Only the final cloning step was modified so that instead of using the l TriplEx2 vector supplied with the kit, the size fractionated cDNA was ligated into pGEM T Easy according to the manufacturers instructions, and transformed into XL10 Gold ultracompetent cells according to the manufacturers protocol. 80 clones, randomly selected from each library, were then selleck chemical sequenced and analysed using BLAST BLAST to determine transcript identity and redundancy. The primer used for sequencing was the 5SMARTlibPCR primer a modification of the SMART IV oligonucleotide supplied with the SMART cDNA library construction kit. Screening for redundant clones Upon examination of the sequences of 160 clones, from the cDNA libraries of both whole crab and crab organ, redundancies for 16 S ribosomal RNA tran scripts were found to be as high as 30%.
To remove 16 S rRNA carrying plasmids, all of the clones were first screened for the 16 S rRNA sequence, using a colony hybridisation method. Briefly three probes, were designed from sepa rate regions of the 16 S rRNA sequence. These probes were PCR amplified and labelled with 32P, then hybri dised to clones that had been fixed to nitrocellulose fil ters. Following an overnight incubation at 55 C in hybridisation buffer, the filters were washed twice at 55 C in a solution of 6xSSC and 0. 2% SDS for 30 min, sealed within plastic and exposed onto autoradiography films at 70 C using intensifying screens. The films were then developed according to suppliers instructions. Construction of custom P.
pelagicus cDNA microarrays 5000 unsequenced clones, that had been pre screened for 16 S rRNA, were randomly selected for spotting onto the microarray slides. 2400 were selected from the whole crab library and 2600 from the crab organ library. These were grown overnight in LB containing 50 ug ml ampi cillin. The clones were sent to the AgGenomics microarray printing facility. The clones were PCR amplified using kit supplied primers and contact spotted using pins, onto amino silane coated glass slides, in a 50% DMSO buffer. Known crab genes, that were identified at the initial sequencing stage, such as actin cryptocyanin, hemocyanin, metallothionein, opsin and ubiquitin were spotted onto the arrays for use as controls. Genes specifically Carfilzomib asso ciated with the moulting process such as moult inhibiting hormone, crustacean hyperglycaemic hormone and FaMeT long isoform, were isolated separately from P. pelagi cus through the design of gene specific primers and spotted on to the arrays. In addition universal reference RNA standard controls were also spotted onto each array, as were negative control spots of 50% DMSO. The cDNA was bound to the slide surface by baking and UV crosslinking.