Quality control parameters on a large dataset of regionally dissected human control brains for whole genome expression studies

We are building an open-access database of regional human brain expression designed to allow the genome-wide assessment of genetic variability on expression. Array and RNA sequencing technologies make assessment of genome-wide expression possible. Human brain tissue is a challenging source for this work because it can only be obtained several and variable hours post-mortem and after varying agonal states. These variables alter RNA integrity in a complex manner. In this report, we assess the effect of post-mortem delay, agonal state and age on gene expression, and the utility of pH and RNA integrity number as predictors of gene expression as measured on 1266 Affymetrix Exon Arrays. We assessed the accuracy of the array data using QuantiGene, as an independent non-PCR-based method. These quality control parameters will allow database users to assess data accuracy. We report that within the parameters of this study post-mortem delay, agonal state and age have little impact on array quality, array data are robust to variable RNA integrity, and brain pH has only a small effect on array performance. QuantiGene gave very similar expression profiles as array data. This study is the first step in our initiative to make human, regional brain expression freely available.     

Non contiguous-finished genome sequence and description of Bacillus massiliosenegalensis sp. nov.

Bacillus massiliosenegalensis strain JC6^T sp. nov. is the type strain of Bacillus massiliosenegalensis sp. nov., a new species within the genus Bacillus. This strain was isolated from the fecal flora of a healthy Senegalese patient. B. massiliosenegalensis is an aerobic Gram-positive rod-shaped bacterium. Here we describe the features of this organism, together with the complete genome sequence and annotation. The 4,981,278-bp long genome comprises a 4,957,301-bp chromosome and a 23,977-bp plasmid. The chromosome contains 4,925 protein-coding and 72 RNA genes, including 4 rRNA genes. The plasmid contains 29 protein-coding genes.     

Non-Syndromic Hearing Impairment in India: High Allelic Heterogeneity among Mutations in TMPRSS3, TMC1, USHIC,CDH23 and TMIE

Mutations in the autosomal genes TMPRSS3, TMC1, USHIC, CDH23 and TMIE are known to cause hereditary hearing loss. To study the contribution of these genes to autosomal recessive, non-syndromic hearing loss (ARNSHL) in India, we examined 374 families with the disorder to identify potential mutations. We found four mutations in TMPRSS3, eight in TMC1, ten in USHIC, eight in CDH23 and three in TMIE. Of the 33 potentially pathogenic variants identified in these genes, 23 were new and the remaining have been previously reported. Collectively, mutations in these five genes contribute to about one-tenth of ARNSHL among the families examined. New mutations detected in this study extend the allelic heterogeneity of the genes and provide several additional variants for structure-function correlation studies. These findings have implications for early DNA-based detection of deafness and genetic counseling of affected families in the Indian subcontinent.     

Angiogenic Potential of Vitreous from Proliferative Diabetic Retinopathy and Eales' Disease Patients

Purpose

Proliferative Diabetic Retinopathy (PDR) and Eales'' Disease (ED) have different aetiologies although they share certain common clinical symptoms including pre-retinal neovascularization. Since there is a need to understand if the shared end-stage angiogenic pathology of PDR and ED is driven by common stimulating factors, we have studied the cytokines contained in vitreous from both patient groups and analyzed the angiogenic potential of these samples in vitro.

Material and Methods

Vitreous samples from patients with PDR (n = 13) and ED (n = 5) were quantified for various cytokines using a cytokine biochip array and sandwich ELISA. An additional group of patients (n = 5) with macular hole (MH) was also studied for comparison. To determine the angiogenic potential of these vitreous samples, they were analyzed for their ability to induce tubulogenesis in human microvascular endothelial cells. Further, the effect of anti-VEGF (Ranibizumab) and anti-IL-6 antibodies were studied on vitreous-mediated vascular tube formation.

Results

Elevated levels of IL-6, IL-8, MCP-1 and VEGF were observed in vitreous of both PDR and ED when compared to MH. PDR and ED vitreous induced greater levels of endothelial cell tube formation compared to controls without vitreous (P<0.05). When VEGF in vitreous was neutralized by clinically-relevant concentrations of Ranibizumab, tube length was reduced significantly in 5 of 6 PDR and 3 of 5 ED samples. Moreover, when treated with IL-6 neutralizing antibody, apparent reduction (71.4%) was observed in PDR vitreous samples.

Conclusions

We have demonstrated that vitreous specimens from PDR and ED patients share common elevations of pro-inflammatory and pro-angiogenic cytokines. This suggests that common cytokine profiles link these two conditions.     

