1. Pendola M, Jain G, Evans JS. Skeletal development in the sea urchin relies upon protein families that contain intrinsic disorder, aggregation-prone, and conserved globular interactive domains. PLOS ONE 2019
2. Pendola M, Jain G, Huang, YC, Gebauer, D, Evans JS. Secrets of the sea urchin spicule revealed: Protein cooperativity is responsible for ACC transformation, intracrystalline incorporation, and guided mineral particle assembly in biocomposite material formation. ACS Omega 2018
3. Risan J, Jain G, Pendola M, Evans JS Intracrystalline incorporation of nacre protein hydrogels modifies the mechanical properties of calcite crystals: A microcompression study Journal of Materials Chemistry B 2018
4. Jain G, Pendola M, Huang, YC, Gebauer, D, Koutsoumpeli E, Johnson S, Evans JS. Selective Synergism Created by Interactive Nacre Framework-Associated Proteins Possessing EGF and vWA Motifs: Implications for Mollusk Shell Formation. Biochemistry 2018
5. Jain G, Pendola M, Koutsoumpeli E, Johnson S, Evans JS. Glycosylation fosters interactions between model sea urchin spicule matrix proteins. Implications for embryonic spiculogenesis and biomineralization Biochemistry 2018
6. Jain G, Pendola M, Huang, YC, Gebauer, D, José JC, Johnson S, Evans JS. Functional prioritization and hydrogel regulation phenomena created by a combinatorial pearl-associated 2-protein model system. Biochemistry 2017
7. Jain G, Pendola M, Huang, YC, Gebauer, D, Evans JS. A Model Sea Urchin Spicule Matrix Protein, rSpSM50, Is a Hydrogelator That Modifies and Organizes the Mineralization Process. Biochemistry 2017
8. Pendola M, Jain G, Huang YC, Gebauer D, Evans J. A nacre protein “hijacks” the biomineralization process within a seawater environment. RSC CrystEngComm 2016
9. Jain G, Pendola M, Rao, A, Cölfen H, Evans J. A model sea urchin spicule matrix protein self-associates to form mineral modifying protein hydrogels. Biochemistry 2016
10. Ford AJ, Jain G., Rajagopalan P. Designing a fibrotic microenvironment to investigate change in human liver sinusoidal endothelial cell function. Acta Biomaterialia 2015.
11. Jain G, Ford AJ, Rajagopalan P. Opposing rigidity-protein gradients reverse fibroblast durotaxis. ACS Biomaterials Science & Engineering 2015.
12. Vu LT, Jain G, Veres BD, Rajagopalan P. Cell migration on planar and three-dimensional matrices: a hydrogel-based perspective. Tissue Engineering Part B. 2015.