Publication:
Preliminary report: Homology Modeling of human, dog and catβ-adrenergic receptors

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vs-ar-waraphan-2012.pdf (886.97 KB)

Issued Date

2012

Resource Type

Research Article

Language

eng

ISSN

1906-2257

Rights

Mahidol University

Rights Holder(s)

Faculty of Veterinary Science Mahidol University

Bibliographic Citation

Journal of Applied Animal Science. Vol.5, No.2 (2012), 35-42

Suggested Citation

Waraphan Toniti, Pranom Puchadapirom, Aekkapot Chamkasem, Tawewan Tansatit Preliminary report: Homology Modeling of human, dog and catβ-adrenergic receptors. Journal of Applied Animal Science. Vol.5, No.2 (2012), 35-42. Retrieved from: https://repository.li.mahidol.ac.th/handle/20.500.14594/13319

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Title

Preliminary report: Homology Modeling of human, dog and catβ-adrenergic receptors

Alternative Title(s)

การทดลองเบื้องต้น: การสร้างแบบจำลองของตัวรับอะดรีเนอร์จิกชนิดเบต้าในมนุษย์ สุนัข และแมว โดยใช้เทคนิค Homology Modeling

Author(s)

Waraphan Toniti
 Pranom Puchadapirom
 Aekkapot Chamkasem
 Tawewan Tansatit

Other Contributor(s)

Mahidol University. Faculty of Veterinary Science. Department of Pre-clinic and Applied Animal Sciences
 Mahidol University. Faculty of Science. Department of Pathobiology

Abstract

Beta 2-adrenergic Receptors are widely distributed in heart, airway smooth muscle, liver, skeletal muscle and adipose tissue. The specific ligand, beta 2-agonist, binds at the specific binding site on ADRB2 then the signal transduction pathways begins. The three-dimensional configuration of ADRB2 is uniquely and determines by its amino acid sequence. In this study, human ADRB2, dog ADRB2, and cat ADRB2 sequences were studied by sequence of P07550, P54833 and Q9TST5, respectively. The similarity of human ADRB2 and dog ADRB2 was 90% whereas the similarity between human ADRB2 and cat ADRB2 was 89%. In addition, the similarity between dog ADRB2 and cat ADRB2 was 95%. The in silico ADRB2 models were generated and compared among species of interest. The results show that the shapes and the pocket sites of ADRB2 differ between species. The differences of ADRB2 three-dimensional configuration may give explanations about the variety of interaction between ADRB2 and its agonist among human, dog and cat. Further study of protein-protein interaction, structure-based drug design, and novel function of ADRB2 in companion animals may have basis from human ADRB2.

Keyword(s)

ADRB2
 Homology modeling
 in silico
 Human
 Dog
 Cat
 Journal of Applied Animal Science

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URI

https://repository.li.mahidol.ac.th/handle/20.500.14594/13319

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VS-Article