Algae-UK: exploiting the algal treasure trove
Lead Research Organisation:
University College London
Department Name: Structural Molecular Biology
Abstract
'Algae' are photosynthetic organisms with the term encompasses both macroscopic forms (seaweeds) and microscopic forms (eukaryotic microalgae and cyanobacteria). The unifying features of algae is that they use sunlight to convert CO2 into biomass and they grow in an aquatic environment. There is huge biological diversity amongst the 100,000's species of algae with many suitable as sources of food, livestock and aquaculture feed, natural fibres and biofuels. In addition, compounds derived from algae have a wide range of potential applications such as novel drugs, health supplements, bio-polymers and natural pigments. Algae therefore represent an important component of a sustainable, bio-based future in which valuable products are generated from CO2 and basic nutrients by photosynthesis, but cultivation does not require arable land, unlike crop plants. Furthermore, advances in genetic engineering and synthetic biology offer the possibility of designer cyanobacteria or microalgae tailored to produce a range of novel high-value recombinants such as therapeutic proteins and speciality biomolecules.
The UK has an excellent science base in the biology and biotechnology of cyanobacteria, microalgae and macroalgae. However, it remains small and relatively under-resourced compared to the millions of dollars being invested in applied algal research in the US, China, and in mainland Europe. Despite this, the current PHYCONET NIBB has built an enthusiastic community of academics, industry and other stakeholders and helped catalyse significant R&D and engagement in the area of 'high value products from microalgae'. The new network, Algae-UK, will build on this momentum by broadening the remit of the network to encompass macroalgae, and to give more focus to the emerging area of cyanobacterial synthetic biology. Furthermore, Algae-UK will extend its focus beyond high-value products: this is particularly relevant for macroalgae where the last few years has seen a dramatic increase in interest in seaweeds as health foods and dietary supplements, as well as animal feeds, fertilisers and sources of hydocolloid polymers used as natural thickeners and gums.
The objectives of Algae-UK will be to support translational research into key areas that are likely to advance the algal biotechnology sector. Namely: i) genetic improvement and domestication of key algal species; ii) development of advanced platform strains through applications of synthetic biology; iii) exploitation of algal metabolic diversity; iv) advancing engineering solutions to efficient cultivation and downstream processing; v) understanding the opportunities and barriers to commercial success, including regulation, environmental constraints; public acceptance; market competition.
Algal-UK will serve as the hub for the UK algal biosciences research community, businesses operating in the IB sector, and other stakeholders - creating the critical mass of expertise, effort and focus needed to achieve the step-change and make the UK a leading player in algal biotechnology. We will also forge links with other algal biotech networks and organizations in Europe, the US, China and other leading countries to further raise the profile of the UK community and share funding and training opportunities.
The UK has an excellent science base in the biology and biotechnology of cyanobacteria, microalgae and macroalgae. However, it remains small and relatively under-resourced compared to the millions of dollars being invested in applied algal research in the US, China, and in mainland Europe. Despite this, the current PHYCONET NIBB has built an enthusiastic community of academics, industry and other stakeholders and helped catalyse significant R&D and engagement in the area of 'high value products from microalgae'. The new network, Algae-UK, will build on this momentum by broadening the remit of the network to encompass macroalgae, and to give more focus to the emerging area of cyanobacterial synthetic biology. Furthermore, Algae-UK will extend its focus beyond high-value products: this is particularly relevant for macroalgae where the last few years has seen a dramatic increase in interest in seaweeds as health foods and dietary supplements, as well as animal feeds, fertilisers and sources of hydocolloid polymers used as natural thickeners and gums.
The objectives of Algae-UK will be to support translational research into key areas that are likely to advance the algal biotechnology sector. Namely: i) genetic improvement and domestication of key algal species; ii) development of advanced platform strains through applications of synthetic biology; iii) exploitation of algal metabolic diversity; iv) advancing engineering solutions to efficient cultivation and downstream processing; v) understanding the opportunities and barriers to commercial success, including regulation, environmental constraints; public acceptance; market competition.
Algal-UK will serve as the hub for the UK algal biosciences research community, businesses operating in the IB sector, and other stakeholders - creating the critical mass of expertise, effort and focus needed to achieve the step-change and make the UK a leading player in algal biotechnology. We will also forge links with other algal biotech networks and organizations in Europe, the US, China and other leading countries to further raise the profile of the UK community and share funding and training opportunities.
