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1. Identification of a recessive gene RgM4G52 conferring red glume, stem, and rachis in a Triticum boeoticum mutant.

Author

Longyu Chen, Junqing Zhang, Pan Ma, Yongping Miao, Lei Wu, Ke Zhou, Jiaru Yang, Minghu Zhang, Xin Liu, Bo Jiang, Ming Hao, Lin Huang, Shunzong Ning, Xuejiao Chen, Xue Chen, Dengcai Liu, Hongshen Wan, and Lianquan Zhang

Subjects
RECESSIVE genes, METABOLITES, PLANT metabolites, WHEAT, GENE mapping
Abstract

Anthocyanins are plant secondary metabolites belonging to the polyphenol class of natural water-soluble phytopigments. The accumulation of anthocyanins in different plant tissues can improve plant survival under adverse conditions. In addition, plants with the resulting colorful morphology can be utilized as landscape plants. Triticum boeoticum (syn. Triticum monococcum ssp. aegilopoides, 2n=2x=14, AbAb) serves as a valuable genetic resource for the improvement of its close relative common wheat in terms of enhancing resilience to various biotic and abiotic stresses. In our previous study, the EMSmutagenized mutant Z2921 with a red glume, stem, and rachis was generated from T. boeoticum G52, which has a green glume, stem, and rachis. In this study, the F1, F2, and F2:3 generations of a cross between mutant-type Z2921 and wildtype G52 were developed. A single recessive gene, tentatively designated RgM4G52, was identified in Z2921 via genetic analysis. Using bulked segregant exome capture sequencing (BSE-Seq) analysis, RgM4G52 was mapped to chromosome 6AL and was flanked by the markers KASP-58 and KASP-26 within a 3.40-cM genetic interval corresponding to 1.71-Mb and 1.61-Mb physical regions in the Chinese Spring (IWGSC RefSeq v1.1) and Triticum boeoticum (TA299) reference genomes, respectively, in which seven and four genes related to anthocyanin synthesis development were annotated. Unlike previously reported color morphology-related genes, RgM4G52 is a recessive gene that can simultaneously control the color of glumes, stems, and rachis in wild einkorn. In addition, a synthetic Triticum dicoccum-T. boeoticum amphiploid Syn-ABAb-34, derived from the colchicine treatment of F1 hybrids between tetraploid wheat PI 352367 (T. dicoccum, AABB) and Z2921, expressed the red stems of Z2921. The flanking markers of RgM4G52 developed in this study could be useful for developing additional common wheat lines with red stems, laying the foundation for marker-assisted breeding and the fine mapping of RgM4G52. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Shale Fracturability Graphic Template Based on Mixed Analytic Hierarchy Process and Mutation Theory.

Author

Sichen Li, Dehua Liu, Liang Cheng, and Pan Ma

Subjects
HIERARCHICAL Bayes model, ANALYTIC hierarchy process, SHALE, SHALE oils, HYDRAULIC fracturing, OIL shales, DATA logging
Abstract

Due to the depletion of conventional energy reserves, there has been a global shift towards non-conventional energy sources. Shale oil and gas have emerged as key alternatives. These resources have dense and heterogeneous reservoirs, which require hydraulic fracturing to extract. This process depends on identifying optimal fracturing layers, also known as 'sweet spots'. However, there is currently no uniform standard for locating these sweet spots. This paper presents a new model for evaluating fracturability that aims to address the current gap in the field. The model utilizes a hierarchical analysis approach and a mutation model, and is distinct in its use of original logging data to generate a fracturability evaluation map. Using this paper's shale fracturing sweet spot evaluation method based on a two-step mutation model, four wells in different blocks of Fuling and Nanchuan Districts in China were validated, and the results showed that the proportion of high-yielding wells on the sweet spot line could reach 97.6%, while the proportion of low-producing wells was only 78.67%. Meanwhile, the evaluation results of the model were compared with the microseismic data, and the matching results were consistent. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Analysis of spinal muscular atrophy carrier screening results in 32,416 pregnant women and 7,231 prepregnant women.

