Value-added biologics through eco-sustainable routes (BioECOLogics)
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Available biologics have revolutionized cancer treatment, proven efficient in complex
infections, changed the lives of people with rare diseases, and offered hope for many patients
who previously had no effective treatment options for their condition. Downside is that these
biopharmaceuticals are extremely expensive and as such, not widely available. BioECOLogics
will provide economic and environmental value via novel bio-upcycling and innovative
formulations to obtain next generation eco-friendly therapeutics. The project will exploit the
great potential of bacterially derived natural products (pyocyanin, pyrrolnitrin, pyoverdines,
undecylprodigiosin and staurosporine) with proven bioactivities (i.e. anticancer, antifungal,
antibiofilm, antiviral) to generate value-added biologics. Functional 100% bio-based biologicals
exhibiting advanced properties (improved activity, sustained release, synergy with essential and
noble metal ions, reduced price and carbon footprint) will be... produced, formulated and
processed using innovative techniques such as fermentative bioprocess intensification,
structural optimization via biocatalysis and formulations using essential and noble metals, as
well as biopolymeric drug carriers. Therefore, BioECOLogics will result in a set of unique
products that offer real solutions for a spectrum of biomedical problems. In doing so, the
project contributes towards the shortage of novel biomedicines, but at the same time,
recognizes EU’s 2050 long-term strategy for a climate-neutral Europe by replacing fossil-based
material with a bio-based, renewable material. Novel bio-upcycling routes will be developed
based on the biotechnological valorization of waste materials into new formulations of
biopharmaceuticals resulting from bacterial fermentations and innovative formulations of
obtained molecules. The project approach will be transdisciplinary by combining microbiology,
biotechnology, process and inorganic chemistry, and pharmaceuticals knowledge. In addition to
the multidisciplinary nature, the knowledge transfers between researchers, industrial and other
stakeholders will contribute positively to the overall relevance of the impact for dissemination
and exploitation of results.
Извор:
Science Fund of the Republic of Serbia, Program IDEAS, 2021Финансирање / пројекти:
- BioECOLogics - Value-added biologics through eco-sustainable routes (RS-ScienceFundRS-Ideje-7730810)
Напомена:
- Principal Investigator: Dr Jasmina Nikodinovic-Runić, IMGGE
- Duration period: 2021-2024
Колекције
Институција/група
Institut za molekularnu genetiku i genetičko inženjerstvoTY - GEN PY - 2021 UR - https://imagine.imgge.bg.ac.rs/handle/123456789/2270 AB - Available biologics have revolutionized cancer treatment, proven efficient in complex infections, changed the lives of people with rare diseases, and offered hope for many patients who previously had no effective treatment options for their condition. Downside is that these biopharmaceuticals are extremely expensive and as such, not widely available. BioECOLogics will provide economic and environmental value via novel bio-upcycling and innovative formulations to obtain next generation eco-friendly therapeutics. The project will exploit the great potential of bacterially derived natural products (pyocyanin, pyrrolnitrin, pyoverdines, undecylprodigiosin and staurosporine) with proven bioactivities (i.e. anticancer, antifungal, antibiofilm, antiviral) to generate value-added biologics. Functional 100% bio-based biologicals exhibiting advanced properties (improved activity, sustained release, synergy with essential and noble metal ions, reduced price and carbon footprint) will be produced, formulated and processed using innovative techniques such as fermentative bioprocess intensification, structural optimization via biocatalysis and formulations using essential and noble metals, as well as biopolymeric drug carriers. Therefore, BioECOLogics will result in a set of unique products that offer real solutions for a spectrum of biomedical problems. In doing so, the project contributes towards the shortage of novel biomedicines, but at the same time, recognizes EU’s 2050 long-term strategy for a climate-neutral Europe by replacing fossil-based material with a bio-based, renewable material. Novel bio-upcycling routes will be developed based on the biotechnological valorization of waste materials into new formulations of biopharmaceuticals resulting from bacterial fermentations and innovative formulations of obtained molecules. The project approach will be transdisciplinary by combining microbiology, biotechnology, process and inorganic chemistry, and pharmaceuticals knowledge. In addition to the multidisciplinary nature, the knowledge transfers between researchers, industrial and other stakeholders will contribute positively to the overall relevance of the impact for dissemination and exploitation of results. T2 - Science Fund of the Republic of Serbia, Program IDEAS T1 - Value-added biologics through eco-sustainable routes (BioECOLogics) UR - https://hdl.handle.net/21.15107/rcub_imagine_2270 ER -
@misc{ year = "2021", abstract = "Available biologics have revolutionized cancer treatment, proven efficient in complex infections, changed the lives of people with rare diseases, and offered hope for many patients who previously had no effective treatment options for their condition. Downside is that these biopharmaceuticals are extremely expensive and as such, not widely available. BioECOLogics will provide economic and environmental value via novel bio-upcycling and innovative formulations to obtain next generation eco-friendly therapeutics. The project will exploit the great potential of bacterially derived natural products (pyocyanin, pyrrolnitrin, pyoverdines, undecylprodigiosin and staurosporine) with proven bioactivities (i.e. anticancer, antifungal, antibiofilm, antiviral) to generate value-added biologics. Functional 100% bio-based biologicals exhibiting advanced properties (improved activity, sustained release, synergy with essential and noble metal ions, reduced price and carbon footprint) will be produced, formulated and processed using innovative techniques such as fermentative bioprocess intensification, structural optimization via biocatalysis and formulations using essential and noble metals, as well as biopolymeric drug carriers. Therefore, BioECOLogics will result in a set of unique products that offer real solutions for a spectrum of biomedical problems. In doing so, the project contributes towards the shortage of novel biomedicines, but at the same time, recognizes EU’s 2050 long-term strategy for a climate-neutral Europe by replacing fossil-based material with a bio-based, renewable material. Novel bio-upcycling routes will be developed based on the biotechnological valorization of waste materials into new formulations of biopharmaceuticals resulting from bacterial fermentations and innovative formulations of obtained molecules. The project approach will be transdisciplinary by combining microbiology, biotechnology, process and inorganic chemistry, and pharmaceuticals knowledge. In addition to the multidisciplinary nature, the knowledge transfers between researchers, industrial and other stakeholders will contribute positively to the overall relevance of the impact for dissemination and exploitation of results.", journal = "Science Fund of the Republic of Serbia, Program IDEAS", title = "Value-added biologics through eco-sustainable routes (BioECOLogics)", url = "https://hdl.handle.net/21.15107/rcub_imagine_2270" }
(2021). Value-added biologics through eco-sustainable routes (BioECOLogics). in Science Fund of the Republic of Serbia, Program IDEAS. https://hdl.handle.net/21.15107/rcub_imagine_2270
Value-added biologics through eco-sustainable routes (BioECOLogics). in Science Fund of the Republic of Serbia, Program IDEAS. 2021;. https://hdl.handle.net/21.15107/rcub_imagine_2270 .
"Value-added biologics through eco-sustainable routes (BioECOLogics)" in Science Fund of the Republic of Serbia, Program IDEAS (2021), https://hdl.handle.net/21.15107/rcub_imagine_2270 .