<p>(A) Percentage of zebrafish with (white) and without (black) a tissue bridge at the different time points post-lesion. (B) Photographs of dissected spinal cord showing the new tissue in the transection site (asterisks) and bridging the spinal cord stumps. Bar = 1 mm.</p
<p>A) A longitudinal section of 1 dpi cord showing TGFβ positive cells in both grey matter (GM, yell...
Spinal cord injury (SCI) in mammals results in functional deficits that are mostly permanent due in ...
<p>A) Schematic representation of different events and underlying expression of some important genes...
<p>(A) Distribution and orientation of GFAP-positive cells and processes at two weeks post-lesion in...
Zebrafish regenerate their spinal cord after injury, both at larval and adult stages. Larval zebrafi...
<p>(A) Examples of swimming path recorded in a five-min period at two- (“2 wpl”) and eight (“8 wpl”)...
<p>The spinal cord was cut between 8<sup>th</sup> and 9<sup>th</sup> vertebra. At different time poi...
<p>A) Vein diagram illustrates number of genes that are expressed (uniquely as well as shared) durin...
<p><b>:</b> A-C) An uninjured cord section showing a few SOX2<sup>+</sup> (A, arrow) cells in the gr...
Severe injury to the mammalian spinal cord results in permanent loss of function due to the formatio...
<p>(A) Left section: Schematic cartoon of an adult zebrafish caudal fin where the amputation site is...
Zebrafish, in contrast to mammals, are capable of functional regeneration after complete transection...
Zebrafish are an effective vertebrate model to study the mechanisms underlying recovery after spinal...
The ability to regenerate spinal cord tissue after tail amputation has been well studied in several ...
The zebrafish spinal cord is an effective investigative model for nervous system research for severa...
<p>A) A longitudinal section of 1 dpi cord showing TGFβ positive cells in both grey matter (GM, yell...
Spinal cord injury (SCI) in mammals results in functional deficits that are mostly permanent due in ...
<p>A) Schematic representation of different events and underlying expression of some important genes...
<p>(A) Distribution and orientation of GFAP-positive cells and processes at two weeks post-lesion in...
Zebrafish regenerate their spinal cord after injury, both at larval and adult stages. Larval zebrafi...
<p>(A) Examples of swimming path recorded in a five-min period at two- (“2 wpl”) and eight (“8 wpl”)...
<p>The spinal cord was cut between 8<sup>th</sup> and 9<sup>th</sup> vertebra. At different time poi...
<p>A) Vein diagram illustrates number of genes that are expressed (uniquely as well as shared) durin...
<p><b>:</b> A-C) An uninjured cord section showing a few SOX2<sup>+</sup> (A, arrow) cells in the gr...
Severe injury to the mammalian spinal cord results in permanent loss of function due to the formatio...
<p>(A) Left section: Schematic cartoon of an adult zebrafish caudal fin where the amputation site is...
Zebrafish, in contrast to mammals, are capable of functional regeneration after complete transection...
Zebrafish are an effective vertebrate model to study the mechanisms underlying recovery after spinal...
The ability to regenerate spinal cord tissue after tail amputation has been well studied in several ...
The zebrafish spinal cord is an effective investigative model for nervous system research for severa...
<p>A) A longitudinal section of 1 dpi cord showing TGFβ positive cells in both grey matter (GM, yell...
Spinal cord injury (SCI) in mammals results in functional deficits that are mostly permanent due in ...
<p>A) Schematic representation of different events and underlying expression of some important genes...
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