Mark Sutton PhD
Mark Sutton
PhD
Professor
Jacobs School of Medicine & Biomedical Sciences
Specialty/Research Focus
DNA Replication, Recombination and Repair; Gene Expression; Genome Integrity; Microbiology; Molecular and Cellular Biology; Protein Function and Structure; Signal Transduction
Professional Summary:
We are interested in developing an integrated mechanistic view of how organisms coordinate the actions of their DNA replication machinery with those of other cellular factors involved in DNA repair and damage tolerance. Failure to properly coordinate these functions leads to mutations, genome instability, and in extreme cases, cell death. We utilize a combination of biochemical, biophysical, and genetic approaches to investigate the molecular mechanisms of DNA replication, DNA repair, and error-prone DNA damage tolerance functions in Escherichia coli. The primary mechanism for damage tolerance involves direct bypass of damaged bases in the DNA. This process is inherently error-prone, and is the basis for most mutations. Current efforts are focused on understanding the mechanisms by which the actions of high fidelity and error-prone lesion bypass DNA polymerases are coordinated with each other, as well as other proteins involved in DNA metabolism. Our goal in this work is to develop methods that enable us to control the fidelity of DNA repair for therapeutic gain.
We are also interested in understanding the mechanisms that contribute to DNA mutagenesis in the opportunistic human pathogen, P. aeruginosa. P. aeruginosa is a particular problem for individuals afflicted with cystic fibrosis. Persistent colonization of cystic fibrosis airways with P. aeruginosa serves as a major source of morbidity and mortality for these patients. The ability of P. aeruginosa to persist in the airways relies in part on its ability to adapt to the continuously changing environment within the diseased airways. We are particularly interested in determining the contribution of mutagenesis and DNA repair to adaptive mutations that contribute to clonal expansion and pathoadaptation of P. aeruginosa during colonization of cystic fibrosis airways.
Education and Training:
- PhD, Biochemistry, Michigan State University (1996)
- BS, Biochemistry, University of Massachusetts, Amherst (1989)
Employment:
- Professor, Biochemistry, University at Buffalo, SUNY Jacobs School of Medicine & Biomedical Sciences (2014-present)
- Associate Professor, Biochemistry, University at Buffalo, SUNY Jacobs School of Medicine & Biomedical Sciences (2007–2014)
- Assistant Professor, Biochemistry, University at Buffalo, SUNY Jacobs School of Medicine & Biomedical Sciences (2001–2007)
- Postdoctoral Fellow, Massachusetts Institute of Technology (1997–2001)
- Postdoctoral Associate, Michigan State University (1996–1997)
Research Expertise:
- Mechanisms of DNA replication, DNA repair & mutagenesis
Research Centers:
- Witebsky Center for Microbial Pathogenesis and Immunology
UB 2020 Strategic Strengths:
- Molecular Recognition in Biological Systems and Bioinformatics
Grants and Sponsored Research:
- May 2022–April 2027
Novel Combination Therapies to Combat Hypermutable Carbapenem-Resistant P. aeruginosa
NIH, NIAID
Role: Co-Principal Investigator
$3,850,992 - February 2019–November 2024
Coordination of High Fidelity Replication with Mutagenic Translesion Synthesis
NIH/GMS
Role: Principal Investigator
$1,414,219 - February 2020–January 2023
Purification and Initial Biochemical Analysis of the P. aeruginosa ImuABC Error-Prone DNA Polymerase
NIH, NIAID
Role: Principal Investigator
$155,335 - June 2019–May 2021
The SOS response as a generator of antibiotic resistance and role of zinc as SOS inhibitor
NIH, NIAID
Role: Co-Investigator
$435,055 - December 2019–November 2020
Administrative Supplement to: Coordination of High Fidelity Replication with Mutagenic Translesion Synthesis
Role: Principal Investigator
$75,024 - July 2018–June 2020
GEM Big Idea Grant
VPR (GEM)
Role: Co-Principal Investigator
$60,000
Patents:
- Provisional patent (63/420.875) submitted jointly by CSU & SUNY Buffalo (2023)
Journal Articles:
- Medina-Rivera M, Phelps S, Sridharan M, Becker J, Lamb NA, Kumar C, Sutton MD, Bielinsky A, Balakrishnan L, Surtees JA. (2023) Elevated MSH2 MSH3 expression interferes with DNA metabolism in vivo. Nucleic acids research (Dec), 51(22): 12185-12206. doi:10.1093/nar/gkad934
- Scotland MK, Homiski C, Sutton MD. (2022) During Translesion Synthesis, Escherichia coli DinB89 (T120P) Alters Interactions of DinB (Pol IV) with Pol III Subunit Assemblies and SSB, but Not with the ß Clamp. Journal of bacteriology (Mar)e0061121.
