Your search keyword '"Fei, Xixi"' showing total 17 results

1. Molecular characterization and expression profile of the ALDH1A1 gene and its functions in yak luteal cells

Author

Fei, Xixi, Zhu, Yanjin, Pan, Bangting, Cheng, Yuying, Yang, Qinhui, Xie, Yumian, Xiong, Yan, Fu, Wei, Xiong, Xianrong, and Li, Jian

Published

2024

2. Testis-specific knockout of Kdm2a reveals nonessential roles in male fertility but partially compromises spermatogenesis

Author

Xiong, Xianrong, Huang, Xiangyue, Zhu, Yanjin, Hai, Zhuo, Fei, Xixi, Pan, Bangting, Yang, Qinhui, Xiong, Yan, Fu, Wei, Lan, Daoliang, Zhang, Xiaojian, and Li, Jian

Published

2023

3. Maternal Kdm2a-mediated PI3K/Akt signaling and E-cadherin stimulate the morula-to-blastocyst transition revealing crucial roles in early embryonic development

Author

Xiong, Xianrong, Yang, Manzhen, Hai, Zhuo, Fei, Xixi, Zhu, Yanjin, Pan, Bangting, Yang, Qinhui, Xie, Yumian, Cheng, Yuying, Xiong, Yan, Lan, Daoliang, Fu, Wei, and Li, Jian

Published

2023

4. MicroRNA-34b-5p targets PPP1R11 to inhibit proliferation and promote apoptosis in cattleyak Sertoli cells by regulating specific signaling pathways

Author

Xiong, Xianrong, Min, Xingyu, Yu, Hailing, Fei, Xixi, Zhu, Yanjin, Pan, Bangting, Xiong, Yan, Fu, Wei, and Li, Jian

Published

2022

5. The Expression and Epigenetic Characteristics of the HSF2 Gene in Cattle-Yak and the Correlation with Its Male Sterility.

Author

Yang, Qinhui, Xie, Yumian, Pan, Bangting, Cheng, Yuying, Zhu, Yanjin, Fei, Xixi, Li, Xupeng, Yu, Jun, Chen, Zhuo, Li, Jian, and Xiong, Xianrong

Subjects

GENE expression, SPERMATOGENESIS, MALE sterility in plants, HEAT shock factors, HEAT shock proteins, SERTOLI cells, EPIGENETICS

Abstract

Simple Summary: Abnormal expression of the HSF2 gene was shown to be associated with male sterility. Here, we found that HSF2 was highly expressed in the testes of the cattle-yak, especially in adult cattle-yak. However, the expression of HSF2 was significantly lower in the cattle-yak compared to cattle and yak. In addition, the methylation level of the promoter region was significantly higher in cattle-yak compared to yak. We therefore suggest that male cattle-yak sterility may be associated with methylation of the HSF2 gene in testes tissues. This study provides theoretical support for further understanding of male cattle-yak sterility. Aberrant expression of the heat shock proteins and factors was revealed to be closely associated with male reproduction. Heat shock factor 2 (HSF2) is a transcription factor that is involved in the regulation of diverse developmental pathways. However, the role and the corresponding molecular mechanism of HSF2 in male cattle-yak sterility are still poorly understood. Therefore, the aim of this study was to obtain the sequence and the biological information of the cattle-yak HSF2 gene and to investigate the spatiotemporal expression profiles of the locus during the development of cattle-yak testes. Additionally, the differential expression was analyzed between the cattle-yak and the yak, and the methylation of corresponding promoter regions was compared. Our results showed an additional 54 bp fragment and a missense mutation (lysine to glutamic acid) were presented in the cattle-yak HSF2 gene, which correlated with enriched expression in testicular tissue. In addition, the expression of the HSF2 gene showed dynamic changes during the growth of the testes, reaching a peak in adulthood. The IHC indicated that HSF2 protein was primarily located in spermatocytes (PS), spermatogonia (SP), and Sertoli cells (SC) in cattle-yak testes, compared with the corresponding cells of cattle and the yak. Furthermore, bisulfite-sequencing PCR (BSP) revealed that the methylated CpG sites in the promoter region of the cattle-yak HSF2 were more numerous than in the yak counterpart, which suggests hypermethylation of this region in the cattle-yak. Taken together, the low expression abundance and hypermethylation of HSF2 may underpin the obstruction of spermatogenesis, which leads to male cattle-yak infertility. Our study provided a basic guideline for the HSF2 gene in male reproduction and a new insight into the mechanisms of male cattle-yak sterility. [ABSTRACT FROM AUTHOR]

