Gel properties and molecular forces of lamb myofibrillar protein during heat induction at different pH values

The gel properties and molecular forces of the Aohan Merino lamb myofibrillar protein (MP) were investigated during heat induction at different pH levels. The effects of pH values (from 5.0 to 8.5) on the lamb MP gel textures and water-holding capacities were analyzed. The protein gels had the lowest water-holding capacity and a disordered microstructure at pH 5.5 (P < 0.05) and had the lowest level of hardness at pH 6.5 (P < 0.05). The hardness and water-holding capacity were found to be the highest at pH 8.0 (P < 0.05), which coincided with a compact and ordered microstructure. At these three representative pH values, hydrophobic interactions were the main forces that were observed during gel formation, but the pH level also influenced the formation of ionic and hydrogen bonds. Different mechanisms of gel formation were therefore observed at different pH values. In conclusion, the formation of heat-induced gels with different properties was a result of the dominant molecular forces that are regulated by pH. These findings provide a theoretical basis for the innovation of heat-induced gel lamb products.     

Extraction and purification of a lectin from small black kidney bean (Phaseolus vulgaris) using a reversed micellar system

Lectin from crude extract of small black kidney bean (Phaseolus vulgaris) was successfully extracted using the reversed micellar extraction (RME). The effects of water content of organic phase (W_o), ionic strength, pH, Aerosol-OT (AOT) concentration and extraction time on the forward extraction and the pH and ionic strength in the backward extraction were studied to optimize the extraction efficiency and purification factor. Forward extraction of lectin was found to be maximum after 15 min of contact using 50 mM AOT in organic phase with W_o 27 and 10 mM citrate-phosphate buffer at pH 5.5 containing 100 mM NaCl in the aqueous phase. Lectin was backward extracted into a fresh aqueous phase using sodium-phosphate buffer (10 mM, pH 7.0) containing 500 mM KCl. The overall yield of the process was 53.28% for protein recovery and 8.2-fold for purification factor. The efficiency of the process was confirmed by gel electrophoresis analysis.     

Secretory expression and characterization of the recombinant myofibril-bound serine proteinase of crucian carp (Carassius auratus) in Pichia pastoris

The myofibril-bound serine proteinase (MBSP) is effective in the degradation of myofibrillar proteins, including myosin heavy chain (MHC), α-actinin, actin, and tropomyosin and was thus regarded as an important proteinase responsible for the metabolism of fish muscle in vivo. In order to better understand the characteristic differences between native MBSP and recombinant MBSP (rMBSP) and to obtain large quantity of MBSP for its application in protein science study, the crucian carp MBSP gene was cloned (669 bp) and expressed in Pichia pastoris (P. pastoris). The recombinant P. pastoris strain was cultured in shake flasks, and 66.85 mg rMBSP/L in the fermentation supernatant was obtained. SDS-polyacrylamide gel electrophoresis (PAGE) showed a main protein band with molecular weight of approximately 36 kDa. Substrate specificity analysis revealed that the rMBSP specifically cleaved substrates at the carboxyl side of lysine residue which differed from native MBSP that cleaved substrates at the carboxyl side of arginine and lysine residues. The optimum temperature and optimum pH range of the rMBSP were 55 °C and pH 7.5, respectively. Furthermore, similar to native MBSP, the rMBSP also revealed high thermostability and pH stability and is effective in degradation of myofibrillar proteins from the skeletal muscle of crucian carp.     

Structural changes of the myofibrillar proteins in common carp (Cyprinus carpio) muscle exposed to a hydroxyl radical-generating system

Oxidation is a leading cause for quality deterioration during processing and storage of food. The objective of the present study was to examine the sensitivity of common carp (Cyprinus carpio) myofibrillar protein (MP) to oxidising radicals produced by a hydroxyl radical-generating system. Both structural and functional changes of common carp MP were evaluated. With increasing H₂O₂ concentrations and oxidation time, the protein carbonyl content, surface hydrophobicity and turbidity of MP increased (P < 0.05), while total sulfhydryl groups decreased (P < 0.05). Sodium dodecyl sulphate-polyacrylamide gel electrophoresis revealed protein polymerisation in oxidised MP. The oxidative process destroyed (P < 0.05) the texture (springiness and hardness) of MP gels and decreased their water-binding capacity and whiteness. The thermal gelation profile analysis indicated that oxidation led to a great reduction in the elasticity of samples. Taken together, proteins are susceptible to free radical attack, and oxidative stress had a detrimental effect on protein structure and the general functionality of MP.     