- Babu VMP, Homiski C, Scotland MK, Chodavarapu S, Kaguni JM, Sutton MD. (2021) Elevated levels of the E. coli nrdAB-encoded ribonucleotide reductase counteract the toxicity caused by an increased abundance of the ß clamp. Journal of bacteriology (Sep)JB0030421.
- Homiski C, Scotland MK, Babu VMP, Chodavarapu S, Maul RW, Kaguni JM, Sutton MD. (2021) The mutant ßE202K sliding clamp protein impairs DNA polymerase III replication activity. Journal of bacteriology (Sep)JB0030321.
- Crane JK, Alvarado CL, Sutton MD. (2021) Role of the SOS Response in the Generation of Antibiotic Resistance In Vivo. Antimicrobial agents and chemotherapy (Jun), 65(7): e0001321.
- Almawi AW, Scotland MK, Randall JR, Liu L, Martin HK, Sacre L, Shen Y, Pillon MC, Simmons LA, Sutton MD, Guarné A. (2019) Binding of the regulatory domain of MutL to the sliding ß-clamp is species specific. Nucleic Acids Res (Mar).
- Crane JK Muhammad B. Cheema Michael A. Olyer Sutton MD. (2018) Zinc Blockade of SOS Response Inhibits Horizontal Transfer of Antibiotic Resistance Genes in Enteric Bacteria. Frontiers in Cellular and Infection Microbiology (Nov), 8(410): 1-12.
- Bunnell BE, Escobar JF, Bair KL, Sutton MD, Crane JK. (2017) Zinc blocks SOS-induced antibiotic resistance via inhibition of RecA in Escherichia coli. PLoS One (May), 12(5): 0178303-0178303.
- Kim JS, Nanfara MT, Chodavarapu S, Jin KS, Babu VM, Ghazy MA, Chung S, Kaguni JM, Sutton MD, Cho Y. (2017) Dynamic assembly of Hda and the sliding clamp in the regulation of replication licensing. Nucleic Acids Res (Feb).
- Babu VM, Itsko M, Baxter JC, Schaaper RM, Sutton MD. (2017) Insufficient levels of the nrdAB-encoded ribonucleotide reductase underlie the severe growth defect of the ∆hda E. coli strain. Mol Microbiol (Jan).
- Yuan Q, Dohrmann PR, Sutton MD, McHenry CS. (2016) DNA Polymerase III, but not Polymerase IV, Must be Bound to t-Containing DnaX Complex to Enable Exchange into Replication Forks. J Biol Chem (Apr).
- Ly NS, Bulman ZP, Bulitta JB, Baron C, Rao GG, Holden PN, Li J, Sutton MD, Tsuji BT. (2016) Optimization of Polymyxin B in Combination with Doripenem to Combat Mutator Pseudomonas aeruginosa. Antimicrob Agents Chemother (Feb).
- Nanfara MT, Babu VM, Ghazy MA, Sutton MD. (2016) Identification of ß Clamp-DNA Interaction Regions That Impair the Ability of E. coli to Tolerate Specific Classes of DNA Damage. PLoS One (Jan), 11(9): 0163643-0163643.
- Sutton MD. (2015) How MutS finds a needle in a haystack. Proc Natl Acad Sci U S A (Dec).
- Kath JE, Chang S, Scotland MK, Wilbertz JH, Jergic S, Dixon NE, Sutton MD, Loparo JJ. (2015) Exchange between Escherichia coli polymerases II and III on a processivity clamp. Nucleic Acids Res (Dec).
