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Michael F. Thomashow

Michael F. Thomashow

Michigan State University

H-index: 81

North America-United States

About Michael F. Thomashow

Michael F. Thomashow, With an exceptional h-index of 81 and a recent h-index of 42 (since 2020), a distinguished researcher at Michigan State University, specializes in the field of Molecular Responses to Plant Stress, Regulation of Gene Expression in Response to Low Temperature, Freezing Tolerance, Regulatio.

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

Temperature modulation of CAMTA3 gene induction activity is mediated through the DNA binding domain

Cold-induced CBF–PIF3 interaction enhances freezing tolerance by stabilizing the phyB thermosensor in Arabidopsis

SCREAMing twist on the role of ICE1 in freezing tolerance

Arabidopsis CAMTA transcription factors regulate pipecolic acid biosynthesis and priming of immunity genes.

Genetic and physiological mechanisms of freezing tolerance in locally adapted populations of a winter annual

Michael F. Thomashow Information

University

Position

University Distinguished Professor MSU Foundation Professor

Citations(all)

41450

Citations(since 2020)

9039

Cited By

36437

hIndex(all)

81

hIndex(since 2020)

42

i10Index(all)

129

i10Index(since 2020)

89

Email

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University Profile Page

Michigan State University

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Michael F. Thomashow Skills & Research Interests

Molecular Responses to Plant Stress

Regulation of Gene Expression in Response to Low Temperature

Freezing Tolerance

Regulatio

Top articles of Michael F. Thomashow

Title

Journal

Author(s)

Publication Date

Temperature modulation of CAMTA3 gene induction activity is mediated through the DNA binding domain

The Plant Journal

Lumen Chao

Yongsig Kim

Sarah J Gilmour

Michael F Thomashow

2022/10

Cold-induced CBF–PIF3 interaction enhances freezing tolerance by stabilizing the phyB thermosensor in Arabidopsis

Molecular plant

Bochen Jiang

Yiting Shi

Yue Peng

Yuxin Jia

Yan Yan

...

2020/6/1

SCREAMing twist on the role of ICE1 in freezing tolerance

Michael F Thomashow

Keiko U Torii

2020/4/1

Arabidopsis CAMTA transcription factors regulate pipecolic acid biosynthesis and priming of immunity genes.

Kim YongSig Kim YongSig

SJ Gilmour

Chao LuMen Chao LuMen

Park SunChung Park SunChung

MF Thomashow

2020/2/28

Genetic and physiological mechanisms of freezing tolerance in locally adapted populations of a winter annual

American Journal of Botany

Brian J Sanderson

Sunchung Park

M Inam Jameel

Joshua C Kraft

Michael F Thomashow

...

2020/2

See List of Professors in Michael F. Thomashow University(Michigan State University)