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The commoditization of water in urban centres of Pakistan : a case study of Islamabad

Thesis Info

Author

Muhammad Tahreer Abbas

Supervisor

Arif Mahmood

Department

National Institute Of Pakistan Studies(NIPS)

Program

Mphil

Institute

Quaid-i-Azam University

Institute Type

Public

City

Islamabad

Country

Pakistan

Thesis Completing Year

2012

Subject

social welfare

Language

English

Other

Classification No:363.6109549149TAC

Added

2021-02-17 19:49:13

Modified

2023-02-19 12:33:56

ARI ID

1676710931004

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برگِ سبز است تحفہ درویش

برگِ سبز است تحفہء درویش!
عموماًکسی کی جناب میں کوئی نذرانہ پیش کرتے ہوئے کہتے ہیں’’یہ فقیر کا ناچیز تحفہ ہے قبول فرمائیے‘‘۔کسی شاعر نے اس بات کو یوں کہا تھا……
ع برگِ سبز است تحفہء درویش
منیر شکوہ آبادی نے فارسی کے اس مصرعے پر گرہ بھی لگادی :
نذر جو میں نے کی ہے یہ درپیش
برگِ سبز است تحفہء درویش
نذر عابد صاحب اردو کے استاد ہیں، انھوں نے اپنے نعتیہ نذرانے کو ’’برگِ نعت‘‘ اسی استعاراتی پس منظر میں کہا ہے۔ کتاب کے نام ہی سے ظاہر ہے کہ شاعر ،نبیء کریم علیہ الصلوٰۃ والتسلیم کی بارگاہِ بے کس پناہ میں عاجزانہ ، انکسارانہ اور فدویانہ انداز میں تحفہ پیش کرنے کا متمنی ہے ،تاہم وہ اپنے تحفے کو آپﷺ کی شان کے شایاں ہرگز نہیں سمجھتا۔
نذر عابد کائنات کو اللہ سبحانہٗ تعالیٰ کا ایسا نگارخانہ تصور کرتے ہیں جس میں لحظہ بہ لحظہ رسولِ گرامی علیہ ا لصلوٰۃو السّلام کی تعریف و توصیف کا عمل جاری ہے۔ اللہ ربّ العزت کی طرف سے، حضور ﷺ کی جناب میں درود و سلام پیش کرنے کا حکم بھی دیا گیا ہے اور آپﷺ کے ذکر کو آپﷺ کے لیے بلند فرمانے کا بھی التزام کیا گیاہے۔ ایسی صورت میں اگر کائنات کو استعاراتی زبان میں ’’جہانِ نعت‘‘ کہا جائے تو یہ تکوینِ کائنات کی بہترین تعبیر ہوگی۔درج ذیل شعر میں سارے جہان کو نعت کا نام دینے سے شاعر کی یہی مراد ہے:
یہ زمیں نعت ہے، آسماں نعت ہے
سوچیے تو یہ سارا جہاں نعت ہے
سارے جہاں کی وسعتوں اور سرکارِ دوعالمﷺ کی عظمتوں و رفعتوں کے پیشِ نظر، شاعر کو نعت گوئی، انتہائی گرانقدر ، انتہائی مشکل اورحد درجہ نازک ،مقدس اور venerable معلوم ہوتی ہے۔اسی لیے نعت کہنے کے ہنگام، اپنی کم مائیگی کے ساتھ ساتھ...

The Role and Responsibilities of Youth in Islam

Youth is considered to be the backbone of any nation. The level of moral development, civilization and consolidation of authority and potency depends on the morality of its youth. It can be said that nations survive till their ethics live. The question of youth and Islam at present stems from the overwhelming demographic weight of youth and their relatively recent invasion into the public domain, as well as a wave of Islamic revivalism throughout the world. For any society and its future the youth plays vital and integral role both for progress and decline. The reason is that youth can make the future dark or bright through their role as individuals and as active members of society. This paper draws on lively focus group narratives of young Muslims to explore the interactive presentation of Islamic selves. By bringing together young people who practice Islam in different ways, this paper offers a deeper insight into how claims to a universal identity are actively constructed and contested through particular social relationships and interactions in specific structural contexts. The first part of the paper presents introduction of the whole study. Second part gives description about the categories of youth including; pious, deviated and confused. In third part importance of youth in Islam has been highlighted. Fourth part presents social, moral, political situation of Muslim societies in contemporary time. Fifth part gives description of impact of moral, social, and political situation on the minds of young people. Discussion concludes with the responsibilities of youth which is followed by findings and conclusion of the whole discussion. In so doing, the paper takes up recent calls for more research on the personal meaning of Islam as religion for Muslim youth

Gene Cloning, Characterization and Thermodynamic Studies of Highly Thermostable Celluloytic Enzymes from Genus Thermotoga

