Ultrastable N-Type Semiconducting Fiber Organic Electrochemical Transistors for Highly Sensitive Biosensors.

Organic electrochemical transistors (OECTs) have attracted increasing attention due to their merits of high transconductance, low operating voltage, and good biocompatibility, ideal for biosensors. However, further advances in their practical applications face challenges of low n-type performance and poor stability. Here, it is demonstrated that wet-spinning the commercially available n-type conjugated polymer poly(benzimidazobenzophenanthroline) (BBL) into highly aligned and crystalline fibers enhances both OECT performance and stability. Although BBL is only soluble in high-boiling-point strong acids, it can be wet-spun into high-quality fibers with adjustable diameters. The BBL fiber OECTs exhibit a record-high area-normalized transconductance (gm,A) of 2.40 µS µm-2 and over 10 times higher figure-of-merit (µC*) than its thin-film counterparts. More importantly, these fiber OECTs exhibit remarkable stability with no noticeable performance attenuation after 1500 cycles over 4 h operation, outperforming all previously reported n-type OECTs. The superior performance and stability can be attributed to shorter π-π stacking distance and ordered molecular arrangement in the fibers, endowing the BBL fiber OECT-based biosensors with outstanding sensitivity while keeping a miniaturized form factor. This work demonstrates that, beyond new material development, developing new fabrication technology is also crucial for addressing the performance and stability issues in n-type OECTs.

First report of Colletotrichum siamense causing leaf spot on Macropanax rosthornii in China.

Macropanax rosthornii (Harms) C. Y. Wu ex Hoo is an evergreen broadleaf species cultivated in subtropical China as an ornamental (Liang et al. 2015). In August 2020, leaf spot symptoms were observed on the campus of Jiangxi Agricultural University (28°45'56″N, 115°50'21″E), Jiangxi province, China. The early symptoms were small spots on the edge or tip of the leaves. The spots gradually expanded and became grayish brown with reddish egdes, eventually developing large irregular lesions. The disease incidence was estimated at 45%. Leaf pieces (5 × 5 mm) from the lesion borders were surface disinfested in 70% ethanol for 30 s, followed by 2% NaOCl for 1 min, and then rinsed three times with sterile water (Li et al. 2023). Tissues were placed on potato dextrose agar (PDA) and incubated at 25°C in the dark. Three representative single-spore isolates (DS-2, DS-3, and DS-5) were used for morphological studies and phylogenetic analyses. Colonies on PDA of the three isolates were white-to-gray with cottony mycelia. Conidia were single-celled, straight, hyaline, cylindrical, clavate, and measured 14.3-18.1 ×4.3-6.9 µm (15.8 ± 1.1 × 5.3 ± 0.2 µm, n = 100). Appressoria were brown to dark brown, ovoid to clavate, slightly irregular to irregular, and ranged from 5.6-9.4 × 4.5-6.9 µm (7.7 ± 0.3 × 5.5 ± 0.2 µm, n=100). Morphological features were similar to the Colletotrichum gloeosporioides species complex (Weir et al. 2012). The internal transcribed spacer (ITS) regions, calmodulin (CAL), actin (ACT), ß-tubulin 2 (TUB2), glyceraldehyde-3-phosphate dehydrogenase (GAPDH) and chitin synthase (CHS-1) were amplified from genomic DNA for the three isolates using primers ITS1/ITS4, CL1/CL2, ACT-512F/ACT-783R, T1/Bt2b, GDF/GDR and CHS-79F/CHS-354R (Weir et al. 2012), respectively. Sequences were deposited in GenBank under nos. OL895315 - OL895316 (ITS), OL830190 - OL830192 (ACT), OL830181 - OL830183 (GAPDH), OL830178 - OL830180 (TUB2), OL830184 - OL830186 (CHS-1), and OL830187 - OL830189 (CAL). A maximum likelihood and Bayesian posterior probability analyses using IQtree v. 1.6.8 and Mr. Bayes v. 3.2.6 with the concatenated sequences placed DS-2, DS-3, and DS-5 in the clade of C. siamense. Based on the multi-locus phylogeny and morphology, three isolates were identified as C. siamense. Pathogenicity of the three isolates was verified on six 5-year-old Macropanax rosthornii plants, which were grown in the field. Three healthy leaves per plant were wounded using a sterile needle (Φ=0.5 mm) and inoculated with a 20-µL conidial suspension per leaf (106 conidia/mL). Another six control plants were treated with sterile water. Eighteen leaves were used for the pathogenicity test of three isolates. All leaves were covered with plastic bags to maintain humidity for 2 days. The inoculated leaves showed similar symptoms to those observed in the field, whereas control leaves were asymptomatic after 8 days. The fungi were consistently reisolated only from the inoculated and symptomatic leaves, fulfilling Koch's postulates. C. siamense can cause leaf diseases in a variety of hosts, including Liriodendron chinense × tulipifera (Zhu et al. 2019), Salix matsudana (Zhang et al. 2021), Carya illinoinensis (Zhuo et al. 2023). However, this is the first report of C. siamense infecting Macropanax rosthornii in China. This work provided crucial information for epidemiologic studies and appropriate control strategies for this newly emerging disease.

