Rocha GR, Benoit DSW, Meyer AS. Reproducible 3D-bioprinting of Streptococcus mutans to create model oral biofilms. Microbiology Spectrum, accepted, 2025.
McCarthy LA, Way LE, Dai X, Ren Z, Fuller DEH, Dhiman I, Larkin L, Sieben JJD, Westerlaken I, Abbondanzieri EA, Hardy GG, Meyer AS, Wang X, Biteen JS. Dps binds and protects DNA in starved Escherichia coli with minimal effect on chromosome accessibility, dynamics and organisation. bioRxiv, Sept. 5, 2025, https://doi.org/10.1101/2025.08.31.673347.
Bennett DT, Meyer AS. Robust measurement of microbial reduction of graphene oxide nanoparticles using image analysis. Applied and Environmental Microbiology (2025) 91:0:e00360-25.
He L, Cai H, Gona RS, Gangan MS, Lai T, Silberstein MN, Meyer AS. 3D-bioprinted marine bacteria for the degradation of bioplastics. bioRxiv, Feb. 5, 2025, https://doi.org/10.1101/2025.02.05.636490.
Abbondanzieri EA, Badrinarayanan AB, Barilla D, Bell SD, Blombach F, Bouet JY, Bulgheresi S, Cao QAD, Dame RT, Dekker C, Demuysere M, Espeli O, Fogg PCM, Freddolino PL, Gangi M, Gerson TM, Grainger DC, Hamoen LW, Harju J, Hocher A, Hustmyer CM, Kaljevic JK, Karney MK, Kleckner N, Laloux G, Landick R, Lioy VS, Liu WL, Liu CL, Makela J, Meyer AS, Noy A, Pineau MP, Premrajka K, Racki LR, Rashid F-ZM, Schnetz K, Schwab S, Tisma M, van der Sijs AI, van Heesch T, van Raaphorst R, Vreede J, Walker AW, Walter J-C, Weber SC, Wiggins PA, Wing HJ, Xiao J, Zhang Z. Future directions of the prokaryotic chromosome field. Molecular Microbiology (2025) 123:89-100.
Sidor LM, Beaulieu MM, Rasskazov I, Acarturk BC, Ren J, Jenen E, Kamoen L, Vazquez Vitali M, Carney PS, Schmidt GR, Srubar WV III, Abbondanzieri EA, Meyer AS. Engineered bacteria that self-assemble bioglass polysilicate coatings display enhanced light focusing. Proceedings of the National Academy of Sciences (2024), 121:e2409335121.
Heveran CM, Gerlach R, Hernandez CJ, Intemann K, Meyer AS, Ajo-Franklin C, Charrier M, Srubar WV III, Joshi N, Nelson A, Fields MW. Unlocking the societal potential of engineered living materials. Matter (2024), 7:2846-2858.
Shahu S, Vtyurina N, Das M, Meyer AS, Ganji M, Abbondanzieri EA. Bridging DNA contacts allow Dps from E. coli to condense DNA. Nucleic Acids Research (2024), 52:4456-4465. Featured on the cover of Nucleic Acids Research.
Walker AM, Abbondanzieri EA, Meyer AS. Live to fight another day: The bacterial nucleoid under stress. Molecular Microbiology (2025), e-published May 01, 2024, 123:168-175.
Samanta N, Schiller E, Lopez-Molini I, Martin M, Flores I, Meyer AS, Chen N. An accessible, non-invasive tool for endometriosis diagnosis reveals an association between age at symptom onset and endometriosis symptom prevalence. Journal of Endometriosis and Pelvic Pain Disorders (2024), 16:71-78.
Lazarus E, Meyer AS, Ikuma I, Rivero IV. Three dimensional printed biofilms: Fabrication, design, and future biomedical and environmental applications. Microbial Biotechnology (2024), 17:e14360, e-published 02 December, 2023. doi.org/10.1111/1751-7915.14360.
Sidor LM, Meyer AS. Additive manufacturing of engineered living materials. In Engineered Living Materials, WV Srubar III, Ed., Springer Nature (2022).
Brady MM, Meyer AS. Cataloguing the proteome: Current developments in single-molecule protein sequencing. Biophysics Reviews (2022), 3:011304. Selected as a Featured Article and for a Scilight feature.
Balasubramanian S, Yu K, Cardenas DV, Aubin-Tam ME, Meyer AS. Emergent biological endurance depends on extracellular matrix composition of three-dimensionally printed Escherichia coli biofilms. ACS Synthetic Biology (2021), 10:2997-3008.
Lehner BAE, Benz D, Moshkalev SA, Meyer AS, Cotta MA, Janissen R. Biocompatible Graphene Oxide Nanosheets Densely Functionalized with Biologically-Active Molecules for Biosensing Applications. ACS Applied Nano Materials (2021), 4:8334-8342.
Yu K, Spiesz EM, Balasubramanian S, Schmieden DT, Meyer AS, Aubin-Tam ME. Scalable bacterial production of moldable and recyclable biomineralized cellulose with tunable mechanical properties. Cell Reports Physical Science (2021), doi.org/10.1016/j.xcrp.2021.100464.
