نہیں اے سجن میرے پاس
ڈاہڈا ہویا جی اداس
ساڈا سجن بے پروا
دکھیاں دا نہیں کوئی احساس
دکھاں درداں توں نہیں ڈردے
آیا غم جنھاں نوں راس
اندر ہڈیاں دے دھوں دھکھیا
اتوں رہ گیا خالی ماس
اوتھے بہہ کے حقہ پیواں
جتھے چلے تیرا خراس
لے جا پیار حیاتی میری
تیرا وعدہ میرا پاس
The dictionaries have played a vital role in understating and preserving any language. Arabic is a Semitic language; it has a large, deep and rich history. The Arabs have always tried to keep the Arabic language safe, but all these efforts were verbal, they did not have a tradition of writing in pre Islamic era. After the Islam they focused on writing and began the writing activities such as: exegesis of Quranic verses, Hadith and explanation of some difficult words used in Quranic verses. In the 2nd century, the first initial stage of Arabic dictionary writing began with the efforts of Al-Khalil, who is considered as a founder of Arabic dictionary writing. After that, language scholars created a great work in promotion of Arabic dictionary. Of these scholars Ibn Manzoor who sacrificed his life for the preserving Arabic language through his writing and research. And his valuable and great benefit book (Lisan-al-Arab) which is considered one of the most important source on said subject. In this Paper, we have presented an introductory and detailed study of his said book, So that Urdu readers can benefit from this scholarly investment.
Salmonella enterica is a Gram-negative facultative anaerobic bacteria. It belongs to the family of Enterobacteriaceae. Infections caused by Salmonella species are major threat to the human and animal health. After 1-3 days of ingestion of contaminated food, the patient develops diarrhea, fever, vomiting, and abdominal cramps. The situation is exacerbated if not treated promptly. Whole genome sequencing projects of clinically significant serovars of S. enterica have opened new perspectives of medical research. Using the genomic data, novel approaches are being employed throughout the world to find new protein targets for drug designing and screening. Targeting the essential metabolic pathways of the bacteria is the approach which we have focused in our study. The protein sequence and metabolic pathway data of the core proteome of S. enterica was analyzed in comparison to that of Homo sapiens. Various computational tools (BLASTp, CD-HIT, and Shell scripting) and datasets (NCBI, DEG, and KEGG) were extensively utilized to find non-homologous and essential enzymes of the pathogen. We discovered 73 enzymes belonging to metabolic pathways found only in the bacteria but not in H. sapiens, and proposed them as potential drug targets. Later, we selected an essential outer membrane protein complex (LptD/E) of S. enterica involved in lipopolysaccharide assembly, as a target in search of an inhibitor of the PPI complex. Druggable sites at the interface of PPI were identified by PocketQuery followed by virtual screening of the ZINC database of commercially available compounds using the ZINCPharmer tool. Energy minimization and scoring of short-listed compounds was performed using SMINA. A rational screening of >10,000 compounds resulted in 3 compounds depicting favorable polar interactions and optimal conformation for binding with the LptD protein. We propose that this interaction may lead to block the LptD interaction with LptE and lipid molecules and in result may block the LPS assembly.