- Scotland MK, Heltzel JM, Kath JE, Choi JS, Berdis AJ, Loparo JJ, Sutton MD. (2015) A Genetic Selection for dinB Mutants Reveals an Interaction between DNA Polymerase IV and the Replicative Polymerase That Is Required for Translesion Synthesis. PLoS Genet (Sep), 11(9): 1005507-1005507.
- Pillon MC, Babu VM, Randall JR, Cai J, Simmons LA, Sutton MD, Guarné A. (2015) The sliding clamp tethers the endonuclease domain of MutL to DNA. Nucleic Acids Res (Sep).
- Bulman ZP, Sutton MD, Ly NS, Bulitta JB, Holden PN, Nation RL, Li J, Tsuji BT. (2015) Emergence of polymyxin B resistance influences pathogenicity in Pseudomonas aeruginosa mutators. Antimicrob Agents Chemother (Jul), 59(7): 4343-4346.
- Babu VM, Sutton MD. (2014) A dnaN Plasmid Shuffle Strain for Rapid In Vivo Analysis of Mutant Escherichia coli ß Clamps Provides Insight Into the Role of Clamp in umuDC-Mediated Cold Sensitivity. PLoS One (Jun), 9(6): 98791-98791.
- Kath JE, Jergic S, Heltzel JM, Jacob DT, Dixon NE, Sutton MD, Walker GC, Loparo JJ. (2014) Polymerase exchange on single DNA molecules reveals processivity clamp control of translesion synthesis. Proc Natl Acad Sci U S A (May).
- Canfield GS, Schwingel JM, Foley MH, Vore KL, Boonanantanasarn K, Gill AL, Sutton MD, Gill SR. (2013) Evolution in fast forward: a potential role for mutators in accelerating Staphylococcus aureus pathoadaptation. J Bacteriol (Feb), 195(3): 615-628.
- Heltzel JM, Maul RW, Wolff DW, Sutton MD. (2012) Escherichia coli DNA Polymerase IV (Pol IV), but Not Pol II, Dynamically Switches with a Stalled Pol III* Replicase. J Bacteriol (Jul), 194(14): 3589-3600.
- Baxter JC, Sutton MD. (2012) Evidence for roles of the Escherichia coli Hda protein beyond regulatory inactivation of DnaA. Mol Microbiol (Jun).
- Sanders LH, Devadoss B, Raja GV, O‘Connor J, Su S, Wozniak DJ, Hassett DJ, Berdis AJ, Sutton MD. (2011) Epistatic Roles for Pseudomonas aeruginosa MutS and DinB (DNA Pol IV) in Coping with Reactive Oxygen Species-Induced DNA Damage. PLoS One (Apr), 6(4): 18824-18824.
- Sutton MD, Duzen JM, Scouten Ponticelli SK. (2010) A single hydrophobic cleft in the Escherichia coli processivity clamp is sufficient to support cell viability and DNA damage-induced mutagenesis in vivo. BMC Mol Biol (Dec), 11: 102-102.
- Eng K, Scouten-Ponticelli SK, Sutton M, Berdis A. (2010) Selective inhibition of DNA replicase assembly by a non-natural nucleotide: exploiting the structural diversity of ATP-binding sites. ACS Chem Biol (Feb), 5(2): 183-194.
- Hassett DJ, Korfhagen TR, Irvin RT, Schurr MJ, Sauer K, Lau GW, Sutton MD, Yu H, Hoiby N. (2010) Pseudomonas aeruginosa biofilm infections in cystic fibrosis: insights into pathogenic processes and treatment strategies. Expert Opin Ther Targets (Feb), 14(2): 117-130.
- Heltzel JM, Maul RW, Scouten Ponticelli SK, Sutton MD. (2009) A model for DNA polymerase switching involving a single cleft and the rim of the sliding clamp. Proc Natl Acad Sci U S A (Aug), 106(31): 12664-12669.
- Sutton MD. (2009) Coordinating DNA polymerase traffic during high and low fidelity synthesis. Biochim Biophys Acta (Jun).
