Additionally, there were two nucleotide differences between the t

Additionally, there were two nucleotide differences between the two types of ITS1 sequences at positions 2112 and 2188 (in reference to KF110799). The Staurosporine insertion/deletion was further confirmed by PCR using primers flanking the region and subsequent BAY 11-7082 supplier sequencing of PCR amplicons. Figure 4 Comparison of the

Oxyspirura petrowi type 1 and type 2 ITS1 sequences at the insertion/deletion site. Their sequences are available at GenBank database with accession numbers [GenBank:KF110799] and [GenBank:KF110800]. While the 5.8S rRNA gene shared significant sequence homology to those of other nematodes available the NCBI databases (data not shown), both the ITS1 and ITS2 regions displayed high sequence diversity (i.e., no significant hits in BLASTN searches of the NCBI nucleotide databases). Because of the insertion/deletion at the ITS1 region, we initially designed two pairs of primers based on the ITS2 sequence for the potential of using nested PCR-based molecular detection of O. petrowi: an external primer pair QEW_2373F (5’-AAG AAT GTA ATG TTG TGG AGC-3’) and QEW_2681R MNK inhibitor (5’-GTA ATC ACA TTT GAG TTG AGG-3’), and an internal primer pair QEW_2417F and QEW_2578R (as described in the Methods section) that would give 309 bp and 162 bp

products, respectively. However, after our pilot experiments indicated that nested PCR was unnecessary, we used regular qPCR reactions with the QEW_2417F and QEW_2578R primers

in subsequent detection of O. petrowi DNA from wild bobwhite fecal specimens collected in Texas in February – March, 2013. The specificity of the QEW_2417F and QEW_2578R primer pair for O. petrowi was also confirmed by its inability to produce products from DNA isolated from the cecal worm A. pennula that is commonly present in wild quail (Figure 5). Figure 5 Agarose gel (1.5%) electrophoresis illustrating PCR-based detection of Oxyspirura petrowi DNA from quail fecal samples. Lane M: 100-bp molecular marker; Lanes EW and CW: regular PCR using DNA isolated from adult eye worm (EW, O. petrowi) and cecal worm (CW, A. pennula) isolated from wild quail as positive and negative controls (Ctl); Lanes S1 – S7: results of real-time qPCR detection from selected positive and negative stool DNA samples. On the other hand, due to the lack of molecular sequences 3-mercaptopyruvate sulfurtransferase at the ITS regions from very closely related species, we could not firmly conclude that the relatively short primers were absolutely specific to O. petrowi. In fact, only six ITS1 sequences were present in the GenBank database for the superfamily Thelazioidea, including five from Thelazia species and one from O. conjuctivalis (accession: EF417873). However, these ITS1 sequences were highly divergent from each other and from those of O. petrowi (i.e., 47.5% – 48.5% identities between the O. conjuctivalis and O. petrowi and 26.1% – 53.

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