Читать книгу Diatom Morphogenesis - Группа авторов - Страница 4

1 Chapter 1Figure 1.1 Living diatoms as observed under LM, brightfield. (a) Two living cel...Figure 1.2 Live centric (a, b) and pennate (c–h) diatoms. (a, b) Pleurosira laev...Figure 1.3 Specific diatom morphology gleaned from images with whole and partial...Figure 1.4 Cleaned diatoms in valve (g, h–j, m–r, u, v) and girdle views (a–f, k...Figure 1.5 (a) SEM of a single cleaned partially open frustule, two overlapping ...Figure 1.6 A cross-section at the center of Coscinodiscus sp. cell collected and...

2 Chapter 2Figure 2.1 A drawing composed by JLP that is reminiscent of one of Mezzanotte’s...Figure 2.2 Shape perception of Arachnoidiscus ehrenbergii from image ProvBay5_1...Figure 2.3 Diatom valve face symmetries. (a) Arachnoidiscus ehrenbergii-rotatio...Figure 2.4 Double translational symmetry at two scales exhibited in a Paralia s...Figure 2.5 Three stages of valve formation (as defined in [2.125]) in Biddulphi...Figure 2.6 ProvBay5_12lx450, Arachnoidiscus ehrenbergii. (a) Original scanning ...Figure 2.7 Tilt-corrected final entropy vs. number of rotations for all images,...Figure 2.8 Typical entropy vs. symmetry plot. The example is image ProvBay5_12l...Figure 2.9 Number of rotations vs. tilt-corrected final entropies for Cyclotell...Figure 2.10 Histogram and overlain probability density function for all tilt-co...Figure 2.11 Histogram and overlain cumulative density function for all tilt-cor...Figure 2.12 For all images, average symmetry per taxon ranging from Triceratium...Figure 2.13 Average taxon symmetry for all external centric diatom valves rangi...Figure 2.14 Vertical valve formation comparison: average external and forming v...Figure 2.15 Symmetry values for Asteromphalus, Arachnoidiscus, and Aulacodiscus...Figure 2.16 Cyclotella meneghiniana symmetry for normal and abnormal valves.Figure 2.17 Cyclotella meneghiniana symmetry values for normal forming and exte...Figure 2.18 Asterolampra marylandica (SanDBay02_03dx1100) as a sequence of 24 c...Figure 2.19 Plots of symmetry vs. 24-valve formation simulation steps from annu...Figure 2.20 Valve formation steps for eight taxa as a probability density funct...Figure 2.21 Valve formation steps for eight taxa as a cumulative density functi...Figure 2.22 Valve formation steps for eight taxa as a skew-right normal prior p...Figure 2.23 Valve formation simulation comparison of symmetry and chaotic insta...Figure 2.24 Valve formation simulation comparison of symmetry and random instab...Figure 2.25 Average sequence of 24 simulated valve formation steps of symmetry ...

3 Chapter 3Figure 3.1 Pascal’s triangle, which shows the development of the sizes of diato...Figure 3.2 An early illustration of a diatom chain with a sketch of the size se...Figure 3.3 In the left half of the figure, diatoms of the chain L⁰ R¹ L² R¹ are...Figure 3.4 The string L⁰ R¹ L² R¹ is in the left branch first mirrored and then...Figure 3.5 Bar chart of the size indices from the 7th generation (128 diatoms) ...Figure 3.6 Elementary step in the development of a substring A of any generatio...Figure 3.7 The Pascal triangle illustrates the development of a substring W. W ...Figure 3.8 Dragon curve of the 13-th generation. It contains 2¹³ - 1 = 8,192 an...Figure 3.9 Eunotia chain at the bottom of a Petri dish of a culture. Looking at...Figure 3.10 Bar chart of differences in lengths of adjacent diatoms within the ...Figure 3.11 Interpretation of the observed sequence of differences (Figure 3.10...Figure 3.12 Eunotia chain at the bottom of a Petri dish of a culture. A chain w...Figure 3.13 Probability P_k(t) that the k-th division has occurred at the time t_k...

4 Chapter 4Figure 4.1-4.6 Amphitetras antediluviana, mature valves, S.E.M. Figure 4.1 Comp...Figure 4.7-4.12 Amphitetras antediluviana, forming valves, S.E.M. Figure 4.7 Ea...Figure 4.13-4.18 Amphitetras antediluviana, forming ocelli, S.E.M. Figure 4.13 ...Figure 4.19-.24 Amphitetras antediluviana, forming cribra, S.E.M. Figure 4.19 E...Figure 4.25-4.30 Amphitetras antediluviana, S.E.M. Figure 4.25 Detail of nearly...

