Mutations affecting in chemosensory neurons of Caenorhabditis elegans

T. A. Starich; R. K. Herman; C. K. Kari; W. H. Yeh; W. S. Schackwitz; M. W. Schuyler; J. Collet; J. H. Thomas; D. L. Riddle

Mutations affecting in chemosensory neurons of Caenorhabditis elegans

T. A. Starich, R. K. Herman, C. K. Kari, W. H. Yeh, W. S. Schackwitz, M. W. Schuyler, J. Collet, J. H. Thomas, D. L. Riddle

Genetics, Cell Biology and Development (CBS)

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209 Scopus citations

Abstract

We have identified and characterized 95 mutations that reduce or abolish dye filling of amphid and phasmid neurons and that have little effect on viability, fertility or movement. Twenty-seven mutations occurred spontaneously in strains with a high frequency of transposon insertion. Sixty-eight were isolated after treatment with EMS. All of the mutations result in defects in one or more chemosensory responses, such as chemotaxis to ammonium chloride or formation of dauer larvae under conditions of starvation and overcrowding. Seventy-five of the mutations are alleles of 12 previously defined genes, mutations which were previously shown to lead to defects in amphid ultrastructure. We have assigned 20 mutations to 13 new genes, called dsf-1 through dyf-13. We expect that the genes represented by dye-filling defective mutants are important for the differentiation of amphid and phasmid chemosensilla.

Original language	English (US)
Pages (from-to)	171-188
Number of pages	18
Journal	Genetics
Volume	139
Issue number	1
State	Published - 1995

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AU - Starich, T. A.

AU - Herman, R. K.

AU - Kari, C. K.

AU - Yeh, W. H.

AU - Schackwitz, W. S.

AU - Schuyler, M. W.

AU - Collet, J.

AU - Thomas, J. H.

AU - Riddle, D. L.

PY - 1995

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AB - We have identified and characterized 95 mutations that reduce or abolish dye filling of amphid and phasmid neurons and that have little effect on viability, fertility or movement. Twenty-seven mutations occurred spontaneously in strains with a high frequency of transposon insertion. Sixty-eight were isolated after treatment with EMS. All of the mutations result in defects in one or more chemosensory responses, such as chemotaxis to ammonium chloride or formation of dauer larvae under conditions of starvation and overcrowding. Seventy-five of the mutations are alleles of 12 previously defined genes, mutations which were previously shown to lead to defects in amphid ultrastructure. We have assigned 20 mutations to 13 new genes, called dsf-1 through dyf-13. We expect that the genes represented by dye-filling defective mutants are important for the differentiation of amphid and phasmid chemosensilla.

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Mutations affecting in chemosensory neurons of Caenorhabditis elegans

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