Analysis of Kkv apical distribution [Dataset]

All images are projections of confocal sections, of super-resolution microscopy. (A, B) Kkv localises apically in the trachea of wild-type embryos (A) and in absence of exp reb (B). (C, D) The localisation of Kkv is apical also in presence of exp ΔMH2 in trachea (C) and in presence of MH2-exp in sal...

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Bibliographic Details
Authors: Giorgio, Ettore de, Giannios, Panagiotis, Espinàs, Maria Lluïsa, Llimargas, Marta
Format: conjunto de datos
Status:Published version
Publication Date:2023
Country:España
Institution:Consejo Superior de Investigaciones Científicas (CSIC)
Repository:DIGITAL.CSIC. Repositorio Institucional del CSIC
OAI Identifier:oai:digital.csic.es:10261/337667
Online Access:http://hdl.handle.net/10261/337667
https://doi.org/10.20350/digitalCSIC/15657
Access Level:Open access
Keyword:Highly abundant polymer
Div >< p
Chitin structural diversity
Chitin accumulates intracellularly
kkv subcellular localisation
Fully elucidated yet
Ectodermal tissues requires
Apical extracellular matrices
Elucidated yet
Extracellular space
Apical domain
Chitin synthase
Chitin deposition
Chitin biosynthesis
Topological distribution
Rebuf reveals
Proteins expansión
Principal component
Previously showed
Multiple applications
Molecular mechanisms
Molecular análisis
Mh2 domain
Less punctae
kkv complexes
Excellent biomaterial
Dynamic interplay
Drosophila </
Conserved proteins
Conserved nα
Concomitant activities
Although kkv
Description
Summary:All images are projections of confocal sections, of super-resolution microscopy. (A, B) Kkv localises apically in the trachea of wild-type embryos (A) and in absence of exp reb (B). (C, D) The localisation of Kkv is apical also in presence of exp ΔMH2 in trachea (C) and in presence of MH2-exp in salivary glands (D). (E, F) At stage 14, in wild-type embryos (E) and in embryos deficient for exp and reb (F), Kkv is present in the apical membrane and in many intracellular vesicles (yellow arrowheads). (G) At stage 16, in wild-type embryo, Kkv apical distribution follows the pattern of taenidial folds and intracellular vesicles are mostly absent. (H) At stage 16, in exp reb mutant embryos, Kkv is apical but shows altered distribution pattern. (I, J) At stage 15, in control embryos, Kkv pattern is apical and covers the whole membrane leaving minimal spatial gaps (I); instead, in exp reb mutant embryos, Kkv distribution changes to a less organised pattern at the apical membrane (J). (K) Three different types of spatial distribution within a selected area. The positions of the defined objects can be random and exhibit characteristics of attraction (clustered pattern) or repulsion (regular pattern). The F-Function tends to be larger (≈1) for clustered patterns and smaller (≈0) for regular. The G-Function tends to be smaller (≈0) for clustered and larger (≈1) for regular patterns. (L) Kkv punctae (magenta) on the apical cell area marked by Armadillo (green) in the trachea of a control embryo. (L’) Positions of Kkv punctae on the selected area marked by black dots. (L”) Random pattern of distribution for the same area created by the spatial statistics 2D/3D image analysis plugin. (M) The corresponding observed F and G functions (blue) are displayed above and below the reference simulated random distributions (black) and the 95% confidence interval (light gray), respectively, indicating a nonrandom spatial pattern. (N) SDI histogram for the F-Function of the control (blue) and the Df(exp reb) samples. A significant difference between the frequency distributions for each group of individuals has been observed. (Kolmogorov–Smirnov D = 0.5833, p < 0.05) (N’) SDI histogram for the G-Function of the control (blue) and the Df(exp reb) samples. Statistical analysis of the distributions did not reveal significant differences between the two groups of individuals for this parameter (Kolmogorov–Smirnov D = 0.25, p > 0.05). (O) Kkv punctae (magenta) on the apical cell area marked by Armadillo (green) in the trachea of a exp reb mutant embryo. (O’) Positions of Kkv punctae on the selected area marked by black dots. (O”) Random pattern of distribution for the same area created by the spatial statistics 2D/3D image analysis plugin. (P) The corresponding observed F and G functions (blue) are displayed above and below the reference simulated random distributions (black), respectively. Both curves largely overlap with the 95% confidence interval (light gray), indicating a tendency towards a random spatial pattern. (Q) Frequency distribution histograms for the nearest neighbour distances between Kkv punctae in control (blue) and exp reb mutant samples. The distribution of values between the two groups is found significantly different (Kolmogorov–Smirnov D = 0.2036, p < 0.005). The underlying data for quantifications can be found in the S1 Data. Scale bars A-J: 10 μm; L, O: 2 μm.