1. B IOTECHNOLOGICAL POTENTIAL OF THE MICROFLORA ASSOCIATED WITH THE BROWN ALGA A SCOPHYLLUM NODOSUM Marjolaine Martin Microbiology and Genomics Unit Gembloux Agro-Bio Tech, University of Liège, Belgium Frankfurt, Wednesday 19 th of August 2015 World Congress and Expo on Applied Microbiology

2. M ARINE M ICROORGANISMS PlanktonicBiofilms Hostile environment  Molecules with strong bioactivity

3. M ARINE M ACROALGAE RhodophytaChlorophytaPhaeophyta Ascophyllum nodosum

4. B ACTERIA - SEAWEED INTERACTIONS Anti-microbialsGrowth factors & vitamines Hydrolases Review Martin et al, AMAB., 2014

5. Cellulases Xylanases Arabinanases Amylases Beta-glucosidases Agarases Iota-carrageenases Kappa-carrageenases Estérases/Lipases Alginate lyases Sulfatases Halotolerance Cold-active pH-stableActivity Robustness Piezotolerant

6. S EEKING FOR BACTERIAL ENZYMES Functional metagenomics  Total bacterial DNA Culturing  Cultivable microorganisms

7. Ascophyllum nodosum Metagenomic library from algal biofilms Functional Screening F UNCTIONAL M ETAGENOMICS

8. R ESULTS FUNCTIONAL METAGENOMICS Winter librarySummer library 180 Mb screened100 Mb screened > 10 carboxyesterases 1 beta-glucosidase 1 endo-  1,4-glucanase 6 carboxyesterases First metagenom ic functiona l screening on alga - associate d bacteria Martin et al, Appl. Env. Microbiol., 2014

9. Cold-active Halotolerant pH-stable Martin et al, Appl. Env. Microbiol., 2014 FIRST cellulase identifie d by marine functiona l metagenom ics !

10. FUNCTIONAL METAGENOMICS ON ALGA - ASSOCIATED BACTERIA... Is a good way to identify novel marine bacterial enzymes Is a great ressource of enzymes with biotechnological potential Is very fastidious when not automated Can be problematic for the expression of some genes Didn’t allow us the identification of algal-polysaccharidases

11. S EEKING FOR BACTERIAL ENZYMES Functional metagenomics  Total bacterial DNA Culturing  Cultivable microorganisms

12. S CREENING CULTIVABLE MICROORGANISMS 324 bacteria were isolated from Ascophylum nodosum triplicates These 324 bacteria were screened for algal-polysaccharidases Liquefac tion of the surround ed jellifie d medium Medium is jellified with agar, iota - or kappa - carrageen an, or alginate salts

13. I SOLATED POLYSACCHAROLYTIC STRAINS Flavobacteria (41) Gammaproteobacteria (37) Flavobacteria 7 Families Algibacter, Cellulophaga, Maribacter, Zobellia spp. Cobetia, Colwellia, Marinomonas, Paraglaciecola, Pseudoalteromonas, Shewanella, Vibrio spp. 41 acting on agars/carrageenans23 acting on agars/carrageenans 26 acting on alginates35 acting on alginates 11 strains <97% 16S rRNA identities 2 strains < 97% 16S rRNA identities 78 polysacch arolytic strains Novel polysacch arolytic genera Multiple putative novel species

14. PC O A OF THE GENERA FOUND ON THE THREE ALGAE SAMPLES A common core of polysacch arolytic genera

15. C ULTURING POLYSACCHAROLYTIC ALGA - ASSOCIATED BACTERIA... Shows that polysaccharolytic strains are abundant in the cultivable alga-associated microflora (25%) Allow the identification of multiple novel polysaccharolytic species Allow the identification of novel polysaccharolytic genera Suggests that cultivable polysaccharolytic strains are essential for the seaweed holobiont

16. A SCOPHYLLUM NODOSUM ASSOCIATED MICROFLORA... Has been underexplored yet Is a great resource of novel enzymes with particular properties Is a great resource of novel bacterial strains with biotechnological potential

17. Acknowledgments Thank YOU for your attention ! marjolaine.martin@ulg.ac.be Gurvan MichelTristan BarbeyronMurielle Jam Micheline Vandenbol Promoter Renée MartinMichèle Nuttinck