Author

Bing-bo Zhou, Xue Chen, Chuan Zhang, Yu-pei Wang, Pan-pan Ma, Sheng-ju Hao, Ling Hui, and Yun-fei Bai

Subjects
SPINAL muscular atrophy, PREGNANT women, MEDICAL personnel, NEUROMUSCULAR diseases, GENETIC counseling
Abstract

Objectives: Spinal muscular atrophy (SMA) is an autosomal recessive disease that is one of the most common in childhood neuromuscular disorders. Our screenings are more meaningful programs in preventing birth defects, providing a significant resource for healthcare professionals, genetic counselors, and policymakers involved in designing strategies to prevent and manage SMA. Method: We screened 39,647 participants from 2020 to the present by quantitative real-time PCR, including 7,231 pre-pregnancy participants and 32,416 pregnancy participants, to detect the presence of SMN1 gene EX7 and EX8 deletion in the DNA samples provided by the subjects. To validate the accuracy of our findings, we also utilized the Multiplex Ligation-dependent Probe Amplification (MLPA) to confirm the reliability of screening results obtained by quantitative real-time PCR. Result: Among the 39,647 participants who were screened, 726 participants were the carriers of SMN1. The overall carrier rate was calculated to be 1.83% (95% confidence interval: 0.86-2.8%). After undergoing screening, a total of 592 pregnancy carriers were provided with genetic counseling and only 503 of their spouses (84.97, 95% confidence interval: 82.09-87.85%) voluntarily underwent SMA screening. Conclusion: This study provides crucial insights into the prevalence and distribution of SMA carriers among the female population. The identification of 726 asymptomatic carriers highlights the necessity of comprehensive screening programs to identify at-risk individuals and ensure appropriate interventions are in place to minimize the impact of SMA-related conditions. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Dopamine-Assisted Polyethyleneimine Modification of Carbon Fiber.

Author

Zhong-xiao, Sun, Yue, Yu, Chong-pan, Ma, Ai-jun, Gao, and Yu, Wang

Abstract

Carbon fibers (CFs) used as resin matrix composites need to be treated by surface activation owing to their surface inertness. In this study, the effects and mechanisms of modification of CF by polyethyleneimine (PEI) alone and co-modification by PEI and dopamine (DA) were investigated. PEI alone was not effective in CF modification. However, introduction of DA and the NaIO4 oxidant allowed PEI molecules to be grafted onto the CF surfaces by the Schiff base reaction. When PEI and DA were simultaneously added for CF surface modification (i.e., one-step modification), different PEI (mPEI) to DA (mDA) mass ratios showed different copolymerization effects in solution. For mPEI:mDA = 6:1, copolymers with polydopamine (PDA) cores and PEI branched chains were generated. For mPEI:mDA = 1:1, copolymers with PEI cores and PDA branched chains were generated. The interfacial shear strengths (IFSSs) of the modified CFs and epoxy resin obtained for the two mPEI:mDA ratios were significantly higher than that of the unmodified CFs. And the IFSS of the modified CFs and polyimide (PI) resin was first increasing and then decreasing. Two-step modification of the CF surfaces with DA before PEI grafting was also performed. PEI was grafted onto the outermost layer of the CFs, and the IFSS of the modified CFs and PI resin reached 73.94 MPa. The IFSS was 31.61% higher than that of the unmodified CFs and 22.67% higher than that of the DA-modified CFs. The advantage of the two-step branched PEI structure on the modified CF surfaces combined with PI was demonstrated. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Delivery of intensity-modulated electron therapy by mechanical scanning: An algorithm study.

