1.
Polymorphisms Of Bovine Tumor Necrosis Factor Alpha Gene And Its Association With Mastitis In Sahiwal Cows
by Huma Sattar (2013-VA-03) | Dr. Sehrish Firyal | Dr. Ali Raza Awan | Dr. Muhammad Tayyab.
Material type: ; Literary form:
not fiction
Publisher: 2015Dissertation note: Mastitis is one of the shocking maladies of milch animals causing high production losses to livestock industry of Pakistan (Kenyanjui et al. 2011). It is an inflammatory condition of udder; represent a major problem in dairy cow management. It is one of the most common and frequent disease of dairy industry. Producers suffer a huge loss due to veterinary treatment costs and necessary culling of the infected animals. It negatively affects the milk production, quality of milk, and farm economics (Fourichon et al. 2005). Increasing the disease resistance among dairy cattle is therefore desirable because without controlling mastitis, the national goals of developing dairy farming on commercial and scientific lines and production of wholesome milk which conforms to the standards of WTO Accord would remain elusive.
Mastitis is inflammation of udder that caused by physiological and metabolical changes (Schalm and Noorlander 1957). There are two main types of mastitis; clinical mastitis (characterized by classical symptoms i.e., swelling of udder, redness, clumps and clots in milk etc) and sub-clinical mastitis (not show any symptoms, Milk appear normal, udder appear normal) (Schrick et al. 2001). Mastitis is ranked as a top disease of dairy herds (Rinaldi et al. 2010). This mammary gland infection caused by pathogenic micro organisms such as Staphylococcus aureus, Streptococcus uberis, and Esherichia coli in the mammary gland (Heringstad et al. 2000).
India, China and United States are the larger producer of milk and Pakistan is on forth number in milk yield. Pakistan almost produces 36.5 million tons of milk yeild per year (Cady et al. 1983).The Sahiwal breed is well known among for its superior dairy qualities (Barker et al. 1998). Both cross and pure breed Sahiwal cows have high milk production rate (Khan et al. 2013).
It is very difficult to comprehend this disease because numerous environmental and genetic factors are involved in the origin and development of mastitis (Bradley 2002; Carvajal et al. 2013). Susceptibility and resistance to mastitis is a complex trait influenced by genetic variation of animals. Among these variations, the polymorphisms in immunity genes are principal key factors in defensive mechanism of mammary gland (Ibeagha-Awemu et al. 2008).
The mammary gland tissue is protected by immune system by two defense system; innate and acquired immunity. Innate immunity response by the host is a quick response of bacterial defense system (Mesquita et al. 2012). Innate system is a rapid and effective mechanism that activated on recognition of antigen (Akira et al. 2006). Innate immune system is activated when specific pattern recognition receptors (PRR) that are present on the surfaces which are attach to the specific pathogen (Shuster et al. 1996). PRR are presnt on leucocytes in milk and on the epithelial cells lining of udder. It is reported that T- lymphocyte subset i.e., CD4+, CD8+ and ɤδT are present in infected bovine mammary glands. (Goldammer et al. 2004; Strandberg et al. 2005).
Innate defense (nonspecific) of the mammary gland is stimulated by the physical barrier such as teat end, natural killer (NK) cells, neutrophils, macrophages and certain other soluble factors. The teat cannals are considering the main line of defense. Microorganisms enter from teat canal in milk. The main roles of teat sphincter muscles are to remain orifice close so that bacteria cannot enter. This teat canal also lined with keratin, whose estrified and non estified fatty acid function as bacteriostatics that provide protection and play role to eliminate bacteria causing mastitis (Oviedo-Boyso et al. 2007).
If a pathogen is not eliminated by the physical barrier, the acquired immune system is triggered. In comparison, this system is much faster than other immune response. The memory response is significantly stronger, long durable and more efficient to kill the pathogen. The acquired immune system (memory response) have ability to differentiate self or nonself cells and produce antibodies only against antigens through membrane bound protein called major histocompatibility complex (MHC) molecules. Specific immune system activate only when antigens bind with an MHC that is present on the surface of certain cells, this process is referred as antigen presentation. Recognition of pathogenic factors for elimination is mediated by macrophages, several lymphoid, and immunoglobulins (Ig) or antibodies (Sordillo and Streicher 2002).
The most acute responding macrophages and T-cell cytokines are TNF-α, LTF, IL1, IL6, IL8, and IFN-ɤ present in intramammary infection in cows. These genes play important role in improvement of immunity to mastitis (Burton and Erskine 2003).
