Mol Biochem Parasitol 1997,84(1):93–100 CrossRefPubMed 50 Katz U

Mol Biochem Parasitol 1997,84(1):93–100.CrossRefPubMed 50. Katz U, Bracha R, Nuchamowitz Y, Milstein O, Mirelman D: Comparison between constitutive and inducible plasmid vectors used for gene expression in Entamoeba histolytica. Mol Biochem Parasitol 2003,128(2):229–233.CrossRefPubMed 51. The Ambion/Applied Biosystems Anti-infection Compound Library siRNA Target Finder[http://​www.​ambion.​com/​techlib/​misc/​siRNA_​finder.​html] 52. TIGR Database Entamoeba histolytica Genome Project[http://​www.​tigr.​org/​tdb/​e2k1/​eha1/​] 53. GraphPad QuickCalcs[http://​www.​graphpad.​com/​quickcalcs] 54. Cikos

S, Bukovska A, Koppel J: Relative quantification of mRNA: comparison of methods currently used for real-time PCR data analysis. BMC Mol Biol 2007, 8:113.CrossRefPubMed 55. Real-Time PCR: M. Teyfik Dorak, MD, PhD[http://​www.​dorak.​info/​genetics/​realtime.​html] Authors’ contributions ASL designed and performed the majority of the experimental work, including the design of shRNA oligos, cloning of shRNA vector constructs, transfection and expression analyses in E. histolytica, and wrote the manuscript. HM conducted all experiments with EhC2A and helped edit the manuscript. www.selleckchem.com/products/ulixertinib-bvd-523-vrt752271.html KRG helped design and clone the shRNA vectors

for URE3-BP and analyze the resulting transfectants. HZ and US conducted the small RNA analysis. WAP conceived of this study and oversaw its coordination, design and analysis.”
“Background The symbiotic interaction between rhizobia and leguminous plants plays an important role in global nitrogen fixation. During symbiosis rhizobia colonize the root nodules and induce nodule formation. Rhizobia in turn differentiate into Carbohydrate bacteroids and live as endosymbionts inside plant cells. They fix atmospheric nitrogen and

provide the fixed nitrogen to the host plant. The efficiency of this symbiosis is constrained by several factors relating to the soil and the rate of nodulation and nitrogen fixation is diminished. The most commonly observed factors are water deficiency, high temperature, high salt content and low pH (for review see [1]). At acidic pH conditions the bacterial partner is limited in survival and persistence and the nodulation efficiency is reduced [2–4]. Another situation where rhizobia are commonly facing a low pH environment is the rhizoplane of their leguminous host plants, where the pH is decreased by protons and organic acids excreted by the plants [5]. Once a symbiosis has been established the symbiosome has been postulated to form an acidic and lytic compartment [6]. Several research groups have been trying to identify pH tolerant strains [3, 7] and to reveal the genetic mechanisms enabling those strains to outperform other strains in low pH soils, however up until now the basis of the rhizobial pH tolerance remains unknown. Since the genome of S. meliloti 1021 is well characterised [8–11]S. meliloti 1021 is considered to represent an ideal candidate to analyse its behaviour under environmental conditions.

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