Published

2024

6. One-pot green synthesis of flower-liked Au NP@GQDs nanocomposites for surface-enhanced Raman scattering

Author

Fei, Xixi, Liu, Zhiming, Li, Yi, Yang, Guangcun, Su, Chengkang, Zhong, Huiqing, Zhuang, Zhengfei, and Guo, Zhouyi

Published

2017

7. Biological pH sensing based on the environmentally friendly Raman technique through a polyaniline probe

Author

Li, Songyang, Liu, Zhiming, Su, Chengkang, Chen, Haolin, Fei, Xixi, and Guo, Zhouyi

Published

2017

8. RFRP-3 Influences Apoptosis and Steroidogenesis of Yak Cumulus Cells and Compromises Oocyte Meiotic Maturation and Subsequent Developmental Competence.

Author

Xiong, Xianrong, Hu, Yulei, Pan, Bangting, Zhu, Yanjin, Fei, Xixi, Yang, Qinhui, Xie, Yumian, Xiong, Yan, Lan, Daoliang, Fu, Wei, and Li, Jian

Subjects

YAK, GONADOTROPIN-inhibitory hormone, APOPTOSIS inducing factor, G protein coupled receptors, OVUM

Abstract

RF amide-related peptide 3 (RFRP-3), a mammalian ortholog of gonadotropin-inhibitory hormone (GnIH), is identified to be a novel inhibitory endogenous neurohormonal peptide that regulates mammalian reproduction by binding with specific G protein-coupled receptors (GPRs) in various species. Herein, our objectives were to explore the biological functions of exogenous RFRP-3 on the apoptosis and steroidogenesis of yak cumulus cells (CCs) and the developmental potential of yak oocytes. The spatiotemporal expression pattern and localization of GnIH/RFRP-3 and its receptor GPR147 were determined in follicles and CCs. The effects of RFRP-3 on the proliferation and apoptosis of yak CCs were initially estimated by EdU assay and TUNEL staining. We confirmed that high-dose (10−6 mol/L) RFRP-3 suppressed viability and increased the apoptotic rates, implying that RFRP-3 could repress proliferation and induce apoptosis. Subsequently, the concentrations of E2 and P4 were significantly lower with 10−6 mol/L RFRP-3 treatment than that of the control counterparts, which indicated that the steroidogenesis of CCs was impaired after RFRP-3 treatment. Compared with the control group, 10−6 mol/L RFRP-3 treatment decreased the maturation of yak oocytes efficiently and subsequent developmental potential. We sought to explore the potential mechanism of RFRP-3-induced apoptosis and steroidogenesis, so we observed the levels of apoptotic regulatory factors and hormone synthesis-related factors in yak CCs after RFRP-3 treatment. Our results indicated that RFRP-3 dose-dependently elevated the expression of apoptosis markers (Caspase and Bax), whereas the expression levels of steroidogenesis-related factors (LHR, StAR, 3β-HSD) were downregulated in a dose-dependent manner. However, all these effects were moderated by cotreatment with inhibitory RF9 of GPR147. These results demonstrated that RFRP-3 adjusted the expression of apoptotic and steroidogenic regulatory factors to induce apoptosis of CCs, probably through binding with its receptor GPR147, as well as compromised oocyte maturation and developmental potential. This research revealed the expression profiles of GnIH/RFRP-3 and GPR147 in yak CCs and supported a conserved inhibitory action on oocyte developmental competence. [ABSTRACT FROM AUTHOR]

Published

2023

9. The Biological Characteristics and Differential Expression Patterns of TSSK1B Gene in Yak and Its Infertile Hybrid Offspring.

