. 2012 Jan 24;7(1):e30648. doi: 10.1371/journal.pone.0030648

Table 1. Primers used in this study.

Gene and direction	Sequence
IS900, L1 ^±	CCCGTGACAAGGCCGAAGA
IS900, L9 ^±	CGGCCCTGGCGTTCCTATG
IS900, 900 R ^ŧ	ACGCTGTCTACCACCCCGCA
spoIVA, F	AAATCGGCACACGAAAAGTC
spoIVA, R	TGCCAATACCGGGATATCAT
Clostridium 16SrDNA, F ^Ψ	AAAGATGGCATCATCATTCAAC
Clostridium 16SrDNA, R ^Ψ	TACCGTCATTATCTTCCCCAAA
Universal 16SrRNA, F	AGAGTTTGATCCTGGCTCAG
Universal 16SrRNA, R	GGGTGGATCCTCCTT
MAP1002c, F	CGGGTGTGGAACTACGACTT
MAP1002c, R	TCTTCTTCCTCAGGTACGAGATGT
MAP0475, F	GACAAGGTATTCCAGGTGCTG
MAP0475, R	CTCGGCGACCTTGTTGAC
MAP0987, F	GCACGACGGCATCGTTAT
MAP0987, R	GTCAAGTCCGTCCGTCTCGGTGA

^±

Motiwala, A.S., et al. Molecular epidemiology of Mycobacterium avium subsp. paratuberculosis: evidence for limited strain diversity, strain sharing, and identification of unique targets for diagnosis. J Clin Micobiol, 2003. 41(5):2015–26.

^ŧ

Bull, T.J., et al. Characterization of IS900 loci in Mycobacterium avium subsp. paratuberculosis and development of multiplex PCR typing. Microbiology, 2000. 146:3285.

^Ψ

Wang, R.F., et al. A 16S rDNA-based PCR method for rapid and specific detection of Clostridium perferingens in food. Mol Cell Probes,m1994. 8(2): 131–7.