Svetlana Soboleva | Molecular Biology | Best Researcher Award

Published on by Life Science

Dr. Svetlana Soboleva | Molecular Biology | Best Researcher Award

Novosibirsk State University | Russia

Dr. Svetlana Soboleva, a Research Scientist at the Institute of Chemical Biology and Fundamental Medicine, Russian Academy of Sciences, has made significant contributions to the study of protein-nucleic interactions and enzymology. Her research focuses on the structural and functional characteristics of human milk lactoferrin, its complexes with other milk proteins, and the formation of highly stable multiprotein complexes from human milk and placenta. With a total of 25 published journal papers in SCI and Scopus-indexed publications and 9 citations, she has demonstrated consistent scholarly output in biochemical and molecular biology research. Her h-index, as reflected in her Scopus profile, highlights the impact and recognition of her scientific work within the global research community. She has completed three research projects with one ongoing, showing a sustained commitment to advancing enzymology and protein research. Additionally, she has contributed to academic literature through a book chapter and participated in international collaborations such as the U.S. Civilian Research & Development Foundation  Postdoctoral Fellowship Program. Her research excellence and international engagement underline her position as a deserving candidate for recognition under the Best Researcher Award category.

Profiles: Scopus | Orcid | Research Gate

Featured Publications

Soboleva, S. E., Maltseva, N. A., Kostrikina, I. A., Dmitrenok, P. S., & Nevinsky, G. A. Metal dependent glycosidases of sea cucumber Eupentacta fraudatrix and their properties.

Tupitsyna, A. V., Grigorieva, A. E., Soboleva, S. E., Maltseva, N. A., Sedykh, S. E., Poletaeva, J., Dmitrenok, P. S., Ryabchikova, E. I., & Nevinsky, G. A.  Isolation of extracellular vesicles of Holothuria (sea cucumber Eupentacta fraudatrix). International Journal of Molecular Sciences, 24(16), 12907.

Zaksas, N. P., Timofeeva, A. M., Dmitrenok, P. S., Soboleva, S. E., & Nevinsky, G. A. Comparison of the content of several elements in seawater, sea cucumber Eupentacta fraudatrix and its high-molecular-mass multiprotein complex. Molecules, 27(6), 1958.

Timofeeva, A. M., Kostrikina, I. A., Dmitrenok, P. S., Soboleva, S. E., & Nevinsky, G. A. Protease and DNase activities of a very stable high-molecular-mass multiprotein complex from sea cucumber Eupentacta fraudatrix. International Journal of Molecular Sciences, 23(12), 6677.

Timofeeva, A. M., Kostrikina, I. A., Dmitrenok, P. S., Soboleva, S. E., & Nevinsky, G. A.  Very stable two mega dalton high-molecular-mass multiprotein complex from sea cucumber Eupentacta fraudatrix.

Andrea Smidler | Gene Editing | Best Researcher Award

Published on by Life Science

Dr. Andrea Smidler | Gene Editing | Best Researcher Award

University of California San Diego | United States

Dr. Andrea L. Smidler is an accomplished molecular entomologist and genetic engineer whose research focuses on innovative CRISPR-based tools for vector control, particularly in Anopheles gambiae, the primary malaria vector. According to her Scopus profile (Author ID: 36626227000), she has published 18 scientific documents, achieving an impressive h-index of 14 and accumulating over 2008 citations, reflecting her growing influence in genetic biocontrol research. Her recent high-impact works include “Engineering gene drive docking sites in a haplolethal locus in Anopheles gambiae” (Scientific Reports, 2025), “CRISPR technologies for the control and study of malaria-transmitting Anopheline mosquitoes” (Parasites and Vectors, 2025), and “Eliminating malaria vectors with precision guided sterile males” (PNAS, 2024). Through collaborations with leading scientists such as Omar Akbari, George Church, and Flaminia Catteruccia, Dr. Smidler has advanced CRISPR-mediated gene drive and sterilization systems that aim to eradicate malaria at its source. Her consistent publication record across top-tier journals—including Science, PNAS, and Cell—and her citation metrics underscore her pioneering contributions to synthetic biology, public health genetics, and entomological engineering. Dr. Smidler continues to be a key innovator in developing genetic solutions for vector-borne disease elimination.

Featured Publications

Smidler, A., Abernathy, D., Marrogi, E., Mameli, E., Akbari, O., Church, G., Esvelt, K., & Catteruccia, F. (2025, October 8). Engineering gene drive docking sites in a haplolethal locus in Anopheles gambiae. Scientific Reports.

Smidler, A., & Akbari, O. (2025, July 3). CRISPR technologies for the control and study of malaria-transmitting Anopheline mosquitoes. Parasites and Vectors.

Gendron, W. A. C., Raban, R., Mondal, A., Sánchez, C. H. M., Smidler, A., Zilberman, D., Ilboudo, P. G., D’Alessandro, U., Marshall, J. M., & Akbari, O. S. (2025, July 18). Evaluating the cost of malaria elimination by Anopheles gambiae precision guided SIT in the Upper River region, The Gambia. PLOS Global Public Health.

Smidler, A., Apte, R., Pai, J., Chow, M., Chen, S., Antoshechkin, I., & Akbari, O. (2024, June 25). Eliminating malaria vectors with precision guided sterile males. Proceedings of the National Academy of Sciences (PNAS).

Smidler, A., Marrogi, E., Kauffman, J., Paton, D., Westervelt, K., Church, G., Esvelt, K., Shaw, W., & Catteruccia, F. (2024, February 19). CRISPR-mediated germline knockouts for genetic sterilization of male Anopheles gambiae. Scientific Reports.