Yan Yan’s research while affiliated with Shenzhen University and other places

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Publications (43)


Representative bacterial NTF2‐like proteins that function as biocatalysts: (A) SnoaL catalyzes a polyketide cyclization reaction; (B) Δ⁵‐3‐ketosteroid isomerase catalyzes a double bond shift reaction; and (C) Tetracenomycin aromatase/cyclase catalyzes the formation of aromatic rings of polyketide.
Representative reactions catalyzed by fungal‐derived NTF2‐like enzymes.
The proposed mechanism of the dehydration reaction catalyzed by scytalone dehydratase.
The proposed mechanism of the epimerization reactions catalyzed by (A) AusH and (B) NsrQ.
The proposed mechanism of the isomerization reactions catalyzed by (A) NsrQ, (B) Trt14, and (C) PrhC.

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NTF2‐Like Enzymes as Versatile Biocatalysts in Fungal Natural Product Biosynthesis
  • Article
  • Publisher preview available

October 2024

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61 Reads

Yanqin Li

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Junfeng Wang

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Yan Yan

Fungal natural products (NPs), known for their potent bioactivities, can be utilized as human therapeutics and agrochemicals. These bioactive and structurally complex compounds are biosynthesized through condensation of monomeric building blocks to construct core scaffolds, followed by various modification steps. Recent studies have revealed that a unique class of enzymes from the NTF2‐like protein family plays important roles in the biosynthesis of complex fungal NPs. These NTF2‐like enzymes belong to a large group of related proteins that share a common fold with nuclear transport factor 2, and are capable of catalyzing various reactions. In this study, we summarize the recent progress in discovering and characterizing the catalytic functions of fungal‐derived NTF2‐like enzymes, including dehydratases, epimerases, isomerases, semipinacolases, pericyclases, and aldolases. These findings not only provide valuable insights into new catalytic reactions and mechanisms, but also offer opportunities to discover novel NPs and biocatalysts through genome mining.

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Low-threshold green lasing in heterogeneously integrated InGaN-based micro-rings covered by distributed Bragg reflectors on Si (100)

July 2024

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34 Reads

In this work, combining a series of wafer bonding, laser lift-off and chemical mechanical polishing processes, submicron-thick wafer-scale GaN-based thin-film epilayers are successfully transferred on Si (100), which provides a heterogeneous platform for fabricating microcavities for nitride-based integrated photonics. Low-threshold lasing via optical pumping from these transferred dry-etched green micro-ring cavities on Si is demonstrated by covering the whole micro-rings with dielectric distributed Bragg reflectors (DBRs), which greatly reduces the lasing threshold upon a better optical confinement at the ring rim. A high quality-factor of ∼3800 can be observed from the micro-rings beyond the lasing threshold under pulsed excitation conditions. Furthermore, room-temperature continuous-wave (CW) lasing at a wavelength of 521.7 nm with an ultralow threshold of 0.35 kW/cm² is achieved. Our results suggest the use of a burying DBR layer notably improves the WGM microcavity confinement, providing insights for the design of low-threshold micro-lasers and low-loss waveguides for potential integrated photonic applications in the visible light range on the Si platform.


