2026 Jeremy S. Lee: Molecular Biology Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Chemistry	52	13669	12312	370	322	152	8243
Molecular Biology	52	2451	2210	77	69	143	8310

Overview

Jeremy S. Lee is affiliated with the University of Saskatchewan in Canada and specializes in the field of Medicine, with a focus on Neurology and related subfields. Their work encompasses several interdisciplinary areas including Cellular and Molecular Neuroscience, Physiology, Organic Chemistry, and Polymers and Plastics.

Lee's research primarily addresses mechanisms and treatments related to Parkinson's Disease, a major topic within their portfolio. Additional key topics include neurological disorders and treatments, conducting polymers and applications, adenosine and purinergic signaling pathways, neuroscience and neuropharmacology research, and the applications of click chemistry.

Notable recent papers authored by or involving Lee include:

"Adenosine A1 receptor ligands bind to α-synuclein: implications for α-synuclein misfolding and α-synucleinopathy in Parkinson's disease," 2022, published in Translational Neurodegeneration
"Employing in vitro metabolism to guide design of F-labelled PET probes of novel α-synuclein binding bifunctional compounds," 2021, published in Xenobiotica
"An HPLC-UV validated bioanalytical method for measurement of in vitro phase 1 kinetics of α-synuclein binding bifunctional compounds," 2022, published in Xenobiotica

Frequent coauthors in Lee's research include Chukwunonso K. Nwabufo, Omozojie P. Aigbogun, Kevin J. Allen, Madeline N. Owens, and Christopher P. Phenix. These collaborations reflect a consistent team dynamic in Lee's investigative projects.

Their publications have appeared most frequently in the journals Xenobiotica and Translational Neurodegeneration. These venues indicate a focus on pharmacological, biochemical, and neurological aspects of their research interests.

Jeremy S. Lee's research contributions engage with complex biochemical and neurological mechanisms, particularly those related to Parkinson's disease pathology and diagnostics, as evidenced by their focus on α-synuclein binding compounds and metabolic probe design.

Best Publications

Metallic Conduction through Engineered DNA: DNA Nanoelectronic Building Blocks

A. Rakitin;P. Aich;C. Papadopoulos;Yu. Kobzar

534
Citations
Review: ethidium fluorescence assays. Part 1. Physicochemical studies.

A.R. Morgan;J.S. Lee;D.E. Pulleyblank;N.L. Murray

463
Citations
Poly(pyrimidine) poly(purine) synthetic DNAs containing 5-methylcytosine form stable triplexes at neutral pH

J S Lee;M L Woodsworth;L J Latimer;A R Morgan

381
Citations
Transport of α-Helical Peptides through α-Hemolysin and Aerolysin Pores†

Radu Stefureac;Yi-Tao Long;Heinz-Bernhard Kraatz;Peter Howard

322
Citations
M-DNA: A complex between divalent metal ions and DNA which behaves as a molecular wire.

Palok Aich;Shaunivan L. Labiuk;Les W. Tari;Louis J.T. Delbaere

300
Citations
Complexes formed by (pyrimidine)n . (purine)n DNAs on lowering the pH are three-stranded.

Jeremy S. Lee;Douglas A. Johnson;A. Richard Morgan

297
Citations
Structure of Peptides Investigated by Nanopore Analysis

Todd C. Sutherland;Yi-Tao Long;Radu-Ioan Stefureac;Irene Bediako-Amoa

247
Citations
A cooperative conformational change in duplex DNA induced by Zn2+ and other divalent metal ions

J. S. Lee;L. J. P. Latimer;R. S. Reid

229
Citations
Polyamines favor DNA triplex formation at neutral pH.

Ken J. Hampel;Paul Crosson;Jeremy S. Lee

196
Citations
Coralyne binds tightly to both T.A.T- and C.G.C(+)-containing DNA triplexes.

Jeremy S. Lee;Laura J. P. Latimer;Ken J. Hampel

192
Citations
Molecular mechanisms of binding and single-strand scission of DNA by the antitumor antibiotics saframycins A and C

J. William Lown;Alummoottil V. Joshua;Jeremy S. Lee

171
Citations
AC impedance spectroscopy of native DNA and M-DNA.

Yi-Tao Long;Chen-Zhong Li;Heinz-Bernhard Kraatz;Jeremy S. Lee

143
Citations
Electrochemical detection of single-nucleotide mismatches: application of M-DNA.

Yi-Tao Long;Chen-Zhong Li;Todd C. Sutherland;Heinz-Bernhard Kraatz

137
Citations
A monoclonal antibody to triplex DNA binds to eucaryotic chromosomes.

Jeremy S. Lee;Gary D. Burkholder;Laura J.P. Latimer;Brenda L. Haug

132
Citations
Evaluation of mutagenesis for epitope mapping. Structure of an antibody-protein antigen complex.

Lata Prasad;Sadhana Sharma;M. Vandonselaar;J. W. Quail

132
Citations
Triplex-forming DNAs in the human interphase nucleus visualized in situ by polypurine/polypyrimidine DNA probes and antitriplex antibodies.

Mizuki Ohno;Tatsuo Fukagawa;Jeremy S. Lee;Toshimichi Ikemura

121
Citations
Evidence for a triplex DNA conformation at the bcl-2 major breakpoint region of the t(14;18) translocation.

Sathees C. Raghavan;Paul Chastain;Jeremy S. Lee;Balachandra G. Hegde

116
Citations
Triplex DNA in the nucleus: direct binding of triplex-specific antibodies and their effect on transcription, replication and cell growth.

Yehenew M. Agazie;Gary D. Burkholder;Jeremy S. Lee

110
Citations
A Comparison of Electron-Transfer Rates of Ferrocenoyl-Linked DNA

Yi-Tao Long;Chen-Zhong Li;Todd C. Sutherland;M'Hamed Chahma

108
Citations
The stability of polypurine tetraplexes in the presence of mono- and divalent cations

Jeremy S. Lee

108
Citations
Antibodies to DNA

Wayne F. Anderson;Miroslaw Cygler;Ralph P. Braun;Jeremy S. Lee

24
Citations

Frequent Co-Authors

Heinz-Bernhard Kraatz University of Toronto

Yi-Tao Long Nanjing University

Chen-Zhong Li Chinese University of Hong Kong, Shenzhen

Wayne F. Anderson Northwestern University

Neil R. Cashman University of British Columbia

Tim R. Mosmann University of Rochester Medical Center

Thekkumkat Thomas Rutgers, The State University of New Jersey

Miroslaw Cygler University of Saskatchewan

Jan Balzarini KU Leuven

Jimmy Xu Brown University

External Links

Personal website of Jeremy S. Lee

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