Effects of postmortem carcass electrical stimulation on goat meat quality characteristics

Electrical stimulation (ES) has been reported to improve meat quality, but the effects of postmortem ES have not been fully characterized in goats. This experiment was conducted to determine the effects of postmortem ES on meat quality in two breeds of goats. Uncastrated Spanish and crossbreds (Boer × Spanish females × Kiko male) yearlings (n = 10/breed, body weight 31.2 ± 2.43 kg) were transported to the slaughter facility, held overnight in pens without feed, and slaughtered on two different days. Immediately after slaughter each carcass was split into two halves along the vertebral column. The left half was subjected to a high voltage ES (580 V) at 5 s intervals during 120 s (treatment) and the right half was kept as a non-stimulated control. After 24 h of cooler storage (2 °C), the carcasses were fabricated into 2.5 cm-thick loin/rib chops. Longissimus dorsi (LD) muscle pH and temperatures were recorded at 0, 1, 2, 3, 4, 5, 6, 9, 12, 15, 18, and 24 h postmortem. The pH values of LD muscle were lower in stimulated sides than control sides (P < 0.01), and pH decreased quadratically (P < 0.01) with advancing time during the 24 h postmortem period. Treatment had no significant effect on the LD muscle temperature, and the temperature decline followed a cubic pattern (P < 0.01) during the 24 h postmortem period. Muscle glycogen concentrations immediately after electrical stimulation (0 h) were lower (P < 0.05) in the stimulated sides compared to control sides. Warner-Bratzler shear force (WBSF) values of loin chops were lower (P < 0.01) in stimulated sides (3.0 kg) compared to control sides (4.2 kg), and the chops from Spanish goats (3.9 kg) had higher (P < 0.05) WBSF values compared with crossbreds (3.3 kg). Color values (L*, a*, b*, chroma, and hue angle) and sarcomere length were not affected by ES or breed. Heated calpastatin activities were not influenced by ES, but the activities were lower at day 4 compared with day 1 of aging (P < 0.05). There were no significant effects (P > 0.05) of ES or aging time on selected myofibrillar protein concentrations (myosin heavy chain, myomesin, desmin, actin, troponin-T, and myosin light chain, P > 0.05). However, desmin concentration tended to decrease at day 4 of aging (P = 0.08). The results indicate that ES significantly accelerated postmortem glycolysis and improved tenderness of loin chops, as indicated by WBSF values.     

A thermoalkaliphilic halotolerant esterase from Rhodococcus sp. LKE-028 (MTCC 5562): Enzyme purification and characterization

A newly isolated Rhodococcus sp. LKE-028 (MTCC 5562) from soil samples of Gangotri region of Uttarakhand Himalayan produced a thermostable esterase. The enzyme was purified to homogeneity with purification fold 62.8 and specific activity 861.2 U mg^?1 proteins along with 26.7% recovery. Molecular mass of the purified enzyme was 38 kDa and values of K_m and V_max were 525 nM and 1666.7 U mg^?1 proteins, respectively. The esterase was active over a broad range of temperature (40–100 °C) and pH (7.0–12.0). The esterase was most active at pH 11.0. The optimum temperature of enzyme activity was 70 °C and the enzyme was completely stable after 3 h pre-incubation at 60 °C. Metal ions like Ca²⁺, Mg²⁺ and Co²⁺ stimulated enzyme activities. Purified esterase remarkably retained its activity with 10 M NaCl. Enzyme activity was slightly increased in presence of non-polar detergents (Tween 20, Tween 80 and Triton X 100), and compatible with oxidizing agents (H₂O₂) and reducing agents (β-mercaptoethanol). Activities of the enzyme was stimulated in presence of organic solvents like DMSO, benzene, toluene, methanol, ethyl alcohol, acetone, isoamyl alcohol after 10 days long incubation. The enzyme retained over 75% activity in presence of proteinase K. Besides hyperthermostability and halotolerancy the novelty of this enzyme is its resistance against protease.     

