The IRMA Community
Newsletters
Research IRM
Click a keyword to search titles using our InfoSci-OnDemand powered search:
|
Mycoremediation of Lignocelluloses
Abstract
The most abundant aromatic biopolymer on earth Lignin is extremely recalcitrant to degradation. It creates a barrier to solutions or enzymes by linking to both hemicellulose and cellulose preventing the penetration of lignocellulolytic enzymes into the interior lignocellulosic structure. Global attention has been gained by fungi owing to the potential use of their versatile enzymes for agriculture, medicines, industries and bioremediation. The combination of extracellular ligninolytic enzymes, mediators, organic acids and accessory enzymes make some of the basidiomycete white-rot fungi to be able to degrade lignin efficiently. This review describes remediation of lignocelluloses by fungi, properties of fungi, their spatial distribution and the mechanisms of action which render them attractive candidates in biotechnological applications like biopulping, animal feed, genetic engineering and space exploration.
Related Content
Md. Al-Amin, G M Tarekul Islam.
© 2023.
19 pages.
|
A.K.M Saiful Islam, Abu Saleh Khan, G M Tarekul Islam, Biswa Bhattacharya, Dr. Md. Hazrat Ali, Md. Saiful Hossain.
© 2023.
19 pages.
|
Trung Van Le, Phu L. Vo, Quang Khai Ha, Van Tran Thi, Hiep Dinh Luu.
© 2023.
26 pages.
|
Elena Kapogianni.
© 2023.
17 pages.
|
Mohammad Shoeb, Rafiza Islam, Nargis Parvin.
© 2023.
24 pages.
|
Pınar Ozel, Duygu Mutlu Bayraktar, Tugba Altan, Veysel Coskun, Ali Olamat.
© 2023.
14 pages.
|
Mohammad Shoeb, Nilufar Nahar.
© 2023.
22 pages.
|
|
|