Positional cloning of a temperature-sensitive mutant emmental reveals a role for Sly1 during cell proliferation in zebrafish fin regeneration

Alex Nechiporuk; Kenneth D. Poss; Stephen L. Johnson; Mark T. Keating

doi:10.1016/S0012-1606(03)00129-5

Positional cloning of a temperature-sensitive mutant emmental reveals a role for Sly1 during cell proliferation in zebrafish fin regeneration

Alex Nechiporuk, Kenneth D. Poss, Stephen L. Johnson, Mark T. Keating

Research output: Contribution to journal › Article › peer-review

57 Scopus citations

Abstract

Here, we used classical genetics in zebrafish to identify temperature-sensitive mutants in caudal fin regeneration. Gross morphological, histological, and molecular analyses revealed that one of these strains, emmental (emm), failed to form a functional regeneration blastema. Inhibition of emm function by heat treatment during regenerative outgrowth rapidly blocked regeneration. This block was associated with reduced proliferation in the proximal blastema and expansion of the nonproliferative distal blastemal zone. Positional cloning revealed that the emm phenotype is caused by a mutation in the orthologue of yeast sly1, a gene product involved in protein trafficking. sly1 is upregulated in the newly formed blastema as well as during regenerative outgrowth. Thus, sly1 is essential for blastemal organization and proliferation during two stages of fin regeneration.

Original language	English (US)
Pages (from-to)	291-306
Number of pages	16
Journal	Developmental Biology
Volume	258
Issue number	2
DOIs	https://doi.org/10.1016/S0012-1606(03)00129-5
State	Published - Jun 15 2003
Externally published	Yes

Keywords

Blastema
Fin
Genetics
Regeneration
Sly1
Zebrafish
emmental

ASJC Scopus subject areas

Molecular Biology
Developmental Biology
Cell Biology

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10.1016/S0012-1606(03)00129-5

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title = "Positional cloning of a temperature-sensitive mutant emmental reveals a role for Sly1 during cell proliferation in zebrafish fin regeneration",

abstract = "Here, we used classical genetics in zebrafish to identify temperature-sensitive mutants in caudal fin regeneration. Gross morphological, histological, and molecular analyses revealed that one of these strains, emmental (emm), failed to form a functional regeneration blastema. Inhibition of emm function by heat treatment during regenerative outgrowth rapidly blocked regeneration. This block was associated with reduced proliferation in the proximal blastema and expansion of the nonproliferative distal blastemal zone. Positional cloning revealed that the emm phenotype is caused by a mutation in the orthologue of yeast sly1, a gene product involved in protein trafficking. sly1 is upregulated in the newly formed blastema as well as during regenerative outgrowth. Thus, sly1 is essential for blastemal organization and proliferation during two stages of fin regeneration.",

keywords = "Blastema, Fin, Genetics, Regeneration, Sly1, Zebrafish, emmental",

author = "Alex Nechiporuk and Poss, {Kenneth D.} and Johnson, {Stephen L.} and Keating, {Mark T.}",

note = "Funding Information: We are grateful to the members of Stephen Johnson{\textquoteright}s lab for technical advice during the mutagenesis screen. We thank Jennifer Sheppard, Janet Finney, Ann Hillam, Lindsay Wilson, Angela Sanchez, and Soo Kim for excellent fish care. We also thank the members of the Electron Microscopy core facilities at the Department of Cell Biology, Harvard Medical School for help with transmission electron microscopy. K.D.P. was supported by a postdoctoral fellowship from the Helen Hay Whitney Foundation. S.L.J. was supported by NIH PO1 Grant HD39952.",

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doi = "10.1016/S0012-1606(03)00129-5",

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AU - Poss, Kenneth D.

AU - Johnson, Stephen L.

AU - Keating, Mark T.

N1 - Funding Information: We are grateful to the members of Stephen Johnson’s lab for technical advice during the mutagenesis screen. We thank Jennifer Sheppard, Janet Finney, Ann Hillam, Lindsay Wilson, Angela Sanchez, and Soo Kim for excellent fish care. We also thank the members of the Electron Microscopy core facilities at the Department of Cell Biology, Harvard Medical School for help with transmission electron microscopy. K.D.P. was supported by a postdoctoral fellowship from the Helen Hay Whitney Foundation. S.L.J. was supported by NIH PO1 Grant HD39952.

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Y1 - 2003/6/15

N2 - Here, we used classical genetics in zebrafish to identify temperature-sensitive mutants in caudal fin regeneration. Gross morphological, histological, and molecular analyses revealed that one of these strains, emmental (emm), failed to form a functional regeneration blastema. Inhibition of emm function by heat treatment during regenerative outgrowth rapidly blocked regeneration. This block was associated with reduced proliferation in the proximal blastema and expansion of the nonproliferative distal blastemal zone. Positional cloning revealed that the emm phenotype is caused by a mutation in the orthologue of yeast sly1, a gene product involved in protein trafficking. sly1 is upregulated in the newly formed blastema as well as during regenerative outgrowth. Thus, sly1 is essential for blastemal organization and proliferation during two stages of fin regeneration.

AB - Here, we used classical genetics in zebrafish to identify temperature-sensitive mutants in caudal fin regeneration. Gross morphological, histological, and molecular analyses revealed that one of these strains, emmental (emm), failed to form a functional regeneration blastema. Inhibition of emm function by heat treatment during regenerative outgrowth rapidly blocked regeneration. This block was associated with reduced proliferation in the proximal blastema and expansion of the nonproliferative distal blastemal zone. Positional cloning revealed that the emm phenotype is caused by a mutation in the orthologue of yeast sly1, a gene product involved in protein trafficking. sly1 is upregulated in the newly formed blastema as well as during regenerative outgrowth. Thus, sly1 is essential for blastemal organization and proliferation during two stages of fin regeneration.

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Positional cloning of a temperature-sensitive mutant emmental reveals a role for Sly1 during cell proliferation in zebrafish fin regeneration

Abstract

Keywords

ASJC Scopus subject areas

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