Fungal surface protein mediated one-pot synthesis of stable and hemocompatible gold nanoparticles

Despite their large secretome and wide applications in bioprocesses, fungi remain underexplored in metal nanoparticles (MNP) biosynthesis. Previous studies have shown that cell surface proteins of Rhizopus oryzae play a crucial role in biomineralization of Au(III) to produce gold nanoparticles (AuNPs). Therefore, it is hypothesized that purified cell surface protein may produce in vitro AuNPs with narrow size distribution for biomedical and biocatalytic applications. However, different protein extraction methods might affect protein stability and the AuNP biosynthesis process. Herein, we have explored the extraction of cell surface proteins from R. oryzae using common detergents and reducing agent (sodium dodecyl sulfate (SDS) Triton X-100, and 1,4-dithiothreitol (DTT)) and their effect on the size and shape of the biosynthetic AuNPs. The surface proteins extracted with reducing agent (DTT) and non-ionic detergent (Triton X-100) produce spherical AuNPs with a mean particle size of 16 ± 7 nm, and 19 ± 4 nm, respectively, while the AuNPs produced by the surface protein extracted by ionic detergent (SDS) are flower-like AuNPs with broader size distribution of 43 ± 19 nm. This synthetic approach does not require use of any harsh chemicals, multistep preparation and separation process, favouring environmental sustainability. The biosynthetic AuNPs thus formed, are stable in different physiological buffers and hemocompatible, making them suitable for biomedical applications.     

Physical and chemical characterization of lamb meat from different genotypes submitted to diet with different fibre contents

The objective of the study was to evaluate the effect of genotype and the dietary fibre concentration in the chemical composition and physical properties of lamb meat. Samples from 54 animals from Morada Nova and Santa Inês native breeds and Dorpper × Santa Inês half-breed were analyzed, which received two diets, one with 41.7% and another with 33.6% fibre content, until reaching the average slaughter weight of 30 kg. The design used was fully randomized 3 × 2 factorial, three genotypes and two diets with nine replicates. Colour and pH in Semimembranosus muscle were determined, together with the analyses of the water retention capacity, loss of weight due to cooking, shearing force, and chemical composition in Longissimus dorsi muscle. The factor genotype influenced the chemical composition of meat, with Santa Inês lamb and crossbreed showing the highest protein percentages. The diet with 33.6% fibre content provided meat with higher moisture percentage and lower protein value, and the loss of weight due to cooking and shearing force parameters did not interfere in other variables. In addition, lambs receiving higher fibre content diet produced meat with lower shear force values, having indicated to be more tenderness. Despite these variations, the meat of lambs from all genotypes and under the diets evaluated can be considered of good quality.     

Extraction of hemoglobin with calixarenes and biocatalysis in organic media of the complex with pseudoactivity of peroxidase

