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Identification Of Genetic Variants In The Low Density Lipoprotein Receptor Gene Causing Familial Hypercholesterolemia And Its Sequence Homology With Mus Musculus

by Ameer Hassan (2014-VA-504) | Dr. Wasim Shehzad | Dr. Muhammad Yasir Zahoor | Dr. Muhammad Tayyab.

Material type: book Book; Literary form: not fiction Publisher: 2016Dissertation note: Familial hypercholesterolemia (FH) is caused by mutations in the genes coding for the low-density lipoprotein receptor (LDLR), apolipoprotein B-100, or proprotein convertase subtilisin/kexin type 9 (PCSK9). In this study, a molecular analysis of LDLR gene was performed in 20 unrelated patients from Pakistan. All patients were clinically diagnosed with definite or possible hypercholesterolemia according to a uniform protocol and internationally accepted WHO criteria. Preferable study was made to highlight the Genetic variation in Exon 4 of LDLR gene associated with defective catabolism of cholesterol effecting lipid metabolism which results in Familial Hypercholesterolemia. The extraction of genomic DNA was done from all selected blood samples. By selecting primers they were synthesized and optimized on extracted DNA samples. PCR product was sequenced and aligned. Mutations in the LDLR gene and its sequenced homology with Mus musculus were analyzed. We didn’t found any polymorphisms in the LDLR gene exon 4. So we concluded that there is no association between SNPs and increased levels of cholesterol in Pakistani population. More research should be carried out in Pakistan by increasing the sample size and considering the other regions of LDLR gene. This study will help the early detection and treatment of such cases and may ultimately reduce the incidence of mortality due to myocardial infarction. Apart from diagnosis, we also suggest it will be a potential therapeutic strategy to manage FH. Availability: Items available for loan: UVAS Library [Call number: 2538-T] (1).

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Homology & Polymorphism Analysis Of Cc2d1a Gene In Human And Canine For Cognitive Function

by Hafiz Qamar Abbas (2014-VA-214) | Dr. Muhammad Yasir Zahoor | Dr. Wasim Shehzad | Dr. Saadat Ali.

Material type: book Book; Literary form: not fiction Publisher: 2016Dissertation note: Cognitive disability is a group of genetically heterogeneous abnormality that leads to variable degrees of cognition deficits. It has been shown that inherited disorders can be caused by mutations in large number of different genes and there is evidence for the presence of as yet unknown genes in a significant proportion of patients. This disease can affect 1-3% of overall population and higher in consanguineous families. We aimed to identifying the homology and polymorphism of the gene CC2D1A between human and canines. The present research work was carried out in four phases. The first phase was including enrolment of 10 affected non relevant families with disease history and consent was taken on consent forms as approved by IRB, UVAS. Secondly DNA extraction was done by using standard lab protocols. Thirdly amplification of the selected domains of selected gene (CC2D1A) was done through PCR amplification after designing primers of the selected domains. Sequencing of the amplified products has to be done through Sanger method and mutation analysis was conducted for variants We found two new asynonymous mutation one is deletion of c. 1664_1664delA which lead to the change in the normal function of protein (88%) and other is heterozygous mutation c.1921A/T that result in amino acid change from R to W (12%). Whereas homology analysis shows that deletion region is partially conserved as it code different amino acid but some key domains are conserved. This homology shows that deletion in this region can change the protein expression which can relate to unconscious condition like behavioral or mental retardation. This will be helpful in providing genetic counseling services to indigenous population for intellectual disability cases. Availability: Items available for loan: UVAS Library [Call number: 2627-T] (1).

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Identification Of Pkhd1 Gene Mutation In Polycystic Kidney Disease And In-Silico Molecular Characterization In Different Mammals

by Taslim Un Nisa (2015-VA-1105) | Dr. Wasim Shehzad | Dr Muhammad Yasir Zahoor | Prof.Dr. Aftab Ahmad Anjum.

Material type: book Book; Literary form: not fiction Publisher: 2017Dissertation note: Fibrocystin is a large, receptor-like protein that is involved in the tubulogenisis and maintenance of duct-lumen architecture of epithelium. Fibrocystin has a combination with the primary cilia of epithelial cell. Renal tubules (small tube) of kidney where urine is formed lined by tiny hair like projection. Twenty five suspected patient was selected and DNA extracted through organic extraction method from the suspected patient blood. Primers were designed PKHD1gene’s coding sequence located at 6p12.2 in human. The coding region sequenced using the ready mate terminator Sequencing Reaction Kit by Perkin Elmer/ABI and read in an automated sequencer. The allele’s variants have been only reported for Fibrocystin protein in human. All of the sequences are evaluated by using Chromas and Bioedit software for sequence analysis. The in-silico protein analysis is done for normal and mutated alleles through UCSC and RAPTROX. Homology analysis was also done between human and mammals DNA sequence. We found mutations which are associated with ARPKD disease and these variants are most common in other population whereas we also found some new variants. There are some reported mutations which we found in our study such as (c3790C>T),(c3891G>T),(c3790C>T). We found three new mutations in PKHD1 gene. The new mutations which we found are (c3681G>A),(c3804C>T),(c3931A>C).These mutations (c3790C>T) and (c3931A>C) in the exon 32 show significant effect on the gene and protein function. Geneticanalysis of PKHD1gene show thatPakistanifamilies have mutations as compared to other population along with some common exonic regions such as exon 32 whichisalsodescribed by others in two different studies.We also analyze the pedigrees of these patients which are consanguineous families and autosomal recessive polycystic disease. We found total six mutations in this gene including missense/ synonymous mutations. In which, three novel mutations and others are reported mutations. These variations from the results are due to the population and consanguineous families’ pattern.In our study, we also found that Mouse and Chickencan preferably be used as a modal organisms in pathology.This study will also help us in the development of molecular genetic testing for their detection in Pakistani families and population. Availability: Items available for loan: UVAS Library [Call number: 2941-T] (1).

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