The phytotoxins ofMycosphaerella fijiensis,the causative agent of Black Sigatoka disease of bananas and plantains

Black Sigatoka is the most costly to control disease of bananas and plantains in the world. Currently, a worldwide search is underway either to find or to produce cultivars that are disease-resistant or-tolerant. Phytotoxins isolated from the pathogen might facilitate the discovery of such cultivars. Several aromatic compounds from liquid cultures ofMycosphaerella fijiensis, the causal agent of Black Sigatoka disease of bananas and plantains, have been isolated. The most abundant and phytotoxic of these compounds is 2,4,8-trihydroxytetralone, which induces necrotic lesions at 5 g/5 l in less than 12 h on sensitive cultivars of bananas. This compound exhibits host-selectivity that mimics that of the pathogen. Other phytotoxins isolated from this fungus, in lesser amounts, were juglone, the novel compound 2-carboxy-3-hydroxycinnamic acid, isoochracinic acid and 4-hydroxyscytalone. Some of the phytotoxins isolated are melanin shunt pathway metabolites, which makes this fungus unique among plant pathogens.     

Chemical studies ofJasminum auriculatum (Vahl) leaves - II

Zusammenfassung d-Mannitol, Hentriacontane,n-Triacontanol, und ein Epimeres von Lupeol sind aus Blättern vonJ. auriculatum isoliert worden. Glukose und Fruktose sind papierchromatographisch festgestellt worden.     

Tumor promoting constituent ofEuphorbia serrata L. latex

Summary Euphorbia serrata latex has initially ingenol-3-palmitate, which by action of silica gel is converted to ingenol-20-palmitate. The former is responsible for the irritant and cocarcinogenic activity of the latex on mouse ear and on mice back skin.     

Effect of volatile phylloplane fungal metabolites on the growth of a foliar pathogen

Summary Volatile fungal metabolites excluded from various leaf-inhabiting microfungi were tested for their mycostatic activity against the growth ofPestalotiopsis funerea Desm., a leaf spot pathogen ofEucalyptus globulus Labill. Findings reveal thatTrichoderma viride andTrichothecium roseum exhibited significant antagonistic action, however,Cladosporium herbarum, Nigrospora sphaerica andPapulaspora sp. showed a stimulating effect. A morphophysiological effect was also observed.Acknowledgments. The grant from CSIR (India Govt.) in the form of SRF and laboratory facility from the Department of Botany, Banaras Hindu University are gratefully acknowledged. Thanks are due to Professor R.S. Dwivedi for guidance and constant encouragements.     

Staling growth products of phyllosphere fungi

Summary Pestalotiopsis funerea Desm. causing leaf spot ofEucalyptus globulus Labill. failed to coloniz strongly staled agar discs of phyllosphere inocula. Antibiotics, besides alteration in pH, and nutrient impoverishment of the staling growth products, may play a major role in the mycostasis phenomenon leading to colonization of staled agar by phyllosphere microfungi.     

Fijiensin,the first phytotoxin fromMycosphaerella fijiensis,the causative agent of Black Sigatoka disease

Summary Fijiensin, a novel phytotoxic metabolite, was isolated from a culture of the fungusMycosphaerella fijiensis, the causal agent of Black Sigatoka disease of banana. Fijiensin is phytotoxic on various banana cultivars, but not toward non-host plants. The structure of fijiensin was determined by X-ray analysis.     

Role of fungal statling growth products in inter-specific competition among phylloplane fungi

Summary The effect of fungal staling growth products on leaf-inhabiting microfungi, with special reference to a leaf spot pathogenPestalotiopsis funerea Desm. ofEucalyptus globulus Labill. was studied. Results depict that antibiotics produced by competing microfungi caused the phenomenon of mycostasis on the leaf surfaces.Acknowledgments. I would like to express my thanks to Professor R.S. Dwivedi for his encouragement and to CSIR (Indian Govt.) for financial assistance.     

Haem homeostasis is regulated by the conserved and concerted functions of HRG-1 proteins

Haems are metalloporphyrins that serve as prosthetic groups for various biological processes including respiration, gas sensing, xenobiotic detoxification, cell differentiation, circadian clock control, metabolic reprogramming and microRNA processing. With a few exceptions, haem is synthesized by a multistep biosynthetic pathway comprising defined intermediates that are highly conserved throughout evolution. Despite our extensive knowledge of haem biosynthesis and degradation, the cellular pathways and molecules that mediate intracellular haem trafficking are unknown. The experimental setback in identifying haem trafficking pathways has been the inability to dissociate the highly regulated cellular synthesis and degradation of haem from intracellular trafficking events. Caenorhabditis elegans and related helminths are natural haem auxotrophs that acquire environmental haem for incorporation into haemoproteins, which have vertebrate orthologues. Here we show, by exploiting this auxotrophy to identify HRG-1 proteins in C. elegans, that these proteins are essential for haem homeostasis and normal development in worms and vertebrates. Depletion of hrg-1, or its paralogue hrg-4, in worms results in the disruption of organismal haem sensing and an abnormal response to haem analogues. HRG-1 and HRG-4 are previously unknown transmembrane proteins, which reside in distinct intracellular compartments. Transient knockdown of hrg-1 in zebrafish leads to hydrocephalus, yolk tube malformations and, most strikingly, profound defects in erythropoiesis-phenotypes that are fully rescued by worm HRG-1. Human and worm proteins localize together, and bind and transport haem, thus establishing an evolutionarily conserved function for HRG-1. These findings reveal conserved pathways for cellular haem trafficking in animals that define the model for eukaryotic haem transport. Thus, uncovering the mechanisms of haem transport in C. elegans may provide insights into human disorders of haem metabolism and reveal new drug targets for developing anthelminthics to combat worm infestations.