D. Cichon scite author profile

D. Cichon

2Publications

44Citation Statements Received

12Citation Statements Given

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West Pomeranian University of Technology

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Single Nucleotide Polymorphism in the <i>LDHA </i>Gene as a Potential Marker for the Racing Performance of Pigeons

et al. 2014

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The objective of the present study was to investigate the relationship between the g.2582481G＞A, g.2583935G ＞A and g.2584057C＞T single nucleotide polymorphisms (SNPs) within the lactate dehydrogenase A gene (LDHA) coding for lactate dehydrogenase isoform A and the racing performance of homing pigeons. As a measure of racing performance, we used the mean values of ace points won by individual birds during the whole season. The estimated heritability of the racing performance of pigeons was relatively low (h 2 ＝0. 0596; SE＝0. 0249). The analysis performed for all race reports together showed that the factors such as gender, weather conditions at the start and at the end of the race affect the analyzed trait. Of the 3 single nucleotide polymorphisms, only the effect of the g.2582481G ＞A genotype on the performance of racing pigeons was significant. Statistical analysis indicated the difference in the value of ace points between the animals of GG and GA genotypes for the g.2582481G＞A SNP. The study showed that the genotype homozygous for g.2582481A is linked to the highest mean value of ace points. Consequently, the relationship between the genotype for g.2582481G＞A and the racing performance was shown.

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The Cys83Gly amino acid substitution in feather keratin is associated with pigeon performance in long-distance races

Proskura¹,

Łukaszewicz²,

Dzierzba³

et al. 2017

Vet. Med. - Czech

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The aim of this study was to investigate the association of the g.710T>G polymorphism in the keratin gene, which results in a cysteine to glycine amino acid change at position 83 (Cys83Gly) in feather keratin, with homing pigeon racing performance. A total of 123 homing pigeons were investigated. The data set used in this study consisted of scores from 17 short races (less than 400 km) and 11 long races (greater than 500 km) that took place in the 2011 and 2012 racing seasons (2589 race records in total). The genotyping of the g.710T>G polymorphism was performed using the artificially created restriction site-PCR assay. The T allele and the TT genotype were prevalent with frequencies of 0.658 and 0.447, respectively. The TT pigeons had the highest mean of ace points in the long races and in all races overall, while the GT birds scored the best in the short races. Nevertheless, the effect of the polymorphism was significant only in the long races (P = 0.0451), in which the pigeons carrying the TT genotype showed better racing performance in comparison with those carrying the GG genotype (P ≤ 0.05). In order to explain this phenomenon, several bioinformatics tools were employed to check for the possible consequences of the Cys83Gly substitution for feather keratin. The cysteine at position 83 was indicated to form a disulphide bond, while the Cys83Gly substitution was predicted to disturb the stability of the protein. However, the predictions preformed using the different tools were not entirely consistent. Nevertheless, the loss of the cysteine at position 83 of pigeon feather keratin may affect the structure of feathers, thus changing their biomechanical characteristics, and consequently, may influence the flying ability of pigeons.

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D. Cichon

Single Nucleotide Polymorphism in the <i>LDHA </i>Gene as a Potential Marker for the Racing Performance of Pigeons

The Cys83Gly amino acid substitution in feather keratin is associated with pigeon performance in long-distance races

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