Rational design and characterization of enhanced alcohol-inducible synthetic promoters in .

The C1 and C2 alcohols hold great promise as substrates for biomanufacturing due to their low cost and rich resources. is considered a preferred host for methanol and ethanol bioconversion due to its natural utilization of methanol and ethanol. However, the scarcity of strong and tightly regulated alcohol-inducible promoters limits its extended use.

De novo biosynthesis and nicotinamide biotransformation of nicotinamide mononucleotide by engineered yeast cells.

β-Nicotinamide mononucleotide (NMN) is a precursor of NAD in mammals. Research on NAD has demonstrated its crucial role against aging and disease. Here two technical paths were established for the efficient synthesis of NMN in the yeast Pichia pastoris, enabling the production of NMN from the low-cost nicotinamide (NAM) or basic carbon sources.

Transcriptome analysis reveals methanol metabolism variations for the growth damage caused by overexpression of chimeric transactivators in .

Methanol is a promising substrate for sustainable biomanufacturing, and has become a commonly used yeast for methanol utilization due to its powerful methanol metabolic pathways and methanol inducible promoter. Previous reconstruction of gene circuits highly improved transcriptional activity, but excessive expression of chimeric transactivator damaged cell growth on methanol. Here we employed transcriptome analysis to investigate the effects of chimeric transactivator overexpression on cellular metabolism and regulatory networks.

All-in-One Magneto-optical Memory Arrays Based on a Two-Dimensional Ferromagnetic Metal.

Two-dimensional (2D) van der Waals (vdW) magnetic materials with atomic-scale thickness and smooth interfaces promise the possibility of developing high-density, energy-efficient spintronic devices. However, it remains a challenge to effectively control the perpendicular magnetic anisotropy (PMA) of 2D vdW ferromagnetic materials, as well as the integration of multiple memory cells. Here, we report highly efficient magneto-optical memory arrays by utilizing the huge spin-orbit torques (SOT) induced by the in-plane current in FeGeTe (FGT) flake.

Comparative omics directed gene discovery and rewiring for normal temperature-adaptive red pigment synthesis by polar psychrotrophic fungus sp. WNF-15A.

The Antarctic fungus sp. WNF-15A can produce high-quality red pigments (AGRP) with good prospects for the use in food and cosmetic area. However, efficient AGRP synthesis relies on low-temperature and thus limits its industrial development.

Topological Magneto-optical Effect from Skyrmions in Two-Dimensional Ferromagnets.

Skyrmions in two-dimensional (2D) magnetic materials are considered as ideal candidates for information carriers in next-generation spintronic devices. However, conventional methods for elucidating the physical properties of skyrmions have limited the development of skyrmions in diverse 2D magnetic material systems due to their requirements for electrical conductivity. To overcome this limitation, we propose to utilize an optical method (magneto-optical Kerr technique) to detect the skyrmions in 2D magnetic materials.

Programmable Biosynthesis of Plant-Derived 4'-Deoxyflavone Glycosides by an Unconventional Yeast Consortium.

Previous data established 4'-deoxyflavone glycosides (4'-DFGs) as important pharmaceutical components in the roots of rare medical plants like Scutellaria baicalensis Georgi. Extracting these compounds from plants involves land occupation and is environmentally unfriendly. Therefore, a modular ("plug-and-play") yeast-consortium platform is developed to synthesize diverse 4'-DFGs de novo.

[Biosynthesis of natural products by non-conventional yeasts].

Non-conventional yeasts such as , , , and have proven to be efficient cell factories in producing a variety of natural products due to their wide substrate utilization spectrum, strong tolerance to environmental stresses and other merits. With the development of synthetic biology and gene editing technology, metabolic engineering tools and strategies for non-conventional yeasts are expanding. This review introduces the physiological characteristics, tool development and current application of several representative non-conventional yeasts, and summarizes the metabolic engineering strategies commonly used in the improvement of natural products biosynthesis.

Manipulation and Optical Detection of Artificial Topological Phenomena in 2D Van der Waals Fe GeTe /MnPS Heterostructures.

2D ferromagnet is a good platform to investigate topological effects and spintronic devices owing to its rich spin structures and excellent external-field tunability. The appearance of the topological Hall Effect (THE) is often regarded as an important sign of the generation of chiral spin textures, like magnetic vortexes or skyrmions. Here, interface engineering and an in-plane current are used to modulate the magnetic properties of the nearly room-temperature 2D ferromagnet Fe GeTe .

Minos and Restless transposon insertion mutagenesis of psychrotrophic fungus for red pigment synthesis adaptive to normal temperature.

The polar psychrotrophic fungus Geomyces sp. WNF-15A can produce high-quality natural red pigment for the potential use as edible pigment. However, it shows low-temperature-dependent synthesis of red pigment, which limits its large-scale industrial applications due to the difficult and high-cost bioprocess control.

Yeast transcriptional device libraries enable precise synthesis of value-added chemicals from methanol.

Natural methylotrophs are attractive methanol utilization hosts, but lack flexible expression tools. In this study, we developed yeast transcriptional device libraries for precise synthesis of value-added chemicals from methanol. We synthesized transcriptional devices by fusing bacterial DNA-binding proteins (DBPs) with yeast transactivation domains, and linking bacterial binding sequences (BSs) with the yeast core promoter.

Nonlocal Manipulation of Magnetism in an Itinerant Two-Dimensional Ferromagnet.

Two-dimensional (2D) magnets are crucial in the construction of 2D magnetic and spintronic devices. Many devices, including spin valves and multiple tunneling junctions, have been developed by vertically stacking 2D magnets with other functional blocks. However, owing to limited local interactions at the interfaces, the device structures are typically extremely complex.

