0000000000262897

AUTHOR

Lada Lukić-bilela

0000-0001-7423-6284

showing 6 related works from this author

ATP distribution and localization of mitochondria in Suberites domuncula (Olivi 1792) tissue

2011

SUMMARY The metabolic energy state of sponge tissue in vivo is largely unknown. Quantitative bioluminescence-based imaging was used to analyze the ATP distribution of Suberites domuncula (Olivi 1792) tissue, in relation to differences between the cortex and the medulla. This method provides a quantitative picture of the ATP distribution closely reflecting the in vivo situation. The obtained data suggest that the highest ATP content occurs around channels in the sponge medulla. HPLC reverse-phase C-18, used for measurement of ATP content, established a value of 1.62 μmol ATP g–1 dry mass in sponge medulla, as opposed to 0.04 μmol ATP g–1 dry mass in the cortex, thus indicating a specific and…

PhysiologyProtein subunitIn situ hybridizationAquatic ScienceBiologyMitochondrionAdenosine TriphosphateImage Processing Computer-AssistedAnimalsMolecular BiologyChromatography High Pressure LiquidIn Situ HybridizationEcology Evolution Behavior and SystematicsMedullaArginine KinaseArginine kinaseATP distribution; mitochondria; imaging bioluminescence; HPLC; Porifera; Suberites domunculabiology.organism_classificationImmunohistochemistryMitochondriaSuberites domunculaSpongeBiochemistryOrgan SpecificityInsect Sciencebiology.proteinAnimal Science and ZoologyMitochondrion localizationEnergy MetabolismSuberitesJournal of Experimental Biology
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The essentials of marine biotechnology

2021

Coastal countries have traditionally relied on the existing marine resources (e.g., fishing, food, transport, recreation, and tourism) as well as tried to support new economic endeavors (ocean energy, desalination for water supply, and seabed mining). Modern societies and lifestyle resulted in an increased demand for dietary diversity, better health and well-being, new biomedicines, natural cosmeceuticals, environmental conservation, and sustainable energy sources. These societal needs stimulated the interest of researchers on the diverse and underexplored marine environments as promising and sustainable sources of biomolecules and biomass, and they are addressed by the emerging field of ma…

0301 basic medicine[SDV.BIO]Life Sciences [q-bio]/Biotechnologylcsh:QH1-199.5Stakeholder engagementOceanographyResponsible research and innovation (RRI)challangesNatural-productsResponsible research and innovation0302 clinical medicineMarine bioeconomyIn-silico predictionlcsh:SciencevalorizationMarine biodiversityWater Science and TechnologybiodiversityHeavy-metal detoxificationBioprospectingGlobal and Planetary ChangeBioprospectingLead-like moleculesconservationBiological SciencesSustainabilityMarine natural products[SDE]Environmental SciencesSolid-phase microextractionDeep-sea sedimentsNatural Sciencesmarine biotechnologymarine bioeconomyMarine conservationmarine biotechnology valorization biodiversity conservation challangesOcean EngineeringAquatic Sciencelcsh:General. Including nature conservation geographical distributionBioactive compoundsBlue growthWaste-water treatment03 medical and health sciencesbioprospecting ; blue growth ; marine biodiversity ; marine natural products ; sustainability ; ethics ; responsible research and innovation (RRI) ; marine bioeconomy14. Life underwaterRecreation[SDU.STU.OC]Sciences of the Universe [physics]/Earth Sciences/OceanographyEthicsResponsible Research and Innovationbusiness.industrySecondary metabolitesParticulate organic-carbonBiotechnology030104 developmental biology13. Climate actionAgricultureSustainabilitymarine biotechnology ; Blue growth ; Marine Biodiversity ; marine natural product ; sustainability ; Ethics ; Responsible research & innovationlcsh:Qbusiness030217 neurology & neurosurgeryTourism
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The complete set of ribosomal proteins from the marine sponge Suberites domuncula

2005

The siliceous marine sponge Suberites domuncula is a member of the most ancient and simplest extant phylum of multicellular animals-Porifera, which have branched off first from the common ancestor of all Metazoa. We have determined primary structures of 79 ribosomal proteins (r-proteins) from S. domuncula: 32 proteins from the small ribosomal subunit and 47 proteins from the large ribosomal subunit. Only L39 and L41 polypeptides (51 and 25 residues long in rat, respectively) are missing. The sponge S. domuncula is, after nematode Caenorhabditis elegans and insect Drosophila melanogaster the third representative of invertebrates with known amino acid sequences of all r-proteins. The comparis…

Ribosomal ProteinsSequence Homology Amino AcidbiologyPorifera; ribosome; metazoan r-proteins; SSU proteins; LSU proteins; evolutionSaccharomyces cerevisiaeGeneral Medicinebiology.organism_classificationRibosomeRatsEvolution MolecularSuberites domunculaSpongeBiochemistrySequence Analysis ProteinRibosomal proteinLarge ribosomal subunitBotanyGeneticsMelanogasterAnimalsDrosophila melanogasterSuberitesRibosomes
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Valorization of Marine Waste: Use of Industrial By-Products and Beach Wrack Towards the Production of High Added-Value Products

