Prashanth Ramachandran at Stanford University

University	Stanford University
Position	___
Citations(all)	467
Citations(since 2020)	394
Cited By	187
hIndex(all)	10
hIndex(since 2020)	9
i10Index(all)	10
i10Index(since 2020)	9
Email	Access Email
University Profile Page	Stanford University
Google Scholar	View Google Scholar Profile

Abscisic acid signaling activates distinct VND transcription factors to promote xylem differentiation in Arabidopsis

Current Biology

2021/7/26

Prashanth Ramachandran

H-Index: 6

Charles W Melnyk

H-Index: 22

SEC14-like condensate phase transitions at plasma membranes regulate root growth in Arabidopsis

PLoS biology

2023/9/18

Chen Liu

H-Index: 7

Prashanth Ramachandran

H-Index: 6

Sebastian Barg

H-Index: 26

Peter Dörmann

H-Index: 43

Yvon Jaillais

H-Index: 28

Gabriel Schaaf

H-Index: 18

Synthetic genetic circuits as a means of reprogramming plant roots

Science

2022/8/12

Prashanth Ramachandran

H-Index: 6

Divergence in the ABA gene regulatory network underlies differential growth control

Nature plants

2022/5

Ying Sun

H-Index: 7

Dong-Ha Oh

H-Index: 19

Prashanth Ramachandran

H-Index: 6

Kieu-Nga Tran

H-Index: 3

Guannan Wang

H-Index: 5

Phase transitions of a SEC14-like condensate at Arabidopsis plasma membranes regulate root growth

2022/3/27

Phase Separation of a Nodulin Sec14-like protein Maintains Auxin Efflux Carrier Polarity at Arabidopsis Plasma Membranes

bioRxiv

2022/3/27

Chen Liu

H-Index: 7

Prashanth Ramachandran

H-Index: 6

Sebastian Barg

H-Index: 26

Peter Dörmann

H-Index: 43

Yvon Jaillais

H-Index: 28

Gabriel Schaaf

H-Index: 18

Divergence in a stress-associated gene regulatory network underlies differential growth control in the Brassicaceae family

bioRxiv

2020/11/20

Ying Sun

H-Index: 7

Dong-Ha Oh

H-Index: 19

Prashanth Ramachandran

H-Index: 6

Bipartite influence of abscisic acid on xylem differentiation trajectories is dependent on distinct VND transcription factors in Arabidopsis

bioRxiv

2020/9/28

Prashanth Ramachandran

H-Index: 6

Charles W Melnyk

H-Index: 22

Coping with water limitation: hormones that modify plant root xylem development

2020/5/15

Prashanth Ramachandran

H-Index: 6

Van Nguyen

H-Index: 3

Stelar Performance Under Drought: Regulation of Developmental Robustness and Plasticity of the Arabidopsis Root Xylem

2020

Prashanth Ramachandran

H-Index: 6

Xylem developmental plasticity requires ABA mediated VND activation

2020

Prashanth Ramachandran

H-Index: 6

Van Nguyen

H-Index: 3

Prashanth Ramachandran

Stanford University

About Prashanth Ramachandran

Prashanth Ramachandran Information

Prashanth Ramachandran Skills & Research Interests

Top articles of Prashanth Ramachandran

Abscisic acid signaling activates distinct VND transcription factors to promote xylem differentiation in Arabidopsis

Prashanth Ramachandran

Charles W Melnyk

SEC14-like condensate phase transitions at plasma membranes regulate root growth in Arabidopsis

Chen Liu

Prashanth Ramachandran

Sebastian Barg

Peter Dörmann

Yvon Jaillais

Gabriel Schaaf

Synthetic genetic circuits as a means of reprogramming plant roots

Prashanth Ramachandran

Divergence in the ABA gene regulatory network underlies differential growth control

Ying Sun

Dong-Ha Oh

Prashanth Ramachandran

Kieu-Nga Tran

Guannan Wang

Phase transitions of a SEC14-like condensate at Arabidopsis plasma membranes regulate root growth

Phase Separation of a Nodulin Sec14-like protein Maintains Auxin Efflux Carrier Polarity at Arabidopsis Plasma Membranes

Chen Liu

Prashanth Ramachandran

Sebastian Barg

Peter Dörmann

Yvon Jaillais

Gabriel Schaaf

Divergence in a stress-associated gene regulatory network underlies differential growth control in the Brassicaceae family

Ying Sun

Dong-Ha Oh

Prashanth Ramachandran

Bipartite influence of abscisic acid on xylem differentiation trajectories is dependent on distinct VND transcription factors in Arabidopsis

Prashanth Ramachandran

Charles W Melnyk

Coping with water limitation: hormones that modify plant root xylem development

Prashanth Ramachandran

Van Nguyen

Stelar Performance Under Drought: Regulation of Developmental Robustness and Plasticity of the Arabidopsis Root Xylem

Prashanth Ramachandran

Xylem developmental plasticity requires ABA mediated VND activation

Prashanth Ramachandran

Van Nguyen