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Phillip Dumesic

Phillip Dumesic

Harvard University

H-index: 18

North America-United States

Contact Phillip Dumesic

About Phillip Dumesic

Phillip Dumesic, With an exceptional h-index of 18 and a recent h-index of 13 (since 2020), a distinguished researcher at Harvard University, specializes in the field of molecular biology, genetics, biochemistry, gene regulation, metabolism.

His recent articles reflect a diverse array of research interests and contributions to the field:

REPTOR and CREBRF encode key regulators of muscle energy metabolism

Isolation of extracellular fluids reveals novel secreted bioactive proteins from muscle and fat tissues

RBM43 links adipose inflammation and energy expenditure through translational regulation of PGC1α

SnapShot: Regulation and biology of PGC-1α

Antagonistic regulation of Drosophila mitochondrial uncoupling protein UCP4b by cold and BMP signaling

Mitochondrial TNAP controls thermogenesis by hydrolysis of phosphocreatine

Dynamic changes in chromatin accessibility, altered adipogenic gene expression, and total versus de novo fatty acid synthesis in subcutaneous adipose stem cells of normal …

ATP hydrolysis by the SNF2 domain of Dnmt5 is coupled to both specific recognition and modification of hemimethylated DNA

Phillip Dumesic Information

University

Position

Dana-Farber Cancer Institute, Damon Runyon Cancer Research Foundation

Citations(all)

1297

Citations(since 2020)

618

Cited By

884

hIndex(all)

18

hIndex(since 2020)

13

i10Index(all)

20

i10Index(since 2020)

16

Email

University Profile Page

Google Scholar

Phillip Dumesic Skills & Research Interests

molecular biology

genetics

biochemistry

gene regulation

metabolism

Top articles of Phillip Dumesic

REPTOR and CREBRF encode key regulators of muscle energy metabolism

Nature Communications

2023/8/15

Yanhui Hu
Yanhui Hu

H-Index: 5

Weihang Chen
Weihang Chen

H-Index: 1

Ying Liu
Ying Liu

H-Index: 3

Isolation of extracellular fluids reveals novel secreted bioactive proteins from muscle and fat tissues

Cell Metabolism

2023/3/7

Yizhi Sun
Yizhi Sun

H-Index: 3

Andrea Tartaglia
Andrea Tartaglia

H-Index: 3

Haopeng Xiao
Haopeng Xiao

H-Index: 15

RBM43 links adipose inflammation and energy expenditure through translational regulation of PGC1α

bioRxiv

2023/1/6

SnapShot: Regulation and biology of PGC-1α

Cell

2022/4/14

Antagonistic regulation of Drosophila mitochondrial uncoupling protein UCP4b by cold and BMP signaling

bioRxiv

2022/1/28

Nirmalya Chatterjee
Nirmalya Chatterjee

H-Index: 6

Wei Song
Wei Song

H-Index: 12

Mitochondrial TNAP controls thermogenesis by hydrolysis of phosphocreatine

Nature

2021/5/27

Yizhi Sun
Yizhi Sun

H-Index: 3

Christopher L Riley
Christopher L Riley

H-Index: 9

Bo Hu
Bo Hu

H-Index: 5

Lawrence Kazak
Lawrence Kazak

H-Index: 25

Dynamic changes in chromatin accessibility, altered adipogenic gene expression, and total versus de novo fatty acid synthesis in subcutaneous adipose stem cells of normal …

Clinical epigenetics

2020/12

Xiangming Ding
Xiangming Ding

H-Index: 12

Phillip Dumesic
Phillip Dumesic

H-Index: 12

Marco Morselli
Marco Morselli

H-Index: 13

Matteo Pellegrini
Matteo Pellegrini

H-Index: 68

ATP hydrolysis by the SNF2 domain of Dnmt5 is coupled to both specific recognition and modification of hemimethylated DNA

Molecular cell

2020/7/2

Evolutionary persistence of DNA methylation for millions of years after ancient loss of a de novo methyltransferase

Cell

2020/1/23

Harold Pimentel
Harold Pimentel

H-Index: 13

Jonathan K Pritchard
Jonathan K Pritchard

H-Index: 82

See List of Professors in Phillip Dumesic University(Harvard University)

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