5 Chapter 5Figure 5.1 (a and b) Concentric pattern of areolae on the valve of Aulacodiscus ...Figure 5.2 Figure 5.2 (a) An artificially generated concentric pattern where all...Figure 5.3 The repeating stages of the formation of the rows of a concentric pat...Figure 5.4 Natural (b) and artificial (a, c) unidirectional spiral patterns. (a,...Figure 5.5 Natural (b) and artificial (a, c) bidirectional spiral pattern. (a) T...

6 Chapter 6Figure 6.1 A flow chart illustrating the methodology for assigning the most like...Figure 6.2 Diagram showing the frustule structure of (a) a centric frustule and ...Figure 6.3 Diagram illustrating two types of 2D lattices, the hexagonal and rect...Figure 6.4 A segmented micrograph of the external view of a single valve of Rope...Figure 6.5 Two SEMs of the internal view of a single valve of Pleurosigma sp. (a...Figure 6.6 SEM of the external view of a single valve of Roperia tesselata (1,02...Figure 6.7 SEM of the internal view of a single valve of Asteromphalus hookeri (...Figure 6.8 SEM of an internal view of a single valve of Roperia tesselata in upr...Figure 6.9 (a) A segmented SEM of the internal view of a single valve of Asterom...Figure 6.10 A segmented SEM of the internal view of a single valve of Asterompha...Figure 6.11 A threshold of the same micrograph of the internal view of a single ...Figure 6.12 A segmented selected part of the SEM of an internal view of a single...Figure 6.13 A segmented micrograph of a zoom in the internal view of a single va...Figure 6.14 (a) A thresholded micrograph of the internal view of a single valve ...Figure 6.15 A selected circle of an SEM of the internal view of a single valve o...Figure 6.16 (a) SEM of the external view at the center of a single valve of Thal...Figure 6.17 (a) A thresholded SEM of a zoom-in of the internal view of a single ...Figure 6.18 (a) A segmented SEM of the external view of a single immature valve ...Figure 6.19 (a) A segmented SEM micrograph of a zoom-in external view of Asterol...Figure 6.20 (a) A segmented SEM micrograph of the external view of Roperia tesse...Figure 6.21 (a) A segmented SEM micrograph of a selected 2D pore group at the ex...Figure 6.22 (a) A segmented SEM micrograph of the internal view of Haslea sp. (1...Figure 6.23 A segmented SEM of a zoom-in of a Gyrosigma fasciola valve (276 × 17...Figure 6.24 (a) A segmented SEM of a zoom-in of a valve of Gyrosigma balticum, a...Figure 6.25 (a) The areolae chambers appearing from a crack in the valve of Aste...Figure 6.26 An artificial honeycomb-like structure and its correpsonding 2D FFT ...Figure 6.27 A zoom-in of the external view of a single slightly immature valve o...Figure 6.28 (a) SEM of an external view of the central area of a single valve of...Figure 6.29 (a) SEM of the external view of a single valve of Cocconeis sp. illu...

7 Chapter 7Figure 7.1 Ensemble surface features—examples: (a) smooth, but not flat; (b) fla...Figure 7.2 Actinoptychus senarius modeled valve formation sequence steps 1 throu...Figure 7.3 Arachnoidiscus ehrenbergii modeled valve formation sequence steps 1 t...Figure 7.4 Cyclotella meneghiniana modeled valve formation sequence steps 1 thro...Figure 7.5 Single-linkage cluster analysis using Hamming distance for non-zero v...Figure 7.6 Contribution percentage of ensemble surface measures Jacobian, Hessia...Figure 7.7 Jacobian, Hessian, and Laplacian from z-terms and Christoffel symbols...Figure 7.8 Contribution of the u and v parameters of the z-term of the Jacobian,...Figure 7.9 All Christoffel symbols for the three contravariant indices: top, k =...Figure 7.10 Plot of all Christoffel symbols shows change in contribution for , ...Figure 7.11 Ensemble surface measures as indicators of ensemble surface features...Figure 7.12 A 3D morphospace of ensemble surface measures of valve formation for...Figure 7.13 A 3D morphospace of ensemble surface measures of valve formation for...

8 Chapter 8Figure 8.1 Top row: A non-buckled (a) and buckled (b) microtubule filament or bu...Figure 8.2 (a) Ray tracing valve formation on the valve face from annulus to mar...Figure 8.3 From left to right, centric diatom 3D surface models of Actinoptychus...Figure 8.4 Change in tangent lines and planes during valve formation indicate th...Figure 8.5 Plots of Actinoptychus, Arachnoidiscus, and Cyclotella buckling durin...Figure 8.6 The Jacobian determinant as the coefficient of deformation during val...Figure 8.7 Strain rate tensor deformation for Actinoptychus, Arachnoidiscus, and...Figure 8.8 Combined strain rate tensor deformation for Actinoptychus, Arachnoidi...Figure 8.9 Upper Hessenberg matrix eigenvalues for Actinoptychus, Arachnoidiscus...Figure 8.10 Non-buckling (blue curve) and buckling (orange curve) for Actinoptyc...Figure 8.11 Upper Hessenberg matrices for all taxa based on the Jacobian (a) and...Figure 8.12 Multiscale buckling with respect to association of valve surface, mi...

