First report of Neopestalotiopsis clavispora Causing guava scab in China.

Psidium guajava L. is widely cultivated in southern China. In May 2021, guava scab on cv. Zhenzhu was observed in Zhanjiang (21.18° N, 110.21° E), Guangdong province, China. Guava scab was corky with ovoid or round lesions on the surfaces of green fruits. Gradually the lesions sunk. Disease incidence was estimated as 85% in 500 investigated plants in about 50 ha. Twenty diseased fruits were collected from twenty trees in the field. From each fruit the margin of the diseased tissues was cut into 2 mm × 2 mm pieces; surface disinfected with 75% ethanol and 2% sodium hypochlorite for 30 and 60 s, successively; and rinsed thrice with sterile water. The tissues were plated onto potato dextrose agar (PDA) medium and incubated at 28 ℃. Thirty-four isolates were obtained. Single-spore isolation method (Liu et al. 2021) was used to recover pure cultures of three isolates (PGNC-1, PGNC-2, and PGNC-3) . The colonies were initially white with cottony aerial mycelium at 7 days on PDA. Then, these colonies form black acervular conidiomata at 10 days. Conidia were clavate to fusiform, four-septate, straight or slightly curved, and measured 15.8 to 21.2 µm × 4.5 to 6.5 µm (n = 40). The three median cells were versicolored, whereas the basal and apical cells were hyaline. Conidia had a single basal appendage (4.5 to 5.5 µm long; n = 40) and three apical appendages (19.2 to 24.5 µm long; n = 40). The morphological characteristics of the isolates were consistent with the description of Neopestalotiopsis clavispora (Maharachchikumbura et al. 2012). Molecular identification was performed using PCR method with MightyAmp DNA Polymerase (Takara-Bio, Dalian, China) (Lu et al. 2012). Sequences were generated from the isolates using primers for the rDNA ITS (ITS1/ITS4), TEF1-α (EF1-728F/EF1-986R), and ß-tubulin (T1/ßt2b) loci (Maharachchikumbura et al. 2012). The sequences of the isolates were submitted to GenBank (ITS, OQ996557 to OQ996559; TEF, OR101037 to OR101039; ß-tubulin, OR100971 to OR100973). The sequences of the isolates were 100% identical to the type strain MFLUCC12-0281 (accession nos. JX398979, JX399014, and JX399045) through BLAST analysis. The isolates clustered with N. clavispora (MFLUCC12-0280 and MFLUCC12-0281). N. clavispora and Pestalotiopsis clavispora are synonyms. The pathogenicity was tested in vivo. Plants (cv. Zhenzhu) were grown ( 3 years old) in a quarantine orchard at 25 â„ƒ to 32 â„ƒ with 60 to 80% relative humidity in May 2022. Disease-free green fruits were inoculated. Sterile cotton balls were immersed in the spore suspension (1 × 105 per mL) and sterile distilled water (control) for about 15 s before they were fixed on the wounded fruits with transparent tape. Five fruits on one plant per isolate were inoculated. Five fruits on one plant severed as control. The test was performed thrice. Disease symptoms were found on the inoculated fruits after 20 days, whereas the controls remained healthy. The pathogen was re-isolated from infected fruits and was phenotypically identical to the original isolates thus fulfilling Koch's postulates. Neopestalotiopsis or Pestalotiopsis spp. were reported to be the causal agents of guava scab in Colombia and in Hawaii (Keith et al. 2006; Solarte et al. 2018). N. clavispora has been reported to cause disease in a broad range of hosts (Ge et al. 2009; Chen et al. 2018), but not in guava. This is the first report of N. clavispora causing guava scab in China. There would be no harvest if this disease is left unmanaged.

Vertical Distribution of Soil Bacterial Communities in Different Forest Types Along an Elevation Gradient.