The present work involves the use of p-tert-butylcalix[4,6,8]arene carboxylic acid derivatives (^tButyl[4,6,8]CH₂COOH) for selective extraction of hemoglobin. All three calixarenes extracted hemoglobin into the organic phase, exhibiting extraction parameters higher than 0.90. Evaluation of the solvent accessible positively charged amino acid side chains of hemoglobin (PDB entry 1XZ2) revealed that there are 8 arginine, 44 lysine and 30 histidine residues on the protein surface which may be involved in the interactions with the calixarene molecules. The hemoglobin–^tButyl[6]CH₂COOH complex had pseudoperoxidase activity which catalysed the oxidation of syringaldazine in the presence of hydrogen peroxide in organic medium containing chloroform. The effect of pH, protein and substrate concentrations on biocatalysis was investigated using the hemoglobin–^tButyl[6]CH₂COOH complex. This complex exhibited the highest specific activity of 9.92 × 10^?2 U mg protein^?1 at an initial pH of 7.5 in organic medium. Apparent kinetic parameters (V′_max, K′_m, k′_cat and k′_cat/K′_m) for the pseudoperoxidase activity were determined in organic media for different pH values from a Michaelis–Menten plot. Furthermore, the stability of the protein–calixarene complex was investigated for different initial pH values and half-life (t_1/2) values were obtained in the range of 1.96 and 2.64 days. Hemoglobin–calixarene complex present in organic medium was recovered in fresh aqueous solutions at alkaline pH, with a recovery of pseudoperoxidase activity of over 100%. These results strongly suggest that the use of calixarene derivatives is an alternative technique for protein extraction and solubilisation in organic media for biocatalysis.     

Meat quality in goats as influenced by dietary protein and energy levels,and postmortem aging

The objectives of this study were to determine effects of different dietary treatments and postmortem aging on meat quality characteristics in goats. Twenty castrated dairy goats (BW = 30.7 ± 6.80 kg, age 10 months) were subjected to one of four dietary treatments for 82 days (treatment): (i) 2.5 Mcal/kg DM DE and 12% CP, (ii) 2.5 Mcal/kg DM DE and 18% CP, (iii) 2.9 Mcal/kg DM DE and 12% CP, or (iv) 2.9 Mcal/kg DM DE and 18% CP. At the end of the feeding trial, the animals were slaughtered to evaluate meat quality. Longissimus muscle pH and temperature were measured at 0, 3, 6, 9, 12, 15, 18, and 24 h postmortem (time). Sarcomere length (1.65 μm), total collagen (4.17 mg/g), and heated calpastatin (44.7 units) measured at 24 h postmortem were not influenced by treatment (P > 0.05). Warner–Bratzler shear force values, collagen solubility, and cooking losses of loin/rib chops (2.5 cm thick) aged for 1, 3, or 6 days postmortem were not influenced by treatment (P > 0.05) or aging time (P > 0.05). Postmortem sampling time affected muscle pH and temperature decline (P < 0.01), but there was no effect of treatment. There was a trend toward a treatment × time interaction (P < 0.06) in muscle pH. Temperature and pH declines followed cubic (P < 0.01) and linear (P < 0.01) trends, respectively. Average muscle temperature declined rapidly and reached 14.5 ± 2.0 °C at 3 h postmortem, while the pH was still high (6.60 ± 0.087). In conclusion, diet did not influence meat quality characteristics, and shear force values of chevon did not decrease due to postmortem aging. Rapid heat dissipation from goat carcasses during too rapid chilling may have caused cold shortening of muscles resulting in meat that did not respond to aging.     

Expression,purification and partial characterization of a xanthine oxidase (XOD) in Arthrobacter sp.

A xanthine oxidase (XOD) was expressed, purified and partially characterized from Arthrobacter sp. with a negative immune protocol. To determine the optimal inducer for XOD, xanthine, hypoxanthine and uric acid were added into the medium of cultivation. The results revealed that with the inducement of about 14 mM xanthine, the highest XOD activity could be detected. To separate XOD from Arthrobacter sp., the cells were first cultured without any inducement; then the total proteins of the collected cells were extracted and immunized to rabbits for the polyclonal antibodies. These antibodies were then coupled with sepharose CL 6 B, and the medium was further employed to deplete most of the cells’ back ground proteins. Began with ～20 mg crude protein from disrupted cells was subjected to the antibody medium, and ～1.45 mg protein was detected in unbinding fractions with ～92.0% of activity. The extracted xanthine oxidase was ～85% pure with native-PAGE analysis, and ～90% pure with SDS-PAGE analysis, the yield of protein was ～7.4%. The specific activity of the enzyme was 36.0 U/mg. The native enzyme should be a dimer (～280 kDa) of a protein composed with two different peptides with the mass of approximately 55.5 and 85.5 kDa, respectively. The optimal pH and temperature of this enzyme were determined at about pH 7 and 50 °C. Furthermore, EDTA revealed almost no influences on the activity.     

