The primary structure of the NADPH-protochlorophyllide oxidoreductase of barley has been deduced from the nucleotide sequence of a cloned full-length cDNA. This cDNA hybridizes to a 1.7 kb RNA whose steady-state level in dark-grown seedlings is drastically reduced upon illumination. The predicted amino acid sequence (388 residues in length) includes a transit peptide of 74 amino acids whose end point has been delimited by sequencing the N-terminus of the mature protein. Expression of the cDNA in Escherichia coli leads to the synthesis of an enzymatically active precursor of the NADPH-protochlorophyllide oxidoreductase. Activity of this protein in bacterial lysates is completely dependent on the presence of NADPH and protochlorophyllide and requires light.
Miscanthus is a perennial wild grass that is of global importance for paper production, roofing, horticultural plantings, and an emerging highly productive temperate biomass crop. We report a chromosome-scale assembly of the paleotetraploid M. sinensis genome, providing a resource for Miscanthus that links its chromosomes to the related diploid Sorghum and complex polyploid sugarcanes. The asymmetric distribution of transposons across the two homoeologous subgenomes proves Miscanthus paleo-allotetraploidy and identifies several balanced reciprocal homoeologous exchanges. Analysis of M. sinensis and M. sacchariflorus populations demonstrates extensive interspecific admixture and hybridization, and documents the origin of the highly productive triploid bioenergy crop M. × giganteus. Transcriptional profiling of leaves, stem, and rhizomes over growing seasons provides insight into rhizome development and nutrient recycling, processes critical for sustainable biomass accumulation in a perennial temperate grass. The Miscanthus genome expands the power of comparative genomics to understand traits of importance to Andropogoneae grasses.
Garlic (Allium sativum L.) is a sterile species of considerable variability with respect to morphological and physiological features. The crop presumably originated in West to Middle Asia from its progenitor A. longicuspis Regel and was transported from there to the Mediterranean and other areas of cultivation. In order to clarify older classification schemes, often based on small or biased collections, we used isozyme and RAPD markers to analyze and structure a collection of 300 accessions, many of which were gathered in Middle Asia close to the assumed center of origin. All of the accessions were first investigated with isozymes, and 48 were selected for a RAPD analysis. The resulting molecular markers were used to construct neighbor-joining dendrograms to group the accessions and to indicate the genetic distances between them. Based on the dendrograms and in conjunction with some morphological features, we propose an infraspecific classification of garlic with four major groups. In agreement with the results of other workers, A. longicuspis lies within the range of the species A. sativum. Numerous forms with varying degrees of domestication are part of our longicuspis group, from which presumably the more derived cultivar groups originated. The origin and spreading of the crop are discussed with respect to the geographical distribution and the genetic distances of the accessions.
Summary
Chloroplast transformation of the high‐biomass tobacco variety Maryland Mammoth has been assessed as a production platform for the human immunodeficiency virus type 1 (HIV‐1) p24 antigen. Maryland Mammoth offers the prospect of higher yields of intact functional protein per unit floor area of contained glasshouse per unit time prior to flowering. Two different transformation constructs, pZSJH1p24 (for the insertion of a native p24 cDNA between the rbcL and accD genes) and pZF5 (for the insertion of a chloroplast‐codon‐optimized p24 gene between trnfM and trnG) were examined for the production of p24. Plants generated with construct pZSJH1p24 exhibited a normal green phenotype, but p24 protein accumulated only in the youngest leaves (up to approximately 350 µg/g fresh weight or ~2.5% total soluble protein) and was undetectable in mature leaves. In contrast, some of the plants generated with pZF5 exhibited a yellow phenotype (pZF5‐yellow) with detectable p24 accumulation (up to approximately 450 µg/g fresh weight or ~4.5% total soluble protein) in all leaves, regardless of age. Total protein in pZF5‐yellow leaves was reduced by ~40%. The pZF5‐yellow phenotype was associated with recombination between native and introduced direct repeat sequences of the rbcL 3′ untransformed region in the plastid genome. Chloroplast‐expressed p24 was recognized by a conformation‐dependent monoclonal antibody to p24, and p24 protein could be purified from pZF5‐yellow leaves using a simple procedure, involving ammonium sulphate precipitation and ion‐exchange chromatography, without the use of an affinity tag. The purified p24 was shown to be full length with no modifications, such as glycosylation or phosphorylation, using N‐terminal sequencing and mass spectrometry.
New and comprehensive collections of the perennial rhizomatous reed canary grass (Phalaris arundinacea) were made in NW Europe along north-to-south and east-to-west clines from Denmark, Germany, Ireland, Poland, Sweden and the United Kingdom. Rhizome, seed and leaf samples were taken for analysis and genetic resource conservation. A subsample covering the geographical range was characterized using plastid genome sequencing and SNP discovery generated using a long-read PCR and MiSeq sequencing approach. Samples were also subject to flow cytometry and all found to be tetraploid. New sequences were assembled against a Lolium perenne (perennial ryegrass) reference genome, and an average of approximately 60% of each genome was aligned (81 064 bp). Genetic variation was high among the 48 sequenced genotypes with a total of 1793 SNPs, equating to 23 SNPs per kbp. SNPs were subject to principal coordinate and Structure analyses to detect population genetic groupings and to examine phylogeographical pattern. Results indicate substantial genetic variation and population genetic structuring of this allogamous species at a broad geographical scale in NW Europe with plastid genetic diversity organized more across an east-to-west than a north-to-south cline.
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