9 Chapter 9Figure 9.1 Centric diatom schematic with valve profile. Axial load at the point ...Figure 9.2 Various potential valve profiles undergoing buckling.Figure 9.3 Measurement of buckling forces with respect to two fixed points along...Figure 9.4 Least-squares polynomial curve fits of six profiles. In the x-directi...Figure 9.5 Tracings of diatom profiles after those depicted in Figures 26a–e fro...Figure 9.6 Curve fit of a sixth-order polynomial in Cartesian coordinates to the...Figure 9.7 Plot of approximately constant profile length from six polynomial lea...Figure 9.8 Valve profile buckling forces at the valve mantle ordered from lowest...Figure 9.9 Plot of size reduction step during diatom vegetative reproduction usi...Figure 9.10 Plot of valve profile versus buckling force representing Figure 9.4 ...

10 Chapter 12Figure 12.1 Generalized concept of centric and pennate frustule morphotypes amon...Figure 12.2 Silica valves of different diatoms in light microscopy. Micrographs ...Figure 12.3 (a) Morphotypes, habitats and lifestyles of centric diatoms. Centric...Figure 12.4 Variation of PAR attenuation in diatom dominated environments. In th...Figure 12.5 Example of frustule structural variation in centric and pennate diat...Figure 12.6 Permanent preparation diatom slide in dark field microscopy. (a) Mos...Figure 12.7 Chord diagram of studied optical properties of diatom frustules. Lef...

11 Chapter 13Figure 13.1 The diversity of biomineralization across the eukaryotes .... with c...Figure 13.2 Light and fluorescence microscopy images of Ulnaria ferefusiformis c...Figure 13.3 Melted silica gel (left) and siliceous diatom frustules (right). Sca...Figure 13.4 Initial 2D stage of valve morphogenesis of the diatom Ulnaria ferefu...Figure 13.5 Typical structure of silaffin chain.Figure 13.6 3D confocal images of siliceous valves of Ulnaria ferefusiformis. Th...Figure 13.7 Condensation of silica nanoparticles under the action of decrease of...Figure 13.8 Proposal for two forms of artificial SDVs (silica deposition vesicle...Figure 13.9 Proposed hierarchical genetic model controlling the synthesis of the...

12 Chapter 14Figure 14.1 Lateral valves of A. islandica after cytochalasin D exposure (laser ...Figure 14.2 The structure of girdle bands on the valves of normal (a) and colchi...Figure 14.3 Valve ultrastructure in normal (a–c) and paclitaxel-treated (d–g) E....Figure 14.4 Influence of inhibitors with different mechanisms of action on valve...

13 Chapter 15Figure 15.1 Schematic structure of native silaffin-1A1 from C. fusiformis. Catio...Figure 15.2 S_N2-like mechanism of silicic acid polycondensation.Figure 15.3 Monomeric silicic acid incorporation on the surface of a silica part...Figure 15.4 Dependence of silicic acid polymerization on solution pH.Figure 15.5 Dependence of silicic acid polymerization on temperature.Figure 15.6 Schematic chemical structures of cationic silicic acid stabilizers. ...Figure 15.7 Ability of cationic polymers to stabilize silicic acid (initial conc...Figure 15.8 Schematic chemical structures of neutral (uncharged) silicic acid st...Figure 15.9 Ability of neutral (uncharged) polymers to stabilize silicic acid (i...Figure 15.10 Schematic chemical structures of zwitterionic silicic acid stabiliz...Figure 15.11 Ability of zwitterionic polymers to stabilize silicic acid (initial...Figure 15.12 Schematic chemical structures of anionic polymers used in blends of...Figure 15.13 Ability of blends of cationic and anionic polymers to stabilize sil...Figure 15.14 Stabilizing interactions of silicic acid with neutral moieties (in ...

14 Chapter 16Figure 16.1 (a) SEM illustrates the muliscalar porosity appearing in valve view ...Figure 16.2 (a) Diagram showing the frustule structure of a centric frustule on ...Figure 16.3 (a) SEM of the external valve face of the raphid pennate diatom Nitz...Figure 16.4 A schematic diagram representing the loculate areolae (a) and puncta...Figure 16.5 A transmission electron micrograph (TEM) showing a cross section thr...Figure 16.6 Scanning and transmission electron micrographs showing different typ...Figure 16.7 Some examples of non-spherical mesoporous silica structures. Adapted...Figure 16.8 Different applications of mesoporous silica. From [16.80] under a Cr...Figure 16.9 Two TEMs for a comparison between (a) synthetic MSMs with diameter 2...Figure 16.10 A schematic diagram of the concept of engineering diatom ultrastruc...