Non contiguous-finished genome sequence and description of Clostridium jeddahense sp. nov.

Clostridium jeddahense strain JCD^T (= CSUR P693 = DSM 27834) is the type strain of C. jeddahense sp. nov. This strain, whose genome is described here, was isolated from the fecal flora of an obese 24 year-old Saudian male (BMI=52 kg/m²). Clostridium jeddahense strain JCD^T is an obligate Gram-positive bacillus. Here we describe the features of this organism, together with the complete genome sequence and annotation. The 3,613,503 bp long genome (1 chromosome, no plasmid) exhibits a G+C content of 51.95% and contains 3,462 protein-coding and 53 RNA genes, including 4 rRNA genes.     

Non-contiguous finished genome sequence and description of Corynebacterium jeddahense sp. nov.

Corynebacterium jeddahense sp. nov., strain JCB^T, is the type strain of Corynebacterium jeddahense sp. nov., a new species within the genus Corynebacterium. This strain, whose genome is described here, was isolated from fecal flora of a 24-year-old Saudi male suffering from morbid obesity. Corynebacterium jeddahense is a Gram-positive, facultative anaerobic, nonsporulating bacillus. Here, we describe the features of this bacterium, together with the complete genome sequencing and annotation, and compare it to other member of the genus Corynebacterium. The 2,472,125 bp-long genome (1 chromosome but not plasmid) contains 2,359 protein-coding and 53 RNA genes, including 1 rRNA operon.     

Measuring Ascending Aortic Stiffness In Vivo in Mice Using Ultrasound

We present a protocol for measuring in vivo aortic stiffness in mice using high-resolution ultrasound imaging. Aortic diameter is measured by ultrasound and aortic blood pressure is measured invasively with a solid-state pressure catheter. Blood pressure is raised then lowered incrementally by intravenous infusion of vasoactive drugs phenylephrine and sodium nitroprusside. Aortic diameter is measured for each pressure step to characterize the pressure-diameter relationship of the ascending aorta. Stiffness indices derived from the pressure-diameter relationship can be calculated from the data collected. Calculation of arterial compliance is described in this protocol.This technique can be used to investigate mechanisms underlying increased aortic stiffness associated with cardiovascular disease and aging. The technique produces a physiologically relevant measure of stiffness compared to ex vivo approaches because physiological influences on aortic stiffness are incorporated in the measurement. The primary limitation of this technique is the measurement error introduced from the movement of the aorta during the cardiac cycle. This motion can be compensated by adjusting the location of the probe with the aortic movement as well as making multiple measurements of the aortic pressure-diameter relationship and expanding the experimental group size.     

Potential of two epigeic and two anecic earthworm species in vermicomposting of water hyacinth

The potential of two epigeic species (Eudrilus eugeniae Kinberg, and Perionyx excavatus Perrier) and two anecic species (Lampito mauritii Kinberg and Drawida willsi Michaelson) of earthworms was assessed in terms of efficiency and sustainability of vermicomposting water hyacinth (Eichhornia crassipes, Mart. Solm.). In different vermireactors, each run in duplicate with one of the four species of earthworms, and 75 g of 6:1 water hyacinth:cowdung as feed, vermicasts were produced with steadily increasing output in all the reactors. E. eugeniae was by far the most efficient producer of vermicasts, followed by the other epigeic P. excavatus. The two anecics came next, with D. willsi being the least effective which could generate only about half the quantity of vermicasts achieved in a corresponding time by E. eugeniae. In all the reactors, the earthworms grew well, increasing their weights by more than 250%. The maximum net gain of weight (average 30.7 g) was by E. eugeniae, followed by P. excavatus, L. mauritii and D. willsi. This trend, which followed the efficiency of vermicast production, was also shown in terms of reproductive ability as measured by the number of offspring produced by the four species.     

Induction of systemic resistance in rice by leaf extracts of Zizyphus jujuba and Ipomoea carnea against Rhizoctonia solani