Author

Zhu, Yanjin, Pan, Bangting, Fei, Xixi, Hu, Yulei, Yang, Manzhen, Yu, Hailing, Li, Jian, and Xiong, Xianrong

Subjects

GENE expression, SPERMATOGENESIS, YAK, MALE sterility in plants, PROMOTERS (Genetics), MALE infertility, TESTIS

Abstract

Simple Summary: The TSSK1B gene has been demonstrated to play pivotal roles during spermatogenesis and is associated with male fertility. However, the potential mechanism on whether and how TSSK1B disrupts the fertility of yaks remains unknown. In this study, TSSK1B was found to be specifically expressed in the testes of yaks and especially highly expressed in adults. In contrast, it was rarely expressed in the testes of male cattle–yak, the hybrid F1 generation of the yak. The promoter region of TSSK1B in the adult cattle–yak testis was hypermethylated compared with that in the yak, which may be related to male cattle–yak infertility. This study provides the basis for further study of yak reproduction and male cattle–yak sterility. This study aimed to investigate the spatially and temporally expressed patterns and biological characteristics of TSSK1B in male yaks and explore the potential correlation between TSSK1B and male sterility of the yak hybrid offspring (termed cattle–yak). First, the coding sequence (CDS) of TSSK1B was cloned by RT-PCR, and bioinformatics analysis was conducted with relevant software. Quantitative real-time PCR (RT-qPCR) was employed to detect the expression profile of TSSK1B in various tissues of male adult yaks, the spatiotemporal expression of TSSK1B in different stages of yak testes, and the differential expression of TSSK1B between yak and cattle–yak testes. The cellular localization of TSSK1B was determined by immunohistochemistry (IHC). Furthermore, the methylation status of the TSSK1B promoter region was analyzed by bisulfite-sequencing PCR (BSP). The results showed that TSSK1B was 1235 bp long, including 1104 bp of the CDS region, which encoded 367 amino acids. It was a conserved gene sharing the highest homology with Bos mutus (99.67%). In addition, the bioinformatics analysis revealed that TSSK1B was an unstable hydrophilic protein mainly containing the alpha helix of 34.06% and a random coil of 44.41%, with a transmembrane structure of 29 amino acids long. The RT-qPCR results demonstrated that TSSK1B was specifically expressed in yak testes compared with that in other tissues and especially highly expressed in adult yak testes. On the contrary, TSSK1B was hardly expressed in the testis of adult cattle–yak. IHC confirmed that TSSK1B protein was more strongly expressed in the testes of adult yaks than in their fetal and juvenile counterparts. Interestingly, nearly no expression was observed in the testes of cattle–yak compared with the corresponding testes of yak. Bisulfite-sequencing PCR (BSP) revealed that the methylated CpG sites in the TSSK1B promoter region of cattle–yak was significantly higher than that in the yak. Taken together, this study revealed that TSSK1B was specifically expressed in yak testes and highly expressed upon sexual maturity. Moreover, the rare expression in cattle–yak may be related to the hypermethylation of the promoter region, thereby providing a basis for further studies on the regulatory mechanism of TSSK1B in male cattle–yak sterility. [ABSTRACT FROM AUTHOR]

Published

2023

10. Oocyte-Specific Knockout of Histone Lysine Demethylase KDM2a Compromises Fertility by Blocking the Development of Follicles and Oocytes.

Author

Xiong, Xianrong, Zhang, Xiaojian, Yang, Manzhen, Zhu, Yanjin, Yu, Hailing, Fei, Xixi, Mastuda, Fuko, Lan, Daoliang, Xiong, Yan, Fu, Wei, Yin, Shi, and Li, Jian

Subjects

HISTONE demethylases, OVARIAN follicle, ZONA pellucida, OVUM, FERTILITY, GENE expression

Abstract

The methylation status of histones plays a crucial role in many cellular processes, including follicular and oocyte development. Lysine-specific demethylase 2a (KDM2a) has been reported to be closely associated with gametogenesis and reproductive performance, but the specific function and regulatory mechanism have been poorly characterized in vivo. We found KDM2a to be highly expressed in growing follicles and oocytes of mice in this study. To elucidate the physiological role of Kdm2a, the zona pellucida 3-Cre (Zp3-Cre)/LoxP system was used to generate an oocyte Kdm2a conditional knockout (Zp3-Cre; Kdm2aflox/flox, termed Kdm2a cKO) model. Our results showed that the number of pups was reduced by approximately 50% in adult Kdm2a cKO female mice mating with wildtype males than that of the control (Kdm2aflox/flox) group. To analyze the potential causes, the ovaries of Kdm2a cKO mice were subjected to histological examination, and results indicated an obvious difference in follicular development between Kdm2a cKO and control female mice and partial arrest at the primary antral follicle stage. The GVBD and matured rates of oocytes were also compromised after conditional knockout Kdm2a, and the morphological abnormal oocytes increased. Furthermore, the level of 17β-estradiol of Kdm2a cKO mice was only 60% of that in the counterparts, and hormone sensitivity decreased as the total number of ovulated and matured oocytes decreased after superovulation. After deletion of Kdm2a, the patterns of H3K36me2/3 in GVBD-stage oocytes were remarkedly changed. Transcriptome sequencing showed that the mRNA expression profiles in Kdm2a cKO oocytes were significantly different, and numerous differentially expressed genes were involved in pathways regulating follicular and oocyte development. Taken together, these results indicated that the oocyte-specific knockout Kdm2a gene led to female subfertility, suggesting the crucial role of Kdm2a in epigenetic modification and follicular and oocyte development. [ABSTRACT FROM AUTHOR]

