Team:DTU-Denmark-2/results/Characterisation

Characterization

Here we describe the characterization of two fungal promoters. Our initial plan was to characterize all our fungal promoters; PgpdA a strong constitutive promoter, DMKP-P6 a medium strength constitutive promoter, and PalcA an inducible promoter. For some unknown reason it was not possible for us to amplify PgpdA with the linkers matching the USER cassette of plasmid p68, but it might have been due to the quality of the template. Therefore we could only characterize the promoters DMKP-P6 and PalcA. A simple way of analyzing promoters is by using a reporter gene. This was done by performing the widely used β-galactosidase assay (1) with the modifications described here.

Genetics and USER cloning

A. nidulans can integrate DNA fragments into its genome based on repair of double stranded breaks, either by non-homologous end joining (NHEJ) or homologous recombination (HR). With NHEJ integration will occur randomly; that is at a random site in a random number of copies, with little or no end processing. HR on the other hand uses widespread homology search to repair breaks and without loss of sequence around the break (3, 4). For the characterization of the promoters it is important only to have one copy integrated in the genome. Therefore the host used for transformation, nkuAΔ, was a NHEJ deficient strain, allowing integration by HR (2).

p68 is a plasmid that contains a lacZ gene, terminator, and a USER cassette. Furthermore it contains up- and down stream regions for targeting to a specific site called IS1 situated 202 bp downstream of AN6638 and 245 bp upstream of AN6639 (5). For HR to occur gene-targeting substrates have to contain these large homologous sequences around 1500 bp to ensure the targeted integration (5).


p68 was digested with AsiSi for 2 hours and following nicked with Nb.bstI for 1 hour, after this preparation the vector and each of the promoters were mixed in a USER reaction. Prior transformation of A. nidulans the plasmids were linearized with NotI to increase transformation efficiency. The nkuAΔ transformants containing PalcA::lacZ and the nkuAΔ transformants containing DMKP-P6::lacZ will following be referred to as nkuAΔ-IS1::PalcA::lacZ::TtrpC::argB and nkuAΔ-IS1::DMKP-P6::lacZ::TtrpC::argB, respectively.

Qualitative analysis

First the promoters were evaluated qualitatively by stabbing nkuAΔ-PalcA::lacZ and nkuAΔ-DMKP-P6::lacZ on 5-bromo-4-chloro-3-indolyl-D-galactoside (X-gal) plates. A functional promoter allows the expression of the lacZ gene and thereby β-galactosidase production resulting in blue colonies on X-gal plates. This means that blue colonies indicate that the transcription of the lacZ gene has occurred. The blue color is produced because β-galactosidase cleaves X-gal into 5- bromo-4-chloro-3-indolyl (blue) and D-galactose.

On the plates we have two positive controls that express lacZ from the constitutive promoters PgpdA 0.5kb and PgpdA 1.0kb (nkuAΔ-IS1::PgpdA 0.5kb::lacZ::TtrpC::argB and nkuAΔ-IS1::PgpdA 1.0kb::lacZ::TtrpC::argB) that we used to compare the intensity of the blue color. Moreover a reference strain nkuAΔ-IS1::DMKP-P6::TtrpC::argB (without the lacZ gene) was placed on the plates and was on both plates pale. As expected the two nkuAΔ-DMKP-P6::lacZ transformants were blue. By comparing the intensities of the blue color to the positive controls it appears that DMKP-P6 is most likely a promoter of medium strength.