Kovelakuntla V, Meyer AS. Rethinking sustainability through synthetic biology. Nature Chemical Biology (2021), 17:630-631.
Balasubramanian S, Yu K, Meyer AS, Karana E, Aubin-Tam ME. Bioprinting of regenerative photosynthetic living materials. Advanced Functional Materials (2021), doi.org/10.1002/adfm.202011162. Featured on the cover of Advanced Functional Materials, as the subject of a Spotlight article in Trends in Biotechnology, and in Scientific American, Yahoo! News, Futurity, The Weather Network, and 90+ more media outlets.
Castelein SM, Aarts TF, Schleppi J, Hendrikx R, Boettger AJ, Benz D, Marechal M, Makaya A, Brouns SJ, Schwentenwein M, Meyer AS*, Lehner BAE*. Iron can be microbially extracted from Lunar and Martian regolith simulants and 3D printed into tough structural materials. PLOS ONE (2021), doi.org/10.1371/journal.pone.0249962. *corresponding authors
Liang K, Spiesz EM, Schmieden D, Xu A-W*, Meyer AS*, Aubin-Tam M-E*. Bio-produced polymers self-assemble with graphene oxide into nanocomposite films with enhanced mechanical performance. ACS Nano (2020), 14:14731-14739. *corresponding authors
Gona RS, Meyer AS. Engineered proteins and three-dimensional printing of living materials. MRS Bulletin (2020), 45:1034-1038.
Ramesh S, Kovelakuntla V, Meyer AS, Rivero IV. Three-dimensional printing of stimuli-responsive hydrogel with antibacterial activity. Bioprinting (2020), doi.org/10.1016/j.bprint.2020.e00106.
Volger R, Timmer MJ, Schleppi J, Haenggi CN, Meyer AS, Picioreanu C, Cowley A, Lehner BAE. Theoretical bioreactor design to perform microbial mining activities on Mars. Acta Astronautica (2020), 170:354-364.
Balasubramanian S, Aubin-Tam M-E, Meyer AS. 3D printing for the fabrication of biofilm-based functional living materials. ACS Synthetic Biology (2019), 8:1564-1567.
Lehner BAE, Janssen VAEC, Spiesz EM, Benz D, Brouns SJJ, Meyer AS*, van der Zant HSJ*. Creation of conductive graphene materials by bacterial reduction using Shewanella oneidensis. ChemOpen (2019), 8:888-895. *corresponding authors. Featured in The Guardian, Digital Trends, Design News, Futurity, Phys.org, and in 25+ more media outlets.
Lehner BAE, Schlechten J, Filosa A, Canals Pou A, Mazzotta DG, Spina F, Teeney L, Snyder J, Tjon SY, Meyer AS, Brouns SJJ, Cowley A, Rothschild LJ. End-to-end mission design for microbial ISRU activities as preparation for a moon village. Acta Astronautica (2019) 162:216-226.
Majerle A, Schmieden DT, Jerala R, Meyer AS. Synthetic biology for multiscale designed biomimetic assemblies: from designed self-assembling biopolymers to bacterial bioprinting. Biochemistry (2019) 58:2095-2104.
Spiesz EM*, Schmieden DT*, Grande AM, Liang K, Schwiedrzik J, Natalio F, Michler J, Garcia SJ, Aubin-Tam M-E, Meyer AS. Bacterially-produced, nacre-inspired composite materials. Small (2019), 15:1805312. *equal contributions. Featured on the cover of Small, and Advanced Science News, Phys.org, The Engineer, Futurity, The London Economic, and in 25+ more media outlets.
Spiesz EM*, Yu K*, Lehner BAE, Schmieden DT, Aubin-Tam M-E, Meyer AS. Three-dimensional patterning of engineered biofilms with a do-it-yourself bioprinter. J. Vis Exp. (2019), 147:e59477. *equal contributions
Abbondanzieri EA, Meyer AS. More than just a phase: The search for membraneless organelles in the bacterial cytoplasm. Current Genetics (2019), 65:691-694.
Janissen R*, Arens MMA*, Vtyurina NN*, Rivai Z, Sunday ND, Eslami-Mossallam B, Gritsenko AA, Laan L, de Ridder D, Artsimovitch I, Dekker NH, Abbondanzieri EA, Meyer AS. Global DNA compaction in stationary-phase bacteria does not affect transcription. Cell (2018), 174:1188-1199. * equal contributions
Schmieden DT, Basalo Vasquez S, Sanguesa H, van der Does M, Idema T, Meyer AS. Printing of patterned, engineered E. coli biofilms with a low-cost 3D printer. ACS Synthetic Biology (2018), 7:1328-1337.
van Ginkel J, Filius M, Szczepaniak M, Tulinski P, Meyer AS*, Joo C*. Single-Molecule Peptide Fingerprinting. Proceedings of the National Academy of Sciences (2018), 115:3338-3343. *corresponding authors. Selected as a Nature Biotechnology Highlight.
Park JW, Lee YJ, Meyer AS, Douterelo I, Maeng SK. Bacterial growth through microfiltration membranes and NOM characteristics in an MF-RO integrated membrane system: Lab-scale and full-scale studies. Water Research (2018), 144:36-45.
