The relationship between MHC-DRB1 gene second exon polymorphism and hydatidosis resistance of Chinese merino (Sinkiang Junken type), Kazakh and Duolang sheep

The relationship between MHC-DRB1 gene second exon polymorphism and hydatidosis resistance of Chinese merino (Sinkiang Junken type), Kazakh and Duolang sheep

The present study aimed at detecting the association of ovine major histocompatibility complex class II (Ovar II) DRB1 gene second exon and susceptibility or resistance to hydatidosis in three sheep breeds of Sinkiang. The MHC-DRB1 second exon was amplified by polymerase chain reaction (PCR) from DN...

Full description

Bibliographic Details
Main Authors: Li R.Y., Hui W.Q., Jia B., Shi G.Q., Zhao Z.S., Shen H., Peng Q., Lv L.M., Zhou Q.W., Li H.T.
Format: Article
Language:English
Published: EDP Sciences 2011-05-01
Series:Parasite
Subjects:
Chinese merino sheep (Sinkiang Junken type)
Kazakh sheep
Duolang sheep
Ovar-DRB1 exon 2
PCR-RFLP
hydatidosis
Online Access:http://dx.doi.org/10.1051/parasite/2011182163
id doaj-f29d71d7e73b491d8e8d55e928376f21
record_format Article
spelling doaj-f29d71d7e73b491d8e8d55e928376f212021-02-02T00:41:03ZengEDP SciencesParasite1252-607X1776-10422011-05-0118216316910.1051/parasite/2011182163parasite2011182p163The relationship between MHC-DRB1 gene second exon polymorphism and hydatidosis resistance of Chinese merino (Sinkiang Junken type), Kazakh and Duolang sheepLi R.Y.Hui W.Q.Jia B.Shi G.Q.Zhao Z.S.Shen H.Peng Q.Lv L.M.Zhou Q.W.Li H.T.The present study aimed at detecting the association of ovine major histocompatibility complex class II (Ovar II) DRB1 gene second exon and susceptibility or resistance to hydatidosis in three sheep breeds of Sinkiang. The MHC-DRB1 second exon was amplified by polymerase chain reaction (PCR) from DNA samples of healthy sheep and sheep with hydatidosis. PCR products were characterized by the restriction fragment length polymorphism (RFLP) technique. Five restriction enzymes, MvaI, HaeIII, SacI, SacII, Hin1I, were used, yielding 14 alleles and 31 restriction patterns. Frequencies of patterns MvaIbc, Hin1Iab, SacIIab, HaeIIIde, HaeIIIdf, HaeIIIdd (P < 0.01) in Kazakh sheep, SacIab (P < 0.05) in Duolang sheep, and HaeIIIab, HaeIIIce, HaeIIIde, HaeIIIee (P < 0.01) in Chinese Merino (Sinkiang Junken type) sheep, were significantly higher in healthy sheep compared with infected sheep. These results indicated a strong association between these patterns and hydatidosis resistance. In contrast, the frequencies of MvaIbb, SacIIaa, Hin1Ibb, HaeIIIef (P < 0.01) and HaeIIIab (P < 0.05) in Kazakh sheep, SacIbb, HaeIIIae, Hin1Iab (P < 0.05), HaeIIIaa, HaeIIIbe, HaeIIIef (P < 0.01) in Duolang sheep, SacIIaa (P < 0.05) and HaeIIIbd, Hin1Ibb, HaeIIIcf, HaeIIIef (P < 0.01) in Chinese Merino sheep (Sinkiang Junken type) were significantly lower in healthy sheep compared with infected sheep. This indicated a strong association between these patterns and hydatidosis susceptibility. In addition, sheep with the pattern of HaeIIIef demonstrated a high hydatidosis susceptibility (P < 0.01) in all three breeds, while sheep with the pattern HaeIIIde demonstrated significant hydatidosis resistance (P < 0.01) in Kazakh and Chinese Merino sheep (Sinkiang Junken type). These results suggest that the Ovar-DRB1 gene plays a role in resistance to hydatidosis infection in the three sheep breeds.http://dx.doi.org/10.1051/parasite/2011182163Chinese merino sheep (Sinkiang Junken type)Kazakh sheepDuolang sheepOvar-DRB1 exon 2PCR-RFLPhydatidosis
collection DOAJ
language English
format Article
sources DOAJ
author Li R.Y.
Hui W.Q.
Jia B.
Shi G.Q.
Zhao Z.S.
Shen H.
Peng Q.
Lv L.M.
Zhou Q.W.
Li H.T.
spellingShingle Li R.Y.
Hui W.Q.
Jia B.
Shi G.Q.
Zhao Z.S.
Shen H.
Peng Q.
Lv L.M.
Zhou Q.W.
Li H.T.
The relationship between MHC-DRB1 gene second exon polymorphism and hydatidosis resistance of Chinese merino (Sinkiang Junken type), Kazakh and Duolang sheep
Parasite
Chinese merino sheep (Sinkiang Junken type)
Kazakh sheep
Duolang sheep
Ovar-DRB1 exon 2
PCR-RFLP
hydatidosis
author_facet Li R.Y.
Hui W.Q.
Jia B.
Shi G.Q.
Zhao Z.S.
Shen H.
Peng Q.
Lv L.M.
Zhou Q.W.
Li H.T.
author_sort Li R.Y.
title The relationship between MHC-DRB1 gene second exon polymorphism and hydatidosis resistance of Chinese merino (Sinkiang Junken type), Kazakh and Duolang sheep
title_short The relationship between MHC-DRB1 gene second exon polymorphism and hydatidosis resistance of Chinese merino (Sinkiang Junken type), Kazakh and Duolang sheep
