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Direct and maternal genetic effects for preinflection point growth traits and humoral immunity in quail

Early growth traits in quails are considered as the growth performances before the inflection point which are genetically different from body weights (BW) at later stages. Moreover, in addition to growth performance, humoral immunity is moderately heritable and is considered in some breeding program...

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Detalles Bibliográficos
Autores principales: Sarvari-Kalouti, Hojjat, Maghsoudi, Ali, Rokouei, Mohammad, Faraji-Arough, Hadi, Bagherzadeh-Kasmani, Farzad
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9719865/
https://www.ncbi.nlm.nih.gov/pubmed/36470033
http://dx.doi.org/10.1016/j.psj.2022.102340
Descripción
Sumario:Early growth traits in quails are considered as the growth performances before the inflection point which are genetically different from body weights (BW) at later stages. Moreover, in addition to growth performance, humoral immunity is moderately heritable and is considered in some breeding programs. However, estimating the direct genetic, particularly the maternal genetic correlations between growth and immunity in quail, are not studied sufficiently, which were the aims of the present study. The quails’ BW were recorded at hatch (BW0) to 25 d of age with a 5-d interval and body weight gains (BWG) were measured as average growth performance of the birds in a 5-d period. Antibody titer against Newcastle disease virus (IgN) was measured through the hemagglutination inhibition (HI) test. For titration of anti-SRBC antibodies (IgY and IgM), a hemagglutination microtiter assay was used. In general, growth records in 4,181 birds and humoral immune responses in 1,023 birds were assigned to the study. The genetic parameters were estimated by single-trait analysis via Gibb's sampling. After finding the best model for each trait, multi-trait analysis was done to estimate the direct and maternal genetic correlations. Direct heritabilities (h(2)) were estimated to be moderate for BW (0.481−0.551) and BWG (0.524−0.557), while h(2) for immune responses were low (0.035−0.079). Maternal environmental effect (c(2)) was only significant for BW0, BW5, and BWG0-5. Maternal heritabilities (m(2)) for BW and BWG were all lower than corresponding h(2), ranging from 0.072 (BW25) to 0.098 (BW0). The m(2) for IgN (0.098) was more than 2.5 times greater than h(2) (0.040) for this trait. Direct (r(a)) and maternal (r(m)) genetic correlations between IgN-BW, IgY-BW, and IgY-BWG were negative, while ra and rm for IgM-BW, IgN-BWG, and IgM-BWG were positive. The r(a) between humoral immune responses were low to moderate and rm was significant only for IgY-IgM (0.339). Given positive genetic correlations in BWG-IgN and BWG-IgM as well as positive genetic correlations between both IgN and IgM with IgY, it is suggested that including the BWG in the breeding programs would directly result in the improvement of the birds’ growth performance. It would also contribute indirectly to the improvement of the birds’ humoral immune responses.