Papers

Selected publications

1. In situ architecture of the Tad pilus Machine in Caulobacter crescentus,

Iarocci J^#, Whitfield GB^#, Williston RF^#, Wozny MR, Presley JF, Ellison CK, Brun YV*, Guo S* (2026)

* Corresponding authors

# Equal contribution

2. Peptide-based ligand antagonists block a Vibrio cholerae adhesin,

Wang M, Du G, Yongo-Luwawa C, Lu A, Kinrade B, Munro K, Klose KE, Lubell WD, Davies PL, Guo S (2025)

3. Structures of fibrillar adhesins that mediate bacterium-host interactions and biofilm formations,

Illustration of the structural models (predicted by Alphfold2) and roles of split domains in simultaneously projecting multiple domains outward from the FA linear chain (Graham et al. 2024).

Davies PL, Guo S* (2024)

* Corresponding author

4. PilY1 regulates the dynamic architecture of the Type IV Pilus machine in Pseudomonas aeruginosa,

Guo S*, Chang Y, Brun YV, Howell PL, Burrows LL*, Liu J* (2024)

*Corresponding authors

5. A peptide-binding domain shared with an Antarctic bacterium facilitates Vibrio cholerae epithelial cell-binding, biofilm formation and intestinal colonization,

The FrhA PBD binds Diatoms and contributes to intestinal colonization.

Lloyd CJ, Guo S, Kinrade B, Zahiri H, Eves R, Khalid Ali S, Yildiz F, Voets IK, Davies PL, Klose KE (2023)

6. Rotational switching, torque generation, and mechanosensing: insights into the structures and functions of the bacterial flagellar motor,

Pseudoatomic structure of the stator-FliL-supramolecular complex and proposed model for modulating torque generation.

Guo S, Liu J (2022)

7. FliL-ring provides structural basis for maximal torque generation in bacterial flagellar motor,

Guo S#, Xu H#, Chang Y, Motaleb MdA, Liu J (2022)

#Co-first authors.

Press: Yale School of Medicine

8. Molecular basis for inhibition of adhesin-mediated bacterial-host interactions through a novel peptide-binding domain,

Structure-guided design of inhibitors to block bacterial adhesion

Guo S, Zahiri H, Stevens CA, Spaanderman DC, Milroy LG, Ottmann C, Brunsveld L, Voets IK, Davies PL (2021)

9. Structural basis of ligand selectivity by a bacterial adhesin lectin involved in multi-species biofilm formation,

Ligand-binding site of MpPA14 in complex with GlcNAc and l-fucose.

Guo S, Vance TDR, Zahiri H, Eves R, Stevens CA, Hehemann JH, Vidal-Melgosa S, Davies PL (2021)

10. A simple method to create hydrophobic mortar using bacteria grown in liquid cultures,

The microstructure and wetting property of the reference and bacteria-modified (5%wt) mortars determined by SEM and static water contact angle measurements.

Qu Z*, Guo S*#, Zheng Y*, Giakoumatos EC, Yu Q, Voets IK# (2021)

*Equal contributions. #Corresponding authors

11. Engineered living materials based on adhesin-mediated trapping of programmable cells,

Guo S*#, Dubuc E#, Rave Y, Twisk S.A.E., Van der Hek T, Verhagen M.P.A., Oerlemans G.J.M, Van den Oetelaar M.C.M, Van Hazendonk L.S, Sharma M, Brüls M, Eijkens B.V, Joostens P.L, Keij S.R, Xing W, Merkx M, Voets K*, De Greef T* (2020)

* Corresponding author. #Co-first authors

12. Phasing with Ca2+ at home,

Sample electron densities showing calcium-binding sites and surrounding amino acids.

Guo S, Campbell RL, Davies PL, Allingham JS (2019)

13. RTX Adhesins are key bacterial surface megaproteins in the formation of biofilms,

Schematic of MpIBP Binding Marinomonas primoryensis and Diatoms to Ice.

