اماں ملی نہ، ترستے رہے اماں کے لیے
تو زہر پی لیا تسکینِ جسم و جاں کے لیے
ہے میرے سر کو فقط تیرے نقشِ پا کی طلب
مری جبیں ہے ترے سنگِ آستاں کے لیے
خدا کرے کہ یہ ان آندھیوں سے بچ جائے
کہ تنکا تنکا جو رکھا ہے آشیاں کے لیے
نگاہِ بد سے بچے حسن کا وہ صدقہ دے
یہ مشورہ ہے مرا میرے مہرباں کے لیے
وہ ایک ایک مسافر نگاہ میں رکھے
بہت ضروری ہے یہ میرِ کارواں کے لیے
غم حیات کا سورج ہے سر پہ تو کیا غم
کسی کی یاد ہی کافی ہے سائباں کے لیے
چمن کو چھوڑ کے جانے لگے ہیں تائبؔ جی
قسم خدا کی یہ مژدہ ہے باغباں کے لیے
Mitogen Activated Protein Kinase (MAPK) pathway is the most commonly studied signaling mechanisms, consisting of different groups of protein kinases that participate in regularly connecting interpretation of external stimuli that can change in gene expression or cellular organization within eukaryotic systems. The MAP kinase pathways functions in plants cell signaling (intra- and extra). MAPK cascades follow a response system. MAP kinases are the component of kinase constituents that deliver signals from sensors to responders in eukaryotes including plants. Several pathways are activated under different environmental stresses. Stimulating agents may be biological (biotic) like microbial infections or environmental (abiotic) like temperatures threshold, high salt concentration, drought, heavy metal, Ultra-violet radiation, ozone gases and reactive oxygen species (ROS). The involvement of MAPK signaling pathway in different stresses has been widely studied. In this review we also try to highlight MAPK cascades, its regulation, functions and recent findings in various cellular processes against stress conditions.
Cotton leaf curl disease (CLCuD) is the major biotic constraint to cotton production on the Indian subcontinent, and is caused by monopartite begomoviruses accompanied by a specific DNA satellite, Cotton leaf curl Multan betasatellite (CLCuMB). Since the breakdown of resistance against CLCuD in 2001/2002, only one virus, the “Burewala” strain of Cotton leaf curl Kokhran virus (CLCuKoV-Bur), and a recombinant form of CLCuMB have consistently been identified in cotton across the major cotton growing areas of Pakistan. Unusually a bipartite isolate of the begomovirus Tomato leaf curl virus was identified in CLCuD-affected cotton recently. In the study described here we isolated the bipartite begomovirus Tomato leaf curl New Delhi virus (ToLCNDV) from CLCuD-affected cotton. To assess the frequency and geographic occurrence of ToLCNDV in cotton, CLCuD-symptomatic cotton plants were collected from across the Punjab and Sindh provinces between 2013 and 2015. Analysis of the plants by diagnostic PCR showed the presence of CLCuKoV-Bur in all 31 plants examined and ToLCNDV in 20 of the samples. Additionally, a quantitative real-time PCR analysis of the levels of the two viruses in co-infected plants suggests that coinfection of ToLCNDV with the CLCuKoV-Bur/CLCuMB complex leads to an increase in the levels of CLCuMB, which encodes the major pathogenicity (symptom) determinant of the complex. A recently developed genome engineering platform, clustered regularly interspaced short palindromic repeat / CRISPR associated9 (CRISPR/Cas9) system, was evaluated to engineer broad-spectrum begomovirus resistance. The results indicated that CRISPR/Cas system can be efficiently used to target CLCuKoV and also to engineer broad-spectrum resistance. Plants expressing AZP-G5-GroEL were also evaluated for the confirmation of transgenes. The significance of these results are discussed.