Published

2022

11. MicroRNA‐342‐3p regulates yak oocyte meiotic maturation by targeting DNA methyltransferase 1.

Author

Xiong, Xianrong, Yang, Manzhen, Yu, Hailing, Hu, Yulei, Yang, Luyu, Zhu, Yanjin, Fei, Xixi, Pan, Bangting, Xiong, Yan, Fu, Wei, and Li, Jian

Subjects

MEIOSIS, YAK, OVUM, METHYLTRANSFERASES, OVARIAN follicle, CORPUS luteum

Abstract

MicroRNAs (miRNAs) play vital roles in the development of oocytes and ovarian follicles. We have previously shown differential expression of miR‐342‐3p during yak oocyte maturation. In this study, we investigated the role of miR‐342‐3p in meiotic maturation of yak oocytes and the underlying mechanism. The profile of ovarian DNA methyltransferase 1 (DNMT1) expression was investigated in yak by RT‐qPCR and western blot analyses. The pattern of Dnmt1 expression in various meiotic stages (GV stage, MI stage and MII stage) of yak oocyte maturation was then measured by immunofluorescence staining. The interaction between Dnmt1 and miR‐342‐3p was verified by dual‐luciferase reporter assay. Finally, miR‐342‐3p inhibitors were microinjected into yak cumulus‐oocyte complex to evaluate the effects on oocyte maturation. MiR‐342‐3p expression was upregulated in oocytes during meiotic maturation, with significantly higher levels in the MII stage compared with the GV‐ and MI stages (p <.05), whereas the opposite pattern of Dnmt1 expression was detected. In the period to sexual maturity (3‐year‐old), DNMT1 showed an age‐related pattern of ovarian expression at both the gene and protein levels. Immunohistochemistry analysis also indicated maturation‐stage‐related differences in DNMT1 expression in the ovarian follicles and corpus luteum, with expression predominantly detected in cumulus cells and oocytes. MiR‐342‐3p inhibitors effectively upregulated Dnmt1 expression and significantly inhibited oocyte meiotic maturation. Taken together, our results indicate that miR‐342‐3p plays a vital role in the meiotic maturation of yak oocytes by targeting the 3'‐untranslated regions (UTR) of Dnmt1 and provide a new perspective on the mechanism of this process. [ABSTRACT FROM AUTHOR]

Published

2022

12. Facile synthesis of black phosphorus–Au nanocomposites for enhanced photothermal cancer therapy and surface-enhanced Raman scattering analysis.

Author

Yang, Guangcun, Liu, Zhiming, Li, Yi, Hou, Yuqing, Fei, Xixi, Su, Chengkang, Wang, Songmao, Zhuang, Zhengfei, and Guo, Zhouyi

Published

2017

13. The Expression and Epigenetic Characteristics of the HSF2 Gene in Cattle-Yak and the Correlation with Its Male Sterility.

