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Interactions between mutants with defects in two Ca2+-dependent K+ currents ofParamecium tetraurelia (1990)

Preston, Robin R. ; Saimi, Yoshiro ; Amberger, Ed ; [et al.]

Springer

The journal of membrane biology 115 (1990), S. 61-69

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ISSN: 1432-1424

Keywords: calmodulin ; Ca2+-dependent K+ channels ; ion channel regulation ; mutations ; Paramecium

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Paramecium tetraurelia possesses two Ca2+-dependent K+ currents, activated upon depolarizationI K(Ca,d), or upon hyperpolarizationI K(Ca,h). The two currents are mediated by pharmacologically distinct ion channel populations. Three mutations ofP. tetraurelia affect these current.s Pantophobiac A mutations (pntA) cause calmodulin sequence defects, resulting in the loss of both Ca2+-dependent K+ currents. A second mutation, TEA-insensitive A (teaA), greatly enhancesI K(Ca,d) but has no affect onI K(Ca,h). A third mutation,restless (rst), also increasesI K(Ca,d) slightly, but its principle effect is in causing an early activation ofI K(Ca,h). Interactions between the products of these three genes were investigated by constructing three double mutants. BothteaA andrst restoreI K(Ca,d) andI K(Ca,h) in pantophobiac A1, but the phenotypes ofteaA andrst are not corrected by a second mutation. These observations may indicate a role for the gene products ofteaA andrst in regulating the activity ofI K(Ca,d) andI K(Ca,h), respectively.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869106

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Interactions between gene products involved in divalent cation transport in Saccharomyces cerevisiae (1994)

Conklin, Douglas S. ; Culbertson, Michael R. ; Kung, Ching

Springer

Molecular genetics and genomics 244 (1994), S. 303-311

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ISSN: 1617-4623

Keywords: Metal homeostasis ; Metal resistance ; Transport ; Yeast

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The COT1 and ZRC1 genes of Saccharomyces cerevisiae are structurally related dosage-dependent suppressors of metal toxicity. COT1 confers increased tolerance to high levels of cobalt; ZRC1 confers increased tolerance to high levels of zinc. The two genes are not linked and have been mapped; COT1 to chromosome XV and ZRC1 to chromosome XIII. Phenotypes related to metal homeostasis have been examined in strains with varied COT1 and ZRC1 gene doses. Overexpression of COT1 confers tolerance to moderately toxic levels of zinc and ZRC1 confers tolerance to moderately toxic levels of cobalt. Strains that carry null alleles at both loci are viable. The metal-hypersensitive phenotypes of mutations in either gene are largely unaffected by changes in dosage of the other. COT1 and ZRCI function independently in conferring tolerance to their respective metals, yet the uptake of cobalt ions by yeast cells is dependent on the gene dosage of ZRC1 as well as of COT1 Strains that overexpress ZRC1 have increased uptake of cobalt ions, while ZRCI null mutants exhibit decreased cobalt uptake. The defects in cobalt uptake due to mutations at COT1 and ZRC1 are additive, suggesting that the two genes are responsible for the majority of cobalt and zinc uptake in yeast cells. The function of either gene product seems to be more important in metal homeostasis than is the GRR1 gene product, which is also involved in metal metabolism. Mutations in the GRR1 gene have no effect on the cobalt-related phenotypes of strains that have altered gene dosage of either COT1 or ZRC1.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00285458

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