Author

Pan Ma, Yuan Tian, Minghui Li, Chuanmeng Niu, Yuchun Song, and Jianrong Dai

Subjects
SIMULATED annealing, INTRAOPERATIVE radiotherapy, DRUG dosage, COMPUTED tomography, ELECTRONS
Abstract

Purpose: In principle, intensity-modulated electron therapy (IMET) can be delivered through mechanical scanning, with a robotic arm mounting a linac. Materials and methods: Here is a scanning algorithm to identify the back-andforth, top-to-bottom (zigzag) pattern scan sequence. The algorithm includes generating beam positions with a uniform resolution according to the applicator size; adopting discrete energies to achieve the depth of 90% dose by compositing energies; selecting energy by locating the target’s distal edge; and employing the energy-by-energy scan strategy for step-and-shoot discrete scanning. After a zigzag scan sequence is obtained, the delivery order of the scan spots is optimized by fast simulated annealing (FSA) to minimize the path length. For algorithm evaluation, scan sequences were generated using the computed tomography data of 10 patients with pancreatic cancer undergoing intraoperative radiotherapy, and the results were compared between the zigzag path and an optimized path. A simple calculation of the treatment delivery time, which comprises the irradiation time, the total robotic arm moving time, the time for energy switch, and the time to stop and restart the beam, was also made. Results: In these clinical cases, FSA optimization shortened the path lengths by 12%–43%. Assuming the prescribed dose was 15 Gy, machine dose rate was 15 Gy/s, energy switch time was 2 s, stop and restart beam time was 20 ms, and robotic arm move speed was 50 mm/s, the average delivery time was 124±38 s. The largest reduction in path length yielded an approximately 10% reduction in the delivery time, which can be further reduced by increasing the machine dose rate and the robotic arm speed, decreasing the time for energy switch, and/or developing more efficient algorithms. Conclusion: Mechanically scanning IMET is potentially feasible and worthy of further exploration. [ABSTRACT FROM AUTHOR]

Published
2022
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8. Ocular adverse events associated with anti-VEGF therapy: A pharmacovigilance study of the FDA adverse event reporting system (FAERS).

Author

Pan Ma, Xinmei Pan, Ruixiang Liu, Ya Qu, Linli Xie, Jiangchuan Xie, Liya Cao, and Yongchuan Chen

Subjects
MACULAR degeneration, RHODOPSIN, VASCULAR endothelial growth factor antagonists, RETINAL artery occlusion, RETINAL artery, VASCULAR endothelial growth factors, SIGNAL detection, DRY eye syndromes, ZEAXANTHIN
Abstract

Background: The purpose of this study is to identify and characterize ocular adverse events (AEs) that are significantly associated with anti-VEGF drugs for treatment of neovascular age-related macular degeneration and compare the differences between each drug, and provide clinical reference. Methods: Ocular AEs submitted to the US Food and Drug Administration were analyzed to map the safety profile of anti-VEGF drugs. The Pharmacovigilance tools used for the quantitative detection of signals were reporting odds ratio and bayesian confidence propagation neural network. Results: A total of 10,608,503 AE reports were retrieved from FAERS, with 20,836 for ranibizumab, 19,107 for aflibercept, and 2,442 for brolucizumab between the reporting period of Q1, 2004 and Q3, 2021. We found and analyzed the different AEs with the strongest signal in each drug--ranibizumab-macular ischaemia (ROR = 205.27, IC-2SD = 3.70), retinal pigment epithelial tear (ROR = 836.54, IC-2SD = 7.19); afliberceptintraocular pressure increased (ROR = 31.09, IC-2SD = 4.61), endophthalmitis (ROR = 178.27, IC-2SD = 6.70); brolucizumab-retinal vasculitis (ROR = 2930.41, IC-2SD = 7.47) and/or retinal artery occlusion (ROR = 391.11, IC-2SD = 6.10), dry eye (ROR = 12.48, IC-2SD = 2.88). Conclusion: The presence of AEs should bring clinical attention. The use of anti-VEGF drugs should be based on the patient's underlying or present medical condition to reduce any adverse event associated with the treatment. [ABSTRACT FROM AUTHOR]

Published
2022
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9. Myelodysplastic Syndrome/Acute Myeloid Leukemia Following the Use of Poly-ADP Ribose Polymerase (PARP) Inhibitors: A Real-World Analysis of Postmarketing Surveillance Data.