Microorganisms inhabit the entire soil profile and play important roles in nutrient cycling and soil formation. Recent studies have found that soil bacterial diversity and composition differ significantly among soil layers. However, little is known about the vertical variation in soil bacterial communities and how it may change along an elevation gradient. In this study, we collected soil samples from 5 forest types along an elevation gradient in Taibai Mountain to characterize the bacterial communities and their vertical patterns and variations across soil profiles. The richness and Shannon index of soil bacterial communities decreased from surface soils to deep soils in three forest types, and were comparable among soil layers in the other two forests at the medium elevation. The composition of soil bacterial communities differed significantly between soil layers in all forest types, and was primarily affected by soil C availability. Oligotrophic members of the bacterial taxa, such as Chloroflexi, Gemmatimonadetes, Nitrospirae, and AD3, were more abundant in the deep layers. The assembly of soil bacterial communities within each soil profile was mainly governed by deterministic processes based on environmental heterogeneity. The vertical variations in soil bacterial communities differed among forest types, and the soil bacterial communities in the Betula albo-sinensis forest at the medium elevation had the lowest vertical variation. The vertical variation was negatively correlated with mean annual precipitation (MAP), weighted rock content, and weighted sand particle content in soils, among which MAP had the highest explanatory power. These results indicated that the vertical mobilization of microbes with preferential and matrix flows likely enhanced bacterial homogeneity. Overall, our results suggest that the vertical variations in soil bacterial communities differ along the elevation gradient and potentially affect soil biological processes across soil profiles.

Basis for Accurate Protein pKa Prediction with Machine Learning.

pH regulates protein structures and the associated functions in many biological processes via protonation and deprotonation of ionizable side chains where the titration equilibria are determined by pKa's. To accelerate pH-dependent molecular mechanism research in the life sciences or industrial protein and drug designs, fast and accurate pKa prediction is crucial. Here we present a theoretical pKa data set PHMD549, which was successfully applied to four distinct machine learning methods, including DeepKa, which was proposed in our previous work. To reach a valid comparison, EXP67S was selected as the test set. Encouragingly, DeepKa was improved significantly and outperforms other state-of-the-art methods, except for the constant-pH molecular dynamics, which was utilized to create PHMD549. More importantly, DeepKa reproduced experimental pKa orders of acidic dyads in five enzyme catalytic sites. Apart from structural proteins, DeepKa was found applicable to intrinsically disordered peptides. Further, in combination with solvent exposures, it is revealed that DeepKa offers the most accurate prediction under the challenging circumstance that hydrogen bonding or salt bridge interaction is partly compensated by desolvation for a buried side chain. Finally, our benchmark data qualify PHMD549 and EXP67S as the basis for future developments of protein pKa prediction tools driven by artificial intelligence. In addition, DeepKa built on PHMD549 has been proven an efficient protein pKa predictor and thus can be applied immediately to, for example, pKa database construction, protein design, drug discovery, and so on.

First Report of Colletotrichum siamense causing Anthracnose on Ficus microcarpa in China.

Chinese banyan, Ficus microcarpa Linn. f. (Moraceae), is a native and popular landscape tree with high ornamental  and economic value in South China. In May 2018, a foliar disease occurred on F. Microcarpa in Zhanjiang city (21˚17'51''N, 110˚18'16''E), Guangdong Province, China. The incidence of the disease was 10% and severity was 20% (n = 100 investigated plants). Symptoms first appeared on leaves as small black spots (up to 5 mm diam) with yellow haloes. The spots gradually enlarged in size and coalesced, resulting in necrosis and early shedding of the leaves. Ten symptomatic leaves from 10 plants were collected. The margins of the samples were cut into small pieces (5 × 5 mm), surface disinfected (75% ethanol 30 s, 0.1% HgCl2 45 s, rinsed 3 times with sterile distilled water), and placed on potato dextrose agar (PDA) at 28°C with a photoperiod of 12 h. After 5 days, a total of four isolates with 100% isolation frequency were obtained and three representative strains (T6, T6-1, and T6-2) were used for morphological and molecular characterization. Colonies on PDA were white to gray with cottony mycelia, a few bright orange conidial masses developed near the inoculum point. Conidia were single-celled, smooth-walled, straight, colorless, fusiform with obtuse to slightly rounded ends, and measured 13.2 to 17.5 (avg. 15.3) × 4.3 to 6.0 (avg. 5.2) µm in size (n = 50). Appressoria were oval to irregular in shape, dark brown, and ranged from 5.8 to 9.1 (avg. 7.5) × 4.8 to 6.5 (avg. 5.6) µm (n = 50). Morphological characteristics of the isolates agreed with the description of Colletotrichum siamense (Prihastuti et al. 2009). The ITS (Nos. MK225610, ON979519, ON979520), TUB2 (Nos. MK348533, OQ130408, OQ130409), ACT (Nos. MZ852755, OQ116933, OQ116934) and GAPDH (Nos. MZ852756, OQ130406, OQ130407) sequences were 99.35%, 98.76%, 98.92% and 97.60% identical to the type C. siamense strain MFLU 090230 (accession nos. NR_144784, FJ907438, FJ907423 and FJ972575) through BLAST analysis, respectively. A phylogenetic tree was generated using the concatenated sequences of ITS, ACT, GAPDH and TUB2. The result showed that the 3 isolates were clustered with C. siamense strains including the type MFLU 090230. To perform pathogenicity tests, One leaf (wounded and/or unwounded) per seedling (n = 20, 2-year-old) was inoculated by dropping a 10 ul droplet of the conidial suspension (1 × 105) of isolate T6 or sterile distilled water (as control) at one point, respectively. These plants were wrapped in polyethylene bags for 2 days and incubated in a greenhouse at 28± 2°C with 80-90% relative humidity. Initial symptoms appeared within 5 days on all wounded and unwounded inoculated leaves, while the controls remained symptomless. Colletotrichum siamense was reisolated from the lesions in terms of morphology and molecular characterization, whereas no fungus was isolated from control leaves. The pathogenicity test was repeated three times under the same conditions. The diseases caused by C. siamense have been reported to cause anthracnose in a wide range of hosts (Weir et al. 2012), but not in F. microcarpa. In China, C. gloeosporioides has been reported to cause anthracnose on potted banyan F. microcarpa (Yao et al. 2016), but not C. siamense. This is the first report of C. siamense causing anthracnose on F. microcarpa in China. This study provides valuable information for the identification and control of the anthracnose on F. microcarpa.