Enhanced acetone/butanol/ethanol production by Clostridium beijerinckii IB4 using pH control strategy

PH is an essential factor for acetone/butanol/ethanol (ABE) production using Clostridium spp. In this study, batch fermentations by Clostridium beijerinckii IB4 at various pH values ranging from 4.9 to 6.0 were examined. At pH 5.5, the ABE production was dominant and maximum ABE concentration of 24.6 g/L (15.7 g/L of butanol, 8.63 g/L of acetone and 0.32 g/L of ethanol) was obtained with the consumption of 60 g/L of glucose within 36 h. However, in the control (without pH control), an ABE concentration of 14.1 g/L (11.0 g/L of butanol, 3.01 g/L of acetone and 0.16 g/L of ethanol) was achieved with the consumption of 41 g/L of glucose within 40 h. A considerable improvement in the productivity of up to 93.8% was recorded at controlled pH in comparison to the process without pH control. To better understand the influence of pH on butanol production, the reducing power capability and NADH-dependent butanol dehydrogenase activity were investigated, both of which were significantly improved at pH 5.5. Thus, the pH control technique is a convenient and efficient method for high-intensity ABE production.     

Production of novel halo-alkali-thermo-stable xylanase by a newly isolated moderately halophilic and alkali-tolerant Gracilibacillus sp. TSCPVG

An aerobic xylanolytic Gracilibacillus sp. TSCPVG growing at moderate to extreme salinity (1–30%) and neutral to alkaline pH (6.5–10.5) was isolated from the salt fields near Sambhar district of Rajasthan, India. β-xylanase (18.44 U/ml) and β-xylosidase (1.01 U/ml) were produced in 60 h in the GSL-2 mineral base medium with additions of (in g/l) Birchwood xylan (7.5), yeast extract (10.0), tryptone (8.0), proline (2.0), thiamine (2.0), Tween-40 (2.0) and NaCl (35) at pH 7.5, 30 °C and 180 rpm. The β-xylanase was active within a broad salinity range (0–30% NaCl), pH (5.0–10.5) and temperature (50–70 °C). It exhibited maximal activity with 3.5% NaCl, pH 7.5 at 60 °C. It was extremely halotolerant retaining more than 80% of activity at 0 and 30% NaCl and alkali-tolerant retaining 76% of activity at pH 10.5. The acetone precipitated xylanase was highly stable (100%) at variable salinities of 0–30% NaCl, pH of 5.0–10.5 and temperatures of 0–60 °C for 48 h. HPLC analysis showed xylose, arabinose and xylooligosaccharides as hydrolysis products of xylan. This is the first report on hemi-cellulose degrading halo-alkali-thermotolerant enzyme from a moderately halophilic Gram-positive Gracilibacillus species.     

Pectinase production by Aspergillus niger LB-02-SF is influenced by the culture medium composition and the addition of the enzyme inducer after biomass growth

The production of pectinase by Aspergillus niger LB-02-SF was focused on a submerged cultivation, before it was evaluated in a solid-state process. This study involved the creation of a defined culture medium and an evaluation of the effects of the addition of the enzyme inducer, citrus pectin, to the medium after the intense biomass growth phase. A culture medium formulated without glucose allowed a reduction of biomass growth and greater pectinase production, facilitated by the control of process parameters such as mixing, pH and oxygen supply. The addition of pectin when a minimum pH of 2.7 was reached at 22 h of cultivation did not affect fungal growth. The maximum biomass concentration was 11.0 g/L at 48 h, a value similar to that observed for the control, in which pectin was included in the medium at the beginning of the process (11.5 g/L, at 41 h). However, this condition favored the production of 14 U/mL pectinase, which was approximately 40% higher than the value observed for the control. These results show that pectinase production by A. niger in a submerged cultivation is strongly affected by the medium composition as well as the delayed addition of pectin to the fermentation broth.     

