Genetic variation in microsatellite DNA, physiology and morphology of coastal saline rice (Oryza sativa L.) landraces of Bangladesh

Genetic variation of Oryza sativa L. landraces (LRs) collected from the saline coastal belt of Bangladesh, modern varieties (MVs), as well as Pokkali, Nona Bokra and salt tolerant modern varieties (SMVs) derived from the last two were analyzed with 60 evenly distributed rice microsatellite DNA markers. A total of 196 reproducible polymorphic alleles were identified from the band loci. Heterozygosity among the 31 LRs was found to be 0.57, 0.46 in the 5 MVs and 0.40 in the 8 SMVs. Computation of genetic similarity with this data, using Jaccard's coefficient followed by UPGMA clustering, divided the landraces into 6 distinct groups. Three groups were composed of LRs only from the highly saline southwest. Two groups consisted of LRs from the mild to moderately saline mid-east and northeast coasts. The sixth group was heterogeneous, with LRs from the northeast, LRs from the southwest and Nona Bokra. Pokkali and Gunshi, a LR of the southwest, branched out individually. When all the 46 O. sativa L. cultivars were clustered together, most of the MVs and SMVs were found to be linked within the heterogeneous group. The measure of seedling Na and K concentration, Na/K ratios, affected leaf area as well as survival under salinity stress in hydroponics identified 6 LRs from the highly saline southwest as the most tolerant. These group with Pokkali when UPGMA clustering using the Pearson product-moment correlation coefficient suitable for the quantitative physiological data on seedling saline stress was computed. Morphological observations of plant type and height, days to maturity and yield components in non-saline soil indicated low variability among the different LRs. When yield performance as well as tolerance scores were considered, 7 LRs from the southwest and 1 LR from the mid-northeast show potential as donors for breeding salt tolerant rice. The microsatellite fingerprinting analysis thus revealed that some of the salt tolerant landraces of the coastal region have unique polymorphic loci, quite distinct from the popular salt tolerance donor Pokkali. The similarity matrices between the O. sativa L. cultivars chosen for the study can be used as a valuable tool for the proper choice of parents for mapping or breeding purposes. Abbreviations: BARC – Bangladesh Agricultural Research Council; BRRI – Bangladesh Rice Research Institute; CTAB – Hexadecyltrimethyl ammonium bromide; DMRT – Duncan's multiple range test; DU – University of Dhaka; Het – heterogeneous; IRIS – International Rice Information System; IRRI – International Rice Research Institute; LRs – land races; MNE – mid & north east; MVs – modern varieties; SMVs – salt tolerant modern varieties; SRDI – soil resources Development Institute; SSR – simple sequence repeat; SW – south west.     

Mapping gene expression quantitative trait loci by singular value decomposition and independent component analysis

Background  

The combination of gene expression profiling with linkage analysis has become a powerful paradigm for mapping gene expression quantitative trait loci (eQTL). To date, most studies have searched for eQTL by analyzing gene expression traits one at a time. As thousands of expression traits are typically analyzed, this can reduce power because of the need to correct for the number of hypothesis tests performed. In addition, gene expression traits exhibit a complex correlation structure, which is ignored when analyzing traits individually.     

Role of intracellular cAMP in differentiation-coupled induction of resistance against oxidative damage in Leishmania donovani

Even though the human parasite Leishmania donovani encounters tremendous oxidative burst during macrophage invasion, a set of parasites survives and proliferates intracellularly, leading to transformation from promastigote to amastigote form and disease manifestation. The striking shifts in temperature (from 22 degrees C in the insect gut to 37 degrees C in the mammalian host) and pH (7.2 in the insect gut to 5.5 in the parasitophorous vacuole of macrophages) are the key environmental triggers for differentiation as these cause an arrest in the G1 stage of the cell cycle and initiate transformation. Using an established in vitro culture and differentiation system our study demonstrates that the differentiation-triggering environment induces resistance to oxidative damage and consequently enhances infectivity. Differentiation conditions caused a three- to fourfold elevation in cAMP level as well as cAMP-dependent protein kinase activity. Similar to stress exposure, positive modulation of intracellular cAMP resulted in blockage of cell cycle progression and induction of resistance against oxidative damage. Resistance against pro-oxidants from either stress or cAMP may be associated with upregulation of the expression of three major antioxidant genes, peroxidoxin 1, trypanothione reductase, and superoxide dismutase A. Positive modulation of the intracellular cAMP response enables cells to resist the cytotoxic effects of pro-oxidants. In contrast, downregulation of intracellular cAMP by overexpression of cAMP phosphodiesterase A resulted in a decrease in resistance against oxidative damage and reduced infectivity toward activated macrophages. This study for the first time reveals the importance of cAMP response in the life cycle and infectivity of the Leishmania parasite.     

