Riboswitches are RNA regulatory elements that bind specific ligands to control gene expression. Because of their modular composition, where a ligand-sensing aptamer domain is combined with an expression platform, riboswitches offer unique tools for synthetic biology applications. Here we took a mutational approach to determine functionally important nucleotide residues in the thiamine pyrophosphate (TPP) riboswitch in the THI4 gene of the model alga Chlamydomonas reinhardtii, allowing us to carry out aptamer swap using THIC aptamers from Chlamydomonas and Arabidopsis thaliana. These chimeric riboswitches displayed a distinct specificity and dynamic range of responses to different ligands. Our studies demonstrate ease of assembly as 5′UTR DNA parts, predictability of output, and utility for controlled production of a high-value compound in Chlamydomonas. The simplicity of riboswitch incorporation in current design platforms will facilitate the generation of genetic circuits to advance synthetic biology and metabolic engineering of microalgae.
Thiamine pyrophosphate (TPP), an essential co-factor for all species, is biosynthesised through a metabolically expensive pathway regulated by TPP riboswitches in bacteria, fungi, plants and green algae. Diatoms are microalgae responsible for c. 20% of global primary production. They have been predicted to contain TPP aptamers in the 3 0 UTR of some thiamine metabolism-related genes, but little information is known about their function and regulation.We used bioinformatics, antimetabolite growth assays, RT-qPCR, targeted mutagenesis and reporter constructs to test whether the predicted TPP riboswitches respond to thiamine supplementation in diatoms. Gene editing was used to investigate the functions of the genes with associated TPP riboswitches in Phaeodactylum tricornutum.We found that thiamine-related genes with putative TPP aptamers are not responsive to supplementation with thiamine or its precursor 4-amino-5-hydroxymethyl-2methylpyrimidine (HMP), and targeted mutation of the TPP aptamer in the THIC gene encoding HMP-P synthase does not deregulate thiamine biosynthesis in P. tricornutum. Through genome editing we established that PtTHIC is essential for thiamine biosynthesis and another gene, PtSSSP, is necessary for thiamine uptake.Our results highlight the importance of experimentally testing bioinformatic aptamer predictions and provide new insights into the thiamine metabolism shaping the structure of marine microbial communities with global biogeochemical importance.
The unequal distribution of environmental goods and pollution burdens is determined by valuation decisions dependent on the values present in the public sphere. Accordingly, corporations and movements of resistance adopt strategies to influence public value systems to prioritize their interests. However, pre-existing asymmetric relationships of power grant corporations a dominant position over the public sphere, eschewing environmental management towards instrumental and transactional modes of valuation. The hegemonic valuation of the environment is thus a product and source of power, and a key element for the reproduction of systems of oppression. This article will discuss the mechanisms used by extractive corporations to neglect alternative value systems, illustrated with examples from the oil giant TotalEnergies.
Microalgae play an essential role in global net primary productivity and global biogeochemical cycling, but despite their phototrophic lifestyle, over half of algal species depend on a supply of the corrinoid vitamin B12 (cobalamin) for growth. This essential organic micronutrient is produced only by a subset of prokaryotic organisms, which implies that for algal species to use this compound, they must first acquire it from external sources. Previous studies have identified protein components involved in vitamin B12 uptake in bacterial species and humans. However, little is known about how it is taken up in algae. Here, we demonstrate the essential role of a protein, CBA1 (for cobalamin acquisition protein 1), in B12 uptake in Phaeodactylum tricornutum, using CRISPR-Cas9 to generate targeted knockouts, and in Chlamydomonas reinhardtii, by insertional mutagenesis. In both cases, CBA1 knockout lines are no longer able to take up exogenous vitamin B12. Complementation of the C. reinhardtii mutants with the wildtype CBA1 gene restores B12 uptake, and regulation of CBA1 expression via a riboswitch element can be used to control the phenotype. When visualised by confocal microscopy, a YFP-fusion with C. reinhardtii CBA1 shows association with membranes. A bioinformatics analysis found that CBA1-like sequences are present in all the major eukaryotic phyla. Its presence is correlated with B12-dependent enzymes in many, although not all, taxa, suggesting CBA1 has a conserved role. Our results thus provide insight into the molecular basis of algal B12 acquisition, a process that likely underpins many interactions in aquatic microbial communities.
Thiamine pyrophosphate (TPP), an essential co-factor for all species, is biosynthesised through a metabolically expensive pathway regulated by TPP riboswitches in bacteria, fungi, plants and green algae. Diatoms are microalgae responsible for approximately 20% of global primary production. They have been predicted to contain TPP aptamers in the 3'UTR of some thiamine metabolism-related genes, but little is known about their function and regulation. We used bioinformatics, antimetabolite growth assays, RT-qPCR, targeted mutagenesis and reporter constructs to test whether the predicted TPP riboswitches respond to thiamine supplementation in diatoms. Gene editing was used to investigate the functions of the genes with associated TPP riboswitches in Phaeodactylum tricornutum. We found that thiamine-related genes with putative TPP aptamers are not responsive to thiamine or its precursor 4-amino-5-hydroxymethyl-2-methylpyrimidine (HMP), and the targeted mutation of the TPP aptamer in the HMP-P synthase (THIC) does not deregulate thiamine biosynthesis in P. tricornutum. Through genome editing we established that PtSSSP is necessary for thiamine uptake and that PtTHIC is essential for thiamine biosynthesis. Our results highlight the importance of experimentally testing bioinformatic aptamer predictions and provide new insights into the thiamine metabolism shaping the structure of marine microbial communities with global biogeochemical importance.
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