CSIRO Publishing

Food, fibre and pharmaceuticals from animals

Shopping Cart: ( empty )

Articles citing this paper

Identification of differential duodenal gene expression levels and microbiota abundance correlated with differences in energy utilisation in chickens

Barbara M. Konsak ^A ^B ^D ^G , Dragana Stanley ^A ^D ^F ^G , Volker R. Haring ^A , Mark S. Geier ^B ^C ^D , Robert J. Hughes ^B ^C ^D , Gordon S. Howarth ^B , Tamsyn M. Crowley ^A ^D ^E and Robert J. Moore ^A ^D ^H

+ Author Affiliations

- Author Affiliations

^A Australian Animal Health Laboratory, CSIRO Animal, Food and Health Sciences, Geelong, Vic. 3220, Australia.

^B School of Animal and Veterinary Sciences, University of Adelaide, Roseworthy, SA 5371, Australia.

^C South Australian Research and Development Institute, Pig and Poultry Production Institute, Nutrition Research Laboratory, Roseworthy, SA 5371, Australia.

^D Poultry Cooperative Research Centre, PO Box U242, University of New England, Armidale, NSW 2315, Australia.

^E School of Medicine, Deakin University, Geelong, Vic. 3220, Australia.

^F Central Queensland University, Higher Education Division, Bruce Highway, Rockhampton, Qld, 4702.

^G Made equal contributions: co-first authorship.

^H Corresponding author. Email: rob.moore@csiro.au

Animal Production Science 53(12) 1269-1275 https://doi.org/10.1071/AN12426
Submitted: 13 December 2012 Accepted: 2 August 2013 Published: 1 October 2013

18 articles found in Crossref database.

Host and Environmental Factors Affecting the Intestinal Microbiota in Chickens

Kers Jannigje G., Velkers Francisca C., Fischer Egil A. J., Hermes Gerben D. A., Stegeman J. A., Smidt Hauke

Frontiers in Microbiology. 2018 9

Sorghum and wheat differentially affect caecal microbiota and associated performance characteristics of meat chickens

Crisol-Martínez Eduardo, Stanley Dragana, Geier Mark S., Hughes Robert J., Moore Robert J.

PeerJ. 2017 5 p.e3071

Fecal Microbiota Transplant from Highly Feed-Efficient Donors Shows Little Effect on Age-Related Changes in Feed-Efficiency-Associated Fecal Microbiota from Chickens

Siegerstetter Sina-Catherine, Petri Renée M., Magowan Elizabeth, Lawlor Peadar G., Zebeli Qendrim, O'Connell Niamh E., Metzler-Zebeli Barbara U., Dudley Edward G.

Applied and Environmental Microbiology. 2018 84(2).

Identification of hub genes involved in apparent metabolizable energy of chickens

Pezeshkian Zahra, Mirhoseini Seyed Ziaeddin, Ghovvati Shahrokh

Animal Biotechnology. 2022 33(2). p.242

Microbiota of the chicken gastrointestinal tract: influence on health, productivity and disease

Stanley Dragana, Hughes Robert J., Moore Robert J.

Applied Microbiology and Biotechnology. 2014 98(10). p.4301

Intestinal microbiota profiles associated with low and high residual feed intake in chickens across two geographical locations

Siegerstetter Sina-Catherine, Schmitz-Esser Stephan, Magowan Elizabeth, Wetzels Stefanie Urimare, Zebeli Qendrim, Lawlor Peadar G., O'Connell Niamh E., Metzler-Zebeli Barbara U., Smidt Hauke

PLOS ONE. 2017 12(11). p.e0187766

Are There Consistent Effects of Gut Microbiota Composition on Performance, Productivity and Condition in Poultry?

Marková Kateřina, Kreisinger Jakub, Vinkler Michal

Poultry Science. 2024 p.103752

Effects of Toll-like Receptor Ligands on the Expression of Proinflammatory Cytokines and Avian β-defensins in Cultured Chick Intestine

Terada Takumi, Nii Takahiro, Isobe Naoki, Yoshimura Yukinori

The Journal of Poultry Science. 2020 57(3). p.210

Mixed electron donors synergistically enhance CO2 fixation of non-photosynthetic microorganism communities through optimizing community structure to promote cbb gene transcription

Wu Song, Xi Xuefei, Fu Xiaohua, Hu Jia-jun, Zhang Saiwei, Wang Lei

Environmental Science and Pollution Research. 2021 28(13). p.16368

The gut microbiota is largely independent of host genetics in regulating fat deposition in chickens

Wen Chaoliang, Yan Wei, Sun Congjiao, Ji Congliang, Zhou Qianqian, Zhang Dexiang, Zheng Jiangxia, Yang Ning

The ISME Journal. 2019 13(6). p.1422

Bacteria and fungi in day-old turkeys vary among companies, collection periods, and breeder flocks

Smith A.H., Rehberger T.G.

Poultry Science. 2018 97(4). p.1400

The Interplay between Salmonella and Intestinal Innate Immune Cells in Chickens

Ijaz Adil, Veldhuizen Edwin J. A., Broere Femke, Rutten Victor P. M. G., Jansen Christine A.

Pathogens. 2021 10(11). p.1512

Non‑small-cell lung cancer pathological subtype‑related gene selection and bioinformatics analysis based on gene expression profiles

Chen Jiangpeng , Dong Xiaoqi , Lei Xun , Xia Yinyin , Zeng Qing , Que Ping , Wen Xiaoyan , Hu Shan , Peng Bin

Molecular and Clinical Oncology. 2017

Development of the duodenal, ileal, jejunal and caecal microbiota in chickens

Glendinning Laura, Watson Kellie A., Watson Mick

Animal Microbiome. 2019 1(1).

Ileal microbial composition in genetically distinct chicken lines reared under normal or high ambient temperatures

Emami Nima K., Schreier Lori L., Greene Elizabeth, Tabler Travis, Orlowski Sara K., Anthony Nicholas B., Proszkowiec-Weglarz Monika, Dridi Sami

Animal Microbiome. 2022 4(1).

Gene expression patterns in Korean native ducks ( Anas platyrhynchos) with different apparent metabolisable energy (AME) levels

Cho Jaesung, Jeong Jiyeon, Jeong Yelin, Heo Jung Min, Choi Inchul

Livestock Science. 2017 202 p.67

Host transcriptome and microbiome interaction modulates physiology of full-sibs broilers with divergent feed conversion ratio

Shah Tejas M., Patel Jignasha G., Gohil Tejas P., Blake Damer P., Joshi Chaitanya G.

npj Biofilms and Microbiomes. 2019 5(1).

Poultry gut health – microbiome functions, environmental impacts, microbiome engineering and advancements in characterization technologies

Aruwa Christiana Eleojo, Pillay Charlene, Nyaga Martin M., Sabiu Saheed

Journal of Animal Science and Biotechnology. 2021 12(1).