First report of Neopestalotiopsis clavispora causing leaf blight on Aegiceras corniculatum in China.

Aegiceras corniculatum is an important mangrove plant that mainly grows in tropical and subtropical regions. It has important ecological, economic and social benefits (Bandaranayake 1998). In April 2021, a leaf disease on A. corniculatum was observed in Zhanjiang (21.21° N, 110.41° E), Guangdong province, China. Disease incidence and severity were 15%  and 20% (n = 100 investigated plants), respectively. The disease symptoms on leaves primarily appeared as small brown spots, then enlarged and coalesced into regular or irregular gray necrotic lesions with dark margins. At the late stage of symptom development, black acervuli appeared on the necrotic lesions. Ten symptomatic leaves from 10 plants were collected. Small pieces of tissue (4 × 4 mm) were cut from lesion borders and were surfaced disinfected in 75% ethanol for 30 s, followed by 1 min in 1% NaClO, rinsed three times with sterile water, plated on potato dextrose agar (PDA), and incubated at 28°C. After 7 days, a total of 10 fungal isolates with 100% isolation frequency were obtained and three representative strains (THS-1, THS-2, and THS-3) were used for morphological and molecular characterization. Colonies were white with cottony aerial mycelium and irregular margins. Black viscous acervuli were scattered on the colony surface 10 days after incubation. Conidia were spindle shaped, five cells, four septa, 18.77-28.70 × 4.53-6.80 µm (mean 23.13 × 5.14 µm) in size (n = 50). Basal and apical cells were colorless while the three medium cells were dark brown and lightly versicolor. All conidia had one basal appendage of 3.51-7.27 µm (mean 5.49 µm; n = 50) and two to three apical appendages of 15.80-33.64 µm (mean 25.87 µm; n = 50). These morphological characteristics are consistent with those of Neopestalotiopsis clavispora (Maharachchikumbura et al. 2012). The ITS (OM698813-15), tub2 (OM810165-67) and tef1α (OM810186-88) sequences were 99.38%, 99.09%, and 99.17% identical to the type N. clavispora strain MFLUCC12-0281 (accession nos. JX398979, JX399014, and JX399045) through BLAST analysis, respectively. A phylogenetic tree was generated using the concatenated sequences of ITS, tub2, and tef1α. The result showed that these three isolates were clustered with N. clavispora strains including the type MFLUCC12-0281. To perform pathogenicity tests, 20 healthy potted seedlings of A. corniculatum (2-year-old) were selected. Ten surface-sterilized leaves of 10 seedlings were wounded and inoculated by spraying conidial suspension ( 105 conidia/ml). The same number wounded leaves of the other 10 plants treated with sterile water served as controls. All plants were wrapped in polyethylene bags for 24 h and incubated at 28°C in a growth chamber (at 90% relative humidity). After 10 days, all the inoculated leaves showed similar symptoms to those observed in the field, whereas control leaves were asymptomatic. N. clavispora was reisolated from the lesions in terms of morphology and molecular characterization, whereas no fungus was isolated from the control leaves. The pathogenicity test was repeated three times under the same conditions. Thus, Koch's postulates were fulfilled. This pathogen has been reported on a wide host range worldwide, such as leaf spot on strawberry in China (Zhao et al. 2016) and twig blight on blueberry in Spain (Borrero et al. 2018). This is the first report of N. clavispora causing leaf blight on A. corniculatum in China. This study provides valuable information for the identification and control of the disease.

