Protein–polymer mixtures in the colloid limit: Aggregation, sedimentation, and crystallization

In neurons, the microtubule associated protein, tau, is found in the axons. Tau stabilizes the microtubules required for neurotransmitter transport to the axonal terminal. Since tau has been found in both Alzheimer neurofibrillary tangles (NFT) and in paired helical filaments (PHF), the study of tau's normal structure had to preceed TEM studies of NFT and PHF. The structure of tau was first studied by ultracentrifugation. This work suggested that it was a rod shaped molecule with an axial ratio of 20:1. More recently, paraciystals of phosphorylated and nonphosphoiylated tau have been reported. Phosphorylated tau was 90-95 nm in length and 3-6 nm in diameter where as nonphosphorylated tau was 69-75 nm in length. A shorter length of 30 nm was reported for undamaged tau indicating that it is an extremely flexible molecule. Tau was also studied in relation to microtubules, and its length was found to be 56.1±14.1 nm.

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Specific volume and features of compressibility during the molding of powder-polymer mixtures with wax-polypropylene binder

All the materials Encyclopedic Reference Book ◽

10.31044/1994-6260-2019-0-9-25-33 ◽

2019 ◽

pp. 25-33

Author(s):

Alexander Muranov ◽

Alexey Semenov ◽

Anatoly Kutsbakh ◽

Boris Semenov

Keyword(s):

Phase Transition ◽

Comparative Analysis ◽

Powder Metallurgy ◽

Injection Molding ◽

Polymer Binder ◽

Polymer Mixture ◽

Powder Injection ◽

Polymer Mixtures ◽

Pvt Data ◽

Mathematical Processing

The article discusses one of the modern areas of powder metallurgy – the technology of manufacturing shaped parts by the powder injection molding (PIM). For the powder-polymer mixture (feedstock) with a wax-polypropylene binder of the solvent-thermal type of removal by isobaric volume dilatometry, the dependence of PVT state parameters was studied. For each component of the polymer binder, the dependence of pressure on the temperature of phase transition was obtained. As a result of mathematical processing and analysis of PVT data for the feedstock of the studied type, a technological window of parameters has been determined that allows injection molding of «green parts» with minimal volume shrinkage. The results of a comparative analysis of the compaction of feedstock with a polymer binder catalytic and solution-thermal type of removal are presented.

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Faculty Opinions recommendation of Therapeutic protein-polymer conjugates: advancing beyond PEGylation.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.718872818.793527665 ◽

2017 ◽

Author(s):

Chava Kimchi-Sarfaty

Keyword(s):

Therapeutic Protein ◽

Polymer Conjugates ◽

Protein Polymer

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Improved stress relaxation resistance of composites films by soy protein polymer

Composites Communications ◽

10.1016/j.coco.2021.100644 ◽

2021 ◽

Vol 24 ◽

pp. 100644

Author(s):

Zhen Zhang ◽

Yousef M. Katba Bader ◽

Lucian A. Lucia ◽

Jianzhong Yang

Keyword(s):

Stress Relaxation ◽

Soy Protein ◽

Relaxation Resistance ◽

Protein Polymer

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Structural and dynamical properties of dilute gel networks in colloid–polymer mixtures

The Journal of Chemical Physics ◽

10.1063/5.0048816 ◽

2021 ◽

Vol 154 (24) ◽

pp. 244903

Author(s):

M. Gimperlein ◽

M. Schmiedeberg

Keyword(s):

Polymer Mixtures ◽

Dynamical Properties

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Phase behavior of colloid-polymer mixtures in planar, spherical, and cylindrical confinement: A density functional theory study

The Journal of Chemical Physics ◽

10.1063/5.0048709 ◽

2021 ◽

Vol 154 (18) ◽

pp. 184902

Author(s):

Sergei A. Egorov

Keyword(s):

Density Functional Theory ◽

Phase Behavior ◽

Density Functional ◽

Density Functional Theory Study ◽

Polymer Mixtures ◽

Functional Theory

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Manufacturing PLA/PCL Blends by Ultrasonic Molding Technology

Polymers ◽

10.3390/polym13152412 ◽

2021 ◽

Vol 13 (15) ◽

pp. 2412

Author(s):

Inés Ferrer ◽

Ariadna Manresa ◽

José Alberto Méndez ◽

Marc Delgado-Aguilar ◽

Maria Luisa Garcia-Romeu

Keyword(s):

Molecular Weight ◽

Crystallization Rate ◽

Raw Material ◽

Small Particle Size ◽

Polymer Mixtures ◽

Crystallinity Degree ◽

Correct Determination ◽

Production Stages ◽

Process Speed

Ultrasonic molding (USM) is a good candidate for studying the plasticization of polymer mixtures or other composite materials due to either the little amount of material needed for processing, low waste or the needed low pressure and residence time of the mold. Thus, the novelty of this research is the capability of USM technology to process PLA/PCL blends and their corresponding neat materials, encompassing all the production stages, from raw material to the final specimen. The major findings of the work revealed that the thermal properties of the blends were not affected by the USM process, although the crystallinity degree experienced variations, decreasing for PLA and increasing for PCL, which was attributed to the crystallization rate of each polymer, the high process speed, the short cooling time and the small particle size. The employed ultrasonic energy increased the molecular weight with low variations through the specimen. However, the degradation results aligned with the expected trend of these material blends. Moreover, this study also showed the effect pellet shape and dimensions have over the process parameters, as well as the effect of the blend composition. It can be concluded that USM is a technology suitable to successfully process PLA/PCL blends with the correct determination of process parameter windows.

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