Author

Quanfeng Zhao, Pan Ma, Peishu Fu, Jiayu Wang, Kejing Wang, Lin Chen, and Yang Yang

Subjects
MYELODYSPLASTIC syndromes, ACUTE myeloid leukemia, POLY(ADP-ribose) polymerase, RIBOSE, DEATH rate
Abstract

Background and purpose: poly-ADP ribose polymerase (PARP) inhibitors show impressive efficacy in a range of tumors. However, concerns about rare and fatal adverse events, including myelodysplastic syndrome (MDS) and acute myelogenous leukemia (AML) have arisen. The aim of this study was to excavate and evaluate the risk of PARP inhibitors causing MDS and AML based on real-world data from two international pharmacovigilance databases. Methods: We analyzed adverse event (AE) reports of four PARP inhibitors (olaparib, niraparib, rucaparib and talazoparib) associated with MDS and AML from the United States Food and Drug Administration (FDA) Adverse Event Reporting System (FAERS) and EudraVigilance (EV) databases between 1 October 2014, and 30 September 2021, including demographic characteristics, fatality and times to onset. Three different data mining algorithms were used to detect the signals of PARP inhibitors associated with MDS and AML. Results: In total, 16,710 and 11,937 PARP inhibitor AE reports were found in the FAERS and EV databases, of which 332 and 349 were associated with MDS and AML, respectively. The median latencies of MDS and AML associated with PARP inhibitors were 211 [interquartile range (IQR) 93.5-491.25] days and 355 (IQR 72.00-483.50) days, respectively. The average fatality rates of MDS and AML caused by the four PARP inhibitors were 39.23 and 45.39%, respectively, in the FAERS database, while those in the EV database were 32.32 and 34.94%, respectively. Based on the criteria used for the three algorithms, a significant disproportionate association was found between PARP inhibitors as a drug class and MDS/AML. Notably, the risk of MDS was much higher than that of AML. Olaparib appeared to have a stronger association with MDS and AML than did other PARP inhibitors. Conclusion: In the real world, PARP inhibitors increase the risk of MDS and AML, which can result in high mortality and tend to occur during long-term use. Our findings provide objective evidence for the postmarketing safety of PARP inhibitors. [ABSTRACT FROM AUTHOR]

Published
2022
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10. Ultrafast proton migration and Coulomb explosion of methyl chloride in intense laser fields.

Author

Pan Ma, Chuncheng Wang, Xiaokai Li, Xitao Yu, Xu Tian, Wenhui Hu, Jiaqi Yu, Sizuo Luo, and Dajun Ding

Subjects
PROTONS, COULOMB explosion, METHYL chloride, FEMTOSECOND lasers, KINETIC energy
Abstract

We investigated the ultrafast proton migration and the Coulomb explosion (CE) dynamics of methyl chloride (CH3Cl) in intense femtosecond laser fields at thewavelengths of 800 nm (5.5 x 1014 W/cm2) and 400 nm (4 x 1014W/cm2), respectively. Various fragment channels from molecular dication and trication were observed by coincidence momentum imaging through the measurement of their kinetic energy releases (KERs). The proton migration from different charged parent ions was analyzed from the obtained KER distributions. For the direct CE channel of CH3+ + Cl+ and CH3+ + Cl2+, the contribution of multiply excited electronic states and multicharged states is identified. In addition, the measurements of relative yields of the fragmentation channel at different laser wavelengths provide a selective control of proton migration for CH3Cl molecules in intense laser fields. [ABSTRACT FROM AUTHOR]

Published
2017
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11. Electrochemiluminescence Enhanced by the Synergetic Effect of Porphyrin and Multi-walled Carbon Nanotubes for Uric Acid Detection.

Author

Liying Zhang, Chuanrui Zhao, Yujiao Bai, Qian Wang, Pan Ma, Xiaojie Ma, and Peihua Zhu

Subjects
MULTIWALLED carbon nanotubes, URIC acid, ELECTROCHEMILUMINESCENCE, PORPHYRINS, SINGLE walled carbon nanotubes, ELECTRON mobility
Abstract