Citrate-based materials fuel human stem cells by metabonegenic regulation.

A comprehensive understanding of the key microenvironmental signals regulating bone regeneration is pivotal for the effective design of bioinspired orthopedic materials. Here, we identified citrate as an osteopromotive factor and revealed its metabonegenic role in mediating citrate metabolism and its downstream effects on the osteogenic differentiation of human mesenchymal stem cells (hMSCs). Our studies show that extracellular citrate uptake through solute carrier family 13, member 5 (SLC13a5) supports osteogenic differentiation via regulation of energy-producing metabolic pathways, leading to elevated cell energy status that fuels the high metabolic demands of hMSC osteodifferentiation. We next identified citrate and phosphoserine (PSer) as a synergistic pair in polymeric design, exhibiting concerted action not only in metabonegenic potential for orthopedic regeneration but also in facile reactivity in a fluorescent system for materials tracking and imaging. We designed a citrate/phosphoserine-based photoluminescent biodegradable polymer (BPLP-PSer), which was fabricated into BPLP-PSer/hydroxyapatite composite microparticulate scaffolds that demonstrated significant improvements in bone regeneration and tissue response in rat femoral-condyle and cranial-defect models. We believe that the present study may inspire the development of new generations of biomimetic biomaterials that better recapitulate the metabolic microenvironments of stem cells to meet the dynamic needs of cellular growth, differentiation, and maturation for use in tissue engineering.

Ultrahigh Numerical Aperture Metalens at Visible Wavelengths.

Subwavelength imaging requires the use of high numerical aperture (NA) lenses together with immersion liquids in order to achieve the highest possible resolution. Following exciting recent developments in metasurfaces that have achieved efficient focusing and novel beam-shaping, the race is on to demonstrate ultrahigh-NA metalenses. The highest NA that has been demonstrated so far is NA = 1.1, achieved with a TiO2 metalens and back-immersion. Here, we introduce and demonstrate a metalens with a high NA and high transmission in the visible range, based on crystalline silicon (c-Si). The higher refractive index of silicon compared to TiO2 allows us to push the NA further. The design uses the geometric phase approach also known as the Pancharatnam-Berry (P-B) phase, and we determine the arrangement of nanobricks using a hybrid optimization algorithm (HOA). We demonstrate a metalens with NA = 0.98 in air, a bandwidth (full width at half-maximum, fwhm) of 274 nm, and a focusing efficiency of 67% at 532 nm wavelength, which is close to the transmission performance of a TiO2 metalens. Moreover, and uniquely so, our metalens can be front-immersed into immersion oil and achieve an ultrahigh NA of 1.48 experimentally and 1.73 theoretically, thereby demonstrating the highest NA of any metalens in the visible regime reported to the best of our knowledge. The fabricating process is fully compatible with microelectronic technology and therefore scalable. We envision the front-immersion design to be beneficial for achieving ultrahigh-NA metalenses as well as immersion metalens doublets, thereby pushing metasurfaces into practical applications such as high resolution, low-cost confocal microscopy and achromatic lenses.

Optically Active Telecom Defects in MoTe2 Fewlayers at Room Temperature.