Versatile Synthesis of Hollow-Structured Mesoporous Carbons by Enhanced Surface Interaction for High-Performance Lithium-Ion Batteries.

Nanoporous carbons are very attractive for various applications including energy storage. Templating methods with assembled amphiphilic molecules or porous inorganic templates are typically used for the synthesis. Amongst the different members of this family, CMK-5-like structures that are constructed to consist of sub-10 nm amorphous carbon nanotubes and ultrahigh specific surface area due to their thin pore walls, have the best properties in various respects. However, the fabrication of such hollow-structured mesoporous carbons entails elaborately tailoring the surface properties of the template pore walls and selecting specific carbon precursors. Thus, very limited cases are successful. Herein, a versatile and general silanol-assisted surface-casting method to create hollow-structured mesoporous carbons and heteroatom-doped derivatives with numerous organic molecules (e.g., furfuryl alcohol, resol, 2-thiophene methanol, dopamine, tyrosine) and different structural templates is reported. These carbon materials exhibit ultrahigh surface area (2400 m2  g-1 ), large pore volume (4.0 cm3  g-1 ), as well as satisfactory lithium-storage capacity (1460 mAh g-1 at 0.1 A g-1 ), excellent rate capability (320 mAh g-1 at 5 A g-1 ), and very outstanding cycling performance (2000 cycles at 5 A g-1 ).

A wash-free, elution-free and low protein adsorption paper-based material for nucleic acid extraction.

Nucleic acid detection technologies have been widely utilized for various diseases. Conventional laboratory tests are less suitable for use in resource-limited settings as they are time-consuming, high-cost, complex, and heavily dependent on benchtop equipment. Rapid nucleic acid detection methods that consist of rapid nucleic acid extraction steps could overcome these challenges. A paper-based platform has been utilized to develop various rapid nucleic acid extraction methods owing to its cost-effectiveness, portability, and easy-modification. However, the existing paper-based nucleic acid extraction technologies mainly focus on improving the adsorption capacity of nucleic acids without reducing the non-specific adsorption capacity of proteins. In this study, paper-based nucleic acid extraction technology with wash-free, elution-free, and low protein adsorption was developed. The fabrication of paper involves the mixing of polyethylene glycol (PEG)-modified cotton fiber, chitosan (COS)-modified cotton fiber, and cotton fiber to form PEG-modified cotton fiber/chitosan-modified cotton fiber/cotton fiber (PEG-CF/COS-CF/CF) paper by the wet molding method. The result showed that PEG-CF/COS-CF/CF paper has a desirable pore size (23.9 ± 4.03 µm), good mechanical strength (dry: 9.37 Mpa and wet: 0.28 Mpa), and hydrophilicity (contact angle: 42.6° ± 0.36°). NH3+ groups of COS and OH- groups of PEG were observed on its surface and the adsorption efficiency of nucleic acid in TE buffer was 42.48% ± 0.30%. The limit of detection of pure DNA with this PEG-CF/COS-CF/CF paper by qPCR was as low as 25 ng. Additionally, this platform could successfully extract nucleic acid from 30 µL of a saliva sample, highlighting its potential use for clinical sample testing. The proposed paper-based nucleic acid extraction platform shows tremendous potential for disease diagnosis in resource-limited settings.