The design and exploration of efficient, stable and environmentally compatible organic emitters for an electrochemiluminescence (ECL) sensor is a promising topic. Herein, a novel environmentally-friendly luminophore, ZnBCBTP@MWCNTs, were fabricated via selfassembly of porphyrin molecules (ZnBCBTP) onto multiwalled carbon nanotubes (MWCNTs). The resulting luminophore ZnBCBTP@MWCNTs displayed not only the highly ECL property and but also the good accelerated electron mobility. Then, a label-free ECL biosensor based ZnBCBTP@MWCNTs was constructed for the ultrasensitive detection of uric acid. Excitingly, this proposed ECL biosensor performed a good linear relationship in the range of 0-300 µM with a low detection limit of 1.4 µM, thus offering another reliable and feasible sensing platform for clinical bioanalysis with good selectivity, stability, and repeatability. [ABSTRACT FROM AUTHOR]

Published
2022
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12. Effects of bioactive strontium-substituted hydroxyapatite on osseointegration of polyethylene terephthalate artificial ligaments.

Author

Pan Ma, Tianwu Chen, Xiaopei Wu, Yuandi Hu, Kai Huang, Youfa Wang, and Honglian Dai

Abstract

The insufficient bioactivity of polyethylene terephthalate (PET) artificial ligaments severely weakens the ligament-bone healing in anterior cruciate ligament (ACL) reconstruction, while osteogenic modification is a prevailing method to enhance osseointegration of PET artificial ligaments. In the present study, strontium-substituted hydroxyapatite (SrHA) nanoparticles with different strontium (Sr) contents were synthesized via microwave-hydrothermal method and subsequently were coated on the surface of PET artificial ligaments. The results of XRD, FT-IR, TEM and ICP-OES revealed that the doping of Sr ions had no great influences on the phase composition, morphology and particle size of HA, but affected its chemical compositions and crystallinity. The SEM images showed that nanoparticles were successfully deposited on the surface of PET grafts, the surface hydrophilicity of which was significantly improved by the prepared coatings. The in vitro study revealed that the osteogenic activity of rat bone marrow mesenchymal stem cells (rBMSCs) was affected by varying concentrations of Sr ions in coatings and the optimal osteogenic differentiation was observed in the 2SrHA-PET group, which significantly upregulated the expression of BMP-2, OCN, Col-I and VEGF. The enhanced osteogenic ability of the 2SrHA-PET group was further demonstrated through an in vivo study, which obviously promoted ligament-bone integration compared with that of PET and HA-PET groups, thus improving the biomechanical strength of the graft–bone complex. This study confirms that SrHA coatings can facilitate osseointegration in the repair of ligament injury in rabbits and thus offers a prospective method for ACL reconstruction by using Sr-containing biomaterial-modified PET artificial ligaments. [ABSTRACT FROM AUTHOR]

Published
2021
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13. Biological and antibacterial properties of composite coatings on titanium surfaces modified by microarc oxidation and sol-gel processing.

Author

Beibei LI, Tao YANG, Rongxin SUN, and Pan MA

Subjects
COMPOSITE coating, TITANIUM composites, SURFACE coatings, GALVANIZING, SOL-gel processes, GRAM-negative anaerobic bacteria, COATINGS industry
Abstract

The aim of this study was to assess the biological and antibacterial properties of composite coatings on titanium surfaces modified by microarc oxidation and sol-gel processing. A layer of hydroxyapatite (HA) with different concentrations of zinc (Zn) ions, prepared by the sol-gel method, was coated on microarc oxidized Ti (MAO-Ti) substrates. Five groups of specimens were tested. The microstructures, elemental compositions, and chemical phases of the composite coatings were investigated, and the biological and antibacterial properties of specimens were evaluated in vitro. The EDS and XRD results confirmed the composite coatings contained HA and Zn ions which was formed on titanium surfaces. The proliferation and ALP activity of BMSCs was significantly higher in group MAO-Ti+HA and MAO-Ti+HA+Zn(High), but MAO-Ti+HA+Zn(High) showed better antibacterial performance. The MAO-Ti substrate coated with the higher Zn concentration in the HA coating exhibited not only favorable biocompatibility, but also antibacterial action against Gram-negative anaerobic bacteria. [ABSTRACT FROM AUTHOR]

Published
2021
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14. Multiplication operators defined by twisted proper holomorphic maps on Bergman spaces.