The optical and electrical properties of semiconductors are strongly affected by defect states. The defects in molybdenum ditelluride (MoTe2) show the potential for quantum light emission at optical fiber communication bands. However, the observation of defect-related light emission is still limited to cryogenic temperatures. In this work, we demonstrate the deep defect states in MoTe2 fewlayers produced via a standard van der Waal material transfer method with a heating process, which enables light emission in the telecommunication O-band. The optical measurements show evidence of localized excitons and strong interaction among defects. Furthermore, the optical emission of defects depends on the thickness of the host materials. Our findings offer a new route for tailoring the optical properties of two-dimensional materials in optoelectronic applications.

OsGRF4AA compromises heat tolerance of developing pollen grains in rice.

Extreme high temperature at the meiosis stage causes a severe decrease in spikelet fertility and grain yield in rice. The rice variety grain size on chromosome 2 (GS2) contains sequence variations of OsGRF4 (Oryza sativa growth-regulating factor 4; OsGRF4AA ), escaping the microRNA miR396-mediated degradation of this gene at the mRNA level. Accumulation of OsGRF4 enhances nitrogen usage and metabolism, and increases grain size and grain yield. In this study, we found that pollen viability and seed-setting rate under heat stress (HS) decreased more seriously in GS2 than in its comparator, Zhonghua 11 (ZH11). Transcriptomic analysis revealed that, following HS, genes related to carbohydrate metabolic processes were expressed and regulated differentially in the anthers of GS2 and ZH11. Moreover, the expression of genes involved in chloroplast development and photosynthesis, lipid metabolism, and key transcription factors, including eight male sterile genes, were inhibited by HS to a greater extent in GS2 than in ZH11. Interestingly, pre-mRNAs of OsGRF4, and a group of essential genes involved in development and fertilization, were differentially spliced in the anthers of GS2 and ZH11. Taken together, our results suggest that variation in OsGRF4 affects proper transcriptional and splicing regulation of genes under HS, and that this can be mediated by, and also feed back to, carbohydrate and nitrogen metabolism, resulting in a reduction in the heat tolerance of rice anthers.

Observation of multiple bulk bound states in the continuum modes in a photonic crystal cavity.

Obtaining bound states in the continuum (BICs) in photonic crystals gives rise to the realization of resonances with high quality factors for lasing and nonlinear applications. For BIC cavities in finite-size photonic crystals, the bulk resonance band turns into discrete modes with different mode profiles and radiation patterns. Here, photonic-crystal BIC cavities encircled by the photonic bandgap of lateral heterostructures are designed. The mirror-like photonic bandgap exhibits strong side leakage suppression to confine the mode profile in the designed cavity. Multiple bulk quantized modes are observed both in simulation and experiment. After exciting the BIC cavity at different positions, different resonance peaks are observed. The physical origin of the dependence between the resonance peak and the illuminating position is explained by analyzing the mode profile distribution and further verified by numerical simulations. Our findings have potential applications regarding the mode selectivity in BIC devices to manipulate the lasing mode in photonic-crystal surface-emitting lasers or the radiation pattern in nonlinear optics.

Localization and interaction of interlayer excitons in MoSe2/WSe2 heterobilayers.

Transition metal dichalcogenide (TMD) heterobilayers provide a versatile platform to explore unique excitonic physics via the properties of the constituent TMDs and external stimuli. Interlayer excitons (IXs) can form in TMD heterobilayers as delocalized or localized states. However, the localization of IX in different types of potential traps, the emergence of biexcitons in the high-excitation regime, and the impact of potential traps on biexciton formation have remained elusive. In our work, we observe two types of potential traps in a MoSe2/WSe2 heterobilayer, which result in significantly different emission behavior of IXs at different temperatures. We identify the origin of these traps as localized defect states and the moiré potential of the TMD heterobilayer. Furthermore, with strong excitation intensity, a superlinear emission behavior indicates the emergence of interlayer biexcitons, whose formation peaks at a specific temperature. Our work elucidates the different excitation and temperature regimes required for the formation of both localized and delocalized IX and biexcitons and, thus, contributes to a better understanding and application of the rich exciton physics in TMD heterostructures.

Fine-root functional trait response to nitrogen deposition across forest ecosystems: A meta-analysis.