Author

Yang Q, Xie Y, Pan B, Cheng Y, Zhu Y, Fei X, Li X, Yu J, Chen Z, Li J, and Xiong X

Abstract

Aberrant expression of the heat shock proteins and factors was revealed to be closely associated with male reproduction. Heat shock factor 2 (HSF2) is a transcription factor that is involved in the regulation of diverse developmental pathways. However, the role and the corresponding molecular mechanism of HSF2 in male cattle-yak sterility are still poorly understood. Therefore, the aim of this study was to obtain the sequence and the biological information of the cattle-yak HSF2 gene and to investigate the spatiotemporal expression profiles of the locus during the development of cattle-yak testes. Additionally, the differential expression was analyzed between the cattle-yak and the yak, and the methylation of corresponding promoter regions was compared. Our results showed an additional 54 bp fragment and a missense mutation (lysine to glutamic acid) were presented in the cattle-yak HSF2 gene, which correlated with enriched expression in testicular tissue. In addition, the expression of the HSF2 gene showed dynamic changes during the growth of the testes, reaching a peak in adulthood. The IHC indicated that HSF2 protein was primarily located in spermatocytes (PS), spermatogonia (SP), and Sertoli cells (SC) in cattle-yak testes, compared with the corresponding cells of cattle and the yak. Furthermore, bisulfite-sequencing PCR (BSP) revealed that the methylated CpG sites in the promoter region of the cattle-yak HSF2 were more numerous than in the yak counterpart, which suggests hypermethylation of this region in the cattle-yak. Taken together, the low expression abundance and hypermethylation of HSF2 may underpin the obstruction of spermatogenesis, which leads to male cattle-yak infertility. Our study provided a basic guideline for the HSF2 gene in male reproduction and a new insight into the mechanisms of male cattle-yak sterility.

Published

2024

14. The Biological Characteristics and Differential Expression Patterns of TSSK1B Gene in Yak and Its Infertile Hybrid Offspring.

Author

Zhu Y, Pan B, Fei X, Hu Y, Yang M, Yu H, Li J, and Xiong X

Abstract

This study aimed to investigate the spatially and temporally expressed patterns and biological characteristics of TSSK1B in male yaks and explore the potential correlation between TSSK1B and male sterility of the yak hybrid offspring (termed cattle-yak). First, the coding sequence (CDS) of TSSK1B was cloned by RT-PCR, and bioinformatics analysis was conducted with relevant software. Quantitative real-time PCR (RT-qPCR) was employed to detect the expression profile of TSSK1B in various tissues of male adult yaks, the spatiotemporal expression of TSSK1B in different stages of yak testes, and the differential expression of TSSK1B between yak and cattle-yak testes. The cellular localization of TSSK1B was determined by immunohistochemistry (IHC). Furthermore, the methylation status of the TSSK1B promoter region was analyzed by bisulfite-sequencing PCR (BSP). The results showed that TSSK1B was 1235 bp long, including 1104 bp of the CDS region, which encoded 367 amino acids. It was a conserved gene sharing the highest homology with Bos mutus (99.67%). In addition, the bioinformatics analysis revealed that TSSK1B was an unstable hydrophilic protein mainly containing the alpha helix of 34.06% and a random coil of 44.41%, with a transmembrane structure of 29 amino acids long. The RT-qPCR results demonstrated that TSSK1B was specifically expressed in yak testes compared with that in other tissues and especially highly expressed in adult yak testes. On the contrary, TSSK1B was hardly expressed in the testis of adult cattle-yak. IHC confirmed that TSSK1B protein was more strongly expressed in the testes of adult yaks than in their fetal and juvenile counterparts. Interestingly, nearly no expression was observed in the testes of cattle-yak compared with the corresponding testes of yak. Bisulfite-sequencing PCR (BSP) revealed that the methylated CpG sites in the TSSK1B promoter region of cattle-yak was significantly higher than that in the yak. Taken together, this study revealed that TSSK1B was specifically expressed in yak testes and highly expressed upon sexual maturity. Moreover, the rare expression in cattle-yak may be related to the hypermethylation of the promoter region, thereby providing a basis for further studies on the regulatory mechanism of TSSK1B in male cattle-yak sterility., Competing Interests: The authors declare that the authors or author&rsquo;s institution have no financial or other relationship with other people or organizations that may inappropriately influence the author&rsquo;s work, and manuscript is approved by all authors for publication.