Tumor necrosis factor alpha is main pro-inflammatory adipokine that is part of systematic immune defense. The main function of TNF-α gene is responsible for proliferation, differentiation and activity of many immune system cells; B lymphocytes, NK (natural killer). It also induces the production and release of many other cytokines (Wojdak Maksymiec et al. 2013) and also enhances the chemotactic and phagocytic effects of immune response. TNF-α gene contains four exons and three introns that are present on chromosome BTA23q22 (Bannerman 2009; Moyes et al. 2009).
TNF-α is a member of a group of cytokines that stimulate the specific immune system. TNF consist of 212 amino acid arranged in stable homotrimers (Kriegler et al. 1988; Tang et al. 1996). The 17-kilodalton (kDa) TNF protomers are composed of two β-pleated sheets and β-strands, joined together antiparallel (Tang et al. 1996).
TNF-α is a component of natural protection systems of humans and animals. Milk gives nourishment and disease resistance to the new born. Various cellular and soluble immune components are important for protecting the mammary gland from infectious diseases like mastitis. Mastitis affects one third of all dairy cows and cost the dairy industry about 2 million dollars annually (National Mastitis Council (1996). Dairy cattle are especially susceptible to mastitis due to diminished mammary gland defense mechanisms (Sordillo and Streicher 2002).
TNF-α is not only produced by activation of macrophages, but also other cell types such as CD4+ lymphocytes, NK cells, neutrophils, mast cells, eosinophils, and neurons. Large amounts of TNF are released in response to lipopolysaccharide, other bacterial products, and Interleukin-1 (IL-1).TNF-α stimulates the proliferation, differentiation and activity of many immune system cells; B lymphocytes, NK (natural killer). TNF-α induces the release of many other cytokines (Wojdak-Maksymiec and Mikolajczyk 2012). TNF-α also enhance the chemotactic and phagocytic effects of immune response.
. The present study is designed to determine the genetic polymorphism in exon 4 of TNF-α gene of mastitic cows and its association resistance and susceptibility towards mastitis.
Availability: Items available for loan: UVAS Library [Call number: 2224-T] (1).
2.
Study Of Genetic Polymorphism In Exon 7 And 9 Of Glucosidase Beta Acid (Gba) Gene In Gaucher Diseased Patients From Punjab, Pakistan
by Ayesha Khalid (2013-VA-07) | Dr. M. Yasir Zahoor | Dr. Sehrish Firyal | Mr. Tariq Mahmood.
Material type: ; Literary form:
not fiction
Publisher: 2015Dissertation note: Gaucher disease (GD) is an inborn metabolic disease transmitted through recessive
pattern of inheritance and it is a pan-ethnic disease. It is the most common lysosomal storage
disease caused by the deficiency of glucocerebrosidase (GCase), a lysosomal enzyme use in the
degradation of macromolecules into simpler molecules.
Glucosidase beta acid (GBA) gene encode glucocerebrosidase enzyme and mutations in
this gene is responsible for glucocerebrosidase deficiency which results in an accumulation of
unbroken glycolipids in those organs rich in monocyte-phagocyte immune system elements i.e.
spleen, liver, bone marrow and leads to histological changes. GBA is located on chromosome
1q21 consisting of 11 exons and 10 introns having 7.8kb length. It is divided into three types (I,
II and III) on the basis of neurological involvement. More than 300 mutations have been reported
in GBA and cause the GD.
The present study was performed in order to characterize GBA gene in GD patients from Punjab.
Blood samples of 10 patients,enrolled in Children Hospital, Lahore, were taken from DNA
repository of Molecular and Genomic Lab at IBBT, UVAS Lahore. The DNA was extracted
using organic method. Next step was the amplification of extracted DNA using PCR. After it, the
PCR product is purified and this purified PCR product was sent for sequencing. Sequencing of
exon 4, 7 and 9 was done using dideoxy sequencing method. After applying different
bioinformatics tool, it was found that there was no muttaion in these exons but a heterozygotic
variation G>A was found in intron 8. This finging will help in demonstration of molecular
pathogenesis of Gaucher disease. Availability: Items available for loan: UVAS Library [Call number: 2338-T] (1).
3.
Antiviral Effect Of Human Saliva Against Avian Influenza Virus Strain H9n2
by Maryam Riaz (2008-VA-340) | Prof. Dr. Tahir Yaqub | Dr. Sehrish Firyal | Prof. Dr. Kamran Ashraf.