title_full The relationship between MHC-DRB1 gene second exon polymorphism and hydatidosis resistance of Chinese merino (Sinkiang Junken type), Kazakh and Duolang sheep
title_fullStr The relationship between MHC-DRB1 gene second exon polymorphism and hydatidosis resistance of Chinese merino (Sinkiang Junken type), Kazakh and Duolang sheep
title_full_unstemmed The relationship between MHC-DRB1 gene second exon polymorphism and hydatidosis resistance of Chinese merino (Sinkiang Junken type), Kazakh and Duolang sheep
title_sort relationship between mhc-drb1 gene second exon polymorphism and hydatidosis resistance of chinese merino (sinkiang junken type), kazakh and duolang sheep
publisher EDP Sciences
series Parasite
issn 1252-607X
1776-1042
publishDate 2011-05-01
description The present study aimed at detecting the association of ovine major histocompatibility complex class II (Ovar II) DRB1 gene second exon and susceptibility or resistance to hydatidosis in three sheep breeds of Sinkiang. The MHC-DRB1 second exon was amplified by polymerase chain reaction (PCR) from DNA samples of healthy sheep and sheep with hydatidosis. PCR products were characterized by the restriction fragment length polymorphism (RFLP) technique. Five restriction enzymes, MvaI, HaeIII, SacI, SacII, Hin1I, were used, yielding 14 alleles and 31 restriction patterns. Frequencies of patterns MvaIbc, Hin1Iab, SacIIab, HaeIIIde, HaeIIIdf, HaeIIIdd (P < 0.01) in Kazakh sheep, SacIab (P < 0.05) in Duolang sheep, and HaeIIIab, HaeIIIce, HaeIIIde, HaeIIIee (P < 0.01) in Chinese Merino (Sinkiang Junken type) sheep, were significantly higher in healthy sheep compared with infected sheep. These results indicated a strong association between these patterns and hydatidosis resistance. In contrast, the frequencies of MvaIbb, SacIIaa, Hin1Ibb, HaeIIIef (P < 0.01) and HaeIIIab (P < 0.05) in Kazakh sheep, SacIbb, HaeIIIae, Hin1Iab (P < 0.05), HaeIIIaa, HaeIIIbe, HaeIIIef (P < 0.01) in Duolang sheep, SacIIaa (P < 0.05) and HaeIIIbd, Hin1Ibb, HaeIIIcf, HaeIIIef (P < 0.01) in Chinese Merino sheep (Sinkiang Junken type) were significantly lower in healthy sheep compared with infected sheep. This indicated a strong association between these patterns and hydatidosis susceptibility. In addition, sheep with the pattern of HaeIIIef demonstrated a high hydatidosis susceptibility (P < 0.01) in all three breeds, while sheep with the pattern HaeIIIde demonstrated significant hydatidosis resistance (P < 0.01) in Kazakh and Chinese Merino sheep (Sinkiang Junken type). These results suggest that the Ovar-DRB1 gene plays a role in resistance to hydatidosis infection in the three sheep breeds.
topic Chinese merino sheep (Sinkiang Junken type)
Kazakh sheep
Duolang sheep
Ovar-DRB1 exon 2
PCR-RFLP
hydatidosis
url http://dx.doi.org/10.1051/parasite/2011182163
work_keys_str_mv AT liry therelationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT huiwq therelationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT jiab therelationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT shigq therelationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT zhaozs therelationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT shenh therelationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT pengq therelationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT lvlm therelationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT zhouqw therelationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT liht therelationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT liry relationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT huiwq relationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT jiab relationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT shigq relationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT zhaozs relationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT shenh relationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT pengq relationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT lvlm relationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT zhouqw relationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
AT liht relationshipbetweenmhcdrb1genesecondexonpolymorphismandhydatidosisresistanceofchinesemerinosinkiangjunkentypekazakhandduolangsheep
_version_ 1724313331479609344

Similar Items