Enhanced extraction genistein from pigeon pea [Cajanus cajan (L.) Millsp.] roots with the biotransformation of immobilized edible Aspergillus oryzae and Monacus anka and antioxidant activity evaluation

A new method of enhanced extraction genistein from pigeon pea [Cajanus cajan (L.) Millsp.] roots with the biotransformation of immobilized edible Aspergillus oryzae and Monacus anka, was investigated. It showed that immobilized Aspergillus oryzae and Monacus anka on sodium alginate effectively supported the highest genistein extraction yield by screening microorganism tests. After biotransformation process with immobilized Aspergillus oryzae and Monacus anka under 30 °C, pH 6.0, 2 days, liquid-solid ratio 12: 1 (mL/g), the extraction yield of genistein reached 1.877 mg/g, which was 2.65-fold to that of normal extraction yield. Moreover, IC₅₀ values of the extracts measured by DPPH-radical scavenging test and β-Carotene-linoleic acid bleaching test were 0.737 mg/mL and 0.173 mg/mL (control sample 1.117 mg/mL and 0.216 mg/mL), respectively. SOD (Super Oxygen Dehydrogenises) activity of the extracts treated with immobilized microorganism which was stronger than that of the untreated pigon pea roots (1.44 U/mg) at the concentration of protein (0.9375 μg/mL) was 1.83 U/mg. The developed method could be an alternative method for the enhanced extraction of genistein from plants and could be potentially applied in the food industry     

Nutritional value and proteases of Lentinus citrinus produced by solid state fermentation of lignocellulosic waste from tropical region

This paper examined the growth and yield performance of Lentinus citrinus on cupuaçu exocarp (Theobroma grandiflorum) mixed with litter (CE + LI) or rice bran (Oryza sativa) (CE + RB) in the ratio of 2:1 (800 g:200 g) to investigate the nutritional composition and proteolytic potential of the fruiting body produced. Significance values of yield were determined on substrate combinations. In CE + LI the biological efficiency of the mushrooms was 93.5% and the content of fat (4.5%), fiber (11.0%), protein (27.0%) and amino acids were higher when compared with CE + RB. Among the amino acids, the amount of glutamic acid, aspartic acid, alanine, arginine and leucine was high. The biological efficiency on CE + RB reduced to 84.2% and based on the nutritional value, carbohydrates (53.59%), energy (324.33 kcal) and minerals such as zinc, iron, copper, potassium and phosphorus were higher in this substrate combination. Protease activity from fruiting body was significant in CE + LI (463.55 U/mL). This protease showed an optimal activity at 50 °C in neutral and alkaline pH with maximum stability at 30 °C at alkaline pH. This is the first report of L. citrinus fruiting body nutritional composition with potential for human food and application in industrial processes.     

Cloning,purification and characterization of a thermostable β-galactosidase from Thermotoga naphthophila RUK-10

A novel β-galactosidase gene (Tnap1577) from the hyperthermophilic bacterium Thermotoga naphthophila RUK-10 was cloned and expressed in Escherichia coli BL21 (DE3) cells to produce β-galactosidase. The recombinant β-galactosidase was purified in three steps: heat treatment to deactivate E. coli proteins, Ni-NTA affinity chromatography and Q-sepharose chromatography. The optimum temperatures for the hydrolysis of o-nitrophenyl-β-d-galactoside (o-NPG) and lactose with the recombinant β-galactosidase were found to be 90 °C and 70 °C, respectively. The corresponding optimum pH values were 6.8 and 5.8, respectively. The molecular mass of the enzyme was estimated to be 70 kDa by SDS-PAGE analysis. Thermostability studies showed that the half-lives of the recombinant enzyme at 75 °C, 80 °C, 85 °C and 90 °C were 10.5, 4, 1, and 0.3 h, respectively. Kinetic studies on the recombinant β-galactosidase revealed K_m values for the hydrolysis of o-NPG and lactose of 1.31 mM and 1.43 mM, respectively. These values are considerably lower than those reported for other hyperthermophilic β-galactosidases, indicating high intrinsic affinity for these substrates. The recombinant β-galactosidase from Thermotoga naphthophila RUK-10 also showed transglycosylation activity in the synthesis of alkyl galactopyranoside. This additional activity suggests the enzyme has potential for broader biotechnological applications beyond the degradation of lactose.     

