Bilal Haider Abbasi

Biological role of Piper nigrum L. (Black pepper): A review

Abstract Piper nigrum L. is considered the king of spices throughout the world due to its pungent principle piperine. Peppercorn of Piper nigrum as a whole or its active components are used in most of the food items. Different parts of Piper nigrum including secondary metabolites are also used as drug, preservative, insecticidal and larvicidal control agents. Biologically Piper nigrum is very important specie. The biological role of this specie is explained in different experiments that peppercorn and secondary metabolites of Piper nigrum can be used as Antiapoptotic, Antibacterial, Anti-Colon toxin, Antidepressant, Antifungal, Antidiarrhoeal, Anti-inflammatory, Antimutagenic, Anti-metastatic activity, Antioxidative, Antiriyretic, Antispasmodic, Antispermatogenic, Antitumor, Antithyroid, Ciprofloxacin potentiator, Cold extremities, Gastric ailments, Hepatoprotective, Insecticidal activity, Intermittent fever and Larvisidal activity. Other roles of this specie includes protection against diabetes induced oxidative stress; Piperine protect oxidation of various chemicals, decreased mitochondrial lipid peroxidation, inhibition of aryl hydroxylation, increased bioavailability of vaccine and sparteine, increase the bioavailability of active compounds, delayed elimination of antiepileptic drug, increased orocecal transit time, piperine influenced and activate the biomembrane to absorb variety of active agents, increased serum concentration, reducing mutational events, tumour inhibitory activity, Piperine inhibite mitochondrial oxidative phosphorylation, growth stimulatory activity and chemopreventive effect. This review based on the biological role of Piper nigrum can provide that the peppercorn or other parts can be used as crude drug for various diseases while the secondary metabolites such as piperine can be used for specific diseases.

Dengue fever treatment with Carica papaya leaves extracts

The main objective of the current study is to investigate the potential of Carica papaya leaves extracts against Dengue fever in 45 year old patient bitten by carrier mosquitoes. For the treatment of Dengue fever the extract was prepared in water. 25 mL of aqueous extract of C. papaya leaves was administered to patient infected with Dengue fever twice daily i.e. morning and evening for five consecutive days. Before the extract administration the blood samples from patient were analyzed. Platelets count (PLT), White Blood Cells (WBC) and Neutrophils (NEUT) decreased from 176×10(3)/µL, 8.10×10(3)/µL, 84.0% to 55×10(3)/µL, 3.7×10(3)/µL and 46.0%. Subsequently, the blood samples were rechecked after the administration of leaves extract. It was observed that the PLT count increased from 55×10(3)/µL to 168×10(3)/µL, WBC from 3.7×10(3)/µL to 7.7×10(3)/µL and NEUT from 46.0% to 78.3%. From the patient feelings and blood reports it showed that Carica papaya leaves aqueous extract exhibited potential activity against Dengue fever. Furthermore, the different parts of this valuable specie can be further used as a strong natural candidate against viral diseases.

Light-enhanced caffeic acid derivatives biosynthesis in hairy root cultures of Echinacea purpurea

Light plays an important role in almost all plant developmental processes and provides the fundamental building blocks for growth, development, primary and secondary metabolism. The effects of light on growth rate and caffeic acid derivative (CADs) biosynthesis in hairy root cultures of Echinacea purpurea (Moench) were assessed. Light-grown hairy roots accumulated increased levels of anthocyanins, which became visible in outer cell layer of the cortex as a ring of purple color. The light-grown root cultures also had radially thickened morphology compared with the dark-grown controls. The growth rate and cell viability of the hairy root cultures in light did not show obvious difference in comparison with those in dark. However, biosynthesis of CADs including cichoric acid, caftaric acid, chlorogenic acid and caffeic acid was significantly increased in hairy root cultures grown in the light. The enhanced accumulation of CADs and anthocyanins in E. purpurea hairy root cultures was correlated to an observed light-stimulated activity of phenylalanine ammonium lyase (PAL).

