Supplemental Material, FigureS1_Hardikar - Epigenetic and Transcriptome Profiling Identifies a Population of Visceral Adipose-Derived Progenitor Cells with the Potential to Differentiate into an Endocrine Pancreatic Lineage

Switching of mesodermal and endodermal properties in hTERT-modified and expanded fetal human pancreatic progenitor cells

CHENG K
SURANA M
FLEISCHER N
GUPTA S.
FOLLENZI, Antonia

January 2010

INTRODUCTION: The ability to expand organ-specific stem/progenitor cells is critical for translatio...

Genomic and Epigenomic Characterizations of Major Pancreatic Islet Endocrine Cell Types

Mawla, Alex M

January 2021

During pancreatic development, insulin-producing beta cells, glucagon-producing alpha cells, and som...

Genomic and Epigenomic Characterizations of Major Pancreatic Islet Endocrine Cell Types

Mawla, Alex M

January 2021

During pancreatic development, insulin-producing beta cells, glucagon-producing alpha cells, and som...

Supplemental Material, FigureS2_Hardikar - Epigenetic and Transcriptome Profiling Identifies a Population of Visceral Adipose-Derived Progenitor Cells with the Potential to Differentiate into an Endocrine Pancreatic Lineage

Michael D. Williams (2110129)
Mugdha V. Joglekar (5914709)
Sarang N. Satoor (5914712)
Wilson Wong (23655)
Effie Keramidaris (5914715)
Amanda Rixon (5914718)
Philip O’Connell (5914721)
Wayne J. Hawthorne (5914724)
Geraldine M. Mitchell (2269687)
Anandwardhan A. Hardikar (254875)

October 2018

Supplemental Material, FigureS2_Hardikar for Epigenetic and Transcriptome Profiling Identifies a Pop...

Supplemental Material, Figure_S3 - Epigenetic and Transcriptome Profiling Identifies a Population of Visceral Adipose-Derived Progenitor Cells with the Potential to Differentiate into an Endocrine Pancreatic Lineage

Michael D. Williams (2110129)
Mugdha V. Joglekar (5914709)
Sarang N. Satoor (5914712)
Wilson Wong (23655)
Effie Keramidaris (5914715)
Amanda Rixon (5914718)
Philip O’Connell (5914721)
Wayne J. Hawthorne (5914724)
Geraldine M. Mitchell (2269687)
Anandwardhan A. Hardikar (254875)

October 2018

Supplemental Material, Figure_S3 for Epigenetic and Transcriptome Profiling Identifies a Population ...

Supplementary_Table_1_new - Epigenetic and Transcriptome Profiling Identifies a Population of Visceral Adipose-Derived Progenitor Cells with the Potential to Differentiate into an Endocrine Pancreatic Lineage

Michael D. Williams (2110129)
Mugdha V. Joglekar (5914709)
Sarang N. Satoor (5914712)
Wilson Wong (23655)
Effie Keramidaris (5914715)
Amanda Rixon (5914718)
Philip O’Connell (5914721)
Wayne J. Hawthorne (5914724)
Geraldine M. Mitchell (2269687)
Anandwardhan A. Hardikar (254875)

October 2018

Supplementary_Table_1_new for Epigenetic and Transcriptome Profiling Identifies a Population of Visc...

Epigenetic and transcriptome profiling identifies a population of visceral adipose-derived progenitor cells with the potential to differentiate into an endocrine pancreatic lineage

Williams, Michael D.
Joglekar, Mugdha V.
Satoor, Sarang N.
Wong, Wilson
Keramidaris, Effie
Rixon, Amanda
O’Connell, Philip
Hawthorne, Wayne J.
Mitchell, Geraldine M.
Hardikar, Anandwardhan A.

January 2019

Type 1 diabetes (T1D) is characterized by the loss of insulin-producing β-cells in the pancreas. T1D...