Investigating Fungal Biosynthetic Pathways Using Pichia pastoris as a Heterologous Host.

Fungal natural products have extensive biological activities, and thus have been largely commercialized in the pharmaceutical, agricultural, and food industries. Recently, heterologous expression has become an irreplaceable technique to functionalize fungal biosynthetic gene clusters and synthesize fungal natural products in various chassis organisms. This chapter describes the general method of using Pichia pastoris as a chassis host to investigate fungal biosynthetic pathways.

Production of Plant 4'-Deoxyflavones Baicalein and Oroxylin A from Ethanol in Crabtree-Negative Yeast.

Baicalein and oroxylin A are well-known medicinal 4'-deoxyflavones found mainly in the roots of traditional medicinal plant Georgi. However, extraction from plants is time-consuming, environmentally unfriendly, and insufficient. Although microbial synthesis of flavonoids has been extensively reported, synthesis of downstream modified 4'-deoxyflavones has not, and their yields are extremely low.

A programmable high-expression yeast platform responsive to user-defined signals.

Rapidly growing yeasts with appropriate posttranslational modifications are favored hosts for protein production in the biopharmaceutical industry. However, limited production capacity and intricate transcription regulation restrict their application and adaptability. Here, we describe a programmable high-expression yeast platform, SynPic-X, which responds to defined signals and is broadly applicable.

Transposon insertion mutation of Antarctic psychrotrophic fungus for red pigment production adaptive to normal temperature.

Polar regions are rich in microbial and product resources. Geomyces sp. WNF-15A is an Antarctic psy chrotrophic filamentous fungus producing high quality red pigment with potential for industrial use.

High-level living cell production of cytidine-5'-diphosphocholine in metabolically engineered yeast.

Industrial production of neuroprotective drug CDP-choline is accomplished via permeabilized or lysed cell biotransformation because of the inefficient penetration of substrates into intact cells. We previously proposed a novel one-step living cell method for CDP-choline production by engineered yeast, but obtained low titer and molar yield. This study develops a high-production strain with improved molar yield by metabolic engineering strategies.

Enhancement of the Coercive Field and Exchange Bias Effect in FeGeTe/MnPX (X = S and Se) van der Waals Heterostructures.

FeGeTe/MnPS and FeGeTe/MnPSe van der Waals heterostructures were fabricated by mechanical exfoliation. Via the magneto-optical Kerr effect and reflected magnetic circular dichroism measurements, we have observed nearly three times enhancement of the coercive field, improvement of Curie temperature, and exchange bias effect in both heterostructures. These observations may provide new insights into the emergent heterostructure devices between itinerant ferromagnets and metal thio- and selenophosphates for both applied and fundamental research studies in magnetic correlations.

Structure and physicochemical properties of amphiphilic agar modified with octenyl succinic anhydride.

A novel amphiphilic agar with high transparency and freeze-thaw stability was prepared using octenyl succinic anhydride (OSA). Fourier transform infrared spectroscopy and nuclear magnetic resonance spectroscopy confirmed that the hydrophobic OS groups were successfully introduced in OSA-modified agar (OSAR) backbone. The OSAR showed higher emulsion stability and oil loading capacity than the native agar (NA).

Evaluation of a novel self-emulsifiable dodecenyl succinylated agarose in microencapsulation of docosahexaenoic acid (DHA) through spray-chilling process.

Agarose is a potential wall material for encapsulation owing to its high oxygen barrier, but its high hydrophilia and low emulsifying activity restrict its application as a wall material for hydrophobic actives. The aim of this study was to evaluate the potential of a novel self-emulsifiable dodecenyl succinic anhydride-esterified agarose (DSAG) as a single emulsifier and a wall material to encapsulate DHA. Results showed that DSAG was suitable for DHA encapsulation via spray-chilling process, and DHA microcapsules with different sizes (100-400 μm) could be easily prepared by controlling the spray pressure.

Combinatorial strategies for production improvement of red pigments from Antarctic fungus Geomyces sp.

Natural red pigments have been widely used as food and cosmetics additives. However, due to toxic byproducts or allergen issues, it is still necessary to look for some other red pigment products. This study proposed combinatorial strategies to improve production of a new kind of red pigments from the fungus Geomyces WNF-15A, isolated from Antarctica.

Engineered dynamic distribution of malonyl-CoA flux for improving polyketide biosynthesis in Komagataella phaffii.

Malonyl-CoA is a basic but limited precursor for the biosynthesis of various bioactive compounds and life-supporting fatty acids in cells. This study develops a biosynthetic system to dynamically redirect malonyl-CoA flux and improve production of malonyl-CoA derived polyketide (6-MSA) in Komagataella phaffii. A synthetic regulatory protein fusing a yeast activator Prm1 with a bacterial repressor FapR was proved to work with a hybrid promoter (-7)fapO-cP and activate gene expression.

A Synthetic Malonyl-CoA Metabolic Oscillator in .

Malonyl-CoA is a key metabolic molecule that participates in a diverse range of physiological responses and can act as a building block for a variety of value-added pharmaceuticals and chemicals. The cytosolic malonyl-CoA concentration is usually very low, and thus dynamic metabolic control of malonyl-CoA variation will aid its stable formation and efficient consumption. We developed a synthetic malonyl-CoA metabolic oscillator in yeast.

Engineering substrate and energy metabolism for living cell production of cytidine-5'-diphosphocholine.

Cytidine-5'-diphosphocholine (CDP-choline) is a widely used neuroprotective drug for multiple indications. In industry, CDP-choline is synthesized by a two-step cell culture/permeabilized cell biotransformation method because substrates often do not enter cells in an efficient manner. This study develops a novel one-step living cell fermentation method for CDP-choline production.