Andrew A. Smith scite author profile

Internal organs are asymmetrically positioned inside the body. Embryonic motile cilia play an essential role in this process by generating a directional fluid flow inside the vertebrate left-right organizer. Detailed characterization of how fluid flow dynamics modulates laterality is lacking. We used zebrafish genetics to experimentally generate a range of flow dynamics. By following the development of each embryo, we show that fluid flow in the left-right organizer is asymmetric and provides a good predictor of organ laterality. This was tested in mosaic organizers composed of motile and immotile cilia generated by dnah7 knockdowns. In parallel, we used simulations of fluid dynamics to analyze our experimental data. These revealed that fluid flow generated by 30 or more cilia predicts 90% situs solitus, similar to experimental observations. We conclude that cilia number, dorsal anterior motile cilia clustering, and left flow are critical to situs solitus via robust asymmetric charon expression.

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Synthesis and Characterization of Heterometallic {Cr₇M} Wheels

Larsen

et al. 2003

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Wnt Signaling and Injury Repair

Whyte

Smith²,

Helms

2012

Cold Spring Harbor Perspectives in Biology

200

160

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Magnetic Anisotropy of the Antiferromagnetic Ring [Cr8F8Piv16]

et al. 2002

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A new tetragonal (P42(1)2) crystalline form of [Cr8F8Piv16] (HPiv = pivalic acid, trimethyl acetic acid) is reported. The ring-shaped molecules, which are aligned in a parallel fashion in the unit cell, form almost perfectly planar, regular octagons. The interaction between the CrIII ions is antiferromagnetic (J = 12 cm(-1)) which results in a S = 0 spin ground state. The low-lying spin excited states were investigated by cantilever torque magnetometry (CTM) and high-frequency EPR (HFEPR). The compound shows hard-axis anisotropy. The axial zero-field splitting (ZFS) parameters of the first two spin excited states (S = 1 and S = 2, respectively) are D1 = 1.59(3) cm(-1) or 1.63 cm(-1) (from CTM and HFEPR, respectively) and D2 = 0.37 cm(-1) (from HFEPR). The dipolar contributions to the ZFS of the S = 1 and S = 2 spin states were calculated with the point dipolar approximation. These contributions proved to be less than the combined single-ion contributions. Angular overlap model calculations that used parameters obtained from the electronic absorption spectrum, showed that the unique axis of the single-ion ZFS is at an angle of 19.3(1) degrees with respect to the ring axis. The excellent agreement between the experimental and the theoretical results show the validity of the used methods for the analysis of the magnetic anisotropy in antiferromagnetic CrIII rings.

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Synthesis and Characterization of Heterometallic {Cr₇M} Wheels

et al. 2003

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Synthetic and Structural Studies of Cobalt–Pivalate Complexes

Aromı́

Batsanov

Christian

et al. 2003

Chemistry A European J

181

122

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The synthesis and characterisation of a range of cobalt pivalate cage complexes are reported. The cages include: a dinuclear Co(II) complex; an oxo-centred Co(III) triangle; tetranuclear Co(II) heterocubanes and butterflies; tetranuclear heterovalent cobalt butterflies and hexanuclear edge-sharing bitetrahedra; heterovalent penta-, hexa- and hepta-nuclear cages based on [M(4)O(4)] heterocubane cores; and a tetradecanuclear cage based on heterocubanes sharing edges and vertices. Spectroscopic studies suggest that some of these cores are retained in solution, but that only in the Co(III) triangle is the structure including ligands retained. A scheme is proposed to account for the many structures observed, which may be applicable to other polymetallic cage complexes.

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Multiscale Analyses of the Bone-implant Interface

et al. 2015

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Implants placed with high insertion torque (IT) typically exhibit primary stability, which enables early loading. Whether high IT has a negative impact on peri-implant bone health, however, remains to be determined. The purpose of this study was to ascertain how peri-implant bone responds to strains and stresses created when implants are placed with low and high IT. Titanium micro-implants were inserted into murine femurs with low and high IT using torque values that were scaled to approximate those used to place clinically sized implants. Torque created in peri-implant tissues a distribution and magnitude of strains, which were calculated through finite element modeling. Stiffness tests quantified primary and secondary implant stability. At multiple time points, molecular, cellular, and histomorphometric analyses were performed to quantitatively determine the effect of high and low strains on apoptosis, mineralization, resorption, and collagen matrix deposition in peri-implant bone. Preparation of an osteotomy results in a narrow zone of dead and dying osteocytes in peri-implant bone that is not significantly enlarged in response to implants placed with low IT. Placing implants with high IT more than doubles this zone of dead and dying osteocytes. As a result, peri-implant bone develops micro-fractures, bone resorption is increased, and bone formation is decreased. Using high IT to place an implant creates high interfacial stress and strain that are associated with damage to peri-implant bone and therefore should be avoided to best preserve the viability of this tissue.

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Modelling the fluid mechanics of cilia and flagella in reproduction and development

Montenegro‐Johnson

Smith

et al. 2012

Eur. Phys. J. E

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Cilia and flagella are actively bending slender organelles, performing functions such as motility, feeding and embryonic symmetry breaking. We review the mechanics of viscous-dominated microscale flow, including time-reversal symmetry, drag anisotropy of slender bodies, and wall effects. We focus on the fundamental force singularity, higher order multipoles, and the method of images, providing physical insight and forming a basis for computational approaches. Two biological problems are then considered in more detail: (1) left-right symmetry breaking flow in the node, a microscopic structure in developing vertebrate embryos, and (2) motility of microswimmers through non-Newtonian fluids. Our model of the embryonic node reveals how particle transport associated with morphogenesis is modulated by the gradual emergence of cilium posterior tilt. Our model of swimming makes use of force distributions within a body-conforming finite element framework, allowing the solution of nonlinear inertialess Carreau flow. We find that a threesphere model swimmer and a model sperm are similarly affected by shear-thinning; in both cases swimming due to a prescribed beat is enhanced by shear-thinning, with optimal Deborah number around 0.8. The sperm exhibits an almost perfect linear relationship between velocity and the logarithm of the ratio of zero to infinite shear viscosity, with shear-thickening hindering cell progress. Montenegro-Johnson et al, Eur. Phys. J. E, 35 10 (

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Andrew A. Smith

Left-Right Organizer Flow Dynamics: How Much Cilia Activity Reliably Yields Laterality?

Synthesis and Characterization of Heterometallic {Cr₇M} Wheels

Wnt Signaling and Injury Repair

Magnetic Anisotropy of the Antiferromagnetic Ring [Cr8F8Piv16]

Synthesis and Characterization of Heterometallic {Cr₇M} Wheels

Synthetic and Structural Studies of Cobalt–Pivalate Complexes

Multiscale Analyses of the Bone-implant Interface

Modelling the fluid mechanics of cilia and flagella in reproduction and development

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Resources

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Andrew A. Smith

Left-Right Organizer Flow Dynamics: How Much Cilia Activity Reliably Yields Laterality?

Synthesis and Characterization of Heterometallic {Cr7M} Wheels

Wnt Signaling and Injury Repair

Magnetic Anisotropy of the Antiferromagnetic Ring [Cr8F8Piv16]

Synthesis and Characterization of Heterometallic {Cr7M} Wheels

Synthetic and Structural Studies of Cobalt–Pivalate Complexes

Multiscale Analyses of the Bone-implant Interface

Modelling the fluid mechanics of cilia and flagella in reproduction and development

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Product

Resources

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Synthesis and Characterization of Heterometallic {Cr₇M} Wheels

Synthesis and Characterization of Heterometallic {Cr₇M} Wheels