Pm. Booth et al., ASSEMBLY AND CLONING OF CODING SEQUENCES FOR NEUROTROPHIC FACTORS DIRECTLY FROM GENOMIC DNA USING POLYMERASE CHAIN-REACTION AND URACIL DNA GLYCOSYLASE, Gene, 146(2), 1994, pp. 303-308
The polymerase chain reaction (PCR) was used to amplify individual exo
ns of the gene (CNTF) coding for human ciliary neurotrophic factor (CN
TF) directly from genomic DNA. Inclusion of deoxyuracil in place of th
ymine in the PCR primers permits removal of dU residues in the primer
after amplification using uracil DNA glycosylase, generating single-st
randed 3' overhangs. Thus, the individual exons were assembled to gene
rate the full-length CNTF sequence. A similar strategy was also used t
o generate a chimeric gene (BDNF) encoding brain-derived neurotrophic
factor (BDNF) with the pre-pro sequence of nerve growth factor (NGF).
The method described allows direct amplification of coding sequence fr
om genomic DNA and ordered assembly of amplified exons to generate a c
lone containing the complete coding sequence of the gene without the n
eed for splicing; a clone which is equivalent to a cDNA clone.