ABSTRACT
The intention of current review is to make available up-to-date information on morphology, ecological biodiversity, medicinal uses, phytochemistry and pharmacolog-ical activities on different parts of Euphorbia tirucalli (E. tirucalli). This plant has a number of medicinal uses. Latex of E. tirucalli is vesicant and rubefacient which is used for rheumatism, warts, cough, asthma, ear-ache, tooth-ache and neuralgia. It acts as a purgative in small doses while in big doses it is bitter irritant and emetic. Milky juice is alexiteric, carminative and purgative. It is useful in whooping cough, gonorrhea, asthma, leprosy, dropsy, dyspepsia, enlargement of spleen, colic, jaundice and stone in bladder. The fresh milky juice is good alternative in syphilis and a good application in neuralgia. A decoction of branches is used in gastralgia and colic. Bark is used in treatment of fractures. Poultices prepared from the stem are useful to repair the broken bones. Boiled root liquid acts as an emetic in cases of snake-bite and for infertility in women. The wood is used for rafters, toys and veneering purposes. It is also useful against leprosy and foot paralysis subsequent to childbirth. E. tirucalli is reported to have euphol, β-sitosterol, euphorbol hexacosonate, cycloeuphordenol, cyclotirucanenol, tirucalicine, tri-methyl ellagic acid, gallic acids, terpenic alcohol, isoeuphorol, taraxasterol, tirucallol, euphor-one, euphorcinol, euphorbins, 12-deoxy-4β-hydroxyphorbol-13-phenyl acetate-20-acetate, 12, 20-dideoxyphorbol-13-isobutyrate, glut-5-en-3-β-ol, 3,3′-di-O-methylellagic acid, euphorbin-A (polyphenol), tirucallin-A (7) (tannin), tirucallin-B (11), euphorbin-F (14) (dimers), cycloartenol, 24-methylenecycloartenol, ingenol triacetate, 12-deoxy-4β-hydroxyphorbol-13-phenyl acetate-20-acetate, taraxerone, euphorginol, taraxerol, cam-pesterol, stigmasterol, palmitic acid, linoleic acid,β-amyrin, etc. active phytoconstituents. E. tirucalli have possessed activity in human-lymphocytes, analgesic, anthelmintics, antiarthritic, antibacterial/antifungal/antimicrobial, anti-HIV, anti-inflammatory, antioxi-dant, antiviral, biodiesel production, CNS depressant/neuropathic pain, cytotoxicity/anticancer, genotoxic/mutagenic, hepatoprotective, insect repellants, immunomodulatory, larvicidal, molluscicidal/ovicidal/piscicidal, myelopoiesis, proteolytic/chitinolytics phar-macological activities. There is a need to isolate dynamic constituents, their biological trial, molecular mechanisms, experimental protection and legalization of therapeutic uses of E. tirucalli. The collected information will be helpful to locate up study protocol for recent drugs and Ayurvedic formulation expansion in curative and treat a variety of ailments.
ABSTRACT
The phyllosphere, i.e., the aerial parts of the plant, provides one of the most important niches for microbial colonization. This niche supports the survival and, often, proliferation of microbes such as fungi and bacteria with diverse lifestyles including epiphytes, saprophytes, and pathogens. Although most microbes may complete the life cycle on the leaf surface, pathogens must enter the leaf and multiply aggressively in the leaf interior. Natural surface openings, such as stomata, are important entry sites for bacteria. Stomata are known for their vital role in water transpiration and gas exchange between the plant and the environment that is essential for plant growth. Recent studies have shown that stomata can also play an active role in limiting bacterial invasion of both human and plant pathogenic bacteria as part of the plant innate immune system. As counter-defense, plant pathogens such as Pseudomonas syringae pv tomato (Pst) DC3000 use the virulence factor coronatine to suppress stomate-based defense. A novel and crucial early battleground in host-pathogen interaction in the phyllosphere has been discovered with broad implications in the study of bacterial pathogenesis, host immunity, and molecular ecology of bacterial diseases.
Subject(s)
Amino Acids/metabolism , Indenes/metabolism , Solanum lycopersicum/physiology , Plant Leaves/physiology , Plant Stomata/physiology , Pseudomonas syringae/pathogenicity , Virulence Factors/physiology , Amino Acids/genetics , Solanum lycopersicum/genetics , Solanum lycopersicum/microbiology , Plant Leaves/microbiology , Plant Stomata/microbiology , Pseudomonas syringae/genetics , Virulence Factors/geneticsABSTRACT
The RFX DNA binding domain (DBD) is a novel highly conserved motif belonging to a large number of dimer DNA binding proteins which have diverse regulatory functions in eukaryotic organisms. To characterize this novel motif, a 78mer polypeptide corresponding to the DBD of human hRFX (hrfX1/DBD), a prototypical member of the RFX family has been cloned and overproduced in Escherichia coli. A purification procedure using cation exchange chromatography has also been developed.