Free radical scavenging (DPPH) potential in nine Mentha species

Mentha species are used in every day life in various food items. These species produce valuable secondary metabolites that scavenge toxic free radicals. Toxic free radicals can cause different diseases in the human body. In the present study free radical scavenging potential (1,1-diphenyl-2-picrylhydrazyl scavenging activity) in nine Mentha species were investigated to evaluate and explore new potential sources for natural antioxidants. The activity was performed after different time intervals with incubation period of 30 minutes. The methanolic extracts revealed that significantly higher activity (82%) was observed in Mentha suaveolens, followed by Mentha longifolia (79%), Mentha officinalis (76%) and Mentha piperita, Mentha pulegium, Mentha royleana (75%), respectively. Significantly same activity was observed in Mentha arvensis and Mentha spicata. Lower activity was observed in Mentha citrata (64%). The present study revealed that these species can be used as natural antioxidants.

Echinacea biotechnology: Challenges and opportunities

Echinacea, better known as purple coneflower, has received a global attention because of its increasing medicinal value. There is enormous potential for the discovery of new medicinal compounds in this species and an immediate need for techniques to facilitate the production of high quality, chemically consistent plant material for drug development and clinical trials. In vitro tissue culture of Echinacea can play a vital role in the development of novel germplasm, rapid multiplication, and genetic modifications for an enhanced phytochemical production. Recent establishment of liquid culture techniques, large-scale bioreactors, and Agrobacterium-mediated transformation are changing the production parameters of the Echinacea species. This review provides an overview of the recent developments in in vitro technologies and challenges that remain in the Echinacea biotechnology.

In vitro larvicidal potential against Anopheles stephensi and antioxidative enzyme activities of Ginkgo biloba, Stevia rebaudiana and Parthenium hysterophorous.

OBJECTIVE To investigate in vitro larvicidal and antioxidant enzymes potential of the medicinal plants Ginkgo biloba (G. biloba), Stevia rebaudiana (S. rebaudiana) and Parthenium hysterophorous (P. hysterophorous) against Anopheles stephensi (An. stephensi) 4th instars larvae. METHODS For evaluation of larvicidal potential, the ethanolic, methanolic and dichloromethane leaves extracts of three different plants were used in dose-dependent experiments in two media, while the antioxidant enzymes activities were investigated using four different methods viz., superoxide dismutase, peroxidase, ascorbate and catalase. RESULTS An. stephensi has developed resistance to various synthetic insecticides, making its control increasingly difficult. The comparative performance of ethanolic extracts (65%-90%) was found better than the methanolic extract (70%-87%) and dichloromethane extract (60%-70%). Among the three plants extracts tested in two media, S. rebaudiana exhibited higher larvicidal activity with LC(50) (24 h) in methanolic extract than P. hysterophorous and G. biloba. G. biloba and P. hysterophorous exhibited the strongest antioxidative enzymes activity and S. rebaudiana were less active and no significant difference was observed. CONCLUSIONS These three plants exhibit larvicidal potential and can be further used for vector control alternative to synthetic insecticide due to eco-friendly and diseases control, furthermore these plant species have potent antioxidative enzyme activities, therefore, making them strong natural candidate particularly for diseases which are caused due to free radicals.

Use of chemotaxonomic markers for misidentified medicinal plants used in traditional medicines

Onosma hispida Wall. and G. Don. (Boraginaceae) is an important medicinal plant used in Unani system of medicine as cardiac drug. In Unani, Ayurvedic and traditional system of medicines, the drug is marketed under the trade name rattan jot. In herbal market, this drug is misidentified, confused and adulterer with local available drug obtained from another species, Geranium wallichianum D. Don. ex Sweet. In order to ensure the use of only genuine and uniform material of such herbal drug, work on chemotaxonomic authentication assumes vital significance. Chemotaxonomic study has been carried out covering detailed morpho-anatomical, palynological (SEM), features of crude drug (roots) include organoleptic tests, response to UV and IR light exposure and results of TLC fingerprinting (flvonoids) evaluated in this work would serve as standard reference for correct identification in commercialization at global trade.

