Journal
ARCHIVES OF BIOCHEMISTRY AND BIOPHYSICS
Volume 481, Issue 2, Pages 157-168Publisher
ELSEVIER SCIENCE INC
DOI: 10.1016/j.abb.2008.11.010
Keywords
P-type ATPase; Ca-pump; Thapsigargin; Membrane transport; Tomato; Yeast; Mn2+ transport; Homology modeling
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Funding
- USDA [35318-12543]
- NSF CAREER Award [MCB-0347202]
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Recombinant Ca2+-ATPase from tomato (i.e. LCA1 for Lycopersicon esculentum [Since the identification and naming of LCA1, the scientific name for the tomato has been changed to Solarium lycopersicum.) Ca-ATPase) was heterologously expressed in yeast for structure-function characterization. We investigate the differences between plant and animal Ca pumps utilizing comparisons between chicken and rabbit SERCA-type pumps with Arabidopsis (ECA1) and tomato plant (LCA1) Ca2+-ATPases. Enzyme function was confirmed by the ability of each Ca2+-ATPase to rescue K616 growth on EGTA-containing agar and directly via in vitro ATP hydrolysis. We found LCA1 to be similar to 300-fold less sensitive to thapsigargin than animal SERCAs, whereas ECA1 was thapsigargin-resistant. LCA1 showed typical pharmacological sensitivities to cyclopiazonic acid, vanadate, and eosin, consistent with it being a P-IIA-type Ca2+-ATPase. Possible amino acid changes responsible for the reduced plant thapsigargin-sensitivity are discussed. We found that LCA1 also complemented K616 yeast growth in the presence of Mn2+, consistent with moving Mn2+ into the secretory pathway and functionally compensating for the lack of secretory pathway Ca-ATPases (SPCAs) in plants. Published by Elsevier Inc
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