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Broder Schmidt

Broder Schmidt

Stanford University

H-index: 10

North America-United States

Contact Broder Schmidt

About Broder Schmidt

Broder Schmidt, With an exceptional h-index of 10 and a recent h-index of 10 (since 2020), a distinguished researcher at Stanford University, specializes in the field of phase separation, intrinsically disordered proteins, neurodegeneration, nuclear pore complexes.

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

Aberrant phase separation is a common killing strategy of positively charged peptides in biology and human disease

Direct ionic stress sensing and mitigation by the transcription factor NFAT5

Oxaliplatin disrupts nucleolar function through biophysical disintegration

TDP-43 represses cryptic exon inclusion in the FTD–ALS gene UNC13A

Intrinsically disordered protein biosensor tracks the physical-chemical effects of osmotic stress on cells

Aberrant Phase Separation of FUS Leads to Lysosome Sequestering and Acidification

TDP-43 α-helical structure tunes liquid–liquid phase separation and function

High-throughput Flow Cytometry Assay to Investigate TDP43 Splicing Function

Broder Schmidt Information

University

Position

Postdoctoral Researcher at

Citations(all)

1975

Citations(since 2020)

1632

Cited By

857

hIndex(all)

10

hIndex(since 2020)

10

i10Index(all)

10

i10Index(since 2020)

10

Email

University Profile Page

Google Scholar

Broder Schmidt Skills & Research Interests

phase separation

intrinsically disordered proteins

neurodegeneration

nuclear pore complexes

Top articles of Broder Schmidt

Aberrant phase separation is a common killing strategy of positively charged peptides in biology and human disease

bioRxiv

2023/3/9

Steven Boeynaems
Steven Boeynaems

H-Index: 13

Axel Ekman
Axel Ekman

H-Index: 7

Kousik Sundararajan
Kousik Sundararajan

H-Index: 5

Keren Lasker
Keren Lasker

H-Index: 21

Anshul Kundaje
Anshul Kundaje

H-Index: 49

Francis Impens
Francis Impens

H-Index: 26

Allie Obermeyer
Allie Obermeyer

H-Index: 14

Direct ionic stress sensing and mitigation by the transcription factor NFAT5

bioRxiv

2023/9/24

Parijat Sarkar
Parijat Sarkar

H-Index: 0

Oxaliplatin disrupts nucleolar function through biophysical disintegration

Cell reports

2022/11/8

Kibeom Hong
Kibeom Hong

H-Index: 3

Peter K Jackson
Peter K Jackson

H-Index: 103

Onn Brandman
Onn Brandman

H-Index: 14

TDP-43 represses cryptic exon inclusion in the FTD–ALS gene UNC13A

Nature

2022/3

Garam Kim
Garam Kim

H-Index: 8

Gemechu Mekonnen
Gemechu Mekonnen

H-Index: 1

James Shorter
James Shorter

H-Index: 49

Intrinsically disordered protein biosensor tracks the physical-chemical effects of osmotic stress on cells

Nature communications

2021/9/14

Tamara Vellosillo
Tamara Vellosillo

H-Index: 7

Feng Yu
Feng Yu

H-Index: 14

David Moses
David Moses

H-Index: 4

Alakananda Das
Alakananda Das

H-Index: 3

Shahar Sukenik
Shahar Sukenik

H-Index: 13

Aberrant Phase Separation of FUS Leads to Lysosome Sequestering and Acidification

Frontiers in Cell and Developmental Biology

2021

Christian Hoffmann
Christian Hoffmann

H-Index: 24

Han Wang
Han Wang

H-Index: 5

TDP-43 α-helical structure tunes liquid–liquid phase separation and function

Proceedings of the National Academy of Sciences

2020/3/17

Jeetain Mittal
Jeetain Mittal

H-Index: 37

High-throughput Flow Cytometry Assay to Investigate TDP43 Splicing Function

Bio-protocol

2020

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