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	Figure 1. Schematic representation of isoprenoid biosynthesis by mevalonate pathway (MVA pathway) starting from two molecules of Acetyl-CoA and non-mevalonate pathway (MEP pathway) starting from pyruvate and glyceraldeide-3-phosphate. Adapted from [171].
	Figure 2. Structures of monoterpenoid compounds, (1–9) oregonene A and anverenes A–E from Plocamium cartilagineum.
	Figure 3. Structures of the sesquiterpenoid compounds (10) antartin A and (11–13) glyciapyrroles A–C from Streptomyces spp.
	Figure 4. Structures of several sesquiterpenoid compounds from Penicillium sp. PR19N-1: (14–17) chlorinated eremophilane sesquiterpenes, (18) eremofortine C and (19–27) several eremophilane-type sesquiterpenes.
	Figure 5. Structure of the sesquiterpenoid compound (28) xylarenone A from Penicillium sp. S-1-18.
	Figure 6. Structures of the sesquiterpenoid compounds (29–32) alcyopterosins A, C, E and H from Alcyonium paessleri.
	Figure 7. Structures of the sesquiterpenoid compounds (33, 34) paesslerins A–B from Alcyonium paessleri and (35, 36) shagenes A–B from an undescribed soft coral.
	Figure 8. Structures of the diterpenoid compounds (37) spirograterpene A and (38, 39) conidiogenone I and C from Penicillium granulatum.
	Figure 9. Structure of the sesquiterpene compound (40) eunicellol A from Gersemia fruticosa.
	Figure 10. Structures of the diterpenoid compounds (41–45) keikipukalides A–E, (46) pukalide aldehyde and (47) ineleganolide from Plumarella delicatissima.
	Figure 11. Structure of the diterpene compound (48) bathyptilone A from Anthoptilum grandiflorum.
	Figure 12. Structure of the diterpenoid compounds (49–54) palmadorins A, B, D, M, N and O from Austrodoris kerguelenensis.
	Figure 13. Structures of the diterpenoid compounds (55) aplysulphurin and (56–62) membranolids A, B, C, D, E, G and H from Dendrilla membranosa.
	Figure 14. Structures of further diterpenoid compounds from Dendrilla membranosa: (63) darwinolide, (64) 9,11-dihydrogracilin A, (65) tetrahydroaplysulphurin-1, (66) membranolide, (67) glaciolide, (68), (69) cadlinolide C and (70) dendrillin A.
	Figure 15. Structures of diterpenoid compounds from Dendrilla membranosa, (71–73) dendrillins B, C and D and semisynthetic derivatives (74–76).
	Figure 16. Structures of the sesterterpenoid compounds (77, 78) suberitenones A-B from Suberites spp.
	Figure 17. Structures of several steroid compounds (79–82) from Anthomastus bathyproctus.
	Figure 18. Structures of polyoxygenated steroid compounds (83–89) from Dasystenella acanthina.
	Figure 19. Structures of polyoxygenated steroid compounds (90–95) from Gersemia fruticosa.
	Figure 20. Structure of a further steroid compound (96) from Gersemia fruticosa.
	Figure 21. Structures of steroid compounds (97–101) from Crella sp.
	Figure 22. Structures of sulphated polyhydroxysteroids compounds (102, 103) from Ophiosparte gigas and (104–106) from Astrotoma agassizii.
	Figure 23. Structures of ecdysteroid compounds (107, 108) hyousterones A-B and (109) abeohyousterone from Synoicum adareanum.
	Figure 24. Structures of carotenoids found in bacteria Cellulophaga fucicola 416 and Zobellia laminarie 465: (110) zeaxanthin, (111) β-cryptoxanthin, (112) β-carotene and (113) phytoene.
	Figure 25. Structures of several carotenoids obtained from Rhodococcus sp. B7740: (114) synechoxanthin, (115) dehydrogenated menaquinone and (116) isorenieratene.
	Figure 26. Structure of the triterpenoid conjugate compound (117) polymastiamide A from Polymastia boletiformis.
	Figure 27. Structures of two triterpenoid saponin compounds (118, 119) liouvillosides A–B from Staurocucumis liouvillei.
	Figure 28. Structures of two triterpenoid glycoside compounds (120, 121) kolgaosides A–B from Kolga hyalina.
	Figure 29. Structures of two meroterepenoid compounds, (122, 123) rossinones A-B from Aplidium spp., and (124) menzoquinone from Desmarestia menziesii.

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