Aberrant vegetative and reproductive development by overexpression and lethality by silencing of OsHAP3E in rice

We generated transgenic rice plants overexpressing OsHAP3E which encodes a subunit of a CCAAT-motif binding HAP complex. The OsHAP3E-overexpressing plants showed various abnormal morphologies both in their vegetative and reproductive phases. The OsHAP3E-overexpressing plants were dwarf with erected leaves and similar to brassinosteroid mutants in the vegetative phase. In the reproductive phase, dense panicle was developed, and occasionally successive generation of lateral rachises and formation of double flowers were observed. These phenotypes indicate association of OsHAP3E with determination of floral meristem identity. On the other hand, repression of OsHAP3E by RNAi or by overexpressing chimeric repressor fusion constructs brought about lethality to transformed cells, and almost no transformant was obtained. This suggests that the OsHAP3E function is essential for rice cells. Altogether, our loss-of-function and gain-of-function analyses suggest that OsHAP3E plays important pleiotropic roles in vegetative and reproductive development or basic cellular processes in rice.     

Sequential Anterograde and Retrograde Conduction Block during Radiofrequency Ablation of an Accessory Pathway

We present an interesting image showing sequential loss of anterograde, and subsequently, retrograde conduction during radiofrequency ablation of an accessory pathway. We discuss the possible mechanisms and prior literature concerning this interesting finding.     

Partial purification and characterization of exoinulinase produced from Bacillus sp.

Inulinase are industrial food enzymes which have gained much attention in recent scenario. In this study, Inulinase producing eight bacterial colonies were isolated and screened from three different plant root tubers soil sample. Among 8 inulinase producing colonies, the higher yielding colony was selected with 25.10?U/mL for further studies. The best inulinase producing colony was identified by partial 16S rRNA gene sequence as Bacillus sp. The crude inulinase was purified by using ammonium sulphate precipitation, dialysis and ion exchange chromatography on DEAE – sephacel and obtained 1.9 purification fold with total activity 293 U. The purified enzyme was subjected to characterization studies and it was found to be stable at 30–60?°C and optimum temperature was at 55?°C. The enzyme was stable at pH 3.0–7.0 and optimum pH was at 6.5. The K_m and V_max value for inulinase was found to be 0.117?mg/mL and 4.45?μmol?min?mg^?1 respectively, demonstrate its greater affinity. Hence, this enzyme can be widely used for the production of fructose, and fructooligosaccharides, which are important ingredients in food and pharmaceutical industry.     

Functional mapping of community‐acquired respiratory distress syndrome (CARDS) toxin of Mycoplasma pneumoniae defines regions with ADP‐ribosyltransferase,vacuolating and receptor‐binding activities

Community‐acquired respiratory distress syndrome (CARDS) toxin from Mycoplasma pneumoniae is a 591‐amino‐acid virulence factor with ADP‐ribosyltransferase (ADPRT) and vacuolating activities. It is expressed at low levels during in vitro growth and at high levels during colonization of the lung. Exposure of experimental animals to purified recombinant CARDS toxin alone is sufficient to recapitulate the cytopathology and inflammatory responses associated with M. pneumoniae infection in humans and animals. Here, by molecular modelling, serial truncations and site‐directed mutagenesis, we show that the N‐terminal region is essential for ADP‐ribosylating activity. Also, by systematic truncation and limited proteolysis experiments we identified a portion of the C‐terminal region that mediates toxin binding to mammalian cell surfaces and subsequent internalization. In addition, the C‐terminal region alone induces vacuolization in a manner similar to full‐length toxin. Together, these data suggest that CARDS toxin has a unique architecture with functionally separable N‐terminal and C‐terminal domains.