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Polypeptide Compositions (polypeptide + composition)

Distribution by Scientific Domains

Chemistry	75%

Selected Abstracts

Effect of glutenin subfractions on bread-making quality of wheat

INTERNATIONAL JOURNAL OF FOOD SCIENCE & TECHNOLOGY, Issue 5 2001
Sudesh Jood
Five glutenin subfractions (R2,R6) were extracted by sequential centrifugation and addition of sodium chloride, from defatted flours of three wheat cultivars viz. Aubaine (extra-strong), Hereward (strong) and Riband (weak). Seven minutes mixing time was used to carry out fractionation on the basis of depolymerization of glutenin macropolymers (GMP) by using a 2-g Mixograph traces. Depolymerization of GMP occurred at much higher rates in dough of weak cultivars compared with strong and extra-strong cultivars. Protein content was also estimated in GMP (SDS-unextractable) and supernatant (SDS-extractable). Extra-strong cv. Aubaine contained maximum amount of all the glutenin fractions (R2,R6) followed by strong cv. Hereward and weak cv. Riband. Polypeptide compositions of different glutenin fractions were determined by sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS,PAGE) under reduced and unreduced conditions, followed by densitometric scanning of stained patterns. The pattern areas of reduced fractions were divided into subareas representative of three main protein classes: high molecular weight (HMW) glutenin subunits; ,-gliadins and a mixture of low molecular (LMW) glutenin subunits and ,, , and ,-gliadins. The amounts of various subunits were proportionate according to the molecular weight of the fractions in each cultivar. The ratio of HMW-glutenin subunits to the LMW-glutenin subunits in each cultivar were found to decrease with the fractionation from R2 to R6. Bread-making quality of three cultivars was also assessed by adding various fractions to a base flour and measuring mixograph peak development time and loaf volume in an optimized baking test. The quality of bread prepared from flour of weak cv. Riband was improved significantly by the addition of HMW fraction (R2) when measured in terms of loaf volume. However, the addition of LMW fraction (R5 + R6) did not cause any appreciable improvement in bread quality over control. On the other hand, addition of HMW fraction (R2) in the flour of good bread wheat cv. Hereward caused adverse effects on the bread-making quality by disturbing the viscoelastic properties. Supplementation of R2 fractions in extra strong wheat cv. Aubaine caused marginal reduction in loaf volume over control. Therefore, the precise proportion present of the two classes of subunit is essential to achieving a proper balance between elastic and viscous properties. [source]

EFFECT OF COMPOSITION OF GLUTHNIN SUBFRACTIONS ON RHEOLOGICAL PROPERTIES OF WHEAT

JOURNAL OF FOOD BIOCHEMISTRY, Issue 4 2000
S. JOOD
ABSTRACT Gluten extracted from defatted flours of cv. Aubaine (extra-strong), Hereward (strong) and Riband (weak) was separated into five different fractions (R2 to R6) by sequential centrifugation and addition of sodium chloride. A seven-minute mixing time was used to carry out fractionation on the basis of depolymerization of glutenin macropolymers (GMP). Depolymerization of GMP occurred at much higher rates in dough of the weak cultivar compared to the strong and extra-strong cultivars. Polypeptide compositions of different ghttenin fractions were determined by sodium dodecyl sulfate polyacrylamide gel electrophoresis under reduced and non-reduced conditions, followed by densitometric scanning of stained patterns. The amount of HMW-glutenin subunits decreased and LMW-glutenin subunits increased correspondingly in each cultivar with the fractionation from R2 to R6. The rheological behavior of the fractions was analyzed by small deformation rheological tests (strain sweep and frequency tests). The high molecular weight fraction (R2) from extra-strong wheat had a higher vahte of G' and a lower tan , value as compared to strong and weak bread-making wheats. The moduli of HMW glutenin fractions (R2 and R3) were frequency independent and promoted the network properties, whereas moduli of LMW glutenin fractions were frequency dependent and gave rise to a plasticizing effect. Therefore, it was concluded from the present studies that HMW-glutenin subunits are not the only factors governing good bread-making quality but their proportions in relation to low molecular weight glutenin subunits is equally important in sinking a balance between viscous and elastic properties essential for bread making performance. [source]

Prediction of protein structural class by amino acid and polypeptide composition

FEBS JOURNAL, Issue 17 2002
Rui-yan Luo
A new approach of predicting structural classes of protein domain sequences is presented in this paper. Besides the amino acid composition, the composition of several dipeptides, tripeptides, tetrapeptides, pentapeptides and hexapeptides are taken into account based on the stepwise discriminant analysis. The result of jackknife test shows that this new approach can lead to higher predictive sensitivity and specificity for reduced sequence similarity datasets. Considering the dataset PDB40-B constructed by Brenner and colleagues, 75.2% protein domain sequences are correctly assigned in the jackknife test for the four structural classes: all-,, all-,, ,/, and , + ,, which is improved by 19.4% in jackknife test and 25.5% in resubstitution test, in contrast with the component-coupled algorithm using amino acid composition alone (AAC approach) for the same dataset. In the cross-validation test with dataset PDB40-J constructed by Park and colleagues, more than 80% predictive accuracy is obtained. Furthermore, for the dataset constructed by Chou and Maggiona, the accuracy of 100% and 99.7% can be easily achieved, respectively, in the resubstitution test and in the jackknife test merely taking the composition of dipeptides into account. Therefore, this new method provides an effective tool to extract valuable information from protein sequences, which can be used for the systematic analysis of small or medium size protein sequences. The computer programs used in this paper are available on request. [source]

Dual Stimuli-Responsive Supramolecular Polypeptide-Based Hydrogel and Reverse Micellar Hydrogel Mediated by Host,Guest Chemistry

ADVANCED FUNCTIONAL MATERIALS, Issue 4 2010
Yi Chen
Abstract Versatile strategies are currently being discovered for the fabrication of synthetic polypeptide-based hybrid hydrogels, which have potential applications in polymer therapeutics and regenerative medicine. Herein, a new concept,the reverse micellar hydrogel,is introduced, and a versatile strategy is provided for fabricating supramolecular polypeptide-based normal micellar hydrogel and reverse micellar hydrogels from the same polypeptide-based copolymer via the cooperation of host,guest chemistry and hydrogen-bonding interactions. The supramolecular hydrogels are thoroughly characterized, and a mechanism for their self-assembly is proposed. These hydrogels can respond to dual stimuli,temperature and pH,and their mechanical and controlled drug-release properties can be tuned by the copolymer topology and the polypeptide composition. The reverse micellar hydrogel can load 10% of the anticancer drug doxorubicin hydrochloride (DOX) and sustain DOX release for 45 days, indicating that it could be useful as an injectable drug delivery system. [source]