Epigenetic and Transcriptome Profiling Identifies a Population of Visceral Adipose-Derived Progenitor Cells with the Potential to Differentiate into an Endocrine Pancreatic Lineage

Williams, MD
Joglekar, M
Satoor, SN
Wong, W
Keramidaris, E
Rixon, A
O'Connell, P
Hawthorne, WJ
Mitchell, GM
Hardikar, AA

January 2019

Type 1 diabetes (T1D) is characterized by the loss of insulin-producing β-cells in the pancreas. T1D...

Epigenetic and transcriptome profiling identifies a population of visceral adipose-derived progenitor cells with potential to differentiate into an endocrine pancreatic lineage

Williams, Michael D.
Joglekar, Mugdha V. (R20239)
Satoor, Sarang N.
Wong, Wilson (R20247)
Keramidaris, Effie
Rixon, Amanda
O’Connell, Philip
Hawthorne, Wayne J.
Mitchell, Geraldine M.
Hardikar, Anandwardhan A. (R20197)

January 2019

Type 1 diabetes (T1D) is characterized by the loss of insulin-producing β-cells in the pancreas. T1D...

Additional file 2: of Single cell transcriptomics suggest that human adipocyte progenitor cells constitute a homogeneous cell population

Juan Acosta (537521)
Simon Joost (4578175)
Kasper Karlsson (3717898)
Anna Ehrlund (179683)
Xidan Li (479706)
Myriam Aouadi (1425784)
Maria Kasper (4578178)
Peter Arner (40530)
Mikael RydĂŠn (4578172)
Jurga Laurencikiene (514264)

November 2017

Genes used for first-level (Supplemental table 1) and second-level (Supplemental table 2) clustering...

Novel Pancreatic Endocrine Maturation Pathways Identified by Genomic Profiling and Causal Reasoning

Alex Gutteridge
J. Michael Rukstalis
Daniel Ziemek
Lin Ji
Rebeca Ramos-zayas
Nancy A. Nardone
Lisa D. Norquay
Martin B. Brenner
Kim Tang
John D. Mcneish
Rebecca K. Rowntree

January 2013

We have used a previously unavailable model of pancreatic development, derived in vitro from human e...

Single-Cell Transcriptome Profiling of Mouse and hESC-Derived Pancreatic Progenitors

Nicole A.J. Krentz
Michelle Y.Y. Lee
Eric E. Xu
Shannon L.J. Sproul
Alexandra Maslova
Shugo Sasaki
Francis C. Lynn

December 2018

Summary: Human embryonic stem cells (hESCs) are a potential unlimited source of insulin-producing β ...

Novel pancreatic endocrine maturation pathways identified by genomic profiling and causal reasoning.

Alex Gutteridge
J Michael Rukstalis
Daniel Ziemek
Mark Tié
Lin Ji
Rebeca Ramos-Zayas
Nancy A Nardone
Lisa D Norquay
Martin B Brenner
Kim Tang
John D McNeish
Rebecca K Rowntree

We have used a previously unavailable model of pancreatic development, derived in vitro from human e...

Switching of mesodermal and endodermal properties in hTERT-modified and expanded fetal human pancreatic progenitor cells

CHENG K
SURANA M
FLEISCHER N
GUPTA S.
FOLLENZI, Antonia

January 2010

INTRODUCTION: The ability to expand organ-specific stem/progenitor cells is critical for translatio...

Pancreatic cell lineage analyses in mice

Herrera, Pedro
Nepote, Virginie
Delacour, Alexandra

June 2018

Considerable knowledge of the ontogeny of the endocrine pancreas has been gained in recent years, ma...

Switching of mesodermal and endodermal properties in hTERT-modified and expanded fetal human pancreatic progenitor cells

CHENG K
SURANA M
FLEISCHER N
GUPTA S.
FOLLENZI, Antonia

January 2010

INTRODUCTION: The ability to expand organ-specific stem/progenitor cells is critical for translatio...

Genomic and Epigenomic Characterizations of Major Pancreatic Islet Endocrine Cell Types

Mawla, Alex M

January 2021

During pancreatic development, insulin-producing beta cells, glucagon-producing alpha cells, and som...