Naturally occurring quadrane sesquiterpenes from fungi (A) and coral (B). The tricyclic quadrane scaffold is shown in red
Characterization of the biosynthetic pathway of terrecyclic acid. (A) Biosynthetic gene cluster of terrecyclic acid (2). The hypothetic proteins are in white. (B) Characterization of TerA using heterologous expression in S. cerevisiae (i) and in vitro biochemical analysis (ii). The total ion chromatograms (TICs) were obtained using GC-MS. (C) Heterologous expression of ter biosynthetic genes in A. nidulans: (i) A. nidulans carrying the empty vectors; (ii) A. nidulans carrying terA and terB; (iii) A. nidulans carrying terA, terB, and terC. The extracted ion chromatograms (EICs) were obtained using LC-MS. (D) In vitro characterization of TerC: (i) conversion of 32 into 2 catalyzed by TerC; (ii) boiled TerC abolishes the catalytic activity on substrate 32; (iii) TerC is not able to catalyze the conversion of 33 into 2. The EICs were obtained using LC-MS. (E) In vitro characterization of TerB: (i) conversion of 25 into 32 catalyzed by TerB; (ii) conversion of 25 into 2 catalyzed by TerB and TerC. (F) Proposed biosynthetic pathway of 2 and the related products. The EICs were obtained using LC-MS. The Y-axes of the chromatograms for each experiment are depicted on the same scale, ensuring comparable quantities of the compounds
Mutagenesis of TerA. (A) The predicted model of TerA with the key residues (grey) in the active site responsible for terrecyclene formation. The substrate mimic 2,3-dihydro-FPP is in yellow. The magnesium cation is in green. (B) Representative sesquiterpene product profile of S. cerevisiae expressing terA mutants: (i) S. cerevisiae expressing wildtype terA; (ii) S. cerevisiae expressing terA-V114A; (iii) S. cerevisiae expressing terA-V114T; (iv) S. cerevisiae expressing terA-V114D. The EICs were obtained using GC-MS. The Y-axes of the chromatograms for each experiment are depicted on the same scale, ensuring comparable quantities of the compounds. (C) The proposed mechanism of the formation of shunt products catalyzed by TerA mutants. 34 is derived from the key intermediate 26 in Coates' route (pink), while 35 is derived from the intermediate 19 in both Hirota's and Coates' routes (blue)
Isotopically sensitive branching study of TerA-V114A mutant. (A) Distinguishing between Hirota's and Coates' routes through an isotopically sensitive branching experiment using [12-²H3]-FPP as substrate. (B) Effect of deuteration at C12 of FPP on the ratio of products generated by TerA-V114A. GC-MS chromatograms of reaction mixtures using FPP (top) and [12-²H3]-FPP (bottom). The EICs were obtained using GC-MS
The proposed mechanisms of β-terrecyclene formation. (A) Hirota's route (blue) and Coates' route (pink) to generate β-terrecyclene from farnesyl diphosphate (FPP). (B) Coates' rearrangement to form α-terrecyclene
β-Terrecyclene synthase constructs the quadrane backbone in terrecyclic acid biosynthesis

April 2024

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70 Reads

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1 Citation

Quadrane sesquiterpenes featuring a distinctive tricyclic skeleton exhibit potent antimicrobial and anticancer activities. Although extensive studies have attempted to reveal the multistep carbocation rearrangement involved in the formation of the tricyclic quadrane scaffold, the exact biosynthetic pathway and chemical logic to generate the quadrane structure remains mysterious. Here we identified a novel sesquiterpene synthase that is capable of generating β-terrecyclene possessing the quadrane scaffold and characterized the biosynthetic pathway of a representative fungal quadrane terrecyclic acid. Further mutagenesis coupled with isotopically sensitive branching studies of this β-terrecyclene synthase provided insight into the mechanism involved in the formation of the quadrane scaffold.


An Enzymatic Carbon‐Carbon Bond Cleavage and Aldol Reaction Cascade Converts an Angular Scaffold into the Linear Tetracyclic Core of Ochraceopones

March 2024

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17 Reads

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1 Citation

Angewandte Chemie

Meroterpenoids of the ochraceopones family featuring a linear tetracyclic scaffold exhibit exceptional antiviral and anti‐inflammatory activities. The biosynthetic pathway and chemical logic to generate this linear tetracycle, however, remain unknown. In this study, we identified and characterized all biosynthetic enzymes to afford ochraceopones and elucidated the complete biosynthetic pathway. We demonstrated that the linear tetracyclic scaffold of ochraceopones was derived from an angular tetracyclic precursor. A multifunctional cytochrome P450 OchH was validated to catalyze the free‐radical‐initiated carbon‐carbon bond cleavage of the angular tetracycle. Then, a new carbon‐carbon bond was verified to be constructed using a new aldolase OchL, which catalyzes an intramolecular aldol reaction to form the linear tetracycle. This carbon‐carbon bond fragmentation and aldol reaction cascade features an unprecedented strategy for converting a common angular tetracycle to a distinctive linear tetracyclic scaffold in meroterpenoid biosynthesis.


