مولانا عبدالمجید حریری مرحوم
دوسرا علمی حادثہ مولانا عبدالمجید حریری مرحوم کی وفات کا ہے، انھوں نے بھی گزشتہ مہینہ وفات پائی، مرحوم مدنپورہ بنارس کے ایک ممتاز انصاری خاندان سے تھے، عربی اور انگریزی دونوں زبانوں کے فاضل تھے، عربی کی تکمیل کے بعد انگریزی کی تعلیم علی گڑھ کالج میں حاصل کی تھی، اور اپنے دور کے ممتاز طلبہ میں تھے، یہیں سے خلافت اور نان کو اپریشن کی تحریک میں شریک ہوئے اور ایک زمانہ تک جنگ آزادی میں سرگرمی سے حصہ لیتے رہے، اس دور کے تمام بڑے بڑے لیڈروں سے ان کے تعلقات تھے، ہندوستان کی آزادی کے بعد حکومت ہند نے ان کو سعودی عرب میں قونصل جنرل مقرر کیا، کئی سال تک اس عہدہ پر رہے، اس سے سبکدوش ہونے کے بعد کچھ دنوں تک سعودی عرب کے پایہ تخت ریاض میں قیام رہا، مرحوم ہندوستان کے ممتاز صاحب علم تھے، عربی زبان پر ان کو اہل زبان کی جیسی قدرت حاصل تھی، مقرر بھی اچھے تھے، لیکن افسوس ان کے سیاسی ذوق نے ان کے علمی جوہروں کو چمکنے نہ دیا، ایک عرصہ سے اس کا دائرہ بھی مقامی سیاست تک محدود ہوگیا تھا، اس لئے وہ جس علمی شہرت کے مستحق تھے وہ ان کو حاصل نہ ہوسکی اور اب عرصہ سے خانہ نشینی اختیار کرلی تھی، وہ مسلکاً اہل حدیث تھے، لیکن ہر مسلک کے علماء اور اہل علم سے ان کے تعلقات تھے، دارالمصنفین کے بزرگوں سے بھی ان کے پرانے روابط تھے، اس سلسلہ میں کئی مرتبہ ان کا یہاں آنا ہوا گزشتہ سال ایک تقریب سے بنارس جانا ہوا تو ملاقات کے لئے ان کی خدمت میں بھی حاضر ہوا تھا، بہت ضعیف ہوچکے تھے دماغ بھی پوری طرح کام نہ دیتا تھا، تعارف کے بعد پہچانا اور بڑی شفقت و محبت سے پیش...
Poverty is a global issue, particularly, related to the developing countries. The whole world is taking measures to eradicate it. People have different types of talent to earn money. Some are skilled, some have good entrepreneurship ideas and some others are good at manual work. We find that a great number of such skilled people are suffering from lack of resources in Pakistan and therefore not properly able to exert their skills to their utmost. Pakistan, being a developing country, is suffering from the issue of poverty. Many efforts were made for the alleviation of poverty during various regimes. Pakistan People’s Party introduced the Benazir Income Support Program. The same program has been maintained by the present Muslim League (Nawaz) government, due to its so-called utility. However, the fact is that its utility is not promising, as the meager amount given to the needy ones consumes in the daily expenditures and produces no lasting good. Contrary to this thesis of alms-giving, an anti-thesis is provided by the tradition of the Holy Prophet, Muhammad (S. A. W), which emphasizes the provision of interest-free loan. The loan without interest, can enable a person to run his or her business, according to his or her capacity and the person can become independent. The present paper explores the prospects that how interest-free loan is more effective in removing poverty than alms-giving on a regular basis by the government.