Technical Summary
Eukaryotic and prokaryotic algae are diverse photosynthetic organisms that have considerable potential as industrial biotechnology (IB) platforms for a wide range of natural and engineered bio-products, from bioplastics and biofuels to high value bioactives. Moreover, cultivation of microalgae or cyanobacterial in closed photobioreactors offers an attractive low-carbon alternative to existing heterotrophic technologies, whereas cultivation of macroalgae (seaweeds) offers an alternative to crop cultivation on arable land. However, algal IB is an immature field that requires step-changing advances in algal biology, genetic engineering, cultivation at scale and downstream processing. Currently, considerable research and development is occurring in countries such as the US and China, and several European countries, as is evident from $m investments and the many start-up companies. The previously funded PHYCONET NIBB (which focussed mainly on microalgae) has brought together academic researchers, a fledgling industrial sector and other key stakeholders to create a vibrant, cohesive community of over 600. PHYCONET has significantly raise the profile and interest in microalgal IB within the UK and helped give this community an international voice. Network support has progressed a number of key projects up the TRL scale and catalysed engagement with the wider community. The new network, Algae-UK, will build on this momentum by broadening the remit of the new network to encompass macroalgae, and to give more focus to the emerging area of cyanobacterial synthetic biology. It will serve as the hub for the UK algal biosciences research community, businesses operating in the IB sector, and other stakeholders - creating the critical mass of expertise, effort and focus needed to achieve key step-changes and make the UK a leading player in algal biotechnology.
Planned Impact
There is considerable interest in the UK and indeed worldwide in developing an algal industrial biotechnology (IB) sector, both at the level of policy makers and research funders, but also industry. However, because exploitation is still at an early stage, there needs to be some form of proven platform technology before industry would feel confident about moving into the area.
Through the Algae-UK network we to aim to tackle this issue head on, by creating the critical mass of expertise, effort and focus needed to achieve the step-change and make the UK a leading player in algal biotechnology. This will benefit a wide range of IB sectors that have interest in natural bio-products, including the pharmaceuticals, nutraceuticals, cosmetics, food, feed and biofuel industries.
Government and Public Bodies will also benefit, since the outputs of the network can have an impact on several pressing current issues: building the knowledge economy will lead to inward investment and wealth creation, and contribute to sustainable economic growth, improve security of food and materials, and contribute to enhanced nutrition.
The outreach activities aim to increase awareness of the public on issues of natural products and the bio-based economy, energy, food and material security, and how the development of IB and a knowledge economy can benefit the UK. This will encourage pupils to adopt a career in science and technology, and policy makers to promote research investment into the algal IB sector.
Through the Algae-UK network we to aim to tackle this issue head on, by creating the critical mass of expertise, effort and focus needed to achieve the step-change and make the UK a leading player in algal biotechnology. This will benefit a wide range of IB sectors that have interest in natural bio-products, including the pharmaceuticals, nutraceuticals, cosmetics, food, feed and biofuel industries.
Government and Public Bodies will also benefit, since the outputs of the network can have an impact on several pressing current issues: building the knowledge economy will lead to inward investment and wealth creation, and contribute to sustainable economic growth, improve security of food and materials, and contribute to enhanced nutrition.
The outreach activities aim to increase awareness of the public on issues of natural products and the bio-based economy, energy, food and material security, and how the development of IB and a knowledge economy can benefit the UK. This will encourage pupils to adopt a career in science and technology, and policy makers to promote research investment into the algal IB sector.
Publications
Parati M
(2023)
A circular bioprocess application of algal-based substrate for Bacillus subtilis natto production of ?-PGA.
in Frontiers in chemistry
Mapstone L
(2022)
ADA: an open-source software platform for plotting and analysis of data from laboratory photobioreactors
in Applied Phycology
Parati M
(2022)
Building a circular economy around poly(D/L-?-glutamic acid)- a smart microbial biopolymer.
in Biotechnology advances
Parati M
(2022)
Microbial Poly-?-Glutamic Acid (?-PGA) as an Effective Tooth Enamel Protectant.
