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Design and construction of "synthetic species"Zoological detective stories: the case of the facetotectan crustacean life cycleWhat do human parasites do with a chloroplast anyway?Less is more: strategies to remove marker genes from transgenic plantsMarine biodiversity in the Atlantic and Pacific coasts of South America: knowledge and gaps.Fungal spores: hazardous to health?The use of whole food animal studies in the safety assessment of genetically modified crops: limitations and recommendationsVitamin B₁₂-containing plant food sources for vegetariansIs the German suspension of MON810 maize cultivation scientifically justified?Generating and manipulating transgenic animals using transposable elementsGeneration of bovine transgenics using somatic cell nuclear transferCreating genetically modified pigs by using nuclear transferTransgenic nonhuman primates for neurodegenerative diseasesSpecific genetic modifications of domestic animals by gene targeting and animal cloningBt transgenic crops do not have favorable effects on resistant insectsContributions of Mammalian Chimeras to Pluripotent Stem Cell ResearchFucoidans in NanomedicineCensusing marine eukaryotic diversity in the twenty-first centuryMarine Natural Product Inhibitors of Neutrophil-Associated InflammationThe Role of Spongia sp. in the Discovery of Marine Lead CompoundsThe Potential for Microalgae as Bioreactors to Produce PharmaceuticalsHuman-animal chimeras: ethical issues about farming chimeric animals bearing human organsMarine Invertebrate Metabolites with Anticancer Activities: Solutions to the "Supply Problem"Lipidomic Approaches towards Deciphering Glycolipids from Microalgae as a Reservoir of Bioactive LipidsImpact of Microalgae-Bacteria Interactions on the Production of Algal Biomass and Associated CompoundsMarine Antimicrobial Peptides: Nature Provides Templates for the Design of Novel Compounds against Pathogenic BacteriaA Review on the Valorization of Macroalgal Wastes for Biomethane ProductionFrom Scientific Curiosity to Public Enemy Number One in Six Short MonthsPolysaccharides from the Marine Environment with Pharmacological, Cosmeceutical and Nutraceutical PotentialLipid Production from NannochloropsisAntibacterial Derivatives of Marine Algae: An Overview of Pharmacological Mechanisms and ApplicationsApplication of whole genome shotgun sequencing for detection and characterization of genetically modified organisms and derived products.A tale of two sequences: microRNA-target chimeric readsAntimicrobial Action of Compounds from Marine SeaweedMarine Natural Products from New Caledonia--A Review.Sulfated Seaweed Polysaccharides as Multifunctional Materials in Drug Delivery ApplicationsChemical Diversity and Biological Properties of Secondary Metabolites from Sea Hares of Aplysia GenusMarine Origin Polysaccharides in Drug Delivery Systems.Biofuel Production Based on Carbohydrates from Both Brown and Red Macroalgae: Recent Developments in Key BiotechnologiesUpscaling Arbuscular Mycorrhizal Symbiosis and Related Agroecosystems Services in Smallholder Farming Systems
P921
Q21089868-74A411D8-DEF2-4314-8D8F-22618F42922FQ21092853-FE6FB3EB-A431-4017-9028-6802D1CBBB9CQ21145764-BCA88DFD-0C20-4FF2-B82C-49BF0D13CB5BQ21256671-C6A832FC-42F6-432A-86F3-07E857DF171CQ21562147-F3FFC6C7-4632-4F8B-9E81-53C898DF4BB8Q23923158-524E6F4F-1162-4FE5-B86A-5C5396CEF8C3Q24273389-303144AE-577E-496C-B5C4-1FE6372A087CQ24564621-E506B96F-4604-41F2-BDFA-B02EBABC4AC5Q24651001-6B5A885C-08E8-4346-A584-0E0CA5296217Q24798528-1347CA35-6815-477D-AFD4-A45D261C3468Q24798553-268762E7-B612-4AB8-B3BF-28E56D1CF18DQ24798575-C5045A8B-271A-49CE-8037-668A15D28E74Q24798608-3582F5BE-5D1E-4345-855F-052E49D83E6CQ24801067-EE6B788E-0F55-4A5C-9A8D-E62632FA851AQ24803428-090B3A68-BCE1-4A4E-875A-EDF413AF1814Q26738746-78D528C2-473A-40EE-8DEF-197B5539F762Q26739976-BE48E7F1-BDA9-451B-B2CB-0D7628952EBCQ26740137-5CC3EF7C-C136-45C8-908B-C600DB88D52DQ26740528-3A329D07-C28B-4FC6-86AB-4EA5F13E8DEEQ26741793-0B07DA5D-A53A-4A37-87F5-54F5EFC484E7Q26744351-4B72A130-250E-429C-9721-17736D04F991Q26746095-B6FAC44E-D2C1-4C49-8E9D-3F22CDBA38ABQ26746924-F96DA895-3558-4F7B-8594-DA252C4C1E26Q26746927-E1CA827E-9169-4406-8590-F3EDAFB9834CQ26746931-D958E574-B4C6-46FB-83C1-2054F4D3676EQ26746943-F53E0270-7300-4263-AD80-7BE105C49E80Q26747472-0AE28A21-2EA0-40EE-BABB-93CC505A35ECQ26748305-D0E7C8E1-CEDD-47D0-8092-118B8C79A800Q26748898-8B81EC43-7C9A-4CD8-AE0E-D112EA8C685AQ26749648-D4DFB848-AB93-43EA-935E-8904C183291CQ26750570-7E0DB46A-8163-4DDE-B6CA-E1E9CBEBE84DQ26751270-07C3112A-D1D0-4B89-A617-E9B648D41E53Q26752497-563D383D-573F-458C-878B-B80CB0794ECDQ26752570-5BDDCFA7-8274-4E48-804A-FD6E4A7B28B8Q26753021-FC790273-92A4-42E4-BED9-3983D8BC84E1Q26765445-B8D7E579-A2BF-4AB4-BCF0-16A378995D48Q26767090-0AC595C8-F117-4304-83BC-3F00A9D3CCD8Q26767227-12090678-40FC-4BBD-8BEF-0D36D56AC5FCQ26767254-FCBF4904-3F85-48FB-B272-7F1C3C82F499Q26768202-72E698B9-66CE-4DE8-B974-DA412089E8CE
P921
description
different stages, states, and types of an organism
@en
різні стадії, стани та види організму
@uk
name
formo de organismo
@eo
organism form
@en
форма арганізму
@be-tarask
форма организма
@ru
форма організму
@uk
生物体形式
@zh
生物體形式
@zh-hant
生物體形式
@zh-tw
type
label
formo de organismo
@eo
organism form
@en
форма арганізму
@be-tarask
форма организма
@ru
форма організму
@uk
生物体形式
@zh
生物體形式
@zh-hant
生物體形式
@zh-tw
altLabel
form
@en
organism forms
@en
stage
@en
state
@en
type
@en
стадія
@uk
стан
@uk
тип
@uk
форма
@uk
prefLabel
formo de organismo
@eo
organism form
@en
форма арганізму
@be-tarask
форма организма
@ru
форма організму
@uk
生物体形式
@zh
生物體形式
@zh-hant
生物體形式
@zh-tw