Comparative production of glucose and high fructose syrup from cassava and sweet potato roots by direct conversion techniques

High fructose syrup (HFS) is a highly valued liquid sweetener for beverage, confectionery and processed food industry, owing to its special attributes like high solubility and non-crystalline nature. Even though 85% HFS production is from corn, increased food demand has necessitated the search for alternative substrates and starchy root crops like cassava and sweet potato are potential raw materials. However, the economic production needs direct use of the roots and simplification of the cost-intensive steps. This study aims at the direct enzymatic conversion of roots for HFS production. Glucose yield was compared from six treatment systems viz., liquezyme–dextrozyme (T1), Stargen (T2), Stargen in two split doses (T3), Spezyme–Stargen (T4), Stargen (60 °C;T5) and Spezyme–Stargen (60 °C; T6). Glucose was higher (22–25%) from cassava than sweet potato (14.0–15.7%), owing to the high starch content in cassava. Conversion to glucose was higher in T1–T4 (95–98%) compared to 88–92% for T5 and T6. Although the fructose yield was more from cassava (8.36–9.78%) than sweet potato (5.2–6.0%), percentage conversion was similar (37–38%) for both the roots. The cost of production of HFS could be reduced by the direct hydrolysis of root slurry using Stargen.

Industrial relevance

The conventional process for HFS production involved three cost-intensive enzyme steps such as liquefaction, saccharification and isomerization and the major raw material is starch. Economic production using cheaper raw materials and simplification of the process are the decisive factors for the widespread use of HFS in the developing and less developed countries. The present study aimed at the direct conversion of cassava and sweet potato root slurry (without conversion to starch) through the use of improved enzymes like Spezyme and Stargen and mild operating conditions of pH and temperature. The cost of production of HFS could be reduced by using the wet root slurry and performing the Stargen aided saccharification at room temperature, followed by isomerization at 60 °C using Sweetzyme T.     

DNA with branched internal side chains: synthesis of 5-tripropargylamine-dU and conjugation by an azide-alkyne double click reaction

5-Tripropargylamine-2'-deoxyuridine (1 a) containing two terminal triple bonds was synthesized by a Pd-assisted Sonogashira cross-coupling reaction and was subsequently converted into the corresponding phosphoramidite building block (9) and employed in solid-phase oligonucleotide synthesis. T(m) experiments demonstrate that the presence of covalently attached branched tripropargylamine residues has a positive effect on the base pair stability. The two terminal C[triple chemical bond]C bonds of modified DNA were functionalized by means of Cu(I)-mediated 1,3-dipolar cycloaddition reactions (click chemistry) with azides such as 3-azido-7-hydroxycoumarin or 3'-azido-3'-deoxythymidine (AZT) both in solution and on solid support. In particular, with the nonfluorescent 3-azido-7-hydroxycoumarin a strongly fluorescent oligonucleotide bis-dye conjugate was generated. For comparison, the N(3)-propargylated 2'-deoxyuridine 2 was prepared from 2'-deoxyuridine and propargyl bromide and incorporated into DNA. The two terminal triple bonds of 1 a allow the simultaneous post-modification of DNA by two reporter molecules and can be applied to almost any azido derivatives (oligonucleotides, proteins, polysaccharides etc.) including those forming dendrimeric side chains.     

Production of Silicon Carbide from Rice Husks

This paper reports the formation of ß-silicon carbide by the process of pyrolyzing rice husks (RH). The sequence of transformations and the mechanism of formation of crystalline silica, carbon, and silicon carbide from RH were investigated in detail. The structural evolution of silicon carbide particulates during the conversion process was critically examined by various techniques. Studies using X-ray diffraction and infrared spectroscopic techniques revealed that a temperature of 1500°C is desirable for the completion of the reaction between RH silica and carbon, thereby leading to the formation of ß-silicon carbide. Except for the gradual change in the morphology leading to the formation of dense crystals of ß-SiC_p, formation of alpha-SiC_p was not evidenced in the present studies. The fine particle size of ß-SiC, formed at lower reaction temperatures, apparently precluded the transformation to alpha-SiC.     

Calcination and associated structural modifications in boehmite and their influence on high temperature densification of alumina

A systematic study is reported on the calcination of boehmite and its associated structural changes, and their effect on densification features. Boehmite precursor gels have been calcined in the temperature range 250-1200 °C. The associated structural changes are identified by FTIR and XRD. The specific surface area measurements indicated a relatively high value of 169 m²/g for boehmite calcined at 400 °C; this value reduced to 4 m²/g on calcination at 1200 °C. In the temperature range 400-1000 °C, the coordination of aluminium changes from a quasioctahedral to a tetrahedral nature, which reverts to octahedral at 1200 °C. The precursor containing γ-alumina gives a 92.1% theoretical density, on sintering at 1500 °C due to the highly unstable quasioctahedral coordination. Boehmite precursors calcined at 400 °C and 1000 °C produced a density of 88.2% and 96.9%, respectively, in the sintered compact at 1500 °C. Boehmite calcined to α-alumina (1200 °C) possesses an octahedral structure having a density of 97.6% at 1500 °C.     

