Sequence analysis of the Hex A gene in Jacob sheep from Bulgaria

Sequence analysis of the Hex A gene in Jacob sheep from Bulgaria

Background and Aim: Jacob sheep are a rare ancient breed of sheep believed to have originated from the Mediterranean area but which are now kept throughout the world. These sheep have recently attracted medical interest due to the observation of a genetic disorder in the breed that can be used as an...

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Main Authors: Boyko Neov, Jivko Krastanov, Teodora Angelova, Nadezhda Palova, Stayka Laleva, Peter Hristov
Format: Article
Language:English
Published: Veterinary World 2021-01-01
Series:Veterinary World
Subjects:
gm2 gangliosides
hexosaminidase a gene
human replacement therapy
jacob sheep
tay–sachs disease
Online Access:http://www.veterinaryworld.org/Vol.14/January-2021/7.pdf
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spelling doaj-4cc18b0ee06a407bbce5022214d07cca2021-08-02T21:15:19ZengVeterinary WorldVeterinary World0972-89882231-09162021-01-01141566010.14202/vetworld.2021.56-60Sequence analysis of the Hex A gene in Jacob sheep from BulgariaBoyko Neov0https://orcid.org/0000-0002-4084-4852Jivko Krastanov1Teodora Angelova2Nadezhda Palova3Stayka Laleva4Peter Hristov5https://orcid.org/0000-0002-7756-4571Department of Animal Diversity and Resources, Institute of Biodiversity and Ecosystem Research, Bulgarian Academy of Sciences, Sofia 1113, Bulgaria.Department of Breeding and Technologies in Cattle Breeding, Agricultural Institute – Stara Zagora, Agricultural Academy, Stara Zagora 6000, Bulgaria.Department of Breeding and Technologies in Cattle Breeding, Agricultural Institute – Stara Zagora, Agricultural Academy, Stara Zagora 6000, Bulgaria.Scientific Center of Agriculture, Sredets 8300, Agricultural Academy, Bulgaria.Department of Breeding and Technologies in Cattle Breeding, Agricultural Institute – Stara Zagora, Agricultural Academy, Stara Zagora 6000, Bulgaria.Department of Animal Diversity and Resources, Institute of Biodiversity and Ecosystem Research, Bulgarian Academy of Sciences, Sofia 1113, Bulgaria.Background and Aim: Jacob sheep are a rare ancient breed of sheep believed to have originated from the Mediterranean area but which are now kept throughout the world. These sheep have recently attracted medical interest due to the observation of a genetic disorder in the breed that can be used as an animal model of Tay–Sachs disease (TSD). This study aims to detect mutations in the Hexosaminidase A gene in Jacob sheep based on sequence analysis of the 284-bp fragment situated between exon 11 and intron 11 of the gene, a target sequence for site-specific mutation. This is the first study that has investigated Jacob sheep in Bulgaria for gene-specific mutations. Materials and Methods: A total of 20 blood samples were collected from Jacob sheep from the Rhodope Mountains. DNA was isolated from these samples, and a specific 284-bp fragment was amplified. The amplified products were purified using a polymerase chain reaction purification kit and sequenced in both directions. Results: Target sequences were successfully amplified from all 20 investigated sheep. Sequence analysis did not show the homozygous, recessive, missense (G-to-C transition) mutation at nucleotide position 1330 (G1330→C) in exon 11, demonstrating that all of these sheep were a normal genotype (wild-type). Conclusion: Jacob sheep are considered a potentially useful animal model in advancing the understanding of pathogenesis and developing potential therapies for orphan diseases, such as those characterized by mutant GM2 gangliosides. The clinical and biochemical features of the Jacob sheep model of TSD represent well the human classical late-infantile form of this disorder, indicating that the model can serve as a possible new research tool for further study of the pathogenesis and treatment of TSD.http://www.veterinaryworld.org/Vol.14/January-2021/7.pdfgm2 gangliosideshexosaminidase a genehuman replacement therapyjacob sheeptay–sachs disease
collection DOAJ
language English
format Article
sources DOAJ
author Boyko Neov
Jivko Krastanov
Teodora Angelova
Nadezhda Palova
Stayka Laleva
Peter Hristov
spellingShingle Boyko Neov
Jivko Krastanov
Teodora Angelova
Nadezhda Palova
Stayka Laleva
Peter Hristov
Sequence analysis of the Hex A gene in Jacob sheep from Bulgaria
Veterinary World
gm2 gangliosides
hexosaminidase a gene
human replacement therapy
jacob sheep
tay–sachs disease
author_facet Boyko Neov
Jivko Krastanov
Teodora Angelova
Nadezhda Palova
Stayka Laleva
Peter Hristov
author_sort Boyko Neov
title Sequence analysis of the Hex A gene in Jacob sheep from Bulgaria
title_short Sequence analysis of the Hex A gene in Jacob sheep from Bulgaria
title_full Sequence analysis of the Hex A gene in Jacob sheep from Bulgaria
title_fullStr Sequence analysis of the Hex A gene in Jacob sheep from Bulgaria
title_full_unstemmed Sequence analysis of the Hex A gene in Jacob sheep from Bulgaria
title_sort sequence analysis of the hex a gene in jacob sheep from bulgaria
publisher Veterinary World
series Veterinary World
issn 0972-8988
2231-0916
publishDate 2021-01-01
description Background and Aim: Jacob sheep are a rare ancient breed of sheep believed to have originated from the Mediterranean area but which are now kept throughout the world. These sheep have recently attracted medical interest due to the observation of a genetic disorder in the breed that can be used as an animal model of Tay–Sachs disease (TSD). This study aims to detect mutations in the Hexosaminidase A gene in Jacob sheep based on sequence analysis of the 284-bp fragment situated between exon 11 and intron 11 of the gene, a target sequence for site-specific mutation. This is the first study that has investigated Jacob sheep in Bulgaria for gene-specific mutations. Materials and Methods: A total of 20 blood samples were collected from Jacob sheep from the Rhodope Mountains. DNA was isolated from these samples, and a specific 284-bp fragment was amplified. The amplified products were purified using a polymerase chain reaction purification kit and sequenced in both directions. Results: Target sequences were successfully amplified from all 20 investigated sheep. Sequence analysis did not show the homozygous, recessive, missense (G-to-C transition) mutation at nucleotide position 1330 (G1330→C) in exon 11, demonstrating that all of these sheep were a normal genotype (wild-type). Conclusion: Jacob sheep are considered a potentially useful animal model in advancing the understanding of pathogenesis and developing potential therapies for orphan diseases, such as those characterized by mutant GM2 gangliosides. The clinical and biochemical features of the Jacob sheep model of TSD represent well the human classical late-infantile form of this disorder, indicating that the model can serve as a possible new research tool for further study of the pathogenesis and treatment of TSD.
topic gm2 gangliosides
hexosaminidase a gene
human replacement therapy
jacob sheep
tay–sachs disease
url http://www.veterinaryworld.org/Vol.14/January-2021/7.pdf
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AT jivkokrastanov sequenceanalysisofthehexageneinjacobsheepfrombulgaria
AT teodoraangelova sequenceanalysisofthehexageneinjacobsheepfrombulgaria
AT nadezhdapalova sequenceanalysisofthehexageneinjacobsheepfrombulgaria
AT staykalaleva sequenceanalysisofthehexageneinjacobsheepfrombulgaria
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