Diagnosis of Symptomless Yellow mosaic begomovirus Infection in Pigeonpea by Using Cloned Mungbean yellow mosaic India virus as Probe

One isolate of Mungbean yellow mosaic India virus (MYMIV) of mungbean plants from Sri Ganganagar, Rajasthan, designated as MYMIV-Mg was isolated and DNA-A and DNA-B, the two full length bipartite genomic components of this virus, were cloned. The [α-³²P] labeled diagnostic probes specific to these cloned DNA-A and -B of MYMIV-Mg were used to detect the virus infection in infected plants by nucleic acid spot hybridization (NASH) test. The NASH tests detected the MYMIV infection and concentration of viral titre in susceptible, moderately susceptible, resistant and symptomless genotypes of pigeonpea (Cajanus cajan) plants. Fourteen genotypes of pigeonpea were tested against five naturally occurring MYMIV variants viz.,.MYMIV Bg, -MgD, -MoL, -Mg and -Pp1 through viruliferous whitefly (Bemisia tabaci) transmission in greenhouse condition. Disease incidence and severity of MYMIV in different pigeonpea genotypes varied with the variants of MYMIV. Many genotypes of pigeonpea did not produce visible yellow mosaic symptoms after inoculation with MYMIV variants MYMIV-Bg, -MbD and -MoL, although, majority of the symptomless genotypes were found to be infected by MYMIV, as viral DNA was detected by NASH test.     

Discovery of dihydroquinoxalinone acetamides containing bicyclic amines as potent Bradykinin B1 receptor antagonists

Replacement of the core beta-amino acid in our previously reported piperidine acetic acid and beta-phenylalanine-based Bradykinin B1 antagonists by dihydroquinoxalinone acetic acid increases the in vitro potency and metabolic stability. The most potent compounds from this series have IC(50)s<0.2 nM in a human B1 receptor functional assay. A molecular modeling study of the binding modes of key compounds, based on a B1 homology model, explains the structure-activity relationship (SAR) for these analogs.     

Isolation of fungal cellobiohydrolase I genes from sporocarps and forest soils by PCR

Cellulose is the major component of plant biomass, and microbial cellulose utilization is a key step in the decomposition of plant detritus. Despite this, little is known about the diversity of cellulolytic microbial communities in soil. Fungi are well known for their cellulolytic activity and mediate key functions during the decomposition of plant detritus in terrestrial ecosystems. We developed new oligonucleotide primers for fungal exocellulase genes (cellobiohydrolase, cbhI) and used these to isolate distinct cbhI homologues from four species of litter-decomposing basidiomycete fungi (Clitocybe nuda, Clitocybe gibba, Clitopilus prunulus, and Chlorophyllum molybdites) and two species of ascomycete fungi (Xylaria polymorpha and Sarcoscypha occidentalis). Evidence for cbhI gene families was found in three of the four basidiomycete species. Additionally, we isolated and cloned cbhI genes from the forest floor and mineral soil of two upland forests in northern lower Michigan, one dominated by oak (Quercus velutina, Q. alba) and the other dominated by sugar maple (Acer saccharum) and American basswood (Tilia americana). Phylogenetic analysis demonstrated that cellobiohydrolase genes recovered from the floor of both forests tended to cluster with Xylaria or in one of two unidentified groups, whereas cellobiohydrolase genes recovered from soil tended to cluster with Trichoderma, Alternaria, Eurotiales, and basidiomycete sequences. The ability to amplify a key fungal gene involved in plant litter decomposition has the potential to unlock the identity and dynamics of the cellulolytic fungal community in situ.     

