Nicole M Koropatkin, PhD
Associate Professor of Microbiology and Immunology
[email protected]

Available to mentor

Nicole M Koropatkin, PhD
Associate Professor
  • About
  • Qualifications
  • Center Memberships
  • Research Overview
  • Recent Publications
  • About

    My lab seeks to understand how human gut bacteria recognize and import the carbohydrates that transit the intestinal environment. The glycan landscape of the gut is constantly changing through the variety of foods that we eat. Mucus shed from the epithelial lining contains complex sugars that are also food for these bacteria. The types and abundance of these different carbohydrates shapes the composition of the gut community. In other words, our diet, in part, determines which bacteria we carry in our intestine. This is important because these bacteria produce metabolites, including short chain fatty acids and processed host bile acids, that influence our health and the outcome of various diseases such as diabetes, obesity, colorectal cancer, and inflammatory bowel disease.

    Our work is “bacteriocentric” in that we study the unique physiological features of gut bacteria that allows them to harvest carbohydrate nutrition and therefore thrive in the host. Much of our work is centered on the structure and function of bacterial cell surface proteins that directly recognize, process, and import carbohydrates. A primary technique we use to understand this process is x-ray crystallography, which allows us to visualize the molecular features of this interaction. We also use biophysical techniques such as isothermal titration calorimetry to measure the affinity and energetics of protein-carbohydrate interactions. We can then make predictions about how individual proteins drive glycan uptake and test hypotheses in vivo by deleting or mutating the genes encoding these proteins to determine how bacterial growth is affected. By collaborating with our colleagues on campus, including Julie Biteen (Chemistry, single molecule imaging), Brandon Ruotolo (Chemistry, native mass spectrometry) and Melanie Ohi (LSI, cryoEM), we can comprehensively examine how bacteria cell surface proteins move, interact with substrate, and assemble into functional complexes.

    Qualifications
    • Postdoctoral Training
      Donald Danforth Plant Science Center, St Louis, 2009
    • PhD
      University of Wisconsin, Madison, 2004
    • BS
      Pennsylvania State University, State College, 1998
    Center Memberships
    • Center Member
      Rogel Cancer Center
    Research Overview

    Bacteroides, Carbohydrate-Active Enzymes, Glycoside Hydrolases, Resistant Starch, Lipoproteins, Structural Biology, Protein Biophysics

    Recent Publications See All Publications
    • Journal Article
      Identification and characterization of the lipoprotein N-acyltransferase in Bacteroides.
      Armbruster KM, Jiang J, Sartorio MG, Scott NE, Peterson JM, Sexton JZ, Feldman MF, Koropatkin NM. Proc Natl Acad Sci U S A, 2024 Nov 12; 121 (46): e2410909121 DOI:10.1073/pnas.2410909121
      PMID: 39495918
    • Preprint
      Identification and Characterization of the Lipoprotein N-acyltransferase in Bacteroides.
      Armbruster KM, Jiang J, Sartorio MG, Scott NE, Peterson JM, Sexton JZ, Feldman MF, Koropatkin NM. 2024 Jun 1; DOI:10.1101/2024.05.31.596883
      PMID: 38853980
    • Preprint
      Acarbose Impairs Gut Bacteroides Growth by Targeting Intracellular GH97 Enzymes.
      Brown HA, Morris AL, Pudlo NA, Hopkins AE, Martens EC, Golob JL, Koropatkin NM. 2024 May 23; DOI:10.1101/2024.05.20.595031
      PMID: 38826241
    • Preprint
      A genetic locus in the gut microbe Bacteroides thetaiotaomicron encodes activities consistent with mucin-O-glycoprotein processing and plays a critical role in N-acetylgalactosamine metabolism
      Ndeh DA, Nakjang S, Kwiatkowski KJ, Koropatkin NM, Hirt RP, Bolam DN. bioRxiv, DOI:10.1101/2024.02.01.578401
    • Journal Article
      The Ruminococcus bromii amylosome protein Sas6 binds single and double helical α-glucan structures in starch.
      Photenhauer AL, Villafuerte-Vega RC, Cerqueira FM, Armbruster KM, Mareček F, Chen T, Wawrzak Z, Hopkins JB, Vander Kooi CW, Janeček Š, Ruotolo BT, Koropatkin NM. Nat Struct Mol Biol, 2024 Feb; 31 (2): 255 - 265. DOI:10.1038/s41594-023-01166-6
      PMID: 38177679
    • Journal Article
      Multiple TonB homologs are important for carbohydrate utilization by Bacteroides thetaiotaomicron.
      Pollet RM, Foley MH, Kumar SS, Elmore A, Jabara NT, Venkatesh S, Vasconcelos Pereira G, Martens EC, Koropatkin NM. J Bacteriol, 2023 Nov 21; 205 (11): e0021823 DOI:10.1128/jb.00218-23
      PMID: 37874167
    • Presentation
      Towards understanding how human gut Bacteroides respond to a drug for type 2 diabetes
      Koropatkin N. 2023 Oct 14;
    • Journal Article
      BoGH13ASus from Bacteroides ovatus represents a novel α-amylase used for  Bacteroides starch breakdown in the human gut.
      Brown HA, DeVeaux AL, Juliano BR, Photenhauer AL, Boulinguiez M, Bornschein RE, Wawrzak Z, Ruotolo BT, Terrapon N, Koropatkin NM. Cell Mol Life Sci, 2023 Jul 28; 80 (8): 232 DOI:10.1007/s00018-023-04812-w
      PMID: 37500984
    Featured News & Stories sketched out bacteria in a dish yellow and blue colors of U-M
    Health Lab
    More clues reveal how gut bacteria works
    Research from the University of Michigan uncovers a unique way the bacteria Bacteroides, which make up nearly half of the gut microbiome, synthesize the proteins needed to degrade carbohydrates.
    Bees interacting with other organisms
    Department News
    This Winter, explore microbial symbiosis
    M&I is offering a new course in microbial symbiosis, Microbiology 430/530, Winter 2025
    Nicole Koropatkin, PhD, (left) and Brenda Franklin (right), recipients of M&I 2024 EBS Awards
    Department News
    Announcing M&I 2024 EBS Awards: Congratulations to Nicole Koropatkin, PhD, and Brenda Franklin!
    M&I is proud to announce that Nicole Koropatkin, Ph.D., Associate Professor, and Senior staff specialist Brenda Franklin were honored by the EBS with awards on Wednesday, July 17th.