Published

2023

15. Biodegradable Black Phosphorus-based Nanomaterials in Biomedicine: Theranostic Applications.

Author

Wang Z, Liu Z, Su C, Yang B, Fei X, Li Y, Hou Y, Zhao H, Guo Y, Zhuang Z, Zhong H, and Guo Z

Subjects

Animals, Biosensing Techniques methods, Cell Line, Tumor, Drug Carriers chemistry, Drug Carriers radiation effects, Drug Carriers therapeutic use, Drug Carriers toxicity, Humans, Light, Neoplasms drug therapy, Neoplasms therapy, Optical Imaging methods, Phosphorus chemistry, Phosphorus radiation effects, Phosphorus toxicity, Quantum Dots chemistry, Quantum Dots radiation effects, Quantum Dots toxicity, Theranostic Nanomedicine methods, Phosphorus therapeutic use, Quantum Dots therapeutic use

Abstract

Ascribe to the unique two-dimensional planar nanostructure with exceptional physical and chemical properties, black phosphorous (BP) as the emerging inorganic twodimensional nanomaterial with high biocompatibility and degradability has been becoming one of the most promising materials of great potentials in biomedicine. The exfoliated BP sheets possess ultra-high surface area available for valid bio-conjugation and molecular loading for chemotherapy. Utilizing the intrinsic near-infrared optical absorbance, BPbased photothermal therapy in vivo, photodynamic therapy and biomedical imaging has been realized, achieving unprecedented anti-tumor therapeutic efficacy in animal experiments. Additionally, the BP nanosheets can strongly react with oxygen and water, and finally degrade to non-toxic phosphate and phosphonate in the aqueous solution. This manuscript aimed to summarize the preliminary progresses on theranostic application of BP and its derivatives black phosphorus quantum dots (BPQDs), and discussed the prospects and the state-of-art unsolved critical issues of using BP-based material for theranostic applications., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2019

16. Multifunctional Nanoplatform Based on Black Phosphorus Quantum Dots for Bioimaging and Photodynamic/Photothermal Synergistic Cancer Therapy.

Author

Li Y, Liu Z, Hou Y, Yang G, Fei X, Zhao H, Guo Y, Su C, Wang Z, Zhong H, Zhuang Z, and Guo Z

Subjects

Phosphorus, Photochemotherapy, Phototherapy, Theranostic Nanomedicine, Quantum Dots

Abstract

A multifunctional nanoplatform based on black phosphorus quantum dots (BPQDs) was developed for cancer bioimaging and combined photothermal therapy (PTT) and photodynamic therapy (PDT). BPQDs were functionalized with PEG chains to achieve improved biocompatibility and physiological stability. The as-prepared nanoparticles exhibite prominent near-infrared (NIR) photothermal and red-light-triggered photodynamic properties. The combined therapeutic application of PEGylated BPQDs were then performed in vitro and in vivo. The results demonstrate that the combined phototherapy significantly promote the therapeutic efficacy of cancer treatment in comparison with PTT or PDT alone. BPQDs could also serve as the loading platform for fluorescent molecules, allowing reliable imaging of cancer cells. In addition, the low cytotoxicity and negligible side effects to main organs were observed in toxicity experiments. The theranostic characteristics of PEGylated BPQDs provide an uplifting potential for the future clinical applications.

Published

2017

17. Synthesis of Au NP@MoS₂ Quantum Dots Core@Shell Nanocomposites for SERS Bio-Analysis and Label-Free Bio-Imaging.

Author

Fei X, Liu Z, Hou Y, Li Y, Yang G, Su C, Wang Z, Zhong H, Zhuang Z, and Guo Z

Abstract

In this work, we report a facile method using MoS₂ quantum dots (QDs) as reducers to directly react with HAuCl₄ for the synthesis of Au nanoparticle@MoS₂ quantum dots (Au NP@MoS₂ QDs) core@shell nanocomposites with an ultrathin shell of ca. 1 nm. The prepared Au NP@MoS₂ QDs reveal high surface enhanced Raman scattering (SERS) performance regarding sensitivity as well as the satisfactory SERS reproducibility and stability. The limit of detection of the hybrids for crystal violet can reach 0.5 nM with a reasonable linear response range from 0.5 μM to 0.5 nM (R² ≈ 0.974). Furthermore, the near-infrared SERS detection based on Au NP@MoS₂ QDs in living cells is achieved with distinct Raman signals which are clearly assigned to the various cellular components. Meanwhile, the distinguishable SERS images are acquired from the 4T1 cells with the incubation of Au NP@MoS₂ QDs. Consequently, the straightforward strategy of using Au NP@MoS₂ QDs exhibits great potential as a superior SERS substrate for chemical and biological detection as well as bio-imaging., Competing Interests: The authors declare no conflict of interest.

Published

2017