CC-4930 rbcL-LSATNC mt+
$30.00
From Robert J. Spreitzer, University of Nebraska, October 2014
Phenotype: requires elevated CO2 for photosynthetic growth
Fuqiao Xu in Spreitzer’s group created a codon-optimized Arabidopsis rbcL gene that encodes a large subunit with Chlamydomonas amino-acid sequences at the N and C termini. This Arabidopsis large subunit has 18 amino-acid substitutions (S2V, S10G, V11A, E19D, K21R, T391V, S398A, V399C, V418A, V428T, V439R, N442G, E443D, I444V, E447S, T466K, N468E, P470D) and lacks four C-terminal residues (Asp-476, Gly-477, Gln-478, Glu-479). When the engineered gene was transformed into rbcL∆-MX3312 mt+ (CC-4696), photosynthesis-competent transformants were recovered on minimal medium with 5% CO2 in air. Thus, this mutant expresses a functional Rubisco comprised of Chlamydomonas small subunits and engineered Arabidopsis large subunits. Western analysis indicated that the mutant strain has a normal level of Rubisco holoenzyme (Xu and Spreitzer, unpublished). This strain has been maintained with acetate medium in darkness to prevent selection for secondary mutations that may improve Rubisco function.