Morphogenic and biochemical variations under different spectral lights in callus cultures of Artemisia absinthium L.

Through its impact on morphogenesis, light is the key environmental factor that alters plant architectural development; however, the understanding that how light controls plant growth and developmental processes is still poor and needs further research. In this study, we monitored the effect of various monochromatic lights and plant growth regulators (PGRs) combinations on morphogenic and biochemical variation in wild grown-leaf derived callus cultures of Artemisia absinthium L. Combination of α-naphthalene acetic acid (NAA 1.0mg/l) and Thidiazuron (TDZ 2.0mg/l) resulted in optimum callogenic frequency (90%) when kept under fluorescent light for 4weeks (16/8h). In contrast to the control (white spectrum), red spectrum enhanced peroxidase activity, protease activity, total protein content and chlorophyll a/b ratio. Green spectrum was found to be more supportive for total phenolics, total flavonoids and antioxidant activity. Yellow light enhanced MDA content while white and green light improved total chlorophyll content and carotenoid content. A positive correlation among callogenic response, antioxidant activities and set of antioxidative enzyme activities was also observed in the current report. This study will help in understanding the influence of light on production of commercially important secondary metabolites and their optimization in the in vitro cultures of A. absinthium L.

Rearing the cotton bollworm, Helicoverpa armigera, on a tapioca-based artificial diet.

Abstract The impact of a tapioca-based artificial diet on the developmental rate, life history parameters, and fertility was examined over five consecutive generations for the cotton bollworm, Helicoverpa armigera Hubner (Lepidoptera: Noctuidae), a highly polyphagous pest of many agricultural crops. The study showed that when fed the tapioca-based artificial diet during larval stage, larval and pupal developmental period, percent pupating, pupal weight, emergence rate of male and female, longevity, fecundity and hatching were non-significantly different than that of the control agar-based artificial diet. Moreover, the cost to rear on tapioca-based diet approached 2.13 times less than the cost of rearing on the agar-based artificial diet. These results demonstrate the effectiveness and potential cost savings of the tapioca-based artificial diet for rearing H. armigera.

An overview on the small heat shock proteins

In the last 25 years, a huge amount of literature has been accumulated describing the cell’s response to different kinds of environmental stress conditions, such as high temperatures, altered pH, exposure of the cell to toxins, starvation, oxygen, and water deprivation, among others. Heat shock proteins (HSPs) are one of the main expressed products of the cell in response to stresses. HSPs can be classified into six structurally conserved classes according to their molecular weight namely, HSP100, HSP90, HSP70, HSP60, small heat shock proteins (sHSPs) and ubiquitin (8.5 kDa). In eukaryotes, different heat shock genes are expressed uncoordinatedly, whereas in prokaryote, heat shock genes form a regulon and appear simultaneously. sHSPs are associated with nuclei, cytoskeleton and membranes. They bind partially to denatured proteins, preventing irreversible protein aggregation during stress. In animals, only one sHSP gene has been located in yeast cells, ten in mammalian, two in birds and four genes have been found in Drosophila . However, in plants more than 20 sHSPs have been reported and they can be divided into 6 classes, of which, 3 classes (CI, CII and CIII) are in the cytosole or in the nucleus and the other three (CIV, CV and CVI) in the plastids, endoplasmic reticulum and mitochondria. Mitochondrial and chloroplast sHSPs protect electron transport chain. During development in animals, sHSP genes are normally regulated at late neurula and early tailbud stage and in plants during pollen development, seed maturation, seed imbibition and germination. Transcriptional regulation of sHSPs depends on particular activation of heat shock factors (HSF) which recognize the highly conserved heat-shock elements (HSEs). After the heat stress has been released, the sHSPs are quite stable, suggesting that sHSPs may be important for recovery as well.