<p>Cartoons have been drawn for clarity and are not intended to suggest that most early sprouts arise from the LVP.</p
<p>(<b>A</b>) Close-up of the rudiment, focused on two of the adult spine cavities and the developin...
<p>(Left, A–E) Z-projections of confocal stacks encompassing the developing SC in <i>Prox1-GFP</i> e...
<p>(A) Schematic representation of the pattern of the 64 clones in E14.5 lox-LacZ embryos induced at...
<p>(A) Cartoon representing an early stage in the development of SC. At P1 and P2, endothelial cells...
<p>The images show VECAD (yellow) immunolabeled cells in the IZ in the plane of the future SC at the...
<p>Schematic drawing depicting the growth phases of <i>Synechococcus</i> 7942.</p
This is a series of excerpts from an animation of the process of stylet biogenesis in the Asian citr...
<p>(<b>A</b>) The three major developmental phases during spicule formation: <u>phase I</u>: primord...
<p>(A–B) Tip cells from the LVP penetrating into the deeper limbal tissue. (A) Depth coded maximum i...
(A) Schematic of the Drosophila larval CNS depicting the localisation of the NSC lineages. The 2 mai...
Schlemm\u27s canal (SC) plays central roles in ocular physiology. These roles depend on the molecula...
<p>Selected time-lapse images of a living <i>Tg(flk1</i>:<i>EGFP)</i><sup><i>k7</i></sup> embryo fro...
Schlemm’s canal (SC) plays central roles in ocular physiology. These roles depend on the molecular p...
<p>Schematic representation of a longitudinal cross section through a Brachypodium embryo with speci...
Schlemm's canal (SC) plays central roles in ocular physiology. These roles depend on the molecular p...
<p>(<b>A</b>) Close-up of the rudiment, focused on two of the adult spine cavities and the developin...
<p>(Left, A–E) Z-projections of confocal stacks encompassing the developing SC in <i>Prox1-GFP</i> e...
<p>(A) Schematic representation of the pattern of the 64 clones in E14.5 lox-LacZ embryos induced at...
<p>(A) Cartoon representing an early stage in the development of SC. At P1 and P2, endothelial cells...
<p>The images show VECAD (yellow) immunolabeled cells in the IZ in the plane of the future SC at the...
<p>Schematic drawing depicting the growth phases of <i>Synechococcus</i> 7942.</p
This is a series of excerpts from an animation of the process of stylet biogenesis in the Asian citr...
<p>(<b>A</b>) The three major developmental phases during spicule formation: <u>phase I</u>: primord...
<p>(A–B) Tip cells from the LVP penetrating into the deeper limbal tissue. (A) Depth coded maximum i...
(A) Schematic of the Drosophila larval CNS depicting the localisation of the NSC lineages. The 2 mai...
Schlemm\u27s canal (SC) plays central roles in ocular physiology. These roles depend on the molecula...
<p>Selected time-lapse images of a living <i>Tg(flk1</i>:<i>EGFP)</i><sup><i>k7</i></sup> embryo fro...
Schlemm’s canal (SC) plays central roles in ocular physiology. These roles depend on the molecular p...
<p>Schematic representation of a longitudinal cross section through a Brachypodium embryo with speci...
Schlemm's canal (SC) plays central roles in ocular physiology. These roles depend on the molecular p...
<p>(<b>A</b>) Close-up of the rudiment, focused on two of the adult spine cavities and the developin...
<p>(Left, A–E) Z-projections of confocal stacks encompassing the developing SC in <i>Prox1-GFP</i> e...
<p>(A) Schematic representation of the pattern of the 64 clones in E14.5 lox-LacZ embryos induced at...
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