Lactoferrin Gene Polymorphism in Dairy Cattle
By: Syeda Iqra Aiman Bukhari (2009-VA-556) | Dr. Sehrish Firyal.
Contributor(s): Dr. Ali Raza Awan | Dr. Muhammad Tayyab.
Material type: BookPublisher: 2015Description: 56p.Subject(s): Molecular Biology and BiotechnologyDDC classification: 2416-T Dissertation note: Several factors militate against realizing the milk production potential of cows. Mastitis is the most costly and the prevalent production-limiting disease of dairy animals in Pakistan and elsewhere in the world. It is accompanied by elevated Somatic cell count (SCC) in the milk and estimated genetic correlation between SCC and mastitis ranges between 0.53-0.77. Susceptibility and resistance to mastitis is a complex trait and influenced by genetic variation of animals. Among these variations, the polymorphism in Lactoferrin gene (LTF) plays an important role in the immune response to mastitis. Polymorphism in intron 6 of LTF gene is associated with mastitis susceptibility and resistance. It is a potential candidate gene for imparting resistance mastitis in dairy cows. The present study was designed for the identification of polymorphism in LTF gene associated with mastitis. Milk and blood samples were collected from 20 Sahiwal cows having clinical and subclinical mastitis. SCC of milk samples was performed using serial dilutions. 10 normal Sahiwal cows as control were included in present study. DNA was extracted from blood using organic extraction and kit method followed by DNA quantification. Amplification of LTF gene was designed by using already reported primers obtained from NCBI. LTF gene was amplified and sequenced to get the full length sequence of this gene. Comparative analysis of the resulted sequences using NCBI BLAST was done. Outcomes: The results obtained from polymorphisms in LTF gene can play an important role for selection of mastitis resistant and susceptible dairy cows. This can be useful in selective breeding of cattle for enhanced immune response, as a tool to improve inherent animal health, which ultimately can lay the foundations to contain the magnitude of economic loss due to mastitis. Develop a biological response modifier that will promote a sustained immunity of the mammary teat and protect the gland from invading pathogens.Item type | Current location | Collection | Call number | Status | Date due | Barcode | Item holds |
---|---|---|---|---|---|---|---|
Thesis | UVAS Library Thesis Section | Veterinary Science | 2416-T (Browse shelf) | Available | 2416-T |
Several factors militate against realizing the milk production potential of cows. Mastitis is the most costly and the prevalent production-limiting disease of dairy animals in Pakistan and elsewhere in the world. It is accompanied by elevated Somatic cell count (SCC) in the milk and estimated genetic correlation between SCC and mastitis ranges between 0.53-0.77. Susceptibility and resistance to mastitis is a complex trait and influenced by genetic variation of animals. Among these variations, the polymorphism in Lactoferrin gene (LTF) plays an important role in the immune response to mastitis.
Polymorphism in intron 6 of LTF gene is associated with mastitis susceptibility and resistance. It is a potential candidate gene for imparting resistance mastitis in dairy cows.
The present study was designed for the identification of polymorphism in LTF gene associated with mastitis. Milk and blood samples were collected from 20 Sahiwal cows having clinical and subclinical mastitis. SCC of milk samples was performed using serial dilutions. 10 normal Sahiwal cows as control were included in present study. DNA was extracted from blood using organic extraction and kit method followed by DNA quantification. Amplification of LTF gene was designed by using already reported primers obtained from NCBI.
LTF gene was amplified and sequenced to get the full length sequence of this gene. Comparative analysis of the resulted sequences using NCBI BLAST was done.
Outcomes:
The results obtained from polymorphisms in LTF gene can play an important role for selection of mastitis resistant and susceptible dairy cows. This can be useful in selective breeding of cattle for enhanced immune response, as a tool to improve inherent animal health, which ultimately can lay the foundations to contain the magnitude of economic loss due to mastitis.
Develop a biological response modifier that will promote a sustained immunity of the mammary teat and protect the gland from invading pathogens.
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