Material type: ; Literary form:
not fiction
Publisher: 2015Dissertation note: Saliva is an important body fluid that contains a complex array of proteins, peptides and various substances that help in maintaining the health of the oral cavity. Saliva exhibits a broad-spectrum of antiviral activity against enveloped viruses as it disrupts the viral membrane. Influenza is a common virus that has been diagnosed in humans and avian species due to AIV. This study has demonstrated the naturally occurring antiviral activity of human saliva against the H9N2 influenza virus that serves as a serious threat to poultry and has been shown to possess high zoonotic potential which can cause a new pandemic.
In this study saliva samples from healthy individuals were taken and the natural antiviral ability of saliva was observed against AIV (Pk-UDL/01/08 H9N2) of calculated EID50 106.66. Inoculum prepared from saliva and H9N2 virus was injected in 9 days old embryonated eggs using CAS route and incubated at 37°C for 48 hours. A negative control (only saliva) and positive control (only virus inoculum) was also determined in the current study. The antiviral activity of saliva was observed through haemagglutination test. The HA test of harvested fluid showed that human saliva indeed possesses antiviral activity against H9N2 virus and can be used as a natural antiviral agent in medicine.
Furthermore, the genomic DNA was extracted from the blood samples. HTN3 gene responsible for histatin production, was amplified using gene specific oligonucleotides. The obtained HTN3 gene sequences were analyzed using Chromas software. The sequence alignment showed 99% similarity to the available sequences in NCBI database and 100% similarity to each individual sample. To conclude, this study has demonstrated that human saliva possesses antiviral activity against H9N2 virus. The nucleotide sequence analysis from each sample
CHAPTER 6
SUMMARY
Summary
47
showed no particular change which shows that antiviral activity of glycoproteins present in saliva does not vary at a genetic level. This innate antiviral activity can open a new frontier when it comes to combating viral infections that have grown resistant to conventional drugs in both human and animal subjects. Availability: Items available for loan: UVAS Library [Call number: 2336-T] (1).
4.
Genetic Identification And Molecular Classification Of Sub-Family Phasianinae Of Pakistani Bird Species Through Dna Barcoding
by Maryem Hussain (2008-VA-349) | Dr. Ali Raza Awan | Dr. Sehrish Firyal | Dr. Muhammad Tayyab.
Material type: ; Literary form:
not fiction
Publisher: 2015Dissertation note: DNA barcoding is a precise technique that uses molecular genetics tools for accurate identification, categorizing, relating and separating the phylogenies of species. Being a small sized genome and agile enough to show rapid mutation, mtDNA has been used as a pertinent marker of molecular biodiversity.The aim of this study was to develop DNA barcode for genetic characterization and classification of Sub-family Phasianinaeof Pakistani bird species. Theyhave not been genetically identified yet in Pakistan. It includes birds like domestic chicken(Gallus gallusdomesticus), aseel chicken(Gallus gallusdomesticus strain),blue peafowl(Pavo cristatus), green peafowl (Pavo muticus), white peafowl (Pavo cristatus leuticus), Kalij pheasant (Lophura leucomelanos),monal pheasant (Lophophorus impejanus),koklass pheasant(Purcrasia macrolopha), ring necked pheasant (Phasianus colchicus), Tragopan (Tragopan melanocepals) andred junglefowl (Gallus gallus). These birds are considered an important part of an ecosystembecause they play a significant role in seed dissemination, pollination of plants and disease spread which are the basic constituents of an ecosystem. They are used for food, hunting and entertainment purposes.
Mitochondrial geneCytochrome c oxidase subunit 1 (CO1)of 500bps was used as a marker for identification at specie level.Genomic DNA was extracted by each blood and tissue sample of eleven bird species (33 samples). Amplification of CO1 gene was a done by using a universal set of primers (BIRDF1 and BIRDR1)containing region of almost 750 bps (Hebert et al. 2003).Amplicons were purified and sequenced Sanger sequencing method (Sanger et al. 1977). Forward and reverse sequences were analyzed using softwaresEMBOSS merger,ClustalW, BioEdit and nBLAST. Phylogenetic analysis of selected bird species was done. Each sequence was aligned
with its reference sequences of CO1 gene present on NCBI. Every nucleotide position which did not align with the reference sequence was studied to identify SNPs. Fixation index (FST) were used to measure species diversity within a same sub population relative to that found in the entire population. Consensus sequences (500bps) generated was used to construct their phylogenetic tree to see their evolutionary relationship with other bird species. All species showed their closest linkage with their respective species. Pakistani population of peafowl and chicken species showed the close relation with same sequences generated in China. Tranopans showed its closest linkage with T. temminckii.