2021

Biomass is defined as organic matter from living organisms represented in all kingdoms. It is recognized to be an excellent source of proteins, polysaccharides and lipids and, as such, embodies a tailored feedstock for new products and processes to apply in green industries. The industrial processes focused on the valorization of terrestrial biomass are well established, but marine sources still represent an untapped resource. Oceans and seas occupy over 70% of the Earth’s surface and are used intensively in worldwide economies through the fishery industry, as logistical routes, for mining ores and exploitation of fossil fuels, among others. All these activities produce waste. The other sou…

Resource (biology)Sciencemarine biomassBiomassOcean Engineering02 engineering and technologyQH1-199.5010501 environmental sciencesAquatic ScienceRaw materialOceanographybeach wrack01 natural sciencesWrack12. Responsible consumptionIndustrial Biotechnologyblue biotechnologyIndustriell bioteknikEnvironmental protectionmarine wastebeach wrack; blue biotechnology; circular economy; marine biomass; marine biopolymers; marine industrial by-products; marine waste; waste valorizationOrganic matterMarine ecosystem14. Life underwatermarine waste ; marine industrial by-products ; marine biopolymers ; marine biomass ; waste valorization ; circular economy ; blue biotechnology ; beach wrack0105 earth and related environmental sciencesWater Science and Technology2. Zero hungerchemistry.chemical_classificationGlobal and Planetary Changebusiness.industryCircular economyQFossil fuelcircular economyGeneral. Including nature conservation geographical distributionmarine biopolymersmarine industrial by-products021001 nanoscience & nanotechnology6. Clean waterwaste valorizationchemistry13. Climate actionEnvironmental science0210 nano-technologybusiness
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Marine Anticancer Agents: An Overview with a Particular Focus on Their Chemical Classes

2020

The marine environment is a rich source of biologically active molecules for the treatment of human diseases, especially cancer. The adaptation to unique environmental conditions led marine organisms to evolve di erent pathways than their terrestrial counterparts, thus producing unique chemicals with a broad diversity and complexity. So far, more than 36,000 compounds have been isolated from marine micro- and macro-organisms including but not limited to fungi, bacteria, microalgae, macroalgae, sponges, corals, mollusks and tunicates, with hundreds of new marine natural products (MNPs) being discovered every year.Marine-based pharmaceuticals have started to impactmodern pharmacology and diff…

Eribulin MesylateAquatic OrganismsEnfortumab vedotinLurbinectedinPharmaceutical ScienceAntineoplastic AgentsMarine drugsComputational biologyReviewBiology03 medical and health scienceschemistry.chemical_compound0302 clinical medicineSDG 3 - Good Health and Well-beingNeoplasmsmedicineAnimalsHumansSDG 14 - Life Below WaterBrentuximab vedotinlcsh:QH301-705.5Pharmacology Toxicology and Pharmaceutics (miscellaneous)030304 developmental biologyFludarabine Phosphate0303 health sciencesBiological ProductsDrug discoveryDrug discoveryClinical pipelinePolatuzumab vedotinAnticancerlcsh:Biology (General)chemistry030220 oncology & carcinogenesisMarine natural productsMarine ToxinsPlitidepsinWater Microbiologymedicine.drug
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Mitochondrial genome of Suberites domuncula: palindromes and inverted repeats are abundant in non-coding regions.

2007

The 26,300-nucleotide sequence of the mitochondrial DNA (mtDNA) molecule of the demosponge Suberites domuncula (Olivi, 1792), the largest in size yet found in Porifera, has been determined. We describe the second hadromerid sponge mitochondrial genome that contains the same set of 41 genes as the hadromerid sponge Tethya actinia, including trnMe(cau), trnI2(cau), trnR2(ucu), and atp9, all of which are transcribed in the same direction. Furthermore, rRNA genes for the small and large ribosomal subunit are very long, rns is indeed the longest among Metazoa (1833 bp). Intergenic regions (IGR) comprise about 25% of S. domuncula mtDNA and include numerous direct and inverted repeats, as well as …

Mitochondrial DNAInverted repeatMolecular Sequence DataSuberites ficusDNA MitochondrialIntergenic regionRNA TransferSpecies SpecificityLarge ribosomal subunitSequence Homology Nucleic AcidGeneticsAnimalsGenePhylogenyRepetitive Sequences Nucleic AcidGeneticsPorifera ; Hadromerida ; mtDNA ; mitochondrial evolution ; polymorphismsBase CompositionbiologyBase SequenceGenetic VariationGeneral MedicineRibosomal RNAbiology.organism_classificationSuberites domunculaGenome MitochondrialDNA IntergenicSuberitesGene
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