Representative meroterpenoids possessing linear and angular tetracyclic scaffolds. A) Meroterpenoids possessing linear (blue) and angular (red) tetracyclic scaffolds, including ochraceopones A−D (1–4), aspertetranones A, C (5, 6), ochraceopone E (7), pyripyropene A, and territrem C. B) Proposed alteration of the C−C bond to convert the angular tetracyclic scaffold into a linear tetracyclic scaffold.
Characterization of the biosynthesis of linear tetracyclic ochraceopones. A) The biosynthetic gene cluster of ochraceopones. B) Characterization of the biosynthesis of angular tetracyclic ochraceopone: i. heterologous expression of ochA in A. nidulans; ii. heterologous expression of ochABCD in A. nidulans; iii. bioconversion of 11 using A. nidulans expressing ochI; iv. bioconversion of 12 using A. nidulans expressing ochK; v. bioconversion of 13 using A. nidulans expressing ochF. C) Characterization of the biosynthesis of linear tetracyclic ochraceopones: i. bioconversion of 7 using A. nidulans expressing ochEGHJL; ii. bioconversion of 7 using A. nidulans expressing ochGHJL; iii. bioconversion of 3 using A. nidulans expressing ochE; iv. bioconversion of 7 using A. nidulans expressing ochE; v. bioconversion of 15 using A. nidulans expressing ochGHJL. D) Proposed biosynthetic pathway of ochraceopones.
Characterization of the multifunctional cytochrome P450 OchH. A) In vivo and in vitro characterization of OchH: i. feeding of 7 into the host expressing ochH; ii. biochemical analysis of 7 using the microsomal fraction of A. nidulans expressing ochH. B) Proposed mechanism of the reaction catalyzed by OchH. C) In vitro characterization of OchH in D2O: i. incubation of 7 in D2O, with the mass spectrum of 7 shown on the right; ii. incubation of 16 in D2O, with the mass spectrum of 16 shown on the right; iii. biochemical analysis of 7 using OchH in D2O, with the mass spectrum of product 16 shown on the right.
Characterizing the conversion of the tricyclic scaffold into linear tetracyclic ochraceopones. A) Bioconversion experiment using A. nidulans host expressing och genes: i. feeding of 16 into the host expressing ochGJL; ii. feeding of 16 into the host expressing ochJ; iii. feeding of 19 into the host expressing ochGL; iv. feeding of 16 into the host expressing ochJG; v. feeding of 21 into the host expressing ochL. B) In vitro biochemical analysis of the biosynthetic enzymes: i. biochemical analysis 16 using the microsomal fraction of A. nidulans expressing ochJ; ii. biochemical analysis 16 in the presence of OchJ and OchG; iii. biochemical analysis 16 in the presence of OchJ, OchG, and OchL. C) Proposed biosynthetic pathway of linear tetracyclic ochraceopones using the tricyclic precursors. (The abbreviation obs. means the observed conversion result. The abbreviation spont. means spontaneous conversion.)
An Enzymatic Carbon‐Carbon Bond Cleavage and Aldol Reaction Cascade Converts an Angular Scaffold into the Linear Tetracyclic Core of Ochraceopones

March 2024

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28 Reads

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4 Citations

Meroterpenoids of the ochraceopones family featuring a linear tetracyclic scaffold exhibit exceptional antiviral and anti‐inflammatory activities. The biosynthetic pathway and chemical logic to generate this linear tetracycle, however, remain unknown. In this study, we identified and characterized all biosynthetic enzymes to afford ochraceopones and elucidated the complete biosynthetic pathway. We demonstrated that the linear tetracyclic scaffold of ochraceopones was derived from an angular tetracyclic precursor. A multifunctional cytochrome P450 OchH was validated to catalyze the free‐radical‐initiated carbon‐carbon bond cleavage of the angular tetracycle. Then, a new carbon‐carbon bond was verified to be constructed using a new aldolase OchL, which catalyzes an intramolecular aldol reaction to form the linear tetracycle. This carbon‐carbon bond fragmentation and aldol reaction cascade features an unprecedented strategy for converting a common angular tetracycle to a distinctive linear tetracyclic scaffold in meroterpenoid biosynthesis.



Alternaphenol B2, a new IDH1 inhibitor from the coral-derived fungus Parengyodontium album SCSIO SX7W11

October 2023

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29 Reads

Natural Product Research

A new aromatic polyketide, alternaphenol B2 (1), and four known compounds (2-5) were isolated from the coral-derived fungus Parengyodontium album SCSIO SX7W11. Their structures were elucidated by high-resolution mass spectrometry, 1D and 2D NMR spectroscopy and comparison with reported literatures. Compounds 1 and 2 exhibited selective inhibitory activity against isocitrate dehydrogenase mutant R132H (IDH1m), with IC50 values of 41.9 and 27.7 μM, respectively. Our findings thus provide a fresh incentive for investigation on IDH1m inhibitors as lead compounds for cancer treatment.


