Isospora coerebae Berto, Flausino, Luz, Ferreira and Lopes, 2010

Isospora coerebae Berto, Flausino, Luz, Ferreira and Lopes, 2010

Host: Bananaquit Coereba flaveola (Linnaeus, 1758) ( Passeriformes : Thraupidae : Coerebinae )

Locality: Private Natural Heritage Reserve of Porangaba (22°48’29.83’’S; 43°49’38.77’’W), Municipality of Itaguaí , State of Rio de Janeiro, Southeastern Brazil GoogleMaps .

Specimens: Photomicrographs are deposited and available (http://r1.ufrrj.br/labicoc/colecao.html) in the Parasitology Collection of the Laboratório de Biologia de Coccídios, at UFRRJ, under repository number 115/2021. Photovouchers of the host specimens are deposited in the same collection.

Representative DNA sequence: DNA amplification of the COI1 and COI2 genic regions showed clear bands around ~250 bp and ~650 bp, respectively. Representative sequences were deposited in the GenBank database under the accession numbers: OK194671 View Materials (COI1); and OK194672 View Materials (COI2).

Site of infection: Unknown.

Prevalence: 100% (1/1).

Sporulation: Exogenous. All oocysts were passed in the feces unsporulated and were fully sporulated by day 7 in K 2 Cr 2 O 7 solution at room temperature (20–25°C).

Morphology ( Fig 1 View FIGURE 1 A-F): Oocyst (n = 15) sub-spherical, 22−27 × 22−25 (24.4 × 22.9); length/width (L/W) ratio 1.0−1.1 (1.07). Wall bi-layered, smooth outer wall about 2/3 total thickness, 1.5−1.8 (1.7). Micropyle, polar granules and oocyst residuum absent. Sporocyst elongate ovoidal, 16−19 × 10−11 (17.6 × 10.5); L/W ratio 1.6−1.8 (1.67). Stieda body present, prominent and rounded, 1.3−1.5 × 1.9−2.3 (1.4 × 2.1). Sub-Stieda body present, short and wide, 1.0−1.6 × 3.1−3.7 (1.3 × 3.5). Para-Stieda body absent. Crystalloid body sometimes present in the center of the sporocyst. Sporocyst residuum present, composed of many scattered granules of different sizes. Sporozoites vermiform, with a prominent posterior refractile body.

Remarks: The oocysts recovered from the bananaquit in the current work are morphologically equivalent to the original description of I. coerebae , which have a typical and easily identifiable morphology, mainly in the Stieda and Sub-Stieda bodies ( Berto et al. 2010). Table 1 View TABLE 1 compares the morphology and morphometry of the oocysts from the current work with those from the original description of I. coerebae . The typical morphology of the Stieda and Sub-Stieda bodies of I. coerebae are the basis of differentiation from another congeneric species, Isospora cagasebi Berto, Flausino, Luz, Ferreira and Lopes, 2008 , which has the same host- and locality-types: C. flaveola in the Marambaia Island (Berto et al. 2008) ( Table 1 View TABLE 1 ). However, in the current work no oocyst of I. cagasebi was observed, which, despite being similar in some characteristic features to I. coerebae , their sporocysts have knob-like Stieda body and prominent Sub-Stieda body, while I. coerebae has rounded Stieda body and short and wide Sub-Stieda body ( Berto et al. 2010).

Phylogenetic analysis: Phylogenetic analysis included sequences from coccidians available in GenBank ( Figs. 2 View FIGURE 2 ; 3 View FIGURE 3 ). Toxoplasma gondii (Nicolle and Manceaux, 1908) was used as the outgroup. In the phylogenetic analysis based on the COI1 gene ( Fig. 2 View FIGURE 2 ), I. coerebae was recovered in a clade with the highest similarity of 99% with Isospora sepetibensis Berto, Flausino, Luz, Ferreira and Lopes, 2008 from black-goggled tanagers Trichothraupis melanops (Vieillot, 1818) of the Itatiaia National Park, which is located in the mountainous region in the interior of Southeastern Brazil. In the COI2 based phylogenetic analysis ( Fig. 3 View FIGURE 3 ), I. coerebae sat in a large clade with Isospora spp. from passerines of North America, Europe and Asia, with the highest similarity of 98% with Isospora greineri Hafeez, Stasiak, Delnatte, El-Sherry, Smith and Barta, 2014 from superb starlings Lamprotornis superbus Rüppell, 1845 at the Toronto Zoo, Toronto, Canada.