Journal Year: 2020
Journal Month: August
Published On: 04-09-2020 09:10:00
Article DOI: 10.5958/2277-8934.2020.00021.1

Bin Yang1, Shan Bao2, Ming Yong3, Lihui Chen1, Huar Bao1, Sharku4, Shi Liu5 and Demtu Er1*
1College of Veterinary Medicine, Inner Mongolia Agricultural University, Key Laboratory of Clinical Diagnosis and Treatment
Technology in Animal Disease, Ministry of Agriculture and Rural Affairs, P.R. China, Hohhot, 010011, China
2Animal Husbandry Workstation of Agriculture and Animal Husbandry Bureau of Bayannur city, Xinhua west street,
3Veterinary Administration Bureau of Bayannur city, Xinhua west street, Linhe district, Bayannur city, 015000,
4Agriculture and Animal Husbandry Integrated Service Centre of Yinggen Sumu, Alxa Left Banner, 750323,
5Animal Disease Prevention and Control Centre of Alxa Left Banner, Bayanhot, 750300,
Inner Mongolia Autonomous Region, P.R. China


Proteome profile of hump of Bactrian camel was identified using a shotgun proteomic approach. GO annotation and KEGG were predicted using bioinformatic tools. As a result, a total of 1077 proteins were identified. We found
that the hump of Bactrian camel is equipped with a variety of functional proteins related to cellular process, metabolic process, binding, catalytic activity, cell, cell part and organelle. Three hundred and one different pathways in the hump of Bactrian camel were identified by KEGG analysis. Most of the pathways were associated with signal transduction pathways, metabolic pathways and energy metabolism. The identified proteome profile will help us understand the function of the hump of Bactrian camel.
Key words: Bactrian camel, hump, proteome, shotgun

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