Genome Mining and Biosynthetic Reconstitution of Fungal Depsidone Mollicellins Reveal a Dual Functional Cytochrome P450 for Ether Formation

August 2023

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38 Reads

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4 Citations

Journal of Natural Products

Depsidones are significant in structural diversity and broad in biological activities; however, their biosynthetic pathways have not been well understood and have attracted considerable attention. Herein, we heterologously reconstituted a depsidone encoding gene cluster from Ovatospora sp. SCSIO SY280D in Aspergillus nidulans A1145, leading to production of mollicellins, a representative family of depsidones, and discovering a bifunctional P450 monooxygenase that catalyzes both ether formation and hydroxylation in the biosynthesis of the mollicellins. The functions of a decarboxylase and an aromatic prenyltransferase are also characterized to understand the tailoring modification steps. This work provides important insights into the biosynthesis of mollicellins.


Sulfoxanthicillin from the deep-sea derived Penicillium sp. SCSIO sof101: an antimicrobial compound against Gram-positive and -negative pathogens

January 2023

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49 Reads

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4 Citations

The Journal of Antibiotics

Natural products along with their analogs have been intensively explored for their antimicrobial potential against ‘ESKAPE’ pathogens. Herein, we report a new natural product with strong antibacterial activity, sulfoxanthocillin (1), along with its decomposed product peniformamide (2), and the known compound xanthocillin X (3) from the deep-sea derived Penicillium sp. SCSIO sof101. The structures of compounds 1 and 2 were determined by extensive spectroscopic analysis. Compound 1 showed significant activity against series pathogens with MIC values ranging 0.06–8.0 μg mL−1. As an artificial unnatural product during the isolation process, compound 2 had lower antimicrobial activity than that of compound 1, which could be attributed to a change in structural modification from an isonitrile group in compound 1 to a formamide group in compound 2. In terms of cytotoxicity, 1 showed relatively low cytotoxicity against human tumor cell lines compared with xanthocillin X (3), suggesting that the sulfate group present in 1 should be a determinant of cytotoxic activities. Overall, sulfoxanthocillin (1) merits further attention as a potential lead compound for anti-infective interventions against Gram-negative and Gram-positive bacterial pathogens.


Citations (32)


... These results suggested that ato genes might share comparable functions and similarity with och cluster, whose sequence is not released now (Fig. S3 †). 13 Compared to och cluster, AtoB might catalyze the same aldol reaction as the assumed isozyme OchL. However, the function and catalytic mechanism of OchL remained elusive due to the lack of a natural substrate. ...

Reference:

Three-dimensional structural alignment based discovery and molecular basis of AtoB, catalyzing linear tetracyclic formation
An Enzymatic Carbon‐Carbon Bond Cleavage and Aldol Reaction Cascade Converts an Angular Scaffold into the Linear Tetracyclic Core of Ochraceopones
  • Citing Article
  • March 2024

Angewandte Chemie

... During our ongoing investigations of the microorganisms inhabiting polar environments [3,[20][21][22], a large scale of fermentation of a Bacillus amyloliquefaciens SCSIO 41392 collected from polar regions and subsequent purification has led to three new 24-membered macrolactins, amylomacrolactines A-C (1-3), and two reported compounds, stellarine A (4) [23] and 9 H-pyrido [3,4-b] indole-3-carboxylic acid (5) [24] (Figure 1). Herein, we report the isolation, structure elucidation, and the quorum-sensing inhibitory (QSI) activity of these compounds. ...

An Enzymatic Carbon‐Carbon Bond Cleavage and Aldol Reaction Cascade Converts an Angular Scaffold into the Linear Tetracyclic Core of Ochraceopones

... A homology search of PemlD identified a BBE-like enzyme, PylE (44% identity and 58% similarity), which catalyzes the oxidation of an allylic hydroxy group to ketone and the hydrogenation of the adjacent olefin during the biosynthesis of macrodiolide. 19 Together with the results of our feeding experiments, these findings lead us to propose that the biosynthetic pathway of compound 4 originates from compound 3, which might undergo oxidation on the hydroxy group at C-4 and reduction of the olefin at C-2/C-3 by PemlD, followed by hydrolysis of the ester linkage by native enzymes of the A. oryzae host. ...

Genome Mining Uncovers a Flavoenzyme-Catalyzed Isomerization Process during the Maturation of Pyrenophorol Dilactones
  • Citing Article
  • February 2024

Organic Letters

... Didepsides display antitumor, antimalarial, antibacterial, antifouling, and various human enzyme-inhibitory activities. 1 The ester linkage may form by oxidative coupling or rearrangements aer the release of orsellinic acid or its derivatives from polyketide synthase enzymes (PKSs). 1,2 However, PKSs directly affording didepsides have also been reported recently, among which DrcA from Aspergillus duricaulis, 3 MollE from Ovatospora sp., 4 and DepH from A. sp. SCSIO SX7S7 5 condense acyl carrier protein-bound intermediates to form ester-linked didepsides (Fig. 1A). ...

