Martha Dunbar scite author profile

Martha Dunbar

5Publications

56Citation Statements Received

363Citation Statements Given

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Affiliations

Northwestern University, University of Michigan–Dearborn, Michigan United

Publications

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Energy Renormalization for Coarse-Graining a Biomimetic Copolymer, Poly(catechol-styrene)

Dunbar

Keten

2020

Macromolecules

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Replicating the remarkable adhesive properties of mussels in synthetic polymers continues to be of great interest for applications including self-healing materials, biomedical glues, and commercial underwater adhesives. Poly[(3,4-dihydroxystyrene)-costyrene] (poly(catechol-styrene)) is a particularly promising material as it has been experimentally determined to outperform many synthetic adhesives, as well as the mussel system from which it is derived. Here, we develop catechol content specific coarse-grained (CG) models using an energy renormalization approach which captures the short time scale dynamics, self-diffusion, and segmental relaxation time at temperatures ranging from the glassy to Arrhenius regime. We compare the mechanical response of the CG and all-atomistic representations in order to demonstrate the predictive capability of the model into the nonequilibrium glassy regime. Our work makes detailed investigations into the mechanics of poly(catechol-styrene) possible and could help elucidate poorly understood trade-offs between surface wetting and polymer cohesion in mussel-inspired adhesives.

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Organic Nanotube with Subnanometer, pH-Responsive Lumen

Darnall

Dunbar

et al. 2019

J. Am. Chem. Soc.

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While many synthetic nanotubes with a hydrophobic lumen and fast molecular transport have been developed, decorating the interior of these channels with polar and/or responsive functional groups remains challenging. In transmembrane proteins like the aquaporin and M2 channels, the presence of histidine residues in a mostly hydrophobic channel has led to enhanced selectivity and pH-based activation. Herein, we report the synthesis of Bzim-CP, a cyclic octapeptide that contains a benzimidazole functionality as a chemical and structural mimic of histidine. Bzim-CP undergoes different protonation states, forms subnanometer nanotubes, and projects two different ionizable functionalities into the lumen. Present studies open up synthetic possibilities to functionalize subnanometer porous channels as a basis toward understanding new transport phenomena.

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Dimerization energetics of curli fiber subunits CsgA and CsgB

2019

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Curli fibers are functional amyloids that exhibit strong adhesion and robust self-assembly as biofilm structural components; however, the binding energetics and mechanical properties of wild-type curli are not well understood. To address this, we present dimer structures made up of the major and minor curli subunits (CsgA and CsgB), perform free energy calculations to obtain absolute binding energies, and estimate the Young's modulus and persistence length of curli fibers. Equilibrium molecular dynamics simulations are used to evaluate nonbonded interactions. Binding energies are most favorable for CsgB-CsgA, while CsgA-CsgA dimers have a higher binding energy than CsgB-CsgB despite possessing less favorable nonbonded interaction energies. Decomposing each potential of mean force of separation indicated that solvent effects positively impact CsgA-CsgA binding but not CsgB-CsgB and CsgB-CsgA. Charged residues and conserved polar residues were also notable contributors to attractive nonbonded interactions, underlining their importance in dimer assembly. Our findings elucidate sequence effects on binding energy contributions and establish theoretical limits for the elasticity, persistence length, and strength of curli fibers.npj Computational Materials (2019) 5:27 ; https://doi.

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Atomistic Modeling of Peptide Aggregation and β-Sheet Structuring in Corn Zein for Viscoelasticity

et al. 2021

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The structure–function relationships of plant-based proteins that give rise to desirable texture attributes in order to mimic meat products are generally unknown. In particular, it is not clear how to engineer viscoelasticity to impart cohesiveness and proper mouthfeel; however, it is known that intermolecular β-sheet structures have the potential to enhance the viscoelastic property. Here, we investigated the propensity of selected peptide segments within common corn α-zein variants to maintain stable aggregates and β-sheet structures. Simulations on dimer systems showed that stability was influenced by the initial orientation and the presence of contiguous small hydrophobic residues. Simulations using eight-peptide β-sheet oligomers revealed that peptide sequences without proline had higher levels of β-sheet structuring. Additionally, we identified that sequences with a dimer hydrogen-bonding density of >22% tended to have a larger percent β-sheet conformation. These results contribute to understanding how the viscoelasticity of zein can be increased for use in plant-based meat analogues.

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Perilimbal sclera mechanical properties: Impact on intraocular pressure in porcine eyes

et al. 2018

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There is extensive knowledge on the relationship of posterior scleral biomechanics and intraocular pressure (IOP) load on glaucomatous optic neuropathy; however, the role for biomechanical influence of the perilimbal scleral tissue on the aqueous humor drainage pathway, including the distal venous outflow system, and IOP regulation is not fully understood. The purpose of this work is to study the outflow characteristics of perfused porcine eyes relative to the biomechanical properties of the perilimbal sclera, the posterior sclera and the cornea. Enucleated porcine eyes from eleven different animals were perfused with surrogate aqueous at two fixed flow rates while monitoring their IOP. After perfusion, mechanical stress-strain and relaxation tests were conducted on specimens of perilimbal sclera, posterior sclera, and cornea from the same perfused eyes. Statistical analysis of the data demonstrated a strong correlation between increased tangent modulus of the perilimbal sclera tissues and increased perfusion IOP (R2 = 0.74, p = 0.0006 at lower flow rate and R2 = 0.71, p = 0.0011 at higher flow rate). In contrast, there were no significant correlations between IOP and the tangent modulus of the other tissues (Posterior sclera: R2 = 0.17 at lower flow rate and R2 = 0.30 at higher flow rate; cornea: R2 = 0.02 at lower flow rate and R2<0.01 at higher flow rate) nor the viscoelastic properties of any tissue (R2 ≤ 0.08 in all cases). Additionally, the correlation occurred for IOP and not net outflow facility (R2 ≤ 0.12 in all cases). These results provide new evidence that IOP in perfused porcine eyes is strongly influenced by the tangent modulus, sometimes called the tissue stiffness, of the most anterior portion of the sclera, i.e. the limbus.

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Martha Dunbar

Energy Renormalization for Coarse-Graining a Biomimetic Copolymer, Poly(catechol-styrene)

Organic Nanotube with Subnanometer, pH-Responsive Lumen

Dimerization energetics of curli fiber subunits CsgA and CsgB

Atomistic Modeling of Peptide Aggregation and β-Sheet Structuring in Corn Zein for Viscoelasticity

Perilimbal sclera mechanical properties: Impact on intraocular pressure in porcine eyes

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