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Rohit Upadhyay

Rohit Upadhyay

Tulane University

H-index: 19

North America-United States

About Rohit Upadhyay

Rohit Upadhyay, With an exceptional h-index of 19 and a recent h-index of 10 (since 2020), a distinguished researcher at Tulane University, specializes in the field of Genetics of complex disorders, miRNA biology, Endothelial Dysfunction, Drug Transporters/ Pharmacology, NGS.

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

Splicing factor SRSF1 acts as a novel molecular brake for CD4 T cell activation and controls key molecular pathways in SLE

The Role of The Extracellular Matrix in Tumor Progression and Therapeutic Resistance

Aristolochic acid I induces proximal tubule injury through ROS/HMGB1/mt DNA mediated activation of TLRs

The Promising Role of Microbiome Therapy on Biomarkers of Inflammation and Oxidative Stress in Type 2 Diabetes: A Systematic and Narrative Review

Cell Spinpods: A Simple Inexpensive Device to Determine Suspension Culture and Toxicity Effects on Renal Proximal Tubular Cells

Author Correction: Cell spinpods are a simple inexpensive suspension culture device to deliver fluid shear stress to renal proximal tubular cells

Cell spinpods are a simple inexpensive suspension culture device to deliver fluid shear stress to renal proximal tubular cells

Free light chains injure proximal tubule cells through the STAT1/HMGB1/TLR axis

Rohit Upadhyay Information

University

Position

___

Citations(all)

903

Citations(since 2020)

265

Cited By

748

hIndex(all)

19

hIndex(since 2020)

10

i10Index(all)

23

i10Index(since 2020)

11

Email

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University Profile Page

Tulane University

Google Scholar

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Rohit Upadhyay Skills & Research Interests

Genetics of complex disorders

miRNA biology

Endothelial Dysfunction

Drug Transporters/ Pharmacology

NGS

Top articles of Rohit Upadhyay

Title

Journal

Author(s)

Publication Date

Splicing factor SRSF1 acts as a novel molecular brake for CD4 T cell activation and controls key molecular pathways in SLE

Authorea Preprints

Rhea Bhargava

Michelle Lee

Rohit Upadhyay

Vaishali Moulton

2023/4/27

The Role of The Extracellular Matrix in Tumor Progression and Therapeutic Resistance

Frontiers in Molecular Biosciences

Monika Vishnoi

Rohit Upadhyay

William C Cho

2022/8/31

Aristolochic acid I induces proximal tubule injury through ROS/HMGB1/mt DNA mediated activation of TLRs

J Cell Mol Med

Rohit Upadhyay

Vecihi Batuman

2022/6/28

The Promising Role of Microbiome Therapy on Biomarkers of Inflammation and Oxidative Stress in Type 2 Diabetes: A Systematic and Narrative Review

Pradipta Paul

Ridhima Kaul

Basma Abdellatif

Maryam Arabi

Rohit Upadhyay

...

2022/5/25

Cell Spinpods: A Simple Inexpensive Device to Determine Suspension Culture and Toxicity Effects on Renal Proximal Tubular Cells

Timothy G Hammond

Corey Nislow

Ivan C Christov

Vecihi Batuman

Pranay P Nagrani

...

2021/6/25

Author Correction: Cell spinpods are a simple inexpensive suspension culture device to deliver fluid shear stress to renal proximal tubular cells

Scientific Reports

Timothy G Hammond

Corey Nislow

Ivan C Christov

Vecihi Batuman

Pranay P Nagrani

...

2021/11/24

Cell spinpods are a simple inexpensive suspension culture device to deliver fluid shear stress to renal proximal tubular cells

Scientific Reports

Timothy G Hammond

Corey Nislow

Ivan C Christov

Vecihi Batuman

Pranay P Nagrani

...

2021/10/29

Free light chains injure proximal tubule cells through the STAT1/HMGB1/TLR axis

JCI insight

Rohit Upadhyay

Wei-Zhong Ying

Zannatul Nasrin

Hana Safah

Edgar A Jaimes

...

2020/7/7

Southern Society for Clinical Investigation Nephrology Young Investigators’ Forum

The American Journal of the Medical Sciences

Sarah McCann

2020/7/1

See List of Professors in Rohit Upadhyay University(Tulane University)