Novel Alleles of gon-2, a C. elegans Ortholog of Mammalian TRPM6 and TRPM7, Obtained by Genetic Reversion Screens

TRP (Transient Receptor Potential) cation channels of the TRPM subfamily have been found to be critically important for the regulation of Mg2+ homeostasis in both protostomes (e.g., the nematode, C. elegans, and the insect, D. melanogaster) and deuterostomes (e.g., humans). Although significant prog...

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Veröffentlicht in:	PloS one 2015-11, Vol.10 (11), p.e0143445
Hauptverfasser:	Lambie, Eric J, Bruce, 3rd, Robert D, Zielich, Jeffrey, Yuen, Sonia N
Format:	Artikel
Sprache:	eng
Schlagworte:	Alleles Amino Acid Sequence Amino Acid Substitution Amino acids Animals Caenorhabditis elegans Caenorhabditis elegans - genetics Caenorhabditis elegans Proteins - chemistry Caenorhabditis elegans Proteins - genetics Cations Channel gating Channels Deregulation Developmental biology Eukaryotes Gene Dosage Gene mutation Homeostasis Insects Ion Channels - chemistry Ion Channels - genetics Kinases Magnesium Missense mutant Molecular biology Molecular Sequence Data Mutants Mutation Nematodes Phenylalanine Physiology Proteins Regulation Residues Reversion Revertants Screens Sequence Alignment Serine Transient receptor potential proteins TRPM Cation Channels - chemistry TRPM Cation Channels - genetics
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description	TRP (Transient Receptor Potential) cation channels of the TRPM subfamily have been found to be critically important for the regulation of Mg2+ homeostasis in both protostomes (e.g., the nematode, C. elegans, and the insect, D. melanogaster) and deuterostomes (e.g., humans). Although significant progress has been made toward understanding how the activities of these channels are regulated, there are still major gaps in our understanding of the potential regulatory roles of extensive, evolutionarily conserved, regions of these proteins. The C. elegans genes, gon-2, gtl-1 and gtl-2, encode paralogous TRP cation channel proteins that are similar in sequence and function to human TRPM6 and TRPM7. We isolated fourteen revertants of the missense mutant, gon-2(q338), and these mutations affect nine different residues within GON-2. Since eight of the nine affected residues are situated within regions that have high similarity to human TRPM1,3,6 and 7, these mutations identify sections of these channels that are potentially critical for channel regulation. We also isolated a single mutant allele of gon-2 during a screen for revertants of the Mg2+-hypersensitive phenotype of gtl-2(-) mutants. This allele of gon-2 converts a serine to phenylalanine within the highly conserved TRP domain, and is antimorphic against both gon-2(+) and gtl-1(+). Interestingly, others have reported that mutation of the corresponding residue in TRPM7 to glutamate results in deregulated channel activity.
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Although significant progress has been made toward understanding how the activities of these channels are regulated, there are still major gaps in our understanding of the potential regulatory roles of extensive, evolutionarily conserved, regions of these proteins. The C. elegans genes, gon-2, gtl-1 and gtl-2, encode paralogous TRP cation channel proteins that are similar in sequence and function to human TRPM6 and TRPM7. We isolated fourteen revertants of the missense mutant, gon-2(q338), and these mutations affect nine different residues within GON-2. Since eight of the nine affected residues are situated within regions that have high similarity to human TRPM1,3,6 and 7, these mutations identify sections of these channels that are potentially critical for channel regulation. We also isolated a single mutant allele of gon-2 during a screen for revertants of the Mg2+-hypersensitive phenotype of gtl-2(-) mutants. 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Although significant progress has been made toward understanding how the activities of these channels are regulated, there are still major gaps in our understanding of the potential regulatory roles of extensive, evolutionarily conserved, regions of these proteins. The C. elegans genes, gon-2, gtl-1 and gtl-2, encode paralogous TRP cation channel proteins that are similar in sequence and function to human TRPM6 and TRPM7. We isolated fourteen revertants of the missense mutant, gon-2(q338), and these mutations affect nine different residues within GON-2. Since eight of the nine affected residues are situated within regions that have high similarity to human TRPM1,3,6 and 7, these mutations identify sections of these channels that are potentially critical for channel regulation. We also isolated a single mutant allele of gon-2 during a screen for revertants of the Mg2+-hypersensitive phenotype of gtl-2(-) mutants. This allele of gon-2 converts a serine to phenylalanine within the highly conserved TRP domain, and is antimorphic against both gon-2(+) and gtl-1(+). Interestingly, others have reported that mutation of the corresponding residue in TRPM7 to glutamate results in deregulated channel activity.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>26606136</pmid><doi>10.1371/journal.pone.0143445</doi><oa>free_for_read</oa></addata></record>
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subjects	Alleles Amino Acid Sequence Amino Acid Substitution Amino acids Animals Caenorhabditis elegans Caenorhabditis elegans - genetics Caenorhabditis elegans Proteins - chemistry Caenorhabditis elegans Proteins - genetics Cations Channel gating Channels Deregulation Developmental biology Eukaryotes Gene Dosage Gene mutation Homeostasis Insects Ion Channels - chemistry Ion Channels - genetics Kinases Magnesium Missense mutant Molecular biology Molecular Sequence Data Mutants Mutation Nematodes Phenylalanine Physiology Proteins Regulation Residues Reversion Revertants Screens Sequence Alignment Serine Transient receptor potential proteins TRPM Cation Channels - chemistry TRPM Cation Channels - genetics
title	Novel Alleles of gon-2, a C. elegans Ortholog of Mammalian TRPM6 and TRPM7, Obtained by Genetic Reversion Screens
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