Your search keyword '"Patchara Punyamoonwongsa"' showing total 3 results

1. Structural Modification of Styrene Maleic Anhydride Copolymers for Plant Bioactive Compound Extraction

Author

Natsaran Saichana, Patchara Punyamoonwongsa, Brian J. Tighe, and Pattana Kakumyan

Subjects

chemistry.chemical_compound, Lysis, chemistry, Mechanics of Materials, Styrene maleic anhydride, Mechanical Engineering, Extraction (chemistry), Copolymer, Organic chemistry, General Materials Science, Bioactive compound

Abstract

Ability of poly (styrene-alt-maleic anhydride) (PSMA) to undergo a conformational transition into an amphipathic α-helix coil offers one possible mechanism by which PSMA surface activity can be switched on or off in response to the pH change. This behaviour allows it to be useful in membrane solubilization for extraction technology. Bioactive compounds are recovered from plant tissues for different reasons. One of the most important reasons is due to the increased demand in nutraceuticals market and modern therapeutics. Despite this, aqueous-based extraction of these compounds has been reported to give low extraction yield. A development of new green extraction protocol is still a challenging task for all researchers nowadays. This study demonstrated, for the first time, possible use of PSMA as a lysis agent for plant bioactive compound extraction. To enhance its membrane affinity at physiological pH, the polymer was esterified with methanol. Both PSMA and its derivative (ePSMA) were characterized in terms of their membrane binding affinity through a combined use of both surface characterization and physical techniques. Analysis of the ternary phase diagrams suggested that ePSMA could facilitate stronger hydrophobically-driven interactions with the lipid. This was convinced by the reduced critical PSMA/lipid mass ratio from 7:1 (PSMA) to 1:1 (ePSMA), as observed in the ternary phase diagrams. Last but not the least, the crude extracts of Coffea robusta leaves obtained from ePSMA-based extraction showed a total phenolic content of 20.32±0.75 mg/g sample, significantly higher than that from the PSMA- (14.24±1.27 mg/g sample) and aqueous-based (16.33±1.03 mg/g sample) extractions. A structural manipulation of PSMA is thus a key to tailor its membrane solubilization and so, the extraction efficacy of bioactive compounds from plant cells.

Published

2019

2. Preparation of Biodegradable Polymer Blended of Poly(L-Lactic Acid)/Cellulose Acetate Films in the Solvent Mixture

Author

C. Witthayaprapakorn, Robert Molloy, Nuchada Suttenun, K. Thananukul, and Patchara Punyamoonwongsa

Subjects

Green chemistry, Solvent, chemistry.chemical_compound, Materials science, chemistry, Polylactic acid, General Engineering, Acetone, Organic chemistry, Polymer blend, Cellulose acetate, Casting, Biodegradable polymer

Abstract

Nowadays, bio-plastic is the most popular in packaging field. Green chemistry and environmental responsibility has led it to develop the bio-plastic for use as packaging. Polylactic acid (PLA) is the well known staring material in this area. However, some properties of PLA films have to develop. Polymer blend is the interesting technique, in this work, PLA/Cellulose acetate (CA) blend films were prepare by casting solution at various compositions. Mixing solvent of Chloroform and acetone in acid condition were used, it was found that the mixing solvent can improved the compatibility and mechanical properties of the blend films. From this work CA can significantly increase PLA properties both the usefulness and the possible applications for bio-plastic material.

Published

2013

3. Association Behavior of the Synthetic Protein-Lipid Complex Analogues

Author

Patchara Punyamoonwongsa and Brian J. Tighe

Subjects

chemistry.chemical_classification, Phase transition, Materials science, Aqueous solution, Stereochemistry, General Engineering, Phospholipid, Polymer, Hydrophobic effect, chemistry.chemical_compound, chemistry, Phase (matter), Drug delivery, Biophysics, Phosphocholine

Abstract

Hypercoiling poly (styrene-alt-maleic anhydride) (PSMA) is known to undergo conformational transition in response to environmental stimuli. This behavior allows it to associate with the phospholipid,2-dilauryl-sn-glycero-3-phosphocholine (DLPC) to produce nanostructures analogous to lipoproteins. The complex represents a new bio-mimetic delivery vehicle with applications in the cosmetic and pharmaceutical industries. This study investigates, for the first time, the association behavior of PSMA and DLPC through the combination of different analytical techniques. The results indicate that the association is primarily driven by hydrophobic interactions and depends on various factors including the polymer/lipid ratio, the polymer molecular weight and the pH of the aqueous environment. The conformational transition of PSMA leads to the formation of discrete micellar complexes involving anisotropic-to-isotropic lipid phase transformation. As the number of hydrophobic moieties in the polymer is increased, the pH-dependent conformational transition of the polymer plays less important part in achieving this phase transition of the lipid.

Published

2012