22 research outputs found

    Sugarcane becomes a biodegradable plastic factory

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    The quantitative real-time polymerase chain reaction for the analysis of plant gene expression

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    The quantitative real-time polymerase chain reaction is used to simultaneously amplify and quantify a targeted DNA molecule. It can be used to determine exact copy number of a molecule within a sample and/or to compare the quantity of a molecule between samples. When combined with reverse transcription, it is a powerful tool for the analysis of gene expression, and it is widely used for this purpose in plant species. Here we provide an introduction to fundamental concepts relevant for the analysis of gene expression in plants using this technique and a protocol for quantification of the relative expression of a sucrose phosphate synthase gene along the maturation gradient of a sugarcane leaf

    Molecular Analysis of Fiji Disease Virus Genome Segments 5,6,8 and 10

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    The complete sequences of Fiji disease virus (FDV) genome segments 5 (S5), S6, S8 and S10 were obtained and comprised 3150nt, 2831nt, 1959nt and 1819nt, respectively. Each segment contained a single ORF which encoded putative proteins of 115kDa, 97kDa, 69kDa and 63.0kDa, respectively. The putative amino acid sequences encoded by S5 and S6 contained putative leucine zipper motifs while FDV S5 and S8 each contained an ATP-GTP-binding motif. At the amino acid level, FDV S5, S6, S8 and S10 showed most similarity to the corresponding segments of Rice black-streaked dwarf virus. Based on sequence similarities, it is predicted that FDV S8 encodes a minor core protein, while FDV S10 encodes an outer capsid protein. The evolutionary relationships of FDV to other reoviruses are discussed. The nucleotide sequence data for FDV S5, S6, S8 and S10 are available in the DDBJ/EMBL/GenBank databases under the accession numbers AY029521, AF356083, AY297693 and AY297694, respectively
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