Abstract
Embryo-specific overexpression of biotin carboxyl carrier protein 2 (BCCP2) inhibited plastid acetyl-coenzyme A carboxylase (ACCase), resulting in altered oil, protein, and carbohydrate composition in mature Arabidopsis (Arabidopsis thaliana) seed. To characterize gene and protein regulatory consequences of this mutation, global microarray, two-dimensional difference gel electrophoresis, iTRAQ, and quantitative immunoblotting were performed in parallel. These analyses revealed that (1) transgenic overexpression of BCCP2 did not affect the expression of three other ACCase subunits; (2) four subunits to plastid pyruvate dehydrogenase complex were 25% to 70% down-regulated at protein but not transcript levels; (3) key glycolysis and de novo fatty acid/lipid synthesis enzymes were induced; (4) multiple storage proteins, but not cognate transcripts, were up-regulated; and (5) the biotin synthesis pathway was up-regulated at both transcript and protein levels. Biotin production appears closely matched to endogenous BCCP levels, since overexpression of BCCP2 produced mostly apo-BCCP2 and the resulting ACCase-compromised, low-oil phenotype. Differential expression of glycolysis, plastid pyruvate dehydrogenase complex, fatty acid, and lipid synthesis activities indicate multiple, complex regulatory responses including feedback as well as futile "feed-forward" elicitation in the case of fatty acid and lipid biosynthetic enzymes. Induction of storage proteins reveals that oil and protein synthesis share carbon intermediate(s) and that reducing malonyl-coenzyme A flow into fatty acids diverts carbon into amino acid and protein synthesis.
Highlights
To produce antibody against pdPGM (At5g51820), cytoPGM (At1g23190), TPI (At3g55440), phosphoribulokinase (At1g32060), enolase (At2g36530), FK (At2g31390), PGAM (At1g09780), and b-glucosidase (At3g21370), the genecoding sequences were PCR amplified from their cDNA clones using the primers listed in Supplemental Table
Wild-type and transgenic, napin-BCCP2 (T3 homozygous) Arabidopsis (Arabidopsis thaliana var Columbia) seeds were sown in moistened Pro-mix soil (Premier Horticulture) and grown under a 16-h-light/8-h-dark cycle, 23°C day/20°C night, 50% humidity, and light intensity of 200 mmol m22 s21
Mature seeds were harvested and air dried for analysis
Summary
Wild-type and transgenic, napin-BCCP2 (T3 homozygous) Arabidopsis (Arabidopsis thaliana var Columbia) seeds were sown in moistened Pro-mix soil (Premier Horticulture) and grown under a 16-h-light/8-h-dark cycle, 23°C day/20°C night, 50% humidity, and light intensity of 200 mmol m22 s21. Flowers were tagged prior to opening, and siliques were harvested and seeds dissected at 9, 11, 13, or 15 DAF. Mature seeds were harvested and air dried for analysis. Five or eight biological replicates for each line were used, and results were expressed on a dry mass basis. Sample preparation and analysis were conducted by following the procedure described by Siloto et al (2006). Total RNA Isolation, RNA Amplification, Biotin Labeling, and Hybridization to the Arabidopsis ATH1 GeneChips
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