A constitutively active form of At-ACA8, a plasma membrane Ca2+-ATPase from Arabidopsis thaliana (L.) Heynh., from which the first 74 amino acids containing the calmodulin-binding domain (D74-At- ACA8) had been deleted, was expressed in Saccharomyces cerevisiae strain K616, which lacks the main endogenous active Ca2+ transport systems. D74-At- ACA8 complemented the K616 phenotype, making it able to grow in a calcium-depleted medium. D74-At- ACA8 protein, which co-migrated with the endoplasmic reticulum marker BiP in a sucrose-density gradient, catalyzed MgATP-dependent Ca2+ uptake and Ca2+- dependent MgATP hydrolysis, and retained the biochemical characteristics of the native plant plasma membrane Ca2+-ATPase (low specificity for nucleoside triphosphate, high sensitivity to inhibition by the fluorescein derivatives erythrosin B and eosin Y), thus confirming that it is correctly folded and functional. Substitution of the 794HE residues (numbers refer to fulllength At-ACA8) following the highly conserved TGDG(TV)NDP(AS)L motif in the cytoplasmic headpiece with two lysine residues generated an hyperactive protein, with a catalytic activity 2-fold higher than that of D74-At-ACA8. The 794HE fi KK mutant was also about 6-fold more sensitive than D74-At-ACA8 to inhibition by vanadate, indicating that the mutation determines an increase in the proportion of enzyme in the E2 state during the catalytic cycle.
Functional expression in yeast of an N-deleted form of At-ACA8, a plasma membrane Ca2+-ATPase of Arabidopsis thaliana, and characterization of a hyperactive mutant / M.C. Bonza, L. Luoni, M.I. De Michelis. - In: PLANTA. - ISSN 0032-0935. - 218:5(2004), pp. 814-823.
Functional expression in yeast of an N-deleted form of At-ACA8, a plasma membrane Ca2+-ATPase of Arabidopsis thaliana, and characterization of a hyperactive mutant
M.C. BonzaPrimo
;L. LuoniSecondo
;M.I. De MichelisUltimo
2004
Abstract
A constitutively active form of At-ACA8, a plasma membrane Ca2+-ATPase from Arabidopsis thaliana (L.) Heynh., from which the first 74 amino acids containing the calmodulin-binding domain (D74-At- ACA8) had been deleted, was expressed in Saccharomyces cerevisiae strain K616, which lacks the main endogenous active Ca2+ transport systems. D74-At- ACA8 complemented the K616 phenotype, making it able to grow in a calcium-depleted medium. D74-At- ACA8 protein, which co-migrated with the endoplasmic reticulum marker BiP in a sucrose-density gradient, catalyzed MgATP-dependent Ca2+ uptake and Ca2+- dependent MgATP hydrolysis, and retained the biochemical characteristics of the native plant plasma membrane Ca2+-ATPase (low specificity for nucleoside triphosphate, high sensitivity to inhibition by the fluorescein derivatives erythrosin B and eosin Y), thus confirming that it is correctly folded and functional. Substitution of the 794HE residues (numbers refer to fulllength At-ACA8) following the highly conserved TGDG(TV)NDP(AS)L motif in the cytoplasmic headpiece with two lysine residues generated an hyperactive protein, with a catalytic activity 2-fold higher than that of D74-At-ACA8. The 794HE fi KK mutant was also about 6-fold more sensitive than D74-At-ACA8 to inhibition by vanadate, indicating that the mutation determines an increase in the proportion of enzyme in the E2 state during the catalytic cycle.Pubblicazioni consigliate
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