Synthesis of Bionanomaterials for Biomedical Applications

Riaz, U.; Anum, W.; Jatoi, G.H.; Murtaza, G.; Qazi, M.A.; Rehman, M.; Zaman, Q.U.; Shahzad, L.; Sohail, M.I.; Aziz, H.; Mehmood, T.; Mustafa, Adnan

doi:https://dx.doi.org/10.1016/B978-0-323-91195-5.00015-5

Number of the records: 1

Synthesis of Bionanomaterials for Biomedical Applications

1.

SYSNO ASEP	0581869
Document Type	M - Monograph Chapter
R&D Document Type	Monograph Chapter
Title	Genetically modified organisms use in green synthesizes nanomaterials
Author(s)	Riaz, U. (PK) Anum, W. (PK) Jatoi, G.H. (PK) Murtaza, G. (PK) Qazi, M.A. (PK) Rehman, M. (PK) Zaman, Q.U. (PK) Shahzad, L. (PK) Sohail, M.I. (PK) Aziz, H. (PK) Mehmood, T. (CN) Mustafa, Adnan (BC-A)_{RID, ORCID}
Source Title	Synthesis of Bionanomaterials for Biomedical Applications. - Cambridge : Elsevier, 2023 / Ozturk M. ; Roy A. ; Bhat R.A. ; Vardar-Sukan F. ; Policarpo Tonelli F.M. - ISBN 978-0-323-91195-5
Pages	(2023), s. 151-163
Number of pages	13 s.
Number of pages	578
Publication form	Print - P
Language	eng - English
Country	US - United States
Keywords	applications ; biosynthesized nanoparticles ; genetic methods ; genetically engineered organisms ; nanomaterials synthesis ; nanoparticle biosynthesis
Subject RIV	DF - Soil Science
OECD category	Soil science
Institutional support	BC-A - RVO:60077344
EID SCOPUS	85150121145
DOI	10.1016/B978-0-323-91195-5.00015-5
Annotation	Nanoparticles and nanostructures are now being studied extensively and utilized in industries such as biomedical and pharmaceutical production, most specifically for cancer therapy, RNA and DNA analysis, antimicrobial and antiviral agents, targeted drug- and gene-delivery systems, biosensors, and imaging. Nanoparticle technology utilizes energy-efficient, environment-friendly, greener, and safer organisms compared to physicochemical processes. Genetically modified organisms are implemented even on an industrial scale for eco-friendly and safer synthesis of nanomaterials/nanoparticles. They contain versatile bioreduction systems, most prominently they are more resistant to metal toxicity, produce more biomass, and can be manipulated easily in terms of their genetic makeup. This chapter deals with the basic mechanisms involve in the biosynthesis of nanoparticles, which are effective and safer candidates for genetic manipulation, their role in decreasing/mitigating metal toxicity, and other characteristics related to their safe implementation.
Workplace	Biology Centre (since 2006)
Contact	Dana Hypšová, eje@eje.cz, Tel.: 387 775 214
Year of Publishing	2024

Number of the records: 1