Lehner BAE, Schmieden DT, Meyer AS. A straightforward approach for 3D bacterial printing. ACS Synthetic Biology (2017), 6:1124-1130. The #1 most-read article at ACS Synthetic Biology of 2017. Featured in Fox News, New Scientist, Digital Trends, Seeker, and many more news sites.
Tsui J, Meyer AS. Modular projects and 'mean questions': best practices for advising an International Genetically Engineered Machines team. FEMS Microbiology Letters (2016) 363:fnw141. Selected as an Editor's Choice article.
De Martino M, Ershov D, van den Berg PJ, Tans SJ, Meyer AS. Single-cell analysis of the Dps response to oxidative stress. Journal of Bacteriology (2016), 198:1662-1674.
Vtyurina NN, Dulin D, Docter MW, Meyer AS, Dekker NH, Abbondanzieri EA. An Ising model describes hysteresis in the process of DNA compaction by Dps. Proceedings of the National Academy of Sciences (2016), 113:4982-4987.
Schmieden DT, Meyer AS*, and Aubin-Tam M-E*. Using bacteria to make improved, nacre-inspired materials. MRS Advances (2016), 1:559-564. *corresponding authors
Park JW, Kim H-C, Meyer AS, Kim S, Maeng SK. Influences of NOM composition and bacteriological characteristics on biological stability in a full-scale drinking water treatment plant. Chemosphere (2016), 160:189-198.
Karas VO, Westerlaken I, Meyer AS. The DNA-binding protein from starved cells (Dps) utilizes dual functions to defend cells against multiple stresses. Journal of Bacteriology (2015), 197:3206-3215. Selected as a Spotlight article.
Tiruvadi Krishnan S, Moolman MC, van Laar T, Meyer AS, Dekker NH. Essential validation methods for E. coli strains created by chromosomal engineering. Journal of Biological Engineering (2015), 9:11.
Chintakayala K, Sellars L, Singh S, Shahapure R, Westerlaken I, Meyer AS, Dame R, Grainger, D. DNA recognition by Escherichia coli CbpA protein requires a conserved arginine-minor-groove interaction. Nucleic Acids Res. (2015) 43:2282-2292.
Meyer AS, Grainger DC. The Escherichia coli nucleoid in stationary phase. Adv. App. Micro. (2013) 83:69-86.
Karas VO, Westerlaken I, Meyer AS. Application of an in vitro DNA protection assay to visualize stress mediation properties of the Dps protein. J. Vis. Exp. (2013) May 31 (75).
Reissmann S, Joachimiak LA, Chen B, Meyer AS, Nguyen A, Frydman J. A gradient of ATP affinities generates an asymmetric power stroke driving the chaperonin TRiC/CCT folding cycle. Cell Reports (2012) 2:866-77.
Cong Y, Schroder GF, Meyer AS, Jakana J, Ma B, Dougherty MT, Schmid MF, Reissmann S, Levitt M, Ludtke SL, Frydman J, Chiu W. Symmetry-free cryo-EM structures of the chaperonin TRiC along its ATPase-driven conformational cycle. EMBO J. (2011) 31:720-30.
Meyer AS, Baker TA. Proteolysis in the Escherichia coli heat shock response: a player at many levels. Curr Opin Microbiol. (2011) 14:194-9.
Booth CR, Meyer AS, Cong Y, Topf M, Sali A, Ludtke SJ, Chiu W, Frydman J. Mechanism of lid closure in the eukaryotic chaperonin TRiC/CCT. Nat Struct Mol Biol. (2008) 15:746-53.
Miller EJ*, Meyer AS*, Frydman J. Modeling of possible subunit arrangements in the eukaryotic chaperonin TRiC. Protein Sci. (2006) 15:1522-6. (* = equal contribution)
Etchells SA, Meyer AS, Yam AY, Roobol A, Miao Y, Shao Y, Carden MJ, Skach WR, Frydman J, Johnson AE. The cotranslational contacts between ribosome-bound nascent polypeptides and the subunits of the hetero-oligomeric chaperonin TRiC probed by photocross-linking. J Biol Chem. (2005) 280:28118-26.
Spiess C, Meyer AS, Reissmann S, Frydman J. Mechanism of the eukaryotic chaperonin: protein folding in the chamber of secrets. Trends Cell Biol. (2004) 14:598-604.
Meyer AS, Gillespie JR, Walther D, Millet IS, Doniach S, Frydman J. Closing the folding chamber of the eukaryotic chaperonin requires the transition state of ATP hydrolysis. Cell. (2003) 113:369-81. Awarded Faculty of 1000 "Must Read" designation.
Melville MW, McClellan AJ, Meyer AS, Darveau A, Frydman J. The Hsp70 and TRiC/CCT chaperone systems cooperate in vivo to assemble the von Hippel-Lindau tumor suppressor complex. Mol Cell Biol. (2003) 23:3141-51.
Kusch J, Meyer A, Snyder MP, Barral Y. Microtubule capture by the cleavage apparatus is required for proper spindle positioning in yeast. Genes Dev. (2002) 16:1627-39.