In conclusion, seven species ofPhasianinaesub-family of Pakistani bird species was genetically characterized first time in Pakistan by using CO1 as a barcode. It proves that DNA barcoding is an efficient and accurate molecular tool for species identifica¬tion and phylogenetic implication. This study leads to establish a DNA Data Bank that helped scientists to investigate the biodiversity, taxonomic classification, specie identification, in forensic purposes and to study the genetic and phenotypic evolution of these species. DNA barcoding through CO1 gene works as a functional tool for detectingmeat mislabeling and preventing illegitimate trade. This study has established foundations for molecular biologists to study taxonomic uncertainties at sub species level using SNP based identifying marker. It helps in preservation and identification of endangered species by generating their barcodes from even minimal evidence available.
Availability: Items available for loan: UVAS Library [Call number: 2376-T] (1).
5.
Molecular Characterization of Pakistani Common Leopard
by Muhammad Usman Ijaz (2012-VA-908) | Dr. Sehrish Firyal | Dr. Ali Raza Awan | Dr. Muhammad Tayyab.
Material type: ; Literary form:
not fiction
Publisher: 2015Dissertation note: CD not available. Availability: Items available for loan: UVAS Library [Call number: 2379-T] (1).
6.
Identification Of Single Nucleotide Polymorphism In Toll Like Receptor 4 Gene And Its Association With Mastitis In Sahiwal Cows
by Hafiz Kamran Rizwan Ullah (2013-VA-557) | Dr. Sehrish Firyal | Dr. Muhammad Wasim | Prof. Dr. Habib Ur Rehman.
Material type: ; Literary form:
not fiction
Publisher: 2015Dissertation note: Several factors militate against realizing the milk production potential of cows. Mastitis is one of the shocking maladies of milch animals causing high production losses to livestock industry in Pakistan and elsewhere in the world. Mastitis has been familiar as one of the most inexpensively important diseases affecting dairy animal’s worldwide.
Susceptibility and resistance to mastitis is a complex trait and influenced by genetic variation of the immunity genes of animals. Among these variations, the polymorphisms in Toll-like receptor 4 gene (TLR4) play important role in the immune response to mastitis. Polymorphism in exon 3 of TLR4 gene is associated with mastitis susceptibility and resistance. It is a potential candidate gene for screening of the mastitis susceptible and resistant dairy cows.
The present study was designed for the identification of polymorphism in TLR4gene associated with mastitis. Blood samples from 20 Sahiwal cows having clinical and subclinical mastitis were sampled. Blood sample of 10 normal Sahiwal cows was also collected. DNA was extracted. Specific primers for amplification of TLR4 gene were designed from NCBI.
TLR4gene was amplified and sequenced to get the desire sequence of this gene. Comparative analysis of the resulted sequences using NCBI BLAST was done.
Availability: Items available for loan: UVAS Library [Call number: 2392-T] (1).
7.
Lactoferrin Gene Polymorphism in Dairy Cattle
by Syeda Iqra Aiman Bukhari (2009-VA-556) | Dr. Sehrish Firyal | Dr. Ali Raza Awan | Dr. Muhammad Tayyab.
Material type: ; Literary form:
not fiction
Publisher: 2015Dissertation 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. Availability: Items available for loan: UVAS Library [Call number: 2416-T] (1).
8.
Polymorphism Analysis Within Tata-Box Of Bovine Lactoferrin Gene And Its Association With Mastitis In Sahiwal Cows
by Kashmala Haroon (2014-VA-04) | Dr. Sehrish Firyal | Dr. Immad Rashid | Dr. Muhammad Tayyab.
Material type: ; Literary form:
not fiction
Publisher: 2016Dissertation note: Mastitis is one of the most important diseases in dairy cows throughout the world, and is responsible for significant economic losses to the dairy industry especially in Pakistan. Several factors are responsible for this disease and about 20% bovines are suffering with this disease. Mastitis susceptibility and resistance is influenced by genetic variation of animals. Variations to polymorphisms in LF gene assume critical part of the immune response to mastitis. Polymorphism within LF gene may influence immune response to the mastitis in bovines. Recent study shows that promoter region of LF gene is highly polymorphic among bovines.