A nitrocellulose/cotton fiber hybrid composite membrane for paper-based biosensor.

Nitrocellulose (NC) membrane was fabricated and tested for its potential use in various paper-based biosensors for use in point-of-care testing. However, contemporary technologies are complex, expensive, non-scalable, limited by conditions, and beset with potentially adverse effects on the environment. Herein, we proposed a simple, cost-effective, scalable technology to prepare nitrocellulose/cotton fiber (NC/CF) composite membranes. The NC/CF composite membranes with a diameter of 20 cm were fabricated in 15 min using papermaking technology, which contributes to scalability in the large-scale production of these composites. Compared with existing commercial NC membranes, the NC/CF composite membrane is characterized by small pore size (3.59 ± 0.19 µm), low flow rate (156 ± 55 s/40 mm), high dry strength (up to 4.04 MPa), and wet strength (up to 0.13 MPa), adjustable hydrophilic-hydrophobic (contact angles ranged from 29 ± 4.6 to 82.8 ± 2.4°), the good adsorption capacity of protein (up to 91.92 ± 0.07 µg). After lateral flow assays (LFAs) detection, the limit of detection is 1 nM, which is similar to commercial NC membrane (Sartorius CN 140). We envision the NC/CF composite membrane as a promising material for paper-based biosensors of point-of-care testing applications.

Vascular mimicry induced by m6A mediated IGFL2-AS1/AR axis contributes to pazopanib resistance in clear cell renal cell carcinoma.

Metastatic clear cell renal cell carcinoma (ccRCC) is a lethal sub-type of kidney cancer. Vascular mimicry (VM) has been postulated as an alternative route to supply tumors with nutrients, playing key role in tumor development. Whether VM development is linked to pazopanib efficacy, however, remains unclear. Here, our in vitro and in vivo models identified that VM development was profoundly increased in pazopanib resistant ccRCC as compared to the sensitive controls, which was due to the activation of IGFL2-AS1/AR/TWIST1 signaling. IGFL2-AS1, a m6A modified long coding RNA, was demethylated by METTL3/METTL14 complex and stabilized owing to its failing recognition by YTHDF2 upon chronic pazopanib treatment. Further mechanistic dissection illustrated that IGFL2-AS1 physically interacted with the 5'-UTR AR mRNA and neutralized the negative regulation of 5'-uORF (upstream open reading frame) on AR translation. Indeed, IGFL2-AS1 short of AR binding region failed to promote AR expression, VM formation and pazopanib resistance. In vivo xenografted mouse model also elucidated that inhibition of AR activity with enzalutamide or silence of IGFL2-AS1 with siRNAs all led to retarded growth of pazopanib resistant ccRCC tumors. Together, these results suggest that IGFL2-AS1 may represent a key player to mediate pazopanib-induced VM formation of ccRCC cells via regulating AR expression and targeting this newly identified IGFL2-AS1/AR signaling may help us to better suppress ccRCC VM formation and to increase the therapeutic efficacy of pazopanib.

Comparison of paper-based nucleic acid extraction materials for point-of-care testing applications.

Cheap, rapid, simple and equipment-free nucleic acid extraction (NAE) is highly preferred for implementing nucleic acid detection at point-of-care (POC). Paper-based NAE materials have been extensively utilized due to their low cost, abundance, portability, biocompatibility and ease of chemical modification. However, it is challenging for users to choose the proper one from existing paper-based NAE materials for specific POC applications, which is determined by their physical and chemical properties. Additionally, building the relationship between the physical and chemical properties and the NAE efficiency of paper-based materials is instructive for development of new paper-based NAE materials. In this study, we first systematically compared the physical and chemical properties of six widely used paper-based NAE materials (namely Whatman filter paper #1, FTA card, FTA elute card, Fusion 5, silica membrane and polyethersulfone (PES) membrane), and then evaluated their NAE efficiency. The obtained results indicated that pore uniformity, wet strength, porosity and functional groups are key parameters to affect the efficiency of NAE. The NAE performance of FTA card is the best with high concentration and purity. Finally, we envision that more cost-effective paper-based NAE materials will be developed for POCT application in the future. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s10570-022-04444-6.

Spatial Confinement-Derived Double-Accelerated DNA Cascade Reaction for Ultrafast and Highly Sensitive In Situ Monitoring of Exosomal miRNA and Exosome Tracing.