in Polymers
Description | The Algae-UK Network aims to promote algal biotechnology to a wide audience, including policy-makers, entrepreneurs, funders and the general public. Our network is therefore open to anyone with an interest in algal biotechnology, and our networking events (conferences, workshops, exhibitions, etc.) together with our monthly newsletters, regular tweets, website, etc. are made available to all our membership. |
First Year Of Impact | 2019 |
Sector | Agriculture, Food and Drink,Manufacturing, including Industrial Biotechology,Pharmaceuticals and Medical Biotechnology |
Description | Funding collaboration with IBioIC |
Organisation | IBioIC |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Algae-UK and IBioIC are jointly funding those Proof-of-Concept projects that were successful following the first Algae-UK PoC call. |
Collaborator Contribution | 2-3 projects (£50k each) likely to be funded by IBioIC (final decision still pending). |
Impact | 2-3 projects likely to be funded by IBioIC (final decision still pending). |
Start Year | 2020 |
Description | A formal working group, expert panel or dialogue - BBSRC-CSIRO, Australia bilateral meeting. "The Application of IB Technologies in Chemicals Manufacture Potential Areas of Mutual Interest and Collaboration" |
Form Of Engagement Activity | A formal working group, expert panel or dialogue |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | The overall objectives were: • To share ideas and understanding on the area of industrial biotechnology between researchers in the UK and Australia. • To explore areas of common interest suitable for collaborative working. • To discuss options and mechanisms for future collaborative working in areas of common interest. |
Year(s) Of Engagement Activity | 2021 |
Description | BBSRC-National Research Council of Canada bilateral meeting. "The Application of IB Technologies in Chemicals Manufacture Potential Areas of Mutual Interest and Collaboration" |
Form Of Engagement Activity | A formal working group, expert panel or dialogue |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | The overall objectives were: • To share ideas and understanding on the area of industrial biotechnology between researchers in the UK and Canada. • To explore areas of common interest suitable for collaborative working. • To discuss options and mechanisms for future collaborative working in areas of common interest. |
Year(s) Of Engagement Activity | 2021 |
Description | Delegation to research centres and companies in Mexico |
Form Of Engagement Activity | A formal working group, expert panel or dialogue |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | A visit by seven UK researchers and business leaders from the algal biotechnology sector to centres in Xalapa and Monterrey, Mexico to discuss opportunities for engagement and collaboration. Two-day workshops and practical demonstrations were held at each location, each involving approximately 50 attendees from local universities and businesses. Both events generated significant interest, both in forging UK-Mexico links and in replicating the Algae-UK NIBB model as a mechanism for creating a national network in a key biotechology area. |
Year(s) Of Engagement Activity | 2020 |
URL | https://www.linkedin.com/feed/update/urn:li:activity:6638101335554174977/ |
Description | On-line presentation at webinar "Algal Biotechnology for Sustainable Aquaculture in 2021 and Beyond" |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | The webinar was organised by the National Center for Genetic Engineering and Biotechnology (BIOTEC) in Thailand to bring together researchers and industries interested in using algal biotechnologies in the aquaculture sectors. Over 200 participants joined from all round the world and there was significant engagement in the Q&A sessions. |
Year(s) Of Engagement Activity | 2021 |
Description | Presentation at part of the Clean Tech Challenge |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | Local |
Primary Audience | Undergraduate students |
Results and Impact | Presentation and discussion exploring the use of algae for clean technologies. |
Year(s) Of Engagement Activity | 2019 |
URL | https://londonevolution.org/homepage/past-events/trips/2019-2/saul-purton-clean-tech-using-microalga... |
Description | Presentation of Algae-UK to delegates attending EIT-Food Course, Cambridge December 2019 |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Industry/Business |
Results and Impact | The aim of this professional development course was to provide introductory hands-on training and theory in algal biology, culturing, growth and subsequent molecular and metabolite analysis under laboratory and small to large scale growth facilities, as well as giving business information and networking opportunities specifically tailored towards the algal bioeconomy. |
Year(s) Of Engagement Activity | 2019 |
URL | https://www.eitfood.eu/programmes/algal-biotechnology-techniques-and-opportunities-for-the-sustainab... |
Description | School visit (Dunottar School, Reigate) |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | Local |
Primary Audience | Schools |
Results and Impact | Presentations and discussion activity given by Prof Saul Purton and Dr Henry Taunt to years 10 & 11 part of their Science Week. |
Year(s) Of Engagement Activity | 2019 |
URL | https://www.dunottarschool.com/news-events/latest-news/scientists-visit-dunottar-school-to-speak-at-... |