In silico genomic analysis of heat shock protein 70 in poultry under tropical conditions

Abayomi Jude Agbana, Adebayo Omowaye Ete, Roseline Ruth Fanwo, Emmanuel Umakwu Simon, Babatunde Aderemi Yusuf
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Abstract

The negative effect of climate change predisposes farm animals under tropical conditions to heat stress, which limit their productivity. This has necessitated the search for livestock with suitable adaptive genotype. Limited records exist for livestock with high genetic adaptability hence, selection for the most suitable breeding stock remain difficult. This study attempt to use genomic characteristics of heat shock protein 70 (HSP70) in common meat type birds as biomarker for selecting breeding stock of high genetic merit for tolerance. In silico expasy translate tool analysis revealed that heat shock protein 70 gene in chicken (Gallus gallus) and Japanese quail (Cortinux japonica) are on chromosome 30 and contain 2 and 3 exons linked to 67 and 45 introns, respectively while, in turkey (Meleagris gallopavo) and guinea fowl (Numida meleagris), HSP70 gene is located on chromosome 24 and 28, respectively. They also contain 2 and 4 exons interspersed by 41 and 38 introns, respectively. The variations in chromosomal locations validates differences observed in the adaptation and geographical spread of studied animals. It may also provide new insight into cellular response to heat stress and adaptive mechanism which is necessary in selection. Functional properties and physiological structures resisting thermal stress needs further investigation.
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热带条件下家禽热休克蛋白 70 的硅基因组分析
气候变化的负面影响使热带条件下的农场动物容易受到热应激的影响,从而限制了它们的生产力。因此,有必要寻找具有适当适应性基因型的牲畜。具有高遗传适应性的家畜记录有限,因此,选择最合适的种畜仍然困难重重。本研究试图利用普通肉用鸟类热休克蛋白 70(HSP70)的基因组特征作为生物标志物,来选择具有高遗传适应性的种畜。默观分析工具显示,鸡(Gallus gallus)和日本鹌鹑(Cortinux japonica)的热休克蛋白 70 基因位于第 30 号染色体上,分别含有 2 和 3 个外显子,与 67 和 45 个内含子相连;而火鸡(Meleagris gallopavo)和珍珠鸡(Numida meleagris)的 HSP70 基因分别位于第 24 和 28 号染色体上。它们还分别含有 2 个和 4 个外显子,中间穿插着 41 个和 38 个内含子。染色体位置的变化验证了所研究动物在适应性和地理分布上的差异。它还可能为了解细胞对热应激的反应和适应机制提供新的视角,而这正是选择所必需的。抗热应激的功能特性和生理结构需要进一步研究。
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