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Carlos F. López

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Carlos Federico López Restrepo
López in 2019 at Vanderbilt University
Born1975 (age 48–49)
NationalityColombian-American
Education
  • B.Sc. in Chemistry/Biochemistry, B.L.A. in Liberal Arts 1998
  • Ph.D. in Physical Chemistry 2004
Alma mater
Awards
Scientific career
FieldsSystems biology, Biophysics, Biochemistry, Computational Modeling, Mathematical Modeling, Biological Engineering
Institutions
Thesis Studies of membrane and membrane protein systems using molecular dynamics simulations  (2004)
Doctoral advisorMichael L. Klein
Other academic advisors
  • Jeffrey D. Evanseck
  • Peter J. Rossky
  • Peter K. Sorger

Carlos Federico López Restrepo (born 1975) is a Colombian-American scientist who researches network-driven biological processes using computational tools. Until March 2022, López was an Associate Professor of Biochemistry & Pharmacology & Biomedical Informatics & Mechanical Engineering at Vanderbilt University. He is currently a Principal Scientist and Lead, Multiscale Modeling at Altos Labs.

Early life and education

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López was born in Bogotá, Colombia. He graduated from Colegio San Carlos, a primary and secondary private Catholic school in Bogotá.[1]

López graduated from University of Miami with a B.Sc. in Chemistry and Biochemistry, and a B.L.A. in Liberal Arts in 1998. His early work was focused in Computational Chemistry using quantum mechanics simulations to study Diels-Alder reactions with Professor Jeffrey D. Evanseck.

In 2004, he obtained a Ph.D. in Physical Chemistry under the supervision of Michael L. Klein in the University of Pennsylvania.[2] His work dealt with molecular simulations of membranes, membrane-proteins, and multiscale modeling of complex biophysical systems. His work with Michael L. Klein was highly influential in the growth of Coarse-grained modeling for molecular systems.

He was a postdoctoral fellow in chemistry at the Center for Computational Molecular Sciences of the University of Texas at Austin where he studied water-protein interactions and the hydrophobic effect in proteins with professor Peter J. Rossky.[3]

Lopez then pursued a Research Fellowship in systems biology at the Harvard Medical School.[4] He is also one of the main developers of the PySB modeling framework for systems biology cellular processes.

Career

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López is currently a Principal Scientist and Lead for the Multiscale Modeling Group at Altos Labs where he was recruited after spending ten years at Vanderbilt University. In his current role, he leads the modeling efforts at Altos including molecular, coarse grain, network dynamics, and cell population dynamics modeling. More recently his work has focused on Mechanistic Learning where he aims to combine data- and knowledge-driven models onto a common framework to explore complex cellular processes.

Lopez has made significant contributions to biological engineering through his innovative use of Multiscale modeling methods and Bayesian inference approaches to integrate experimental data with mathematical models. His research has advanced understanding in cellular and molecular mechanisms, emphasizing mechanistic details alongside probabilistic rigor. These approaches have been cited numerous times the study of network-driven biological processes and stochastic behaviors within cellular systems.[1]

López was the lead of a namesake laboratory in Vanderbilt University in the department of biochemistry with the goal of “developing and applying numerical, modeling, and statistical methods to understand cellular processes and their dysregulation.” [5][6]

Under his 2019 National Science Foundation CAREER award López investigated the underpinnings for essential biochemical processes.[7] In 2017, he was named Vanderbilt’s liaison to Oak Ridge National Laboratory.[8]

López has published more than fifty papers (according to Google Scholar) and has done numerous presentations in academic and scientific conferences. His work has been cited in thousands of publications.[9][10][11][12]

In 2021 López was promoted to the rank of Associate Professor at Vanderbilt University. In 2022, López moved to Altos Laboratories to study cellular processes associated with aging.[citation needed]

Software development

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The López lab has contributed to various software tools used in systems biology including:

  • PySB a modeling framework to encode cellular biochemical processes in Python.
  • PyDREAM a Python implementation of the DREAM algorithm for Bayesian parameter inference.
  • MAGINE a modeling framework for multi-omics data integration.
  • PyViPR a visualization tool for dynamic biochemical processes with automated network resolution representation.

Other tools from the Lopez lab can be found at the Lopez lab website on GitHub.

Advocacy

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Lopez has been an advocate of underrepresented individuals in the sciences throughout his scientific career. He received multiple awards for his advocacy work during his tenure at Vanderbilt University, and he served as Chair of the Diversity Equity and Belonging committee in the Department of Biochemistry [2] More recently, Lopez has served as a member of the American Society for Biochemistry and Molecular Biology Maximizing Access Committee from 2019-2024. Lopez has given multiple talks and participated in workshops discussing strategies to navigate careers in industry and academia for underrepresented individuals. He is currently a member of the Diversity Equity and Inclusion committee at Altos Labs.

References

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  1. ^ Colegio San Carlos Yearbook Class of 1993, retrieved 2022-01-22
  2. ^ Lopez, Carlos F (2004). Studies of membrane and membrane protein systems using molecular dynamics simulations (Thesis). OCLC 244974242.[page needed][non-primary source needed]
  3. ^ Lopez, Carlos F.; Darst, Richard K.; Rossky, Peter J. (1 May 2008). "Mechanistic Elements of Protein Cold Denaturation". The Journal of Physical Chemistry B. 112 (19): 5961–5967. doi:10.1021/jp075928t. PMID 18181599.[non-primary source needed]
  4. ^ Lopez, Carlos F.; Fire, Emiko; Keating, Amy; Sorger, Peter K. (February 2009). "Modeling Extrinsic Apoptosis Regulatory Network Pathways Using A Rules-based Framework". Biophysical Journal. 96 (3): 304a. Bibcode:2009BpJ....96R.304L. doi:10.1016/j.bpj.2008.12.1516.[non-primary source needed]
  5. ^ "Lopez lab develops computational tools to further understanding of complex biological systems". Vanderbilt University. January 20, 2022. Retrieved 2022-01-20.
  6. ^ "Dr. Carlos F. Lopez | Using HPC simulations of biological systems to understand and treat cancer". IBM Developer. Archived from the original on 2022-01-20. Retrieved 2022-01-20.
  7. ^ "NSF Award Search: Award # 1942255 - CAREER: Stochastic Biochemical Network Processes in Cellular Commitment to Fate". www.nsf.gov. Retrieved 2022-01-20.
  8. ^ Communications, VUMC News and. "Lopez named Vanderbilt's liaison to Oak Ridge National Laboratory". Vanderbilt University. Retrieved 2022-01-22.
  9. ^ "Search Results | bioRxiv". www.biorxiv.org. Retrieved 2022-01-20.
  10. ^ Search Results for author Lopez CF on PubMed.
  11. ^ "Carlos F Lopez". scholar.google.com. Retrieved 2022-01-20.
  12. ^ "ORCID". orcid.org. Retrieved 2022-01-20.
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