جد دا یار سیانا ہویا
ساتھوں دور ٹھکانا ہویا
کول وی آکے ملدا نہیں
مٹی کھیہ یارانہ ہویا
کرسی اوہ مخلوق دی خدمت
جِنّے رب نوں پانا ہویا
پہلے تاں ہک پل نہ وسدا
ہن کیوں یار بیگانہ ہویا
رکھ اڈیکاں میں جا ستا
خواباں وچ یرانہ ہویا
مستی وچ کئی سجدے کیتے
جد دا میں فرزانہ ہویا
شمع نے ہک دم ساڑ جلایا
عاشق جد پروانہ ہویا
جس درود و سلام نہ بھیجے
عاشق کیویں یگانہ ہویا
مستی اپنی اینویں لگے
یار دا مکھ مستانہ ہویا
ذکر فکر وچ تیرے رہنا
ایہو ای تانا بانا ہویا
After the Incident of 9/11 Pakistan decided to become the ally of America and play an important role in fighting terrorism on both domestic and global fronts. This war has destroyed the peace of Pakistan and has affected the Economy of Pakistan desperately. The decision of Pakistani government to fight the so called war on terror with America only to get the financial and political support of America was clearly against the teachings of Islam. However, Pakistan did receive financial benefits in this war. The important development in the wake of 9/11 is that Pakistan became the biggest beneficiary of US economic aid in the South Asian region. Despite the GDP growth, foreign aid, foreign investment, better record of foreign exchange reserve, worker remittances and debt rescheduling Pakistan’s economy did not show the desired results. The change in the Pakistan’s economy during this period is not sustainable in economic term. Due to the war on terror law and order situation has become worst. At present Pakistan is facing most unique, difficult and gruesome faces of terrorism. In this situation fiscal policy in Islamic perspective is prerequisite for the peace and economic development of Pakistan.
This research work consists of synthesis of various thiosemicarbazides and 1,2,4-triazole derivatives and screening of their biological activities. All compounds were fully characterized by various spectroscopic techniques, such as 1H-NMR, 13C-NMR, and EIMS/FABMS. Melting points of all compounds were also recorded. This dissertation consists of two chapters based on the extensive literature and research findings regarding the four libraries of synthetic compounds. Each chapter has its own compounds numbering, tables, figures, schemes, and references. Chapter-1 deals with general introduction of thiosemicarbazides, their previous synthetic strategies, and their biological activites. It also describes general introduction of biological activities and their bioassays. It is comprised of the synthesis of various derivatives of 4chlorophenyl substituted thiosemicarbazides 33-57 (Part A), and nicotinic/isonicotinic substituted thiosemicarbazides 60-84 (Part B) and their in vitro activities against urease, α-glucosidase, and acetylcholinesterase (AChE) enzymes. Compounds 35, 42, 46, 49, 61, 67, 77, and 79 were new derivatives while rest of the compounds were previously known. Except few all synthetic compounds showed superior activity than the standard thiourea. Compound 57 was sixty six fold, compound 42 was nineteen fold, compounds 35, 38, 52 were about ten fold and compounds 69 and 81 were eighteen fold more potent than the standard thiourea. Some synthetic thiosemicarbazides showed weak activity against αglucosidase enzyme while showed no activity against acetylcholinesterase enzyme. Chapter-2 deals with general introduction to 1,2,4-triazole, their previous synthetic strategies, and their biological activites. It is also composed of the synthesis of various analogues of 4-chlorophenyl substituted 1,2,4-triazole derivatives 156-180 (Part A), and synthesis of thioether derivatives of 1,2,4-triazoles 181-192 (Part B) by four steps reaction and their in vitro activities against urease, α-glucosidase, and AChE enzymes. Compounds 158, 162, 163, 165, 167, and 169-173 were new derivatives, while rest of the compounds were previously reported by others. 1,2,4-Triazole derivatives 156-180 showed good to excellent urease inhibitory activities. Compounds 156, 163, 166, and 176 were more potent compounds, particularly, compound 176 showed 28-fold more potent activity than the standard thiourea. Compounds 156, 162, 163, 166, 175, and 179 exhibited weak αglucosidase inhibitory activity, while 1,2,4-triazole derivatives 156-180 showed no activity against AChE enzyme. Thioether derivatives 181-192 showed a weak inhibitory activity against urease enzyme, while good to weak inhibitory activity against α glucosidase enzyme, particularly, thioether derivatives 182 and 185 were found to be the more potent than the standard acarbose. All 1,2,4-triazole derivatives 156-180 showed no activity, while thioether derivatives 181-192 showed weak inhibitory activity against AChE enzyme.