Present study was planned to identify polymorphism analysis within TATA-box of bovine LF gene and its association with mastitis. Multiple blood samples were collected from Sahiwal cows having clinical and sub-clinical mastitis. 10 samples were collected as a control. DNA extraction was done by organic extraction method and then quantification was done by Nanodrop. Amplification and sequencing was performed to get desire sequence of the gene. Comparative study of obtained sequence results were analyzed by using NCBI blast. Bioinformatics analysis was done with the help CLUSTAL W and BioEdit softwares.
Two novels and one reported SNPs were discovered within TATA-box of LF gene that might be having strong genetic association with mastitis in Sahiwal cows. This gene is strong candidate gene to differentiate between mastitis susceptible and resistant Sahiwal cows.
Availability: Items available for loan: UVAS Library [Call number: 2584-T] (1).
9.
Polymorphism Analysis Of Exon 2,5 And 10 Of Bovine Lactoferrin Gene And Its Association Within Mastitis In Sahiwal Cows
by Sidra Mukhtar (2014-VA-223) | Dr. Sehrish Firyal | Dr. Sultan Ali | Dr. Muhammad Wasim | Dr. Muhammad Avais.
Material type: ; Literary form:
not fiction
Publisher: 2016Dissertation note: A few factors militate against understanding the milk production capability of bovines. Mastitis is the most costly and the prevalent production-limiting disease of dairy animals in Pakistan and somewhere else on the world. Susceptibility and resistance to mastitis is a complex characteristic and impacted by hereditary variation of animals. Among these variations, the polymorphisms in LF assumes critical part in the immune responses to mastitis.
Susceptibility and resistant to mastitis is a complex trait and influenced by genetic variation of the immunity genes of the animals. Among these variations, polymorphism in Lactoferrin gene (LF) play important role in immune responses to mastitis. Polymorphism in exons 2, 5 and 10 of Lactoferrin gene are associated with mastitis susceptibility and resistance. It is a potential candidate gene for screening of the mastitis susceptible and resistant dairy cows.
The present study was designed for the identification of polymorphism in LF gene associated with mastitis. Blood samples from 20 Sahiwal cows having clinical and subclinical mastitis were sampled. Blood samples of 10 normal Sahiwal cows were also collected. DNA was extracted. Specific primers for amplification of LF gene were designed by using Primer 3 software.
LF gene was amplified and sequenced to get the full length sequence of the gene. Comparative analysis of resulted sequences was done with the help of NCBI BLAST. Multiple sequence alignment was done by using CLUSTAL W and BioEdit softwares. Protein analysis was done with ExPasy translate tool and the development of 3D structure were using PYMOL software.
Availability: Items available for loan: UVAS Library [Call number: 2582-T] (1).
10.
Mutation Detection Of Cacnb4 Gene Involved In Childhood Absence Epilepsy And Its Comparative Genomics In Mice
by Ayesha Amin (2015-VA-1048) | Dr. Muhammad Wasim | Dr. Sehrish Firyal | Prof. Dr. Aftab Ahmad Anjum.
Material type: ; Literary form:
not fiction
Publisher: 2017Dissertation note: Childhood absence epilepsy (CAE) is due to multiple factors affecting almost 9-12 years children. Depolarization of ion channel activates the channel. CACNB4 gene is affected by epileptic seizures. Disturbance in ion channel can affects different genes as CACNA1G, CACNA1H, CACNA1A, SCN1B, SCN1A,SCN2A and GABA receptor genes. CACNB4 gene has a major role in influencing epilepsy in human.
In present study,it is directed to analyze the mutations in epilepsy present in coding region of CACNB4 gene.
Collection of blood samples were from Children Hospital, Lahore, Punjab Pakistan from CAE patients of epilepsy. By using standard DNA extraction method, DNA was extracted from samples. Primers were designed for the amplification of exon 3 and 13 of CACNB4 gene.
Results were examined after sequencing the samples. BioEdit software was used to study the samples thoroughly. NCBI BLAST was used to align the sequences.
It is investigated that the sequences of CAE patients of epilepsy of CACNB4 gene has mutation at position position 258023bp which changes A>G. In protein sequence, the mutation is at position 413 which changes L (Leucine) to L (Leucine). This mutation has no effect because this is a synonymous mutationwhere the codon CUG is changes to CUA, both codes for same amino acid that is leucine, so no effect at all by this change in exon 13.
Three mutations are present in the intronic region of exon 13 first, second and third at positions 258184bp A deleted, 258289bp and 258191bp of CACNB4 gene respectively. These all mutations are present in intronic region so has no effect in phenotypes of individual.