Nitrogen (N) deposition has complex effects on vegetation dynamics and nutrient cycling in terrestrial ecosystems. However, how N deposition alters fine root traits remains unclear in forest ecosystems. Here, we carried out a synthesis based on 890 paired observations of 14 fine root traits from 79 articles to assess the effects of N deposition on fine root traits. The results showed that N deposition mainly affected root nutrient content and stoichiometry. Specifically, N deposition increased the root N content, root carbon: phosphorus (C:P) and root nitrogen: phosphorus (N:P) ratio, but decreased the root P content and root C:N ratio. Moreover, N deposition increased fine root respiration, but had no significant effect on other root morphological and physiological traits. N deposition effects on fine root biomass, root tissue density and fungal colonization decreased with N deposition duration. Compared to fine root P content, N deposition effects on fine root C content and C:P ratio increased with N deposition level. Moreover, the interaction between N deposition level and duration significantly affected fine root biomass. N deposition effects on fine-root biomass decreased with greater N deposition duration, especially in high N deposition experiments. Moreover, the effect of N deposition on root diameter decreased with mean annual temperature and mean annual precipitation. N form, forest type and soil depth significantly affect the effect of N deposition on fine root C:P. Therefore, the effects of N deposition on fine root traits were not only determined by N deposition level, duration and their interactions, but also regulated by abiotic factors. These findings highlight the diverse responses of fine root traits to N deposition have strong implications for forest ecosystems soil carbon stocks in a world of increasing N deposition associated with decreased root-derived carbon inputs and increases in fine-root respiration.

Biophysical Characterization of a Novel Tri-Layer Placental Allograft Membrane.

Objective: Placental tissues, including membranes composed of amnion and chorion, are promising options for the treatment of chronic wounds. Amnion and chorion contain multiple extracellular matrix (ECM) proteins and a multitude of growth factors and cytokines that, when used clinically, assist in the progression of difficult to heal wounds through restoration of a normal healing process. The objective of this study was to characterize the in vitro physical and biological properties of a dehydrated tri-layer placental allograft membrane (TPAM) consisting of a chorion layer sandwiched between two layers of amnion. Approach: Mechanical properties were evaluated by mechanical strength and enzyme degradation assays. The ECM composition of TPAM membranes was evaluated by histological staining while growth factors and cytokine presence was evaluated by a multiplex enzyme-linked immunosorbent assay. Proliferation, migration, and ECM secretion assays were performed with fibroblasts. Immunomodulatory properties were assessed by a pro-inflammatory cytokine reduction assay while the macrophage phenotype was determined by quantifying the ratio of M1 versus M2 secreted factors. Results: The unique three-layer construction improves mechanical handling properties over single- and bi-layer membranes. Results demonstrate that TPAM is rich in ECM proteins, growth factors, cytokines, and tissue inhibitors of metalloproteinases, and favorably influences fibroblast migration, proliferation, and ECM secretion when compared to negative controls. Furthermore, after processing and preservation, these membranes maintain their intrinsic immunomodulatory properties with the ability to suppress pro-inflammatory processes and modulate the M1 and M2 macrophage phenotype toward a pro-regenerative profile when compared to a negative control. Innovation: This is the first study to characterize both the biophysical and biological properties of a tri-layer placental membrane. Conclusion: This work demonstrates that TPAM has improved handling characteristics over single- and bi-layer membranes, stimulates pro-healing cellular responses, and advantageously modulates inflammatory responses, altogether making this scaffold a promising option for treating wounds, especially those that are complex or difficult to heal.

Nanoscale localized contacts for high fill factors in polymer-passivated perovskite solar cells.

Polymer passivation layers can improve the open-circuit voltage of perovskite solar cells when inserted at the perovskite-charge transport layer interfaces. Unfortunately, many such layers are poor conductors, leading to a trade-off between passivation quality (voltage) and series resistance (fill factor, FF). Here, we introduce a nanopatterned electron transport layer that overcomes this trade-off by modifying the spatial distribution of the passivation layer to form nanoscale localized charge transport pathways through an otherwise passivated interface, thereby providing both effective passivation and excellent charge extraction. By combining the nanopatterned electron transport layer with a dopant-free hole transport layer, we achieved a certified power conversion efficiency of 21.6% for a 1-square-centimeter cell with FF of 0.839, and demonstrate an encapsulated cell that retains ~91.7% of its initial efficiency after 1000 hours of damp heat exposure.

On-demand spin-state manipulation of single-photon emission from quantum dot integrated with metasurface.