Exosomal microRNAs (miRNAs) are reliable biomarkers of disease progression, allowing for non-invasive detection. However, detection of exosomal miRNAs in situ remains a challenge due to low abundance, poor permeability of the lipid bilayers, and slow kinetics of previous methods. Herein, an accelerated DNA nanoprobe was implemented for fast, in situ monitoring of miRNA in exosomes by employing a spatial confinement strategy. This nanoprobe not only detects miRNA in exosomes but also distinguishes tumor exosomes from those derived from normal cells with high accuracy, paving the way toward exosomal miRNA bioimaging and disease diagnosis. Furthermore, the fast response allows for this nanoprobe to be successfully utilized to monitor the process of exosomes endocytosis, making it also a tool to explore exosome biological functions.

The relationship between teachers' emotional intelligence and teaching for creativity: The mediating role of working engagement.

Teaching for creativity (TfC) has received increasing attention as an important way to cultivate students' creative thinking and behaviors. The purpose of this study is to examine the mediating role of teachers' work engagement (WE) on the relationship between their emotional intelligence (EI) and teaching for creativity. The study is a cross-sectional design. The sample of the study is 3,307 secondary school English teachers working in Jilin Province, China. The findings show that the teachers' perceptions of emotional intelligence, work engagement and teaching for creativity are relatively high. The findings confirm the hypotheses. The results of structural equation modeling and bootstrapping show that teachers' emotional intelligence is positively correlated with work engagement and teaching for creativity, and teachers' work engagement mediates the relationship between emotional intelligence and teaching for creativity.

Cuproptosis-Related MiR-21-5p/FDX1 Axis in Clear Cell Renal Cell Carcinoma and Its Potential Impact on Tumor Microenvironment.

As a newly identified type of programmed cell death, cuproptosis may have an impact on cancer development, including clear cell renal cell carcinoma (ccRCC). Herein, we first noticed that the expression levels of cuproptosis regulators exhibited a tight correlation with the clinicopathological characteristics of ccRCC. The cuproptosis-sensitive sub-type (CSS), classified via consensus clustering analysis, harbored a higher overall survival rate compared to the cuproptosis-resistant sub-type (CRS), which may have resulted from the differential infiltration of immune cells. FDX1, the cuproptosis master regulator, was experimentally determined as a tumor suppressor in ccRCC cells by suppressing the cell growth and cell invasion of ACHN and OSRC-2 cells in a cuproptosis-dependent and -independent manner. The results from IHC staining also demonstrated that FDX1 expression was negatively correlated with ccRCC tumor initiation and progression. Furthermore, we identified the miR-21-5p/FDX1 axis in ccRCC and experimentally verified that miR-21-5p directly binds the 3'-UTR of FDX1 to mediate its degradation. Consequently, a miR-21-5p inhibitor suppressed the cell growth and cell invasion of ACHN and OSRC-2 cells, which could be compensated by FDX1 knockdown, reinforcing the functional linkage between miR-21-5p and FDX1 in ccRCC. Finally, we evaluated the ccRCC tumor microenvironment under the miR-21-5p/FDX1 axis and noted that this axis was strongly associated with the infiltration of immune cells such as CD4+ T cells, Treg cells, and macrophages, suggesting that this signaling axis may alter microenvironmental components to drive ccRCC progression. Overall, this study constructed the miR-21-5p/FDX1 axis in ccRCC and analyzed its potential impact on the tumor microenvironment, providing valuable insights to improve current ccRCC management.

Dissolvable sugar barriers to enhance the sensitivity of nitrocellulose membrane lateral flow assay for COVID-19 nucleic acid.

Nitrocellulose (NC) membrane can have value-added applications for lateral flow assay (LFA)-based diagnostic tools, which has great potential for the detection of pathogens, such as COVID-19, in different environments. However, poor sensitivity of the NC membrane based LFA limits its further application in many cases. Herein, we developed a facile method for LFA sensitivity enhancement, by incorporating two-sugar barrier into LFAs: one between the conjugation pad and the test line, and the other between the test line and the control line. ORF1ab nucleic acid of COVID-19 was used as the model target to demonstrate the concept on the HF120 membrane. Results show that at optimum conditions, the two sugar barrier LFAs have a detection limit of 0.5 nM, which is compared to that of 2.5 nM for the control LFA, achieving a 5-fold sensitivity increase. This low cost, easy-to-fabricate and easy-to-integrate LFA method may have potential applications in other cellulose paper-based platforms.

