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Stability Comparable (stability + comparable)
Selected AbstractsXNA, (xylo Nucleic Acid): A Summary and New DerivativesEUROPEAN JOURNAL OF ORGANIC CHEMISTRY, Issue 11 2005B. Ravindra Babu Abstract Fully modified homopyrimidine 2'-deoxy- xylo nucleic acid (dXNA) form triple helixes with complementary DNA/RNA with thermal stabilities comparable to those of the corresponding DNA:DNA and DNA:RNA duplexes. However, a single or few insertions of dXNA monomers in a DNA strand significantly lower duplex stabilities. The dXNA monomers are known to adopt predominantly an N -type furanose conformation in solution. With a desire to increase the binding affinity, seven sugar-modified XNA monomers (H, F, N, M, K, P and Q) have been synthesised and their effect on hybridization towards DNA and RNA complements studied. The introduction of 2'-fluoro and 2'-hydroxy substituents was expected to induce conformational restriction towards C3'- endo -type furanose conformation of monomer F derived from 1-(2'-deoxy-2'-fluoro-,- D -xylofuranosyl)thymine and monomer H derived from 1-(,- D -xylofuranosyl)thymine. The presence of functionalites facing the minor groove as in 1-(2'-amino-2'-deoxy-2'- N,4'- C -methylene-,- D -xylofuranosyl)thymine (monomer N), 1-[4- C -(N -methylpiperazinyl)methyl-,- D -xylofuranosyl]thymine (monomer P), 1-(4- C -piperazinylmethyl-,- D -xylofuranosyl)thymine (monomer Q), 1-(4- C -hydroxymethyl-,- D -xylofuranosyl)thymine (monomer M) and 9-(4- C -hydroxymethyl-,- D -xylofuranosyl)adenine (monomer K) was studied, with monomer N being locked in an N -type furanose conformation. Besides, an efficient synthesis of known xylo -LNA phosphoramidite 19, required for the incorporation of 1-(2'- O,4'- C -methylene-,- D -xylofuranosyl)thymine (monomer L) is described. For comparison, hydridization data of various XNAs reported in the literature are included in the discussion section. The thermal denaturation studies show that XNAs containing conformationally locked monomers (N and L) display improved binding affinity, and that partially modified DNA/XNA chimera, or fully modified XNA display preferential hybridization towards RNA complements. (© Wiley-VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2005) [source] N -3 enrichment of pork with fishmeal: Effects on production and consumer acceptabilityEUROPEAN JOURNAL OF LIPID SCIENCE AND TECHNOLOGY, Issue 8 2008Stelios Sioutis Abstract This study aimed to develop pork products of acceptable organoleptic quality enriched with long-chain n -3 polyunsaturated fatty acids (LC n -3 PUFA). Female pigs were fed a finisher diet containing 15% PorcOmegaÔ tuna fishmeal or a commercial diet. Pigs and rations were weighed weekly. The feed conversion ratio was significantly lower in pigs fed fishmeal than in controls (2.61,±,0.01 versus 2.96,±,0.06, p,<0.05). After 6,weeks, the pigs were butchered and the fatty acid contents of selected pork products were analyzed by gas chromatography. Shelf life was tested by thiobarbituric acid-reactive substances (TBARS), initially and after 5,days of cold storage, and sensory qualities were evaluated after cooking. LC n -3 PUFA contents of pork products from pigs fed fishmeal were higher than in controls (steak 300%, stir-fry 250%, diced 520%, mince 480%, sausage 360%; p,<0.05 in all cases). There were no differences between n -3-enriched and regular pork in either TBARS content of stored raw products or sensory characteristics after cooking. Incorporating fishmeal in the finisher diet resulted in greater feed efficiency and production of nutritionally enhanced pork products with organoleptic profiles and stability comparable to those of regular pork. [source] Effects of ,-Glucan Addition to a Probiotic Containing YogurtJOURNAL OF FOOD SCIENCE, Issue 7 2007T. Vasiljevic ABSTRACT:, This study investigated the effects of addition of ,-glucan from 2 different cereal sources (oat and barley) on growth and metabolic activity of Bifidobacterium animalis ssp. lactis (Bb-12Ô) as determined by plating on a selective medium in yogurt during prolonged cold storage. These yogurt batches were compared to unsupplemented and inulin supplemented controls. All batches were also assessed for syneresis. Oat ,-glucan addition resulted in improved probiotic viability and stability comparable to that of inulin. It also enhanced lactic and propionic acid production. The barley ,-glucan addition suppressed proteolytic activity more than that from oat. These improvements were hindered by greater syneresis caused likely by thermodynamic incompatibility. Small amplitude oscillatory measurements of acidified model mixture of ,-glucan/skim milk solids showed formation of casein gel within the ,-glucan network. Binary mixtures of ,-glucan and skim milk solids had apparent pseudoplastic and non-Newtonian behavior governed mainly by ,-glucan contribution. Above critical concentrations, the mixtures underwent phase separation with the lower phase rich in protein. The phase diagram also showed that the addition of ,-glucan may be possible at or below 0.24 w/w%. [source] Thin film solar modules: the low cost, high throughput and versatile alternative to Si wafersPROGRESS IN PHOTOVOLTAICS: RESEARCH & APPLICATIONS, Issue 5 2006S. Hegedus Abstract Thin film solar cells (TFSC) have passed adolescence and are ready to make a substantial contribution to the world's electricity generation. They can have advantages over c-Si solar modules in ease of large area, lower cost manufacturing and in several types of applications. Factors which limit TFSC module performance relative to champion cell performance are discussed along with the importance of increased throughput and yield. The consensus of several studies is that all TFSC can achieve costs below 1,$/W if manufactured at sufficiently large scale >100,MW using parallel lines of cloned equipment with high material utilization and spray-on encapsulants. There is significant new commercial interest in TFSC from small investors and large corporations, validating the thin film approach. Unique characteristics are discussed which give TFSC an advantage over c-Si in two specific markets: small rural solar home systems and building integrated photovoltaic installations. TFSC have outperformed c-Si in annual energy production (kWhrs/kW), have demonstrated outdoor durability comparable to c-Si and are being used in MW scale installations worldwide. The merits of the thin film approach cannot be judged on the basis of efficiency alone but must also account for module performance and potential for low cost. TFSC advocates should promote their unique virtues compared to c-Si: lower cost, higher kWhr/kW output, higher battery charging current, attractive visual appearance, flexible substrates, long-term stability comparable to c-Si, and multiple pathways for deposition with room for innovation and evolutionary improvement. There is a huge market for TFSC even at today's efficiency if costs can be reduced. A brief window of opportunity exists for TFSC over the next few years due the Si shortage. The demonstrated capabilities and advantages of TFSC must be proclaimed more persistently to funding decision-makers and customers without minimizing the remaining challenges. Copyright © 2006 John Wiley & Sons, Ltd. [source] | ||||||||||