The semiconductor quantum dot (QD) has been successfully demonstrated as a potentially scalable and on-chip integration technology to generate the triggered photon streams that have many important applications in quantum information science. However, the randomicity of these photon streams emitted from the QD seriously compromises its use and especially hinders the on-demand manipulation of the spin states. Here, by accurately integrating a QD and its mirror image onto the two foci of a bifocal metalens, we demonstrate the on-demand generation and separation of the spin states of the emitted single photons. The photon streams with different spin states emitted from the QD can be flexibly manipulated to propagate along arbitrarily designed directions with high collimation of the smallest measured beaming divergence angle of 3.17°. Our work presents an effectively integrated quantum method for the simultaneously on-demand manipulation of the polarization, propagation, and collimation of the emitted photon streams.

In vitro cytocompatibility evaluation of poly(octamethylene citrate) monomers toward their use in orthopedic regenerative engineering.

Citrate based polymer poly(octamethylene citrate) (POC) has shown promise when formulated into composite material containing up to 65 wt% hydroxylapatite (HA) for orthopedic applications. Despite significant research into POC, insufficient information about the biocompatibility of the monomers 1,8-Octanediol and Citrate used in its synthesis is available. Herein, we investigated the acute cytotoxicity, immune response, and long-term functionality of both monomers. Our results showed a cell-type dependent cytotoxicity of the two monomers: 1,8-Octanediol induced less acute toxicity to 3T3 fibroblasts than Citrate while presenting comparable cytotoxicity to MG63 osteoblast-like cells; however, Citrate demonstrated enhanced compatibility with hMSCs compared to 1,8-Octanediol. The critical cytotoxic concentration values EC30 and EC50, standard for comparing cytotoxicity of chemicals, were also provided. Additionally, Citrate showed slower and less inhibitory effects on long-term hMSC cell proliferation compared with 1,8-Octanediol. Furthermore, osteogenic differentiation of hMSCs exposure to Citrate resulted in less inhibitory effect on alkaline phosphatase (ALP) production. Neither monomer triggered undesired pro-inflammatory responses. In combination with diffusion model analysis of monomer release from cylindrical implants, based on which the maximum concentration of monomers in contact with bone tissue was estimated to be 2.2 × 10-4 mmol/L, far lower than the critical cytotoxic concentrations as well as the 1,8-Octanediol concentration (0.4 mg/mL or 2.7 mmol/L) affecting hMSCs differentiation, we provide strong evidence for the cytocompatibility of the two monomers degraded from citrate-based composites in the orthopedic setting.

[Case-control study on treatment of ankle fractures of supination-extorsion with different fixed position].

OBJECTIVE: To explore the best external fixation posture of ankle fracture of Lauge-Hanson III degree and IV degree supintion-eversion after manipulation. METHODS: From January 2007 to June 2010, 46 patients with ankle fracture of Lauge-Hanson III degree and IV degree supintion-eversion were selected for this study and were randomly divided into two groups (group A and group B). There were 14 males and 9 females in group A; and the Lauge-Hanson III degree was in 13 cases and IV degree was in 10 cases; fractures were reduced and fixed with plaster splint of U-shape to the posture with inversion, internal rotation and plantar flexion. There was 15 males and 8 females in group B, and the Lauge-Hanson III degree was in 14 case and IV degree was in 9 cases; fractures were reduced and fixed with plaster splint of U-shape to the posture with inversion, internal rotation and dorsiflexion. The clinical effects were evaluated according to AOFAS scoring system. RESULTS: All the patient were followed up from 6 to 18 months with an average of 12 months. In group A, AOFAS scoring was from 73 to 100 scores with an average of (92.58 +/- 5.73) scores, 16 cases obtained excellent results, 6 good, 1 fair; in group B, AOFAS scoring was from 66 to 100 scores with an average of (85.74 +/- 7.56) scores, 9 cases obtained excellent results, 7 good, 6 fair and 1 poor. The result of group A was better than that of group B. In group A, 1 case occurred with ankle joint ache after long walk and swelling in night. In group B, 6 cases also occurred with ankle joint ache after long walk and swelling in night and 1 case with stiffness of joint. So there was obvious difference (P < 0.05). CONCLUSION: For treatment of ankle fracture of Lauge-Hanson III degree and IV degree supintion-eversion, the posture with inversion, internal rotation and plantar flexion exceeds another one with inversion, internal rotation and dorsiflexion with plaster after manipulative reduction.