With a paradigm shift in industry, moving from natural fuels to alternative renewable resource utilization, concisely the growing demands of bioenergy has led to the emphasis on novel cellulolytic enzymes to improve efficiency of bioconversion process of lignocellulosic plant biomass. Currently, biodegradation is an area of extensive research, the cynosure of biofuel industry is on the utilization of non-edible lignocellulosic biomass (feedstock, agricultural and municipal residues) as an exploitable, inexpensive and potential source of alternative renewable energy in the form of bioethanol, thus the need of efficient thermostable cellulases are expected to increase in the future. β-glucosidase is an essential member of cellulase enzyme system that plays a critical role in cellulosic substrate hydrolysis and in many other biological processes. Therefore, the present study describes cloning of two novel highly thermostable cellulolytic enzymes β-1,4-glucosidases (TnBglA and TnBglB) from a bacterium Thermotoga naphthophila RKU-10T and overexpressed in Escherichia coli BL21 CodonPlus (DE3)-RIPL. Purification and biochemical characterizations together with kinetic and thermodynamic analysis give insights about the thermostability of both enzymes. Various cultivation and induction strategies were applied to enhance the production of engineered host cells density and expression of highly efficient thermotolerant TnBglA and TnBglB, induced individually with IPTG and an alternative inducer lactose. Culture conditions and other parameters including media compositions, pre-induction optical density, agitation, inducer concentrations, temperature and time of induction were optimized to achieve maximum yield of heterologous proteins. Genomic DNA of T. naphthophila was used as template to amplify two cellulolytic genes TnbglA and TnbglB (ADA66698.1 and ADA66752.1) of 1.341 and 2.166 kb, which encoded β-1,4-glucosidase proteins of 446 and 721 amino acid residues, respectively. Amplicons of genes were cloned initially in pTZ57R/T vector by employing dA×dT tailing technique and consequently subjected to sequence analysis. Sequence homology analysis demonstrated that TnBglA and TnBglB belong to glycoside hydrolase family 1 (GH1) and family 3 (GH3), respectively. Further, both genes were sub-cloned in pET-21a(+) vector and over-expressed in E. coli BL21 under the control of inducible T7 lac promoter. Initially, LB medium was used for the production and optimization of various cultivation parameters to get the high level expression of both recombinant enzymes. However, optimal expression and activity of both enzymes were observed when culture induced with 0.5 mM IPTG after heat shock treatment (42°C, 1 h) at 0.6 pre-induction optical density (OD600nm) followed by incubation at 22°C for 72 h in a shaking incubator at 200 rpm. Both extracellular TnBglA and TnBglB with a molecular weight of 51.50 and 81.14 kDa, respectively were purified to homogeneity by ion-exchange and hydrophobic interaction chromatography after heat treatment at 70°C for 1 h. Purified enzymes TnBglA and TnBglB displayed optimal activity at pH 7.0 (95°C) and pH 5.0 (85°C temperature), respectively. Both enzymes were quite stable over a broad range of pH (6.0-8.5) and temperature (60- 90°C), fairly stable up to 8 h at 80°C. GH1 TnBglA activity was stimulated in the presence of glucose and xylose, with a Ki value of 1200 and 1300 mM, respectively. Whereas, GH3 TnBglB revealed Ki value of 150 mM for glucose and 200 mM for xylose, both enzymes displayed affinity towards p-nitrophenyl substrates and cellobiose. Km, Vmax and kcat values of TnBglA, using pNPG as substrate, were 1.5 mM, 297 mmol mg- 1min-1, and 1527778 s-1, respectively. Whereas, TnBglB showed Km, Vmax and kcat values of 0.45 mM, 153 mmol mg-1min-1 and kcat 1214285.7 s-1, respectively using pNPG as substrate. Thermodynamic parameters as ΔH*, ΔG* and ΔS* for pNPG hydrolysis by TnBglA were calculated at 95°C as 25.7 kJ mol-1, 47.24 kJ mol-1 and -58.6 J mol-1 K-1, respectively. Thermodynamic parameters for pNPG hydrolysis by TnBglB like ΔH*, ΔG* and ΔS* were calculated at 85°C as 24.1 kJ mol-1, 46.55 kJ mol-1 and -62.74 J mol-1 K-1, respectively. TnBglA displayed a half-life (t1/2) of 5.21 min at 97°C with denaturation parameters of enzyme including ΔH*D, ΔG*D and ΔS*D were 662.04 kJ mol-1, 110.10 kJ mol-1 and 1.491 kJ mol-1 K-1, respectively. TnBglB showed a half-life (t1/2) of 4.44 min at 94°C with denaturation parameters of enzyme including ΔH*D, ΔG*D and ΔS*D were 283.78 kJ mol-1, 108.7 kJ mol-1 and 0.477 kJ mol-1 K-1, respectively. Generally, inadvertently preparing medium and unintentional induction of engineered E. coli BL21, give poor or variable yields of heterologous proteins. Therefore, to enhance the activity and production of an industrially relevant cloned enzymes through various cultivation and induction strategies. High-cell-density and optimal heterologous proteins expression were obtained in 4×ZB medium after 72 h inducement at 22°C when culture gave heat shock (at 42°C for 1 h) at 0.6 OD600nm and induced either with 0.5 mM IPTG/150 mM lactose. TnBglA and TnBglB activities were enhanced 3.8 and 0.096 fold in 4×ZB medium with 150 mM lactose, respectively under optimal conditions. However, considerably greater dry cell weight of TnBglA and TnBglB cultures were 11.30 g DCW L-1 and 11.08 g DCW L-1 in 4×ZB medium, respectively induced with 150 mM lactose. Use of the inexpensive and non-toxic inducer lactose, and an effective process strategy is essential to achieve a high level of enzyme expression. The expression and purification scheme, presented here, has a potential of scaling up to obtain pure and active enzymes, relatively economical for further studies and other applications. Finally, this is a report on enhanced production of highly heat active cloned β-glucosidases from T. naphthophila (TnBglA and TnBglB) with high catalytic efficiency and low product inhibition, which have excellent tolerance against glucose and xylose, and also exhibit independence of detergents, chemical inhibitors and metal cations. All these significant features make both TnBglA and TnBglB appropriate candidates for biotechnological and industrial applications.