2012
DOI: 10.2478/s11756-012-0072-3
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Improved phosphate metabolism and biomass production by overexpression of AtPAP18 in tobacco

Abstract: Limited availability of phosphate ion (Pi) reduces plant growth in natural ecosystems. Here, we report the functional effects of overexpressing an Arabidopsis thaliana purple acid phosphatase encoding gene, AtPAP18, in Nicotiana tabbacum as a crop model plant. Transgenic tobacco plants exhibited significant increases in acid phosphatase activity, total P and Pi contents leading to improved biomass production in both Pi-deficient and Pi-sufficient conditions. Transient expression of AtPAP18::green fluorescent f… Show more

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Cited by 15 publications
(15 citation statements)
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“…[49][50][51][52] Furthermore, having insighti nto the molecular details of the mechanism by whichp lant PAPs hydrolyze substrates will also contribute to the field of plant biotechnology,g uiding the designo ft ransgenic plants that express more efficient PAPs in ordert oi mprovec rop yields and reduce or eliminate the need for fertilizers. [53][54][55][56] …”
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confidence: 99%
“…[49][50][51][52] Furthermore, having insighti nto the molecular details of the mechanism by whichp lant PAPs hydrolyze substrates will also contribute to the field of plant biotechnology,g uiding the designo ft ransgenic plants that express more efficient PAPs in ordert oi mprovec rop yields and reduce or eliminate the need for fertilizers. [53][54][55][56] …”
mentioning
confidence: 99%
“…To determine the enzymatic activities, we constructed a standard curve using identified concentrations of PO 4 3 . We defined each unit of APase activity as 1 mmol of released Pi per min [13].…”
Section: Apase Activity Assaymentioning
confidence: 99%
“…Also, transgenic plants exhibited enhanced P efficiency and better root and shoot growth rates versus the controls [6]. Overexpression of AtPAP18 in Nicotiana tabbacum led to significantly increased acid phosphatase activity, total P and Pi contents, resulting in improved biomass production in both Pi-deficient and Pi-sufficient conditions [12,13].…”
Section: Introductionmentioning
confidence: 99%
“…The fresh weight increase in transgenic Arabidopsis lines bearing Faseolus vulgaris phosphatase (PvPs2:1) was significantly larger than that in wild type plants at low and high P levels, especially at the latter, accompanying by the upper of total P content and total root length [51]. AtPAP18 (Arabidopsis purple acid phosphatase encoding gene) tobacco plants exhibited significant increase in the acid phosphatase activity leading to an improved biomass production in both P i -deficient and P i -sufficient conditions [52].…”
mentioning
confidence: 99%
“…In both P i -deficient and P i -sufficient conditions 1.41 (total FW) [52] Mitochondrial malate dehydrogenase (MDH) gene from the mycorrhizal fungi Penicillium oxalicum Al-phosphate medium 1.49 (total FW) [47] The same Fe-phosphate medium 1.29 (total FW) [47] The same Ca-phosphate medium 1.28 (total FW) [47] The Table 2 Transgenic plant advantages in biomass production in different stress conditions transcription factor resulted in reduced plant growth compared with the control plants under normal growth conditions [65]. However, the 35S:SlAIM1 plants grow significantly better than the wild-type controls under high salinity, and only marginally lower than the 35S: SlAIM1 plants grown without salt stress.…”
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confidence: 99%