In conclusion, maximum numbers of samples were needed to observe the effect of mutations and factors that causes epilepsy. This study will now help the researchers to investigate genetic therapies, strategies of genetic counseling and parental diagnosis for the population of Pakistan.
Availability: Items available for loan: UVAS Library [Call number: 2924-T] (1).
11.
Study On Polymorphism Of Promoter Region Of Bovine Lactoferrin Gene And Its Relation With Mastitis In Nili Ravi Buffalo
by Muhammad Asim (2012-VA-636) | Dr. Sehrish Firyal | Dr. Muhammad Yasir Zahoor | Dr. Muhammad Tayyab.
Material type: ; Literary form:
not fiction
Publisher: 2017Dissertation note: Dairy animals in Pakistan and worldwide are facing most persistent and economically affecting
disease mastitis. Only a healthy buffalo can produce good quality milk of physiologically normal
composition. Mammary gland inflammation due to mastitis badly affects the quantity and quality
of milk and this causes big loss to dairy industry. Even province Punjab bears economic losses of
240 million per annum due to mastitis.
Susceptibility and resistance to mastitis is affected by the variation in immunity genes. Among
immunity genes Lactoferrin (LF) have important role in immune defense system and perform
antibacterial, antiviral and anti-inflammatory function. LF is found in most of body fluids like,
milk, blood, tear, saliva, bile and mucous. Polymorphism in promoter region of Lactoferrin gene
is associated with mastitis susceptibility and resistance. For screening of the mastitis
susceptibility and resistance of dairy buffaloes, LF is a potential candidate gene.
The present study was designed for the identification of polymorphism in LF gene associated
with mastitis. Blood samples from 20 Nili Ravi buffalos having clinical and subclinical mastitis
were selected. Blood samples of normal Nili Ravi buffalos were also collected. DNA was
extracted; specific primers for amplification of LF gene were designed with Primer-3 software
by using already reported sequence on NCBI.
Amplification of LF gene performed by PCR and sequenced the amplicon. A comparative
analysis of sequence result was performed by using NCBI BLAST. BioEdit software was used to
perform multiple sequence alignment. Comparison analysis of LF gene promoter region shows
multiple mutations in in clinical and subclinical as compare to reported sequence (accession no.
EF650854) at NCBI. While normal samples sequence results are similar to reference data. These
results show LF is a candidate gene for mastitis resistance. Availability: Items available for loan: UVAS Library [Call number: 2923-T] (1).
12.
Polymorphism Analysis Of Bovine Tumor Necrosis Factor Alpha Gene And Its Association With Mastitis In Nili Ravi Buffaloes
by Samia Tanveer (2011-VA-362) | Dr. Sehrish Firyal | Dr. Muhammad Wasim | Dr. Muhammad Nawaz.
Material type: ; Literary form:
not fiction
Publisher: 2017Dissertation note: Various number of factors cause hindrance in the milk production potential of buffalos. Mastitis is the costly and most prevalent disease causing production losses of dairy herds in Pakistan and elsewhere in the world. Susceptibility and resistance to mastitis is complex trait influenced by genetic variation of animals. Among these immunity gene variations, the polymorphism in tumor necrosis factor alpha gene (TNF-α) play important role in immune response to virus. Polymorphism in TNF-α gene is associated with mastitis susceptibility and resistance. It would be a potential candidate gene for imparting resistance mastitis in dairy buffalos. Blood sample were taken from the 20 Nili Ravi buffalos having clinical and subclinical mastitis. Extraction of DNA was done from frozen blood after thawing, using organic extraction method & also kit method followed by DNA quantification (i.e. gel electrophoresis and nanodrop). Total 5 primers were designed using Primer3 bioinformatics tool. All these primers were optimized using different protocols and a set recipe was obtained for each primer. The amplification of DNA samples was done one by one using all these five primers on optimized protocol. The amplicons obtained were subjected to agarose gel electrophoresis to check whether we have the required product or not using 100 kb ladder and then amplicones were send for the sequencing.
Summary
110
The sequencing analysis of resulted amplicon sequence was done using Bioinformatics software Finch TV. Total of 6 mutations were found while 5 were same in all the samples whereas 6th mutation was found only in clinical samples. It is valuable in accomplishing genetic progress for resistance and to improve the immune response. This study will paved the way for animal breeder for selection of Nili Ravi mastitis resistant buffalos for breeding. TNF-α gene polymorphism based marker is now available for screening of resistant bulls as well. Availability: Items available for loan: UVAS Library [Call number: 2936-T] (1).