The effect of polyvinyl alcohol as a binder and stearic acid as an internal lubricant in the formation, and subsequent sintering of spray-dried alumina

The production of ceramic components using fewer processing steps on a shorter timescale is very important when considering the industrial and economic aspects of the manufacture of these materials in bulk. Spray-dried granules are expected to give compacts with fewer defects due to their low shear strength compared to conventional powders. Several extent studies show results for product of high relative densities (∼50% at 10 MPa), however, this study arrives at a process for making ceramic components with comparable density (48-49%) at 10 MPa), using less processing time and fewer processing steps which becomes extremely important when one considers the industrial aspects such as bulk production and manufacturing cost. In the present investigation, 35 vol% alumina slurries with 0.5% weight dispersant (ammonium polyacrylate) have been synthesized with different contents of binder (PVA) and lubricant (stearic acid). It is found that variations in the amounts of these additives plays a significant role in the formation of spray-dried granules, as well as the subsequent consolidation and densification of the compacts made using the granule particles. There is support for adopting the concept of a ‘compact process’.     

Applicability of Weyuker's Property 9 to object oriented metrics

Weyuker's Property 9 has received a mixed response regarding its applicability to object oriented software metrics. Contrary to past beliefs, the relevance of this property to object oriented systems is brought out. In support of the new argument, counterexamples to earlier claims are formulated and two new metrics highlighting a notion of complexity that is capturable through Property 9 are also presented.     

Pressure dependence of the thermoelastic quotient for three glasses

The interrelationship between the mechanical work done on a material in the elastic range and changes in its thermodynamic properties, that is, between stress and strain, on the one hand, and temperature and entropy, on the other, is known as the Thermoelastic effect. The phenomenon is exactly adiabatic and is characterized by the thermoelastic quotient commonly referred to as thermoelastic constant. The thermoelastic effect can be used for stress analysis by monitoring the stress fluctuations by means of infrared radiometry, Also, it can be applied to study the anharmonicity in materials by measuring the temperature changes associated with adiabatic pressure changes, In this paper thermodynamic expressions are derived for the pressure derivative of the thermoelastic quotient under adiabatic as well as isothermal conditions, The derived expressions are applied to investigate the thermoelastic effect for the three glasses, namely, silica glass, soda-lime silica glass, and lead-silica glass, The isothermal pressure derivative of the thermoelastic quotient is evaluated for the three glasses. The isothermal volume derivative of the Gruneisen function is calculated.     

Enantioenriched Calcium‐(R)‐5,5′,6,6′,7,7′,8,8′‐Octahydro‐BINOL (H8‐BINOL): An Efficient Catalyst for the Creation of a Quaternary Stereocenter#

An efficient catalyst for the creation of a quaternary stereocenter has been developed utilizing easily available, eco‐friendly CaCl₂ and applied for enantioselective carbon‐carbon bond forming reactions. Among the surveyed ligands, it was found that (R)‐5,5′,6,6′,7,7′,8,8′‐octahydro‐BINOL‐Ca ( 2f ) gave maximum ee (72%) with excellent yields.     

Detoxification of cassava during fermentation with a mixed culture inoculum

The efficacy of a mixed culture inoculum in detoxifying intact cassava tuber and peel pieces was investigated. Fermented cassava tuber and peel pieces had more linamarase activity than the non-fermented control samples and this might have resulted partly from the release of endogenous linamarase from the retted tuber/peel pieces and partly due to the microbial linamarase. Approximately 24–26% of the total cyanide remained in the bound form in the fermented tuber while 67–79% existed as bound cyanide in the non-fermented controls. In cassava peels, only 15–33% of total cyanide remained in bound form after 72 h fermentation while 58–59% cyanide existed in bound form in the parallel non-fermented control peels. Free cyanide which could be easily eliminated through sun-drying was present at higher concentrations in the fermented tuber and peel compared with the non-fermented samples. The study showed that cassava tuber and peel could be extensively detoxified through fermentation with a mixed culture inoculum.     

Asymmetric Dimethylarginine in Chronic Obstructive Pulmonary Disease (ADMA in COPD)

l-Arginine metabolism including the nitric oxide (NO) synthase and arginase pathways is important in the maintenance of airways function. We have previously reported that accumulation of asymmetric dimethylarginine (ADMA) in airways, resulting in changes in l-arginine metabolism, contributes to airways obstruction in asthma and cystic fibrosis. Herein, we assessed l-arginine metabolism in airways of patients with chronic obstructive pulmonary disease (COPD). Lung function testing, measurement of fractional exhaled NO (FeNO) and sputum NO metabolites, as well as quantification of l-arginine metabolites (l-arginine, l-ornithine, l-citrulline, ADMA and symmetric dimethylarginine) using liquid chromatography-mass spectrometry (LC-MS) were performed. Concentrations of l-ornithine, the product of arginase activity, correlated directly with l-arginine and ADMA sputum concentrations. FeNO correlated directly with pre- and post-bronchodilator forced expiratory volume in one second (FEV₁). Sputum arginase activity correlated inversely with total NO metabolite (NO_x) and nitrite concentrations in sputum, and with pre- and post-bronchodilator FEV₁. These findings suggest that ADMA in COPD airways results in a functionally relevant shift of l-arginine breakdown by the NO synthases towards the arginase pathway, which contributes to airway obstruction in these patients.