Plants accumulate a great diversity of natural products, many of which confer protective effects against phytopathogenic attack. Earlier we had demonstrated that the leaf extracts of Zizyphus jujuba and Ipomoea carnea inhibit the in vitro mycelial growth of Rhizoctonia solani, and effectively reduce the incidence of sheath blight disease in rice.⁷ Here we demonstrate that foliar application of the aqueous leaf extracts of Z. jujuba and I. carnea followed by challenge inoculation with R. solani induces systemic resistance in rice as evident from significantly increased accumulation of pathogenesis-related proteins such as chitinase, β-1,3-glucanase and peroxidase, as well as defense-related compounds such as phenylalanine ammonia-lyase and phenolic substances. Thin layer chromatographic separation of secondary metabolites revealed presence of alkaloid and terpenoid compounds in the leaf extracts of Z. jujuba that exhibited toxicity against R. solani under in vitro condition. Thus, the enhanced sheath blight resistance in rice seedlings treated with leaf extracts of Z. jujuba or I. carnea can be attributed to the direct inhibitory effects of these leaf extracts as well as their ability to elicit systemic resistance against R. solani.Key words: sheath blight, Zizyphus jujuba, Ipomoea carnea, Rhizoctonia solani, induced systemic resistance, antimicrobial compoundsSheath blight disease of rice, caused by Rhizoctonia solani, has become a major production constraint in intensive rice cropping systems where semi-dwarf, nitrogen-responsive and high-yielding rice cultivars are grown. The disease causes an annual yield loss of upto 50%.¹ R. solani is both soil- and water-borne, and can infect more than 27 families of both monocot and dicot species.² Natural host genetic resistance to R. solani has not been recorded in cultivars or wild relatives of rice.³ Several broad spectrum fungicides have been recommended for control of sheath blight, however, chemical method of disease management is neither practical due to high cost of fungicides nor sustainable as it can affect the balance of ecosystem by destroying beneficial microbial population. In addition, the environmental pollution problems associated with indiscriminate use of synthetic pesticides have prompted investigations on exploiting bio-pesticides of plant and microbial origin.Plants accumulate an enormous variety of over 100,000 secondary metabolites,⁴ which can act as pre-existing chemical inhibitors to invading pathogens and/or help strengthen defense response of host plant. The pre-formed infectional barriers in plants are generally referred to as “phytoanticipins;” whereas, the antimicrobial compounds that are synthesized de novo in response to pathogen attack are referred to as “phytoalexins.”⁵ Because of years of selective breeding leading to removal of natural products, the endogenous levels of phytoanticipins in commonly cultivated crop species are generally low and often not sufficient to fight pathogen attack, effectively.⁴ Various weed species and wild relatives of crop plants that are not subjected to selective breeding are believed to contain higher levels of antimicrobial compounds, consistent with their ability to fight invading pathogens more effectively than cultivated crop species. Identification of such weed/plant species that are enriched with antimicrobial principles, isolation of bio-active compounds from them, and application in the form of concentrated formulations to crop plants can augment their disease resistance capability by directly inhibiting the growth of pathogen and inducing defense responses. Indeed, the antimicrobial properties of tissue extracts of several weed/plant species have been reported by a number of research groups world-wide, especially in Asia and Latin America.^6–13Earlier, we had evaluated the antimicrobial activity of leaf extracts of 16 different plant species belonging to 16 different families and demonstrated that leaf extracts of most of these plant species exhibit growth-inhibitory activities against R. solani and Xanathomoas oryzae pv. oryzae (Xoo).⁷ Among these, the leaf extracts of Datura metel were found to be the most effective in inhibiting the mycelial growth and sclerotia formation of R. solani, and the growth of Xoo, as well as in reducing the incidence of sheath blight and bacterial blight diseases caused by these pathogens, respectively, under greenhouse condition.⁷ We further demonstrated that rice seedlings treated with leaf extracts of D. metel accumulated significantly higher levels of pathogenesis-related (PR) proteins and other defense related compounds following challenge inoculation with R. solani or Xoo.⁷ Our attempts to identify biologically active compounds from D. metel revealed the presence of a withanolide compound “daturilin” that exhibited remarkable antibacterial activity against Xoo.⁷Apart from D. metel, two other plants species, Zizyphus jujuba and Ipomoea carnea, were found to possess remarkable antifungal activity against R. solani.⁷ Z. jujuba is a thorny rhamnaceous plant that is widely distributed in Europe and South-eastern Asia. I. carnea of convolvulaceae family, commonly known as morning glory, is a toxic weed found in abundance in India, Brazil, the United States and other countries.¹⁴ Both of these plant species have allelopathic effect and are commonly used in folklore medicine for curing multiple diseases.