- Scouten Ponticelli SK, Duzen JM, Sutton MD. (2009) Contributions of the individual hydrophobic clefts of the Escherichia coli beta sliding clamp to clamp loading, DNA replication and clamp recycling. Nucleic Acids Res (May), 37(9): 2796-2809.
- Sanders LH, Sudhakaran J, Sutton MD. (2009) The GO system prevents ROS-induced mutagenesis and killing in Pseudomonas aeruginosa. FEMS Microbiol Lett (May), 294(1): 89-96.
- Heltzel JM, Scouten Ponticelli SK, Sanders LH, Duzen JM, Cody V, Pace J, Snell EH, Sutton MD. (2009) Sliding clamp-DNA interactions are required for viability and contribute to DNA polymerase management in Escherichia coli. J Mol Biol (Mar), 387(1): 74-91.
- Hassett DJ, Sutton MD, Schurr MJ, Herr AB, Caldwell CC, Matu JO. (2009) Pseudomonas aeruginosa hypoxic or anaerobic biofilm infections within cystic fibrosis airways. Trends Microbiol (Mar), 17(3): 130-138.
- Sun JN, Li W, Jang WS, Nayyar N, Sutton MD, Edgerton M. (2008) Uptake of the antifungal cationic peptide Histatin 5 by Cadida albicans Ssa2p requires binding to non-conventional sites within the ATPase domain. Mol. Microbiol (Jan)1246-1260.
- Maul RW, Ponticelli SK, Duzen JM, Sutton MD. (2007) Differential binding of Escherichia coli DNA polymerases to the beta-sliding clamp. Mol Microbiol (Aug), 65(3): 811-827.
- Maul RW, Sanders LH, Lim JB, Benitez R, Sutton MD. (2007) Role of Escherichia coli DNA polymerase I in conferring viability upon the dnaN159 mutant strain. J Bacteriol (Jul), 189(13): 4688-4695.
- Sanders LH, Rockel A, Lu H, Wozniak DJ, Sutton MD. (2006) Role of Pseudomonas aeruginosa dinB-encoded DNA polymerase IV in mutagenesis. J Bacteriol (Dec), 188(24): 8573-8585.
- Sutton MD, Duzen JM. (2006) Specific amino acid residues in the beta sliding clamp establish a DNA polymerase usage hierarchy in Escherichia coli. DNA Repair (Amst) (Mar), 5(3): 312-323.
- Maul RW, Sutton MD. (2005) Roles of the Escherichia coli RecA protein and the global SOS response in effecting DNA polymerase selection in vivo. J Bacteriol (Nov), 187(22): 7607-7618.
- Yang F, Jiang Q, Zhao J, Ren Y, Sutton MD, Feng J. (2005) Parkin stabilizes microtubules through strong binding mediated by three independent domains. J Biol Chem (Apr), 280(17): 17154-17162.
- Sutton MD, Duzen JM, Maul RW. (2005) Mutant forms of the Escherichia coli beta-sliding clamp that distinguish between its roles in replication and DNA polymerase V-dependent translesion DNA synthesis. Mol Microbiol (Mar), 55(6): 1751-1766.
- Sutton MD. (2004) The Escherichia coli dnaN159 mutant displays altered DNA polymerase usage and chronic SOS induction. J Bacteriol (Oct), 186(20): 6738-6748.
- Duzen JM, Walker GC, Sutton MD. (2004) Identification of specific amino acid residues in the E. coli beta processivity clamp involved in interactions with DNA polymerase III, UmuD and UmuD‘. DNA Repair (Amst) (Mar), 3(3): 301-312.
- Sutton MD, Narumi I, Walker GC. (2002) Posttranslational modification of the umuD-encoded subunit of Escherichia coli DNA polymerase V regulates its interactions with the beta processivity clamp. Proc Natl Acad Sci U S A (Apr), 99(8): 5307-5312.
- Sutton MD, Guzzo A, Narumi I, Costanzo M, Altenbach C, Ferentz AE, Hubbell W, Walker GC. (2002) A model for the structure of the Escherichia coli SOS-regulated UmuD2 protein. DNA Repair (Jan), 1(1): 77-93.
- Sutton MD, Walker GC. (2001) Managing DNA polymerases: coordinating DNA replication, DNA repair, and DNA recombination. Proc Natl Acad Sci U S A (Jul), 98(15): 8342-8349.
