Antioxidant, antihypertensive, anti-hyperglycemic, and antimicrobial activity of aqueous extracts from twelve native plants of the Yucatan coast.

Looking for a biotechnical potential, aqueous extracts of leaves of 12 native species used in the Mayan traditional medicine of the coastal dune and mangrove of Yucatan (Mexico) were selected to evaluate their biological activities. Rhizophora mangle and Manilkara zapota showed the highest free radical scavenging activity (3.94 ± 0.19 and 6.42 ± 0.32 µg/mL, respectively), and the highest antihypertensive activity was obtained from Solanum donianum (0.38 µg/mL). The anti-hyperglycemic activity of these species was also tested; the highest activities were registered with R. mangle. The antimicrobial activity of Malvaviscus arboreus, S. donianum, M. zapota, and R. mangle at 10% (w/v) was positive against six human pathogenic bacteria and Bonellia macrocarpa against one pathogenic fungus. Solanum donianum, M. zapota, B. macrocarpa, and R. mangle were positive against two pathogenic plant fungi. These results show that the aqueous extracts of five native plants of the Yucatan coast have potential as antioxidants, ACE inhibitors, α-amylase and α-glucosidase inhibitors, and as antimicrobials, which make their exploration for utilization in the agricultural and pharmaceutical industries a possibility.

Genome-wide in silico identification of GPI proteins in Mycosphaerella fijiensis and transcriptional analysis of two GPI-anchored ß-1,3-glucanosyltransferases.

The hemibiotrophic fungus Mycosphaerella fijiensis is the causal agent of black Sigatoka (BS), the most devastating foliar disease in banana (Musa spp.) worldwide. Little is known about genes that are important during M. fijiensis-Musa sp. interaction. The fungal cell wall is an attractive area of study because it is essential for maintenance of cellular homeostasis and it is the most external structure in the fungal cell and therefore mediates the interaction of the pathogen with the host. In this manuscript we describe the in silico identification of glycosyl phosphatidylinositol-protein (GPI) family in M. fijiensis, and the analysis of two ß-1,3-glucanosyltrans-ferases (Gas), selected by homology with fungal pathogenicity factors. Potential roles in pathogenesis were evaluated through analyzing expression during different stages of black Sigatoka disease, comparing expression data with BS symptoms and fungal biomass inside leaves. Real-time quantitative RT-PCR showed nearly constant expression of MfGAS1 with slightly increases (about threefold) in conidia and at speck-necrotrophic stage during banana-pathogen interaction. Conversely, MfGAS2 expression was increased during biotrophy (about seven times) and reached a maximum at speck (about 23 times) followed by a progressive decrease in next stages, suggesting an active role in M. fijiensis pathogenesis.

The in vitro secretome of Mycosphaerella fijiensis induces cell death in banana leaves.

The hemibiotrophic filamentous fungus Mycosphaerella fijiensis causes the banana foliar disease known as black Sigatoka, responsible for major worldwide losses in the banana fruit industry. In this work the in vitro secretome of M. fijiensis was characterized. Native and denaturant polyacrylamide gel protease assays showed the M. fijiensis secretome contains protease activity capable of degrading gelatin. Necrotic lesions on leaves were produced by application of the in vitro secretome to the surface of one black Sigatoka-resistant banana wild species, one susceptible cultivar and the non-host plant Carica papaya. To distinguish if necrosis by the secretome is produced by phytotoxins or proteins, the latter ones were precipitated with ammonium sulfate and applied in native or denatured forms onto leaves of the same three plant species. Proteins applied in both preparations were able to produce necrotic lesions. Application of Pronase, a commercial bacterial protease suggested that the necrosis was, at least in part, caused by protease activity from the M. fijiensis secretome. The ability to cause necrotic lesions between M. fijiensis secreted- and ammonium sulfate-precipitated proteins, and purified lipophilic or hydrophilic phytotoxins, was compared. The results suggested that leaf necrosis arises from the combined action of non-host specific hydrolytic activities from the secreted proteins and the action of phytotoxins. This is the first characterization of the M. fijiensis protein secretome produced in vitro but, more importantly, it is also the first time the M. fijiensis secretome has been shown to contain virulence factors capable of causing necrosis to its natural host.

Construction and characterization of a bacterial artificial chromosome library of the causal agent of Black Sigatoka fungal leaf spot disease of banana and plantain, Mycosphaerella fijiensis.

A bacterial artificial chromosome library of the causal agent of the Black Sigatoka leaf spot disease of banana and plantain, Mycosphaerella fijiensis, has been constructed using a non-sphaeroplasting technique and characterized using both homologous and heterologous probes. After first and a second size selection of PFGE-fractionated DNA, a ligation was obtained using a 1:4 molar ratio (insert:vector). One hundred random clones were analyzed, and the mean insert size was estimated to be 90 kb. The range of the insert sizes was between 40 and 160 kb. The highest percentage of inserts belonged to the range between 80 and 100 kb; 32% of the inserts had 2 or 3 internal NotI sites. This library consists of 1920 clones, if the genomic size is at least 35 Mb, then this represents 4.9 x genome equivalents, which was supported by hybridization results with homologous and heterologous probes.

Extraction of high-quality, melanin-free RNA From Mycosphaerella fijiensis for cDNA preparation.

High-quality RNA preparations are critical for further applications such as reverse transcriptase-polymerase chain reaction (RT-PCR) transcript amplifications, and elaboration of cDNA and expressed sequence tag libraries. Melanins are phenolic compounds present in many fungi and apparently play key roles in fungi pathogenesis and survival. However, during RNA extraction these compounds constitute a significant challenge to extraction of substantial quantities of high-quality RNA, and consequently to preparation of cDNA libraries. No method currently exists for RNA extraction from Mycosphaerella fijiensis that produces high quantities of melanin-free RNA. This fungus is the most important pathogen of cultivated Musa sp. varieties. A comparison is made between results obtained from the Trizol and RNeasy protocols for RNA extraction, two commercially available methods commonly used to obtain RNA from various sources. An improved methodology is described that allows isolation of intact RNA and elimination of melanins from M. fijiensis mycelium. RNA quality is evaluated by electrophoresis in formaldehyde-agarose gels, RT into cDNAs, and subsequent PCR amplification using primers designed against actin and beta- tubulin from fungi.