Recombinant Measles Viruses Expressing Altered Hemagglutinin (H) Genes: Functional Separation of Mutations Determining H Antibody Escape from Neurovirulence

Measles virus (MV) strain CAM/RB, which was adapted to growth in the brain of newborn rodents, is highly neurovirulent. It has been reported earlier that experimentally selected virus variants escaping from the monoclonal antibodies (MAbs) Nc32 and L77 to hemagglutinin (H) preserved their neurovirulence, whereas mutants escaping MAbs K71 and K29 were found to be strongly attenuated (U. G. Liebert et al., J. Virol. 68:1486-1493, 1994). To investigate the molecular basis of these findings, we have generated a panel of recombinant MVs expressing the H protein from CAM/RB and introduced the amino acid substitutions thought to be responsible for antibody escape and/or neurovirulence. Using these recombinant viruses, we identified the amino acid changes conferring escape from the MAbs L77 (377R-->Q and 378M-->K), Nc32 (388G-->S), K71 (492E-->K and 550S-->P), and K29 (535E-->G). When the corresponding recombinant viruses were tested in brains of newborn rodents, we found that the mutations mediating antibody escape did not confer differential neurovirulence. In contrast, however, replacement of two different amino acids, at positions 195G-->R and 200S-->N, which had been described for the escape mutant set, caused the change in neurovirulence. Thus, antibody escape and neurovirulence appear not to be associated with the same structural alterations of the MV H protein.     

Inhibition of drug‐induced Fas ligand transcription and apoptosis by Bcl‐XL

Fas/Fas ligand system triggers apoptosis in many cell types. Bcl‐X_L overexpresion antagonizes Fas/Fas ligand‐mediated cell death. The mechanism by which Bcl-X_L influences Fas‐mediated cell death is unclear. We have found that microtubule‐damaging drugs (e.g. Paclitaxel) induce apoptosis in a Fas/FasL‐dependent manner. Inhibition of Fas/FasL pathway by anti‐FasL antibody, mutant Fas or a dominant negative FADD blocks paclitaxel‐induced apoptosis. Paclitaxel induced apoptosis through activation of both caspase‐8 and caspase‐3. Overexpression of Bcl‐X_L leads to inhibition of paclitaxel‐induced FasL expression and apoptosis. Bcl‐X_L prevents the nuclear translocation of NFAT (nuclear factor of activated T lymphocytes) by inhibiting the activation of calcineurin, a calcium‐dependent phosphatase that must dephosphorylate NFAT for it to move to the nucleus. The loop domain in Bcl‐X_L can suppress the anti‐apoptotic function of Bcl‐X_L and may be a target for regulatory post‐translational modifications. Upon phosphorylation, Bcl‐X_L loses its ability to bind with calcineurin. Without NFAT nuclear translocation, the FasL gene is not transcribed. Thus, paclitaxel and other drugs that disturb microtubule function kill cells, at least in part, through the induction of FasL, and Bcl‐X_L‐mediated resistance to these agents is related to failure to induce FasL expression.     

Two new 1,3,5,6,7-pentaoxygenated xanthones from Canscora decussata

One new pentaoxygenated free xanthone and a new pentaoxygenated xanthone-O-glucoside have been isolated and characterized from the flowering top of a fresh batch of Canscora decussata. The structure previously assigned to ‘xanthone 9’ has now been confirmed by application of NOE. The biochemical significance of xanthone formation and glucosidation in plants is appraised.     

Preparation of novel aza-1,7-annulated indoles and their conversion to potent indolocarbazole kinase inhibitors

The synthesis of novel aza-1,7-annulated indoles was achieved and these were converted to indolocarbazoles that proved to be potent kinase inhibitors. These compounds were also evaluated in a human colon carcinoma cell line and proved to be good antiproliferative agents.