Genomic and Epigenomic Characterizations of Major Pancreatic Islet Endocrine Cell Types

Mawla, Alex M

January 2021

During pancreatic development, insulin-producing beta cells, glucagon-producing alpha cells, and som...

Supplemental Material, FigureS2_Hardikar - Epigenetic and Transcriptome Profiling Identifies a Population of Visceral Adipose-Derived Progenitor Cells with the Potential to Differentiate into an Endocrine Pancreatic Lineage

Michael D. Williams (2110129)
Mugdha V. Joglekar (5914709)
Sarang N. Satoor (5914712)
Wilson Wong (23655)
Effie Keramidaris (5914715)
Amanda Rixon (5914718)
Philip O’Connell (5914721)
Wayne J. Hawthorne (5914724)
Geraldine M. Mitchell (2269687)
Anandwardhan A. Hardikar (254875)

October 2018

Supplemental Material, FigureS2_Hardikar for Epigenetic and Transcriptome Profiling Identifies a Pop...

Supplemental Material, Figure_S3 - Epigenetic and Transcriptome Profiling Identifies a Population of Visceral Adipose-Derived Progenitor Cells with the Potential to Differentiate into an Endocrine Pancreatic Lineage

Michael D. Williams (2110129)
Mugdha V. Joglekar (5914709)
Sarang N. Satoor (5914712)
Wilson Wong (23655)
Effie Keramidaris (5914715)
Amanda Rixon (5914718)
Philip O’Connell (5914721)
Wayne J. Hawthorne (5914724)
Geraldine M. Mitchell (2269687)
Anandwardhan A. Hardikar (254875)

October 2018

Supplemental Material, Figure_S3 for Epigenetic and Transcriptome Profiling Identifies a Population ...

Supplementary_Table_1_new - Epigenetic and Transcriptome Profiling Identifies a Population of Visceral Adipose-Derived Progenitor Cells with the Potential to Differentiate into an Endocrine Pancreatic Lineage

Michael D. Williams (2110129)
Mugdha V. Joglekar (5914709)
Sarang N. Satoor (5914712)
Wilson Wong (23655)
Effie Keramidaris (5914715)
Amanda Rixon (5914718)
Philip O’Connell (5914721)
Wayne J. Hawthorne (5914724)
Geraldine M. Mitchell (2269687)
Anandwardhan A. Hardikar (254875)

October 2018

Supplementary_Table_1_new for Epigenetic and Transcriptome Profiling Identifies a Population of Visc...

Epigenetic and transcriptome profiling identifies a population of visceral adipose-derived progenitor cells with the potential to differentiate into an endocrine pancreatic lineage

Williams, Michael D.
Joglekar, Mugdha V.
Satoor, Sarang N.
Wong, Wilson
Keramidaris, Effie
Rixon, Amanda
O’Connell, Philip
Hawthorne, Wayne J.
Mitchell, Geraldine M.
Hardikar, Anandwardhan A.

January 2019

Type 1 diabetes (T1D) is characterized by the loss of insulin-producing β-cells in the pancreas. T1D...

Epigenetic and Transcriptome Profiling Identifies a Population of Visceral Adipose-Derived Progenitor Cells with the Potential to Differentiate into an Endocrine Pancreatic Lineage

Williams, MD
Joglekar, M
Satoor, SN
Wong, W
Keramidaris, E
Rixon, A
O'Connell, P
Hawthorne, WJ
Mitchell, GM
Hardikar, AA

January 2019

Type 1 diabetes (T1D) is characterized by the loss of insulin-producing β-cells in the pancreas. T1D...

Epigenetic and transcriptome profiling identifies a population of visceral adipose-derived progenitor cells with potential to differentiate into an endocrine pancreatic lineage

Williams, Michael D.
Joglekar, Mugdha V. (R20239)
Satoor, Sarang N.
Wong, Wilson (R20247)
Keramidaris, Effie
Rixon, Amanda
O’Connell, Philip
Hawthorne, Wayne J.
Mitchell, Geraldine M.
Hardikar, Anandwardhan A. (R20197)

January 2019

Type 1 diabetes (T1D) is characterized by the loss of insulin-producing β-cells in the pancreas. T1D...

