

Scars are maintained for life and increase in size during periods of growth such as puberty. Epigene...

Identification of differentially methylated CpG sites in fibroblasts from keloid scars

Alghamdi, MA
Wallace, HJ
Melton, PE
Moses, EK
Stevenson, A
Al-Eitan, LN
Rea, S
Duke, JM
Danielsen, PL
Prele, CM
Wood, FM
Fear, MW

January 2020

As a part of an abnormal healing process of dermal injuries and irritation, keloid scars arise on th...

Identification of differentially methylated CpG Sites in fibroblasts from Keloid Scars

Alghamdi, M.A.
Wallace, H.J.
Melton, P.E.
Moses, E.K.
Stevenson, A.
Al-Eitan, L.N.
Rea, S.
Duke, J.M.
Danielsen, P.L.
Prêle, C.M.
Wood, F.M.
Fear, M.W.

January 2020

As a part of an abnormal healing process of dermal injuries and irritation, keloid scars arise on th...

FOXM1 Induces a Global Methylation Signature That Mimics the Cancer Epigenome in Head and Neck Squamous Cell Carcinoma

Muy-Teck Teh (155335)
Emilios Gemenetzidis (176601)
Deeviyaben Patel (176603)
Rameez Tariq (176604)
Ayesha Nadir (176609)
Adiam W. Bahta (176614)
Ahmad Waseem (155362)
Iain L. Hutchison (155346)

March 2012

<div>The oncogene FOXM1 has been implicated in all major types of human cancer. We recently showe...

Transcription factor binding site analysis identifies FOXO transcription factors as regulators of the cutaneous wound healing process.

Roupé, Karl Markus
Veerla, Srinivas
Olson, Joshua
Stone, Erica L
Sørensen, Ole E
Hedrick, Stephen M
Nizet, Victor

January 2014

The search for significantly overrepresented and co-occurring transcription factor binding sites in ...

Transcription Factor Binding Site Analysis Identifies FOXO Transcription Factors as Regulators of the Cutaneous Wound Healing Process.

Roupé, Karl Markus
Veerla, Srinivas
Olson, Joshua
Stone, Erica L
Sørensen, Ole E
Hedrick, Stephen M
Nizet, Victor

January 2014

The search for significantly overrepresented and co-occurring transcription factor binding sites in ...

Transcription factor binding site analysis identifies FOXO transcription factors as regulators of the cutaneous wound healing process. PLoS One 2014

Karl Markus Roupé
Srinivas Veerla
Joshua Olson
Erica L. Stone
Ole E. Sørensen
Stephen M. Hedrick
Victor Nizet

August 2016

The search for significantly overrepresented and co-occurring transcription factor binding sites in ...

Suppressed inflammatory gene expression during human hypertrophic scar compared to normotrophic scar formation

van den Broek, Lenie J.
van der Veer, Willem M.
de Jong, Etty H.
Gibbs, Susan
Niessen, Frank B.

August 2015

Hypertrophic scar formation is a result of adverse cutaneous wound healing. The pathogenesis of hype...

Gene expression in fetal murine keratinocytes and fibroblasts

January 2014

Background: Early fetuses heal wounds without the formation of a scar. Many studies have attempted t...

The m6A RNA Modification Modulates Gene Expression and Fibrosis-Related Pathways in Hypertrophic Scar

Si-Yu Liu
Jun-Jie Wu
Zhong-hua Chen
Ming-Li Zou
Ying-ying Teng
Kai-Wen Zhang
Yue-Yue Li
Dang-yang Guo
Feng-Lai Yuan
Feng-Lai Yuan
Feng-Lai Yuan

November 2021

Purpose: To systematically analyze the overall m6A modification pattern in hyperplastic scars (HS).M...

Foxn1 in Skin Development, Homeostasis and Wound Healing

Joanna Bukowska

July 2018

Intensive research effort has focused on cellular and molecular mechanisms that regulate skin biolog...

Upregulation of FOXM1 (isoform B) induces a global shift in methylation pattern that mimics the cancer epigenome.

Muy-Teck Teh (155335)
Emilios Gemenetzidis (176601)
Deeviyaben Patel (176603)
Rameez Tariq (176604)
Ayesha Nadir (176609)
Adiam W. Bahta (176614)
Ahmad Waseem (155362)
Iain L. Hutchison (155346)

March 2012

(A) Genome-wide promoter microarray analysis of primary normal oral human keratinocytes ex...

A Snapshot of Gene Expression Signatures Generated Using Microarray Datasets Associated With Excessive Scarring

Huang, Chen
Nie, Fangfei
Qin, Zelian
Li, Bolun
Zhao, Xia

January 2013

Objective: The aim of this study was to examine the gene expression signatures of 2 types of excessi...

Identifying the molecular and genetic basis for non-healing wounds, scarless healing and scarring: study of human fibroblasts

Enoch, Stuart
Price, Patricia Elaine
Harding, Keith Gordon
Thomas, David William
Stephens, Philip

May 2004

Aims: In contrast to dermal wounds, oral mucosal wounds heal rapidly with minimal scarring and seldo...

Foxn1 Transcription Factor Regulates Wound Healing of Skin through Promoting Epithelial-Mesenchymal Transition.

Barbara Gawronska-Kozak
Anna Grabowska
Anna Kur-Piotrowska
Marta Kopcewicz

Transcription factors are key molecules that finely tune gene expression in response to injury. We f...

A methylome and transcriptome analysis of normal human scar cells reveals a role for FOXF2 in scar maintenance

Abstract

Extracted data

A methylome and transcriptome analysis of normal human scar cells reveals a role for FOXF2 in scar maintenance

Abstract

Extracted data

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