Data for New cold-adapted bacteria for efficient hydrolysis of feather waste at low temperature paper ...

A novel cold-adapted bacteria Arthrobacter oryzae BIM B-1663 isolated from Antarctic green snow showed keratinase activity and efficient poultry feather degradation. A. oryzae strain degraded more than 80% of chicken feathers within 7 days of cultivation at 25°C. The optimal keratinase activity for...

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Bibliographic Details
Main Authors: Smirnova, Margarita, Losada, Cristian Bolaño, Akulava, Volha, Zimmermann, Boris, Kohler, Achim, Miamin, Uladzislau, Oostindjer, Marije, Shapaval, Volha
Format: Dataset
Language:unknown
Published: Zenodo 2023
Subjects:
Antarctic bacteria, feather degradation, enzymes, keratinase, spectroscopy
Antarctic
Antarc*
Online Access:https://dx.doi.org/10.5281/zenodo.7769804
https://zenodo.org/record/7769804
Description
Summary:A novel cold-adapted bacteria Arthrobacter oryzae BIM B-1663 isolated from Antarctic green snow showed keratinase activity and efficient poultry feather degradation. A. oryzae strain degraded more than 80% of chicken feathers within 7 days of cultivation at 25°C. The optimal keratinase activity for A. oryzae BIM B-1663 was observed at 50°C, both for α-keratin (44.86 U/mL) and for β-keratin (94 mU/mL). The obtained results from sulfite and thiol groups tests and Fourier transform infrared spectroscopy (FTIR) showed that A. oryzae strain has a different keratin degradation mechanism than the reference strain Bacillus licheniformis CCM 2145 T . FTIR fingerprinting can be used for monitoring of feather hydrolysis as it showed distinct chemical differences in feather meal hydrolysates, retentate and permeate from A. oryzae and B. licheniformis strains. ...

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