Guo S, Vance TDR, Stevens CA, Voets IK, Davies PL (2019)

14. Enhancing The freeze-thaw durability of concrete through ice recrystallization inhibition by poly(vinyl alcohol).

Qu Z, Guo S*, Sproncken CCM, Suris-Vals R, Brouwers JH, Yu Q, Voets IK* (2019)

* Corresponding author

15. Conserved structural features anchor biofilm-associated RTX–adhesins to the outer membrane of bacteria,

Guo S, Langelaan DN, Phippen SW, Smith SP, Voets IK, Davies PL (2018)

16. Structure of a 1.5-MDa adhesin that binds its Antarctic bacterium to diatoms and ice,

Guo S, Stevens CA, Vance TDR, Olijve LLC, Graham LA, Campbell RL, Yazdi SR, Escobedo C, Bar-Dolev M, Yashunsky V, Braslavsky I, Langelaan DN, Smith SP, Allingham JS, Voets IK, Davies PL (2017)

Press: C&EN, Scientific American, TU/e news

17. Ca2+-stabilized adhesin helps an Antarctic bacterium reach out and bind ice.

Vance TDR, Olijve LLC, Campbell RL, Voets IK, Davies PL, Guo S* (2014)

*Corresponding author

18. Role of Ca2+ in folding the tandem β-sandwich extender domains of a bacterial ice-binding adhesin,

Guo S, Garnham CP, Partha-Karunan S, Campbell RL, Allingham JS, Davies PL (2013)

19. Re-Evaluation of a bacterial antifreeze protein as an adhesin with ice-binding activity, .

Guo S, Garnham CP, Whitney JC, Graham LA, Davies PL (2012)

Other collaborative publications

1. A newly characterized cyanobacterial strain, Cyanobium sp.MMK01: practical strategy towards developing a methodology to achieve C-phycocyanin with ultra-high purity,

Shafiei M, Shafiei M, Sani NM, Zahiri HS, Guo W, Kermani AA, Guo S, Vali H, Noghabi KA (2024)

2. Development of supramolecular polymer nanostructure for cellular uptake,

Song J, Fransen PP, Bakker M, Wijnands S, Huang J, Guo S, Dankers P (2024)

3. Adhesin domains responsible for binding bacteria to surfaces they colonize project outwards from companion split domains,

Graham LA, Hansen T, Yang Y, Sherik M, Ye Q, Kinrade B, Guo S, Davies (2024)

4. Pleiotropic role of sialidase in the pathogenicity of Porphyromonas gingivalis,

Pham C, Guo S, Han X, Coleman L, Wang H, Liu J, Sze CW, Li CA (2024)

5. Outer membrane vesicles and the outer membrane protein OmpU govern Vibrio cholerae biofilm matrix assembly,

Potapova A, Garvey W, Dahl P, Guo S, Chang Y, Schwechheimer C, Trebino MA, Floyd K, Phinney B, Liu J, Malvankar NS, Yildiz FH (2024)

6. Sugar-binding and split domain combinations in repeats-in-toxin adhesins from Vibrio cholerae and Aeromonas veronii mediate cell-surface recognition and hemolytic activities,

Sugar-binding and split domain combinations in repeats-in-toxin adhesins from Vibrio cholerae and Aeromonas veronii mediate cell-surface recognition and hemolytic activities

Sherik M, Eves R, Guo S, Lloyd CJ, Klose KE, Davies PL (2024)

7. Highly conserved, positively charged tandem repeats mediate multimerization of ice nucleation proteins,

Hansen T, Lee JC, Reicher N, Ovadia G, Guo S, Guo W, Liu J, Braslavsky I, Rudich Y, Davies PL (2023)

8. Engineering Supramolecular Antimicrobial Assemblies,

Song J, Schmitz MGJ, Riool M, Guo S, Zaat SAJ, Dankers P (2023)

9. FlhG in the endoflagella-containing spirochete Leptospira, .

Fule L, Halifa R, Fontana C, Sismeiro O, Legendre R, Varet H, Coppee JY, Murray GL, Adler B, Hendrixson DR, Buschiazzo A, Guo S, Liu J, Picardeau M (2021)

10. Putting life on ice: Bacteria that bind to frozen water.

Bar-Dolev M, Bernheim R, Guo S, Davies PL, Braslavsky I (2016)

11. Blocking rapid ice crystal growth through non-basal plane adsorption of antifreeze proteins,

Olijve LLC, Meister K, DeVries AL, Duman JG, Guo S, Bakker HJ, Voets IK (2016)

12. Modelling repetitive, non-globular proteins,

Basu K, Campbell RL, Guo S, Sun T, Davies PL (2016)

13. Structure and functional analysis of a bacterial adhesin sugar-binding domain,

Vance TDR, Guo S, Assaie-Ardakany S, Conroy B, and Davies PL (2019)

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