[Protective Effect of Acupuncture Serum Derived from Acute Convulsion Rats on Cultured Hip-pocampal Neurons with Seizure-like Discharges by Regulating Expression of Endoplasmic Reticulum Stress-inducible Molecular Chaperones].

OBJECTIVE: To observe the effect of acupuncture serum on the number of apoptosis of the cultured hippocampal neurons with seizure-like discharges and the expression levels of endoplasmic reticulum stress-inducible molecular chaperones glucose-regulated protein 78 (GRP 78), C/EBP homologous protein (CHOP) and cysteine protease protein-12(Caspase-12), so as to reveal its protective mechanism on seizure-induced injury of hippocampal neurons. METHODS: A regular primary culture of neurons derived from the hippocampus of the newly-born SD rats was conducted for 10 days, then these cultured neurons that displayed seizure-like discharges in Mg2+-free medium were divided into normal extracellular fluid (medium) group (normal), Mg2+-free medium group, acupuncture serum group and non-acupuncture serum group (n=30). Blood examples were taken from pentylenetetrazol (i.p.i.) -induced acute convulsion adult SD rats underwent manual acupuncture stimulation of "Baihui" (GV 20) and "Dazhui" (GV 14, once daily for 7 days) to prepare acupuncture serum. Hippocampal neuronal cultures were prepared from hip-pocampal tissue isolated from 24 h-old SD rats. The isolated neurons were incubated normally in Dulbecco's Modified Eagle Me-dium (DMEM)/Nutrient Mixture F 12(1:1) for 10 days, followed by exposure to the extracellular fluid {composed of NaCl, KCl, CaCl2, MgCl2, HEPES[4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid], D-glucose and aminoethanoic acid (pH 7.3)} for 3 h and returned to normal culture for normal group, by exposure to Mg2+-free extracellular fluid (to induce seizure-like discharges) for 3 h and returned to normal culture for Mg2+-free medium group, by exposure to Mg2+-free extracellular fluid for 3 h and returned to a regular culture medium[DMEM/F 12(1:1)] plus acupuncture serum (9:1) for acupuncture serum group, and by exposure to Mg2+-free extracellular fluid for 3 h and returned to DMEM/F 12(1:1) plus non-acupuncture serum (9:1) for non-acupuncture serum group. The cell apoptosis was assessed at 2, 12 and 48 h after application of acupuncture serum or non-acupuncture serum by using TUNEL method and the expression levels of GRP 78, CHOP and Caspase-12 proteins of the cultured cells at the 3 time-points detected using Western blot. RESULTS: The number of apoptotic hippocampal neurons was significantly higher in the Mg2+-free medium group than in the normal medium group at 2, 12 and 48 h (P<0.01), and considerably decreased in the acupuncture serum group (but not in the non-acupuncture serum group) relevant to the Mg2+-free medium group at the same time-points after application of acupuncture serum (P<0.05, P<0.01). The expression levels of GRP 78 protein at 2 h, CHOP and Caspase-12 proteins at 2, 12 and 48 h were significantly up-regulated in the Mg2+-free medium group relavant to the normal me-dium group (P<0.05, P<0.01). After application of acupuncture serum to the culture medium, the expression levels of GRP 78 protein at the three time-points were significantly increased in comparison with the Mg2+-free medium group (P<0.01,P<0.05), while those of CHOP at 12 and 48 h, and Caspase-12 at the three time-points were notably down-regulated (P<0.05,P<0.01). No significant differences were found between the non-acupuncture serum and Mg2+-free medium groups in the expression levels of GRP 78, CHOP and Caspase-12 proteins at the three time-points (P>0.05). CONCLUSIONS: Acupuncture serum can significantly reduce apoptosis of the cultured hippocampal neurons, which may be related to its effects in increasing the expression of GRP 78 protein and down-regulating the expression of CHOP and Caspase-12 proteins, suggesting an important role of acupuncture serum in maintaining the stability of the neuronal endoplasmic reticulum.