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ER is the primary site for the maturation and folding of soluble and transmembrane secretory proteins. The calnexin cycle is a specific chaperone system that folds and assesses the confirmation of N-glycosylated proteins before they can exit the ER lumen. The primary players of this quality check pipeline are the lectins, ER-resident chaperones, and a glucosyl transferase enzyme. In case the calnexin system in the lumen fails to salvage a misfolded protein, it is transported to the cytoplasm...
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Structure of PeptidoglycanPeptidoglycan is a vital structural component of the bacterial cell wall, providing mechanical strength and shape to the cell. It consists of repeating units of two sugars—N-acetylglucosamine (NAG) and N-acetylmuramic acid (NAM)—linked by β-1,4 glycosidic bonds. These sugar chains are cross-linked by short peptide chains, forming a mesh-like polymer that surrounds the bacterial plasma membrane.Cytoplasmic Phase – Precursor SynthesisPeptidoglycan...
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Protein glycosylation starts in the ER lumen and continues in the Golgi apparatus. Glycosyltransferases catalyze the addition of sugar molecules or glycosylation of proteins. Usually, these enzymes add sugars to the hydroxyl groups of selected serine or threonine residues to form O-linked glycans or the amino groups of asparagine residues to form N-linked glycans. Different positions on the same polypeptide chain can contain differently linked glycans.
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Updated: Sep 28, 2025

Molecular Entanglement and Electrospinnability of Biopolymers
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Downstream processing and structural confirmation of pullulan - A comprehensive review.

Ram Sarup Singh1, Navpreet Kaur1, Dhandeep Singh2

  • 1Carbohydrates and Protein Biotechnology Laboratory, Department of Biotechnology, Punjabi University, Patiala 147 002, Punjab, India.

International Journal of Biological Macromolecules
|March 30, 2022
PubMed
Summary
This summary is machine-generated.

This review details efficient, safe, and reproducible downstream processing for microbial polymer pullulan recovery. It covers solid-liquid and liquid-liquid separations, purification methods, and structural analysis techniques for Aureobasidium pullulans.

Keywords:
Aqueous phase systemDownstream processingOrganic solventsPullulan

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Area of Science:

  • Biotechnology
  • Polymer Science
  • Microbial Processing

Background:

  • Pullulan is a microbial polymer produced commercially from Aureobasidium pullulans.
  • Efficient downstream processing is crucial for its industrial application.
  • Current methods require optimization for yield, safety, and reproducibility.

Purpose of the Study:

  • To review and analyze current methods for pullulan recovery and purification.
  • To highlight efficient techniques for solid-liquid and liquid-liquid separations.
  • To discuss perspectives on optimizing pullulan downstream processing.

Main Methods:

  • Filtration and centrifugation for cell biomass separation.
  • Organic solvent precipitation (ethanol, isopropanol) for pullulan recovery.
  • Aqueous two-phase systems and chromatographic techniques for purification.

Main Results:

  • Organic solvents are commonly used due to pullulan's insolubility.
  • Chromatography is effective but not cost-efficient for large-scale purification.
  • Aqueous two-phase systems offer an efficient purification alternative.

Conclusions:

  • Optimized solid-liquid and liquid-liquid separations are key to efficient pullulan recovery.
  • Aqueous two-phase systems present a promising, cost-effective purification strategy.
  • Further research into structural attributes aids process development.