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Biodegradation of Organochlorine Pesticides in Soil and Water Environments

Thesis Info

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Author

Siddlque, Tariq

Program

PhD

Institute

University of Agriculture

City

Faisalabad

Province

Punjab

Country

Pakistan

Thesis Completing Year

2002

Thesis Completion Status

Completed

Subject

Applied Sciences

Language

English

Link

http://prr.hec.gov.pk/jspui/bitstream/123456789/5610/1/4772H.PDF

Added

2021-02-17 19:49:13

Modified

2023-01-06 19:20:37

ARI ID

1676725601410

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غزل

 

تو بنا کے پھر سے بگاڑ دے،مجھے چاک  سے نہ اُتارنا
تری چوبِ چاک کی گردشیں مِرے آب و گِل میں اُتر گئیں
تِری اُنگلیاں مِرے جسم میں یونہی لمس بن کے گڑی رہیں
مجھے رکتا دیکھ کے کرب میں کہیں وہ بھی رقص نہ چھوڑ دے
تِرا زعمِ فن بھی عزیز ہے، بڑے شوق سے تُو سنوار لے
تِرے"سنگِ چاک" پہ نرم ہے مِری خاکِ نم، اِسے چُھوتا رہ
مجھے گوندھنے میں جو گُم ہوئے تِرے ہاتھ، اِن کا بدل کہاں
تِرا گیلا ہاتھ جو ہٹ گیا مِرے بھیگے بھیگے وجود سے

 

رہوں کوزہ گر ترے سامنے، مجھے چاک سے نہ اُتارنا
مِرے پاؤں ڈوری سے کاٹ کے مجھے چاک سے نہ اُتارنا
کفِ کوزہ گر مِری مان لے، مجھے چاک سے نہ اُتارنا
کسی گردباد کے سامنے، مجھے چاک سے نہ اُتارنا
مِرے پیچ و خم، مِرے زاویے، مجھے چاک سے نہ اُتارنا
کسی ایک شکل میں ڈھال کے، مجھے چاک سے نہ اُتارنا
کبھی دستِ غیر کے واسطے، مجھے چاک سے نہ اتارنا
مجھے ڈھانپ لینا ہے آگ نے، مجھے چاک سے نہ اتارنا

مشترک الفاظ ِ قرآنیہ کی توجیہات و تفسیرات

Mushtarak” is a word used for those words that are used in the Holy Qura’n with more than one meaning. These words are a manifestation of Quranic eloquence. They show the diversity of Qur'anic meaning, as well as the differences in their definitions, which have led to interpretation differences in the Qur'an. Due to the common words, the interpretation in the jurisprudence and the opinion of the scholars had expanded. Some interpretive deviations have also been related to these words. The study of the textual literature is important in this context that all discussions of common words should be discussed and the principles of meaning determination should be clearly presented with arguments as well. The contemporary commentaries in which different interpretations have been made from them would also be analyzed. This research would try to provide a narrative on finding  the meaning of such words and the limits within which the different interpretation can be done.

Genome Wide Mapping of Chromatin States Based on Histone Combinatorics for Determination of Epigenetic Expression

Histone proteins wrap DNA around in small globular entities commonly known as nucleosomes. The post translational modifications to the histone tails are referred as histone modifications (HMs). The regulation of DNA in order to access the transcription machinery is epigenetically programmed by specific DNA and chromatin covalent modifications. HMs could either be present or absent at particular genomic loci and the combinatorial patterns of the specific modifications being addressed as ‘histone codes’, are believed to co-regulate significant biological processes. Regions defined by combinatorial patterns of marks can be referred to as chromatin states. Chromatin states associated with genomic locations correlate with specific functional elements as enhancers, transcription start sites, which can be exclusively inferred from successive combinations of chromatin marks in their contiguous locations. Biologically significant combinatorics of epigenetic modifications and their subsequent functional interplay are still mostly unrevealed. We aimed to use ChIP-Seq data of Histone modifications at different genomic loci to highlight the unbiased genomic grouping and to decode the complex biological network of HMs in association with other chromatin players in defining various chromatin states. We used different tools and techniques to accomplish our task. Complex biological networks underlying the hidden chromatin states were revealed via merging machine learning and graph theory existing approaches. Histone modification efficient and simple combinatorics was studied at a global and local scale by developing and implementing a clustering and biclustering tool. Results have been compared with the existing approaches. Meanwhile a simple and efficient computational methodology for efficient chromatin states identification for ChromHMM (HMM based chromatin segmentation) has also been developed by utilizing Hidden Markov Models components. As a result of above study we revealed the role of various factors in maintaining the chromatin state connectivity via focusing chromatin state networks. Our studies highlighted the minimum dominating nodes set and various hubs in chromatin state networks focusing their interaction patterns. Along with we developed and tested a clustering tool ChromClust and a biclustering tool ChromBiSim to highlight histone combinatorics in binarized signal data in an efficient and interactive way. ChromClust operates at global level while ChromBiSim mines local patterns of histone modifications associations. We conclude that epigenomic landscape is portrayed as interplay of various factors including histone combinations, transcription factors, chromatin modifiers and most importantly the underlying DNA motifs. Each chromatin state has a specific set of these factors which interact with each other to mark that state hence creating the whole chromatin states network.