期刊: BRITISH POULTRY SCIENCE, 2022; 63 (2)
1. A better understanding of intestinal development is essential for the intestinal health of poultry. Intestinal villification starts on embryo day E......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (6)
1. Myoblast proliferation and differentiation is one of the most important biological processes in the development of skeletal muscle. MicroRNAs (miRN......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (3)
1. High stocking densities can lead to animal stress responses and lead to changes in bird behaviour, egg production and the fertility of laying birds......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (3)
1. The goals of this study were to analyse the changes in microbiota composition of chilled chicken during storage and identify microbial biomarkers r......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (5)
1. The following study explored the expression and preliminary function of the RGS3 gene. The spatial and temporal expression patterns of the RGS3 gen......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (6)
1. This study measured six reproduction traits in a Sichuan white goose population (209 individuals), including fertility, qualified egg rate, plasma ......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (2)
1. The aim of the present study was to identify differentially expressed genes (DEGs) and metabolic pathways involved in this phenotype. Fibromelanosi......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (3)
1. NOD1 is a significant member of the NOD-like receptor (NLR) family. Its main role is to identify microorganisms that invade the body, transmit immu......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (6)
1. Melatonin is an indole hormone that, among its myriad biological functions, regulates circadian and seasonal rhythms in animals. The ASMT gene play......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (3)
1. The major histocompatibility complex (MHC) is a highly polymorphic region of the genome essential to immune responses and animal health. However, a......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (3)
1. MicroRNAs (miRNAs) play key roles in regulating lipid metabolism, adipogenesis and fat deposition in chicken. To date, there are only a few miRNAs ......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (4)
1. The Wnt signalling pathway is centred on the fact that catenin beta-1(CTNNB1) participates in the regulation of ovarian follicle development. The a......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (6)
1. Angiopoietin-like protein 4 (ANGPTL4) plays a key role in promoting fat metabolism and reducing blood lipid. This study characterised the ANGPTL4 g......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (4)
1. The objective of this study was to investigate the evolution of SCNN1B and AHCYL1 proteins among 10 domestic avian and mammalian animal species, to......
期刊: BRITISH POULTRY SCIENCE, 2022; 63 (6)
1. The gene IGF2BP1 has been reported as being related to the body size and body weight in ducks, goats and chickens. However, this potential growth-r......