Production of endoxylanase with enhanced thermostability by a novel polyextremophilic Bacillus halodurans TSEV1 and its applicability in waste paper deinking

The screening and selection of the culture variables followed by optimization using statistical approaches led to a 23-fold enhancement in thermo-alkali-stable xylanase production by the polyextremophilic Bacillus halodurans TSEV1. The optimization of crucial parameters involved in the extraction of xylanase from the bacterial bran led to a high enzyme recovery. The purified xylanase produced in submerged fermentation (SmF) and solid state fermentation (SSF) was visualized as a single band on SDS-PAGE with a molecular mass of 40 kDa. The SSF-xylanase is optimally active at 78 °C and pH 9.0 and stable in the pH range between 7.0 and 12.0 with a T_1/2 of 65 min at 90 °C, which is higher than that of SmF-xylanase. The higher activation energy, enthalpy of deactivation (ΔH*), free energy change of deactivation (ΔG*) and T_1/2 of SSF-xylanase than these of SmF xylanase further confirmed higher thermostability of the former than the latter. The combination of commercial cellulase and TSEV1 xylanase was highly effective in deinking of waste paper at alkaline pH and elevated temperatures.     

Forward and backward extraction rates of amino acid in reversed micellar extraction

The mass transfer characterization in reversed micellar extraction of amino acid phenylalanine (Phe) is presented. The mass transfer rates in forward extraction of Phe from aqueous KCl solutions (pH 1.4 – 2.3) to AOT/isooctane reversed micellar solutions and in backward extraction from the reversed micellar organic phase to KHCO₃/KOH buffer solutions (pH 9.0 – 11.0) were investigated using a stirred cell with a flat liquid–liquid interface. Both the forward and the backward extraction rates are controlled by the interfacial rate processes, i.e., the solubilization and the release processes. The solubilizing rate constants for the forward extraction of Phe increase with decreasing pH and initial Phe concentration and with increasing initial AOT concentration. On the other hand, the releasing rate constants for the backward extraction decrease with increasing initial AOT concentration and with decreasing ionic strength, but are little influenced by pH. The backward extraction rates are fairly slow compared to the forward extraction rates, and are accelerated by the addition of 2-methyl-2-propanol, similar to the extraction of protein lysozyme.     

Biochemical and molecular characterization of recombinant acidic and thermostable raw-starch hydrolysing α-amylase from an extreme thermophile Geobacillus thermoleovorans

A gene encoding acidic, thermostable and raw starch hydrolysing α-amylase was cloned from an extreme thermophile Geobacillus thermoleovorans and expressed. The ORF of 1650 bp encodes a 515 amino acid protein (Gt-amy) with a signal peptide of 34 amino acids at the N-terminus. Seven conserved sequences of GH-13 family have been found in its sequence. The specific enzyme activity of recombinant Gt-amy is 1723 U mg⁻¹ protein with a molecular mass of 59 kDa. It is optimally active at pH 5.0 and 80 °C with t_1/2 values of 283, 184 and 56 min at 70, 80 and 90 °C, respectively. The activation energy required for its temperature deactivation is 84.96 kJ mol⁻¹. Ca²⁺ strongly inhibits Gt-amy at 10 mM concentration, and inhibition kinetics with Ca²⁺ reveals that inhibition occurs as a result of binding to a lower affinity secondary Ca²⁺ binding site in the active centre in a mixed-type inhibition manner. The K_m and k_cat of the Gt-amy are 0.315 mg mL⁻¹ and 2.62 × 10³ s⁻¹, respectively. Gt-amy is Ca²⁺-independent at the concentration used in industrial starch saccharification, and hydrolyses raw corn and wheat starches efficiently, and thus, is applicable in starch saccharification at the industrial sub-gelatinization temperatures.