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David Stern

David Stern

Cornell University

H-index: 66

North America-United States

About David Stern

David Stern, With an exceptional h-index of 66 and a recent h-index of 24 (since 2020), a distinguished researcher at Cornell University, specializes in the field of Photosynthesis, chloroplast gene expression, ribonucleases.

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

Transgenic Expression of Rubisco Accumulation Factor2 and Rubisco Subunits Increases Photosynthesis and Growth in Maize

Compositions and methods useful for the regulation of abiotic stress responses in higher plants

Removing systemic barriers to equity, diversity, and inclusion: Report of the 2019 Plant Science Research Network workshop “Inclusivity in the Plant Sciences”

Rubisco production in maize mesophyll cells through ectopic expression of subunits and chaperones

CFM1, a member of the CRM‐domain protein family, functions in chloroplast group II intron splicing in Setaria viridis

Setaria viridis chlorotic and seedling‐lethal mutants define critical functions for chloroplast gene expression

Plant Summit 2019

Transgenic overexpression of rubisco subunits and the assembly factor RAF1 are beneficial to recovery from drought stress in maize

David Stern Information

University

Position

Professor, Boyce Thompson Institute for Plant Research

Citations(all)

15154

Citations(since 2020)

2997

Cited By

16856

hIndex(all)

66

hIndex(since 2020)

24

i10Index(all)

142

i10Index(since 2020)

51

Email

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University Profile Page

Cornell University

Google Scholar

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David Stern Skills & Research Interests

Photosynthesis

chloroplast gene expression

ribonucleases

Top articles of David Stern

Title

Journal

Author(s)

Publication Date

Transgenic Expression of Rubisco Accumulation Factor2 and Rubisco Subunits Increases Photosynthesis and Growth in Maize

Journal of Experimental Botany

Kathryn Eshenour

Amber Hotto

Elena JS Michel

Zhen Guo Oh

David B Stern

2024/5/2

Compositions and methods useful for the regulation of abiotic stress responses in higher plants

2024/1/2

Removing systemic barriers to equity, diversity, and inclusion: Report of the 2019 Plant Science Research Network workshop “Inclusivity in the Plant Sciences”

Plant Direct

Natalie A Henkhaus

Wolfgang Busch

Angela Chen

Adán Colón‐Carmona

Maya Cothran

...

2022/8

Rubisco production in maize mesophyll cells through ectopic expression of subunits and chaperones

Journal of Experimental Botany

Amber M Hotto

Coralie Salesse-Smith

Myat Lin

Florian A Busch

Isabelle Simpson

...

2021/6/22

CFM1, a member of the CRM‐domain protein family, functions in chloroplast group II intron splicing in Setaria viridis

The Plant Journal

Leila Feiz

Yukari Asakura

Linyong Mao

Susan R Strickler

Zhangjun Fei

...

2021/2

Setaria viridis chlorotic and seedling‐lethal mutants define critical functions for chloroplast gene expression

The Plant Journal

Leila Feiz

Susan R Strickler

Joyce van Eck

Linyong Mao

Navid Movahed

...

2020/9/11

Plant Summit 2019

David Stern

2020/2/25

Transgenic overexpression of rubisco subunits and the assembly factor RAF1 are beneficial to recovery from drought stress in maize

Environmental and Experimental Botany

Lior Doron

Lixin Xu

Shimon Rachmilevitch

David B Stern

2020/9/1

Plant science decadal vision 2020–2030: Reimagining the potential of plants for a healthy and sustainable future

Plant direct

Natalie Henkhaus

Madelaine Bartlett

David Gang

Rebecca Grumet

Ingrid Jordon‐Thaden

...

2020/8

Increased Rubisco content in maize mitigates chilling stress and speeds recovery

Plant biotechnology journal

Coralie E Salesse‐Smith

Robert E Sharwood

Florian A Busch

David B Stern

2020/6

Plant ribonuclease J: an essential player in maintaining chloroplast RNA quality control for gene expression

Amber M Hotto

David B Stern

Gadi Schuster

2020/3/5

See List of Professors in David Stern University(Cornell University)