^15–18 The aqueous and methanol leaf extracts of Z. jujuba and I. carnea have been found to be highly effective in reducing in vitro mycelial growth, and therefore, sclerotia production of R. solani.⁷ In the greenhouse experiments, rice seedlings sprayed with leaf extracts of Z. jujuba and I. carnea exhibited 44 and 34% reduction in severity of sheath blight disease over the control, respectively.⁷ While these findings are encouraging, the mechanisms by which the leaf extracts of Z. jujuba and I. carnea modulate defense responses in rice have not yet been explored.Plants are endowed with defense genes which remain quiescent or are expressed at basal levels in healthy plants. Activation of defense genes results in induction of systemic resistance in host plant; this defense response, designated as induced systemic resistance (ISR), plays an important role in development of disease resistance.¹⁹ The onset of ISR in plants correlates with accumulation of phytoalexins and increased activity of PR proteins such as chitinases, β-1,3-glucanases and peroxidases;^20–23 consequently, PR proteins are generally used as ISR markers.¹⁹ The classical inducers of ISR include both biotic and abiotic factors, including disease causing microorganisms themselves,^24,25 plant growth promoting rhizobacteria,^22,26 chemicals^27,28 and natural plant products.^{7,10,12,13,29,30} Plant products have been considered as one of the major groups of compounds that induce ISR. To date, extracts of at least a few plant species have been reported to contain allelopathic substances which can act as elicitors and induce systemic resistance in host plants resulting in reduction or inhibition of disease development.^7,10,12,13In the present study, with the objective of understanding the mechanisms of disease suppression by leaf extracts of Z. jujuba and I. carnea, we investigated their ability to induce ISR in rice by analyzing the activities of ISR markers including PR-proteins and other defense enzymes involved in phenylpropanoid metabolism. The changes in activities of chitinase, β-1,3-glucanase, peroxidase, phenylalanine ammonia-lyase (PAL) and phenolic compounds induced in rice seedlings that were elicited with leaf extracts (at 1:10 dilution; w/v) of Z. jujuba or I. carnea and infected with R. solani were analyzed, and compared to changes in non-elicited and uninfected seedlings. Rice seedlings that were both elicited with leaf extracts of Z. jujuba or I. carnea and infected with R. solani accumulated significantly higher levels (2–5-fold) of ISR markers as compared to non-elicited and/or uninfected seedlings (Fig. 1). About two-fold increase in activities of ISR markers was also observed in seedlings that were either infected but not elicited or elicited but not infected; however, this increase was significantly lower than the changes in seedlings that were both elicited and infected (Fig. 1). Although the activity of all ISR markers began to increase around or after 24 h post-infection, at least two distinct induction patterns were observed. For instance, the activities of chitinase and phenolic substances gradually increased to reach maximum levels at 164 h post-infection (Fig. 1A and E); whereas, the activities of β-1,3-glucanase, peroxidase and PAL reached maximum levels at 72 to 96 h post-infection and decreased thereafter (Fig. 1B–D). The leaf extracts of Z. jujuba were found slightly more effective in inducing ISR markers than the leaf extracts of I. carnea. There was no significant change in the activity of ISR markers in control seedlings sprayed with sterile distilled water (Fig. 1). Collectively, these results suggested that the leaf extracts of Z. jujuba and I. carnea have the ability to induce systemic resistance in rice seedlings infected with R. solani. The fungitoxicity of the leaf extracts of Z. jujuba and I. carnea ⁷ combined with their ability to elicit ISR is possibly responsible for low sheath blight disease incidence observed in rice seedlings treated with these leaf extracts.⁷Open in a separate windowFigure 1Activity of ISR markers and defense-related compounds in rice seedlings elicited with the leaf extracts of Zizyphus jujuba or Ipomoea carnea and challenge inoculated with Rhizoctonia solani. Total activity of chitinase (A), β-1,3-glucanase (B), peroxidase (C) phenylalanine ammonia-lyase (PAL; D) and phenolic substances (E) was analyzed in rice seedlings. The inoculation of rice seedlings with R. solani was performed 45 days after planting. Spraying of leaf extracts (1:10 dilution; w/v) of Z. jujuba or I. carnea was performed two days prior to inoculation. Tissue samples (sheath) from elicited and/or infected seedlings were collected for analysis at various time intervals.The in vitro antimicrobial and in vivo disease inhibitory effects of natural plant products are generally attributed to the allelopathic substances present in them. However, very few attempts have been made to purify and characterize active principles from bio-active natural plant products. We have previously identified a withanolide compound from leaf extracts of D. metel which exhibited antibacterial activity against Xoo.⁷ Both Z. jujuba and I. carnea are rich source of secondary metabolites including alkaloids, terpenoids, flavonoids and phenolic compounds.^31–35 To determine the composition of bio-active ingredients within the leaf extracts of Z. jujuba and I. carnea, we performed thin layer chromatographic separation of alkaloid, terpenoid and phenolic compounds. The partially purified compounds, as reported in