DNA was extracted from the remaining cells using the Puregene DNA purification kit (Flowgen, Ashby de la Zouch, UK). The DNA was stored at −20°C until required for analysis. When the DNA was thawed its concentration was determined by optical density readings using a spectrophotometer and aliquots of 50 ng was removed for use in real-time PCR experiments. Human sjTREC and albumin (ALB) levels were quantified using real-time PCR performed on the Roche Light Cycler (Roche Diagnostics, Lewes, UK). A PCR reaction

mixture containing 50 ng of DNA, 0·5 µM of forward and reverse primers and 2× SYBR Green mix (Qiagen, Crawley, UK) in a final reaction volume of 10 µl, using selleck inhibitor sterile water. The primer sequences used were sjTREC forward: GGC AGA AAG AGG GCA GCC CTC TCC AAG and reverse: GCC AGC TGC AGG GTT TAG G or ALB forward: CTA TCC GTG GTC CTG AAC CAG TTA TG and reverse: CTC TCC TTC TCA GAA AGT GTG CAT AT, which produced amplicons of 195 base pairs (bp) and 206 bp, respectively. Real-time PCR conditions on the Light Cycler were 95°C for 15 min, followed by 45 cycles at 95°C for 15 s, 61°C for 30 s and 72°C for 20 s (fluorescent acquisition). The albumin reaction was performed as described above, except that the annealing temperature was changed to 60°C. The 195 bp and 206 bp PCR products were identified by melting-point analysis.

A standard curve generated from a serial dilution of known concentration of sjTREC or albumin plasmid was used to enable calculation of the number of detectable molecules from the test samples. The copy number of sjTREC and ALB

(x) was calculated using the following equations: ysjTREC = −3·468x + 42·09 MG-132 nmr and yALB = −3·374x + 40·593, where the cycle threshold (Ct) value is substituted as y. A standard concentration of 1 × 104 sjTREC or ALB molecules was included to determine variance between each run and comparability of the sample. All samples were run Sulfite dehydrogenase in duplicate and an average of the result used for statistical analysis. Where Ct values of the duplicates were greater than 1·5 cycles the samples were rerun. From these readings we obtained a value of sjTREC per 50 ng of DNA. The amount of DNA obtained from the sample of PBMC was known, so we could calculate the number of sjTREC in the PBMC sample. Because sjTREC can be derived only from T cells and we had determined the number of CD3+ T cells by immunophenotyping in the sample, we could ascribe a definite value of sjTREC/T cell to the sample. The results of the descriptive analysis are presented for numerical variables in the form of means ± standard deviation (s.d.) and median for age; sample sizes and percentages calculated for categorical outcomes. Subjects’ characteristics and blood sample components were compared with respect to the age group. Statistical tests used for the comparative analysis were chosen according to the type of variable, the sample size under consideration and the number of group compared.