- Sutton MD, Farrow MF, Burton BM, Walker GC. (2001) Genetic interactions between the Escherichia coli umuDC gene products and the beta processivity clamp of the replicative DNA polymerase. J Bacteriol (May), 183(9): 2897-2909.
- Sutton MD, Murli S, Opperman T, Klein C, Walker GC. (2001) umuDC-dnaQ Interaction and its implications for cell cycle regulation and SOS mutagenesis in Escherichia coli. J Bacteriol (Feb), 183(3): 1085-1089.
- Sutton MD, Walker GC. (2001) umuDC-mediated cold sensitivity is a manifestation of functions of the UmuD(2)C complex involved in a DNA damage checkpoint control. J Bacteriol (Feb), 183(4): 1215-1224.
- Sutton MD, Kim M, Walker GC. (2001) Genetic and biochemical characterization of a novel umuD mutation: insights into a mechanism for UmuD self-cleavage. J Bacteriol (Jan), 183(1): 347-357.
- Sutton MD, Smith BT, Godoy VG, Walker GC. (2000) The SOS response: recent insights into umuDC-dependent mutagenesis and DNA damage tolerance. Annu Rev Genet (Jan), 34: 479-497.
- Sutton MD, Opperman T, Walker GC. (1999) The Escherichia coli SOS mutagenesis proteins UmuD and UmuD‘ interact physically with the replicative DNA polymerase. Proc Natl Acad Sci U S A (Oct), 96(22): 12373-12378.
- Ohta T, Sutton MD, Guzzo A, Cole S, Ferentz AE, Walker GC. (1999) Mutations affecting the ability of the Escherichia coli UmuD‘ protein to participate in SOS mutagenesis. J Bacteriol (Jan), 181(1): 177-185.
- Sutton MD, Carr KM, Vicente M, Kaguni JM. (1998) Escherichia coli DnaA protein. The N-terminal domain and loading of DnaB helicase at the E. coli chromosomal origin. J Biol Chem (Dec), 273(51): 34255-34262.
- Sutton MD, Kaguni JM. (1997) The Escherichia coli dnaA gene: four functional domains. J Mol Biol (Dec), 274(4): 546-561.
- Sutton MD, Kaguni JM. (1997) Threonine 435 of Escherichia coli DnaA protein confers sequence-specific DNA binding activity. J Biol Chem (Sep), 272(37): 23017-23024.
- Sutton MD, Kaguni JM. (1997) Novel alleles of the Escherichia coli dnaA gene. J Mol Biol (Sep), 271(5): 693-703.
- Sutton MD, Kaguni JM. (1995) Novel alleles of the Escherichia coli dnaA gene are defective in replication of pSC101 but not of oriC. J Bacteriol (Nov), 177(22): 6657-6665.
Books and Book Chapters:
- Sutton MD. (2005) Damage Signals Triggering the E. coli SOS Response.
- Walker GC, Smith BT, Sutton MD. (2000) The SOS response to DNA damage.
Professional Memberships:
- ASM (2004–present)
Presentations:
- "Insights into how bacteria manage the actions of their multiple DNA polymerases" 13th International Conference on Environmental Mutagens, The Graham Walker Symposium: Complexity of Cellular Responses to DNA Damage. (2022)
Service Activities:
- RM1 Review Panel, GMS; Mail in reviewer (2023)
- Introduced local high school students interested in STEM to a biomedical research lab setting, and gave an introduction and Q/A for how to perform PCR, isolate plasmid DNA, clone a gene and transform bacteria with DNA.; MED STEP volunteer (2023)
- ; Member of SPECIAL EMPHASIS PANEL ZRG1 MGG-C 55 R, PAR-20-117: Maximizing Investigators’ Research Award for Early Stage Investigators (2023)
- ; Member, BCH Faculty Search Committee (2022–2023)
- Editorial Board Member for DNA Repair Journal; DNA Repair, Editorial Board Member (2021–present)
- IFR Committee (2021–present)
- MSTP Metrics Review Committee (2020–present)
- UB Post-Doctoral Policy Committee (2019–2020)