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1.
Sci Rep ; 9(1): 15143, 2019 10 22.
Artigo em Inglês | MEDLINE | ID: mdl-31641221

RESUMO

Diatoms are the dominant phytoplankton in temperate oceans and coastal regions and yet little is known about the genetic basis underpinning their global success. Here, we address this challenge by developing the first phenomic approach for a diatom, screening a collection of randomly mutagenized but identifiably tagged transformants. Based upon their tolerance to temperature extremes, several compromised mutants were identified revealing genes either stress related or encoding hypothetical proteins of unknown function. We reveal one of these hypothetical proteins is a novel putative chloroplast fatty acid transporter whose loss affects several fatty acids including the two omega-3, long-chain polyunsaturated fatty acids - eicosapentaenoic and docosahexaenoic acid, both of which have medical importance as dietary supplements and industrial significance in aquaculture and biofuels. This mutant phenotype not only provides new insights into the fatty acid biosynthetic pathways in diatoms but also highlights the future value of phenomics for revealing specific gene functions in these ecologically important phytoplankton.


Assuntos
Aclimatação , Cloroplastos/metabolismo , Diatomáceas/metabolismo , Ecossistema , Ácidos Graxos/metabolismo , Proteínas de Membrana Transportadoras/metabolismo , Fenômica , Temperatura , Diatomáceas/genética , Genoma , Mutagênese Insercional/genética , Mutação/genética , Transformação Genética
2.
Nature ; 530(7590): 331-5, 2016 Feb 18.
Artigo em Inglês | MEDLINE | ID: mdl-26814964

RESUMO

Seagrasses colonized the sea on at least three independent occasions to form the basis of one of the most productive and widespread coastal ecosystems on the planet. Here we report the genome of Zostera marina (L.), the first, to our knowledge, marine angiosperm to be fully sequenced. This reveals unique insights into the genomic losses and gains involved in achieving the structural and physiological adaptations required for its marine lifestyle, arguably the most severe habitat shift ever accomplished by flowering plants. Key angiosperm innovations that were lost include the entire repertoire of stomatal genes, genes involved in the synthesis of terpenoids and ethylene signalling, and genes for ultraviolet protection and phytochromes for far-red sensing. Seagrasses have also regained functions enabling them to adjust to full salinity. Their cell walls contain all of the polysaccharides typical of land plants, but also contain polyanionic, low-methylated pectins and sulfated galactans, a feature shared with the cell walls of all macroalgae and that is important for ion homoeostasis, nutrient uptake and O2/CO2 exchange through leaf epidermal cells. The Z. marina genome resource will markedly advance a wide range of functional ecological studies from adaptation of marine ecosystems under climate warming, to unravelling the mechanisms of osmoregulation under high salinities that may further inform our understanding of the evolution of salt tolerance in crop plants.


Assuntos
Adaptação Fisiológica/genética , Evolução Molecular , Genoma de Planta/genética , Água do Mar , Zosteraceae/genética , Aclimatação/genética , Parede Celular/química , Etilenos/biossíntese , Duplicação Gênica , Genes de Plantas/genética , Redes e Vias Metabólicas , Dados de Sequência Molecular , Oceanos e Mares , Osmorregulação/genética , Filogenia , Folhas de Planta/metabolismo , Estômatos de Plantas/genética , Pólen/metabolismo , Salinidade , Tolerância ao Sal/genética , Alga Marinha/genética , Terpenos/metabolismo
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