Genome Mining and Biosynthetic Reconstitution of Fungal Depsidone Mollicellins Reveal a Dual Functional Cytochrome P450 for Ether Formation
  • Citing Article
  • August 2023

Journal of Natural Products

... SCSIO sof101. Sulfoxanthocillin (295) showed significant activity against series pathogens with MIC values ranging from 0.06 to 8.0 µg/mL and relatively low cytotoxicity against human tumor cell lines [91]. Penipyridinone B (296) (Figure 6) was isolated from the marine-mud-derived Penicillium sp. ...

Sulfoxanthicillin from the deep-sea derived Penicillium sp. SCSIO sof101: an antimicrobial compound against Gram-positive and -negative pathogens
  • Citing Article
  • January 2023

The Journal of Antibiotics

... However, it has been revealed that abnormal expression of NCAPG often affects the occurrence and development of a wide variety of tumours, including lung cancer (8,9), hepatocellular carcinoma (HCC) (10,11), colorectal cancer (12), pancreatic cancer (13,14), breast cancer (BC) (15), ovarian cancer (16), endometrial carcinoma (17), glioma (18), rhabdomyosarcoma (19) and melanoma (20). When NCAPG is highly expressed, the proliferation and invasion of tumours is promoted, and the expression level of NCAPG is negatively correlated with the prognosis of patients, suggesting that NCAPG is a factor that adversely affects the survival of ...

Correction: NCAPG promotes the oncogenesis and progression of non-small cell lung cancer cells through upregulating LGALS1 expression

Molecular Cancer

... Renal cell carcinoma (RCC) is the most common type of kidney cancer in adults, accounting for approximately 90% of all renal neoplasms. 1 Over the past few decades, advancements in surgical techniques and adjuvant therapies have substantially improved the prognosis of RCC patients. Among these, postoperative treatment with Interleukin-2 (IL-2) and recombinant human Interferon has emerged as a potentially effective therapeutic approach. ...

Survival Improvement in Patients with Renal Cell Carcinoma and Disparities between Different Sexes, Races, and Socioeconomic Status: 1977–2016

Journal of Oncology

... 18 Our previous work shows that the InGaN/GaN SLs structure produces interfacial high energy phonon scattering and carrier space confinement caused the Umklapp process. 19,20 A record ZT value of 0.089 at 300 K was achieved in GaN based materials. The uniform indium composition in this TE device is limited to 31%. ...

High Power Efficiency Nitrides Thermoelectric Device
  • Citing Article
  • July 2022

Nano Energy

... Nowadays, white phosphor-converted light-emitting diodes (White pc-LEDs) [14,15] are gradually replacing C-MH, HPS, and LPS lamps for road lighting [16]. The introduction of White pc-LEDs into road lighting was driven by a number of factors, including their high luminous efficacy reaching 170 lm/W, but in popular practical road lighting implementations, this level is 120 lm/W [17][18][19] (if technology other than White pc-LED lighting technology is considered, for example white perovskite light-emitting diodes (pe-LEDs), the luminous efficacy can reach 200 lm/W [20,21], but this technology is not popular due to problems with stability and manufacturing consistency [20,22]). Also, their compact dimensions that facilitate the precise shaping of the luminous intensity distribution (LID) of the luminaire [23], their robust durability in outdoor illumination applications [24], the potential for a high number of LEDs to be utilized in a single luminaire, which, although limited by the size of the luminaire head, still enables the attainment of almost any desired luminous flux from the luminaire [25], the simplicity of luminous flux control and the capacity to modify the power and luminous flux in accordance with the intended application [26,27], their ability to withstand shocks [28], which is particularly crucial in the illumination of overpasses or bridges, and their lifespan now being longer than that of sodium lamps [29] makes them advantageous. ...

High Luminous Efficacy Phosphor-Converted Mass-Produced White LEDs Achieved by AlN Prebuffer and Transitional-Refraction-Index Patterned Sapphire Substrate

... Urethane-induced tumors are a well-established animal model for investigating LUAD due to their standardized and highly reproducible tumor growth [59,60]. This study investigated the Fig. 8 The effect of AQP3-mediated macrophages on the urethane mouse model. ...

NCAPG promotes the oncogenesis and progression of non-small cell lung cancer cells through upregulating LGALS1 expression

Molecular Cancer