Thermophilic microorganisms have gained world-wide importance due to their tremendous potential to produce thermostable enzymes that have wide applications in pharmaceuticals and industries. Proteases are such enzymes which account for nearly 60% of the total world-wide enzyme sales. Thermostable proteases are of greater advantage in applications because they do not only denature at high temperatures, but they also remain active at such temperatures. This project explores the production and biochemical and molecular characterization of the thermostable proteases from thermophilic bacterial strains. The growth conditions of Bacillus subtilis strains in submerged cultivation have been investigated to understand fermentation behavior of the microorganism and the production pattern of the thermostable enzyme. The optimum protease production (178 U/mL) was observed with 1% casein substrate after 48 h of cultivation at 60°C from Bacillus subtilis BSP in shake flasks study. The optimization of various factors affecting the protease production was statistically determined by Box Behnken design based on response surface methodology (RSM). The simultaneous effects of four test interacting factors on the protease production were monitored and conditions were optimized for maximum enzyme production. Optimized cultivation media formulation included: initial pH 8, casein concentration 2% (w/v) and inoculum density 1% when fermentation was carried out for 48 h. The enzyme was 9.8 fold purified in a 2-step procedure involving ammonium sulfate precipitation, DEAE cellulose and Sephadex G-200 gel permeation chromatography. The enzyme was shown to have a molecular weight of 36 kDa by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). It was most active at 50°C, pH 8, with casein as substrate. This enzyme was 100% stable at 50°C and retained its 82% activity at 60°C after 30 minutes of incubation. The enzyme became completely inactivated after incubation at 80°C for 3h. It was strongly activated by metal ions such as Ca2+ and Mn+2. Enzyme activity was inhibited strongly by ethylene diamine tetra acetic acid (EDTA) confirming its identity as a metalloprotease. Protease was not only stable in the presence of organic solvents and surfactants studied but it also exhibited a higher activity than in the absence of some surfactants. Consequently, the DNA encoding the thermostable protease of Bacillus subtilis BSP has been identified. The gene contained an open reading frame of 1638 bp and encoded for a mature peptide sequence of 318 amino acid residues. The protease gene was cloned and expressed in E.coli expression system and the recombinant protease was purified. Sequence analysis showed that this protease has close homology with thermolysin class of proteases. Primary structure analysis of thermostable protease showed 35% of its content to be alpha helix making it stable for three dimensional structure modeling. Homology model of thermolysin has been constructed using swiss model as the workspace. The model was validated by ProSA and RMSD. The results showed the final refined model is reliable. It has 0.06 Å as RMSD and has -2.19 as Z-score. For expression in Bacillus subtilis 1A751 two integration vectors (pDR111 and pSG1154) were compared in order to get the higher extracellular protease yield. 1A751/pDR-BSP-MprT transformant was found to be secreted higher amount of thermostable protease in the culture medium when compared to 1A751/pSG-BSP-MprT strain. The recombinant enzyme was undergone for further studies to check its stability under native enzyme conditions and it was found to be as stable as native protease BSP-MprT. The thermostability of Bacillus subtilis BSP protease was improved by two rounds of error prone PCR mutagenesis. A random mutant library of Bacillus subtilis BSP protease was generated by ep-PCR. The generated mutants have been successfully expressed in E. coli. The mutant proteases obtained in this mutant library were screened for increased protease thermostability. The SDS-PAGE pattern of enzyme was exhibiting a well-defined band (36 kDa). In this study, the thermostability was enhanced from 60°C to 80°C by the single mutation Gly347Cys which has a stabilizing effect on the irreversible thermal inactivation. The BSPmutant has exhibited increase in thermal stability and 2.7 folds half-life at 80°C when compared to wild type protease. Sequence analysis and comparison of both wt-BSPMprT and Mutant-BSP-MprT showed that wt-BSP-MprT had only one cysteine residue at Cys518 position while another cysteine has substituted Gly347 in MutantBSP-MprT. Introduction of another cysteine resulted in the formation of disulfide bridge between the two cysteine residues which play important role in the stability of protein tertiary structure. The inter subunit disulfide bond was estimated to be one of the factors for thermal stability. Another putative alkaline serine thermostable protease gene (aprE) from the thermophilic bacterium Coprothermobacter proteolyticus was cloned and expressed in Bacillus subtilis. The enzyme was determined to be a serine protease based on inhibition by PMSF. Biochemical characterization demonstrated that the enzyme had optimal activity under alkaline conditions (pH 8–10). In addition, the enzyme had an elevated optimum temperature (60°C). The protease was also stable in the presence of many surfactants and oxidant. Thus, the C. proteolyticus protease has potential applications in industries such as the detergent market.