Additional file 2: of Single cell transcriptomics suggest that human adipocyte progenitor cells constitute a homogeneous cell population

Juan Acosta (537521)
Simon Joost (4578175)
Kasper Karlsson (3717898)
Anna Ehrlund (179683)
Xidan Li (479706)
Myriam Aouadi (1425784)
Maria Kasper (4578178)
Peter Arner (40530)
Mikael RydĂŠn (4578172)
Jurga Laurencikiene (514264)

November 2017

Genes used for first-level (Supplemental table 1) and second-level (Supplemental table 2) clustering...

Novel Pancreatic Endocrine Maturation Pathways Identified by Genomic Profiling and Causal Reasoning

Alex Gutteridge
J. Michael Rukstalis
Daniel Ziemek
Lin Ji
Rebeca Ramos-zayas
Nancy A. Nardone
Lisa D. Norquay
Martin B. Brenner
Kim Tang
John D. Mcneish
Rebecca K. Rowntree

January 2013

We have used a previously unavailable model of pancreatic development, derived in vitro from human e...

Single-Cell Transcriptome Profiling of Mouse and hESC-Derived Pancreatic Progenitors

Nicole A.J. Krentz
Michelle Y.Y. Lee
Eric E. Xu
Shannon L.J. Sproul
Alexandra Maslova
Shugo Sasaki
Francis C. Lynn

December 2018

Summary: Human embryonic stem cells (hESCs) are a potential unlimited source of insulin-producing β ...

Novel pancreatic endocrine maturation pathways identified by genomic profiling and causal reasoning.

Alex Gutteridge
J Michael Rukstalis
Daniel Ziemek
Mark Tié
Lin Ji
Rebeca Ramos-Zayas
Nancy A Nardone
Lisa D Norquay
Martin B Brenner
Kim Tang
John D McNeish
Rebecca K Rowntree

We have used a previously unavailable model of pancreatic development, derived in vitro from human e...

Switching of mesodermal and endodermal properties in hTERT-modified and expanded fetal human pancreatic progenitor cells

CHENG K
SURANA M
FLEISCHER N
GUPTA S.
FOLLENZI, Antonia

January 2010

INTRODUCTION: The ability to expand organ-specific stem/progenitor cells is critical for translatio...

Pancreatic cell lineage analyses in mice

Herrera, Pedro
Nepote, Virginie
Delacour, Alexandra

June 2018

Considerable knowledge of the ontogeny of the endocrine pancreas has been gained in recent years, ma...

Switching of mesodermal and endodermal properties in hTERT-modified and expanded fetal human pancreatic progenitor cells

CHENG K
SURANA M
FLEISCHER N
GUPTA S.
FOLLENZI, Antonia

January 2010

INTRODUCTION: The ability to expand organ-specific stem/progenitor cells is critical for translatio...

Genomic and Epigenomic Characterizations of Major Pancreatic Islet Endocrine Cell Types

Mawla, Alex M

January 2021

During pancreatic development, insulin-producing beta cells, glucagon-producing alpha cells, and som...

Genomic and Epigenomic Characterizations of Major Pancreatic Islet Endocrine Cell Types

Mawla, Alex M

January 2021

During pancreatic development, insulin-producing beta cells, glucagon-producing alpha cells, and som...

Supplemental Material, FigureS1_Hardikar - Epigenetic and Transcriptome Profiling Identifies a Population of Visceral Adipose-Derived Progenitor Cells with the Potential to Differentiate into an Endocrine Pancreatic Lineage

Abstract

Extracted data

Supplemental Material, FigureS1_Hardikar - Epigenetic and Transcriptome Profiling Identifies a Population of Visceral Adipose-Derived Progenitor Cells with the Potential to Differentiate into an Endocrine Pancreatic Lineage

Abstract

Extracted data

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