Author

Hansong Huang and Pan Ma

Subjects
HOLOMORPHIC functions, VON Neumann algebras, OPERATOR theory, MULTIPLICATION, BERGMAN spaces
Abstract

The paper studies the structure and commutative properties of von Neumann algebras induced by multiplication operators on the Bergman space of a bounded domain in the complex space ℂd. We show that there is a close interplay between operator theory, geometry, and function theory. [ABSTRACT FROM AUTHOR]

Published
2020

16. FINITE RANK TRUNCATED TOEPLITZ OPERATORS VIA HANKEL OPERATORS.

Author

PAN MA and DECHAO ZHENG

Subjects
HANKEL operators, HARDY spaces, TOEPLITZ operators, MATHEMATICS, RANKING, FINITE, The
Abstract

In this paper, we give a new proof of the Bessonov theorem [Proc. Amer. Math. Soc. 142 (2014), pp. 1301-1313] on finite rank truncated Toeplitz operators on model spaces via the product of Hankel operators on Hardy space. [ABSTRACT FROM AUTHOR]

Published
2019
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17. ZERO, FINITE RANK, AND COMPACT BIG TRUNCATED HANKEL OPERATORS ON MODEL SPACES.

Author

PAN MA, FUGANG YAN, and DECHAO ZHENG

Subjects
HANKEL operators, INTEGRAL operators, MODEL space vehicles, VEHICLE models, FUNCTION algebras
Abstract

In this paper, we obtain sufficient and necessary conditions for big truncated Hankel operators on model spaces to be zero, or of finite rank or compact. Our main tools are the properties of Hardy Hankel operators and function algebras. [ABSTRACT FROM AUTHOR]

Published
2018
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19. Effect of Al2O3 Nanoparticles as Reinforcement on the Tensile Behavior of Al-12Si Composites.

Author

Pan Ma, Yandong Jia, Gokuldoss, Prashanth Konda, Zhishui Yu, Shanglei Yang, Jian Zhao, and Chonggui Li

Subjects
ALUMINUM oxide, NANOPARTICLES, TENSILE strength, METALLIC composites, METAL extrusion
Abstract

Al2O3 nanoparticle-reinforced Al-12Si matrix composites were successfully fabricated by hot pressing and subsequent hot extrusion. The influence of weight fraction of Al2O3 particles on the microstructure, mechanical properties, and the corresponding strengthening mechanisms were investigated in detail. The Al2O3 particles are uniformly distributed in the matrix, when 2 and 5 wt. %of Al2O3 particles were added to the Al-12Si matrix. Significant agglomeration can be found in composites with 10 wt. %addition of Al2O3 nanoparticles. The maximum hardness, the yield strength, and tensile strength were obtained for the composite with 5 wt. % Al2O3 addition, which showed an increase of about ~11%, 23%, and 26%, respectively, compared with the Al-12Si matrix. Meanwhile, the elongation increased to about ~30%. The contribution of different mechanisms including Orowan strengthening, thermal mismatch strengthening, and load transfer strengthening were analyzed. It was shown that the thermal mismatch strengthening has a more significant contribution to strengthening these composites than the Orowan and load transfer strengthening mechanisms. [ABSTRACT FROM AUTHOR]

Published
2017
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23. Family with sequence similarity member 20C is the primary but not the only kinase for the small-integrin-binding ligand N-linked glycoproteins in bone.

Author

Xiudong Yang, Wenjuan Yan, Ye Tian, Pan Ma, Opperman, Lynne A., and Xiaofang Wang

Subjects
GLYCOPROTEINS, INTEGRINS, BONE physiology, PROTEIN kinases, PHOSPHORYLATION, WESTERN immunoblotting, LIGAND binding (Biochemistry), SERINE
Abstract

Recent studies have identified family with sequence similarity member 20C (FAM20C) as a kinase that phosphorylates the Ser in Ser-X-Glu/phospho-Ser (pSer) motifs in the small-integrin-binding ligand N-linked glycoproteins (SIBLINGs). There is no in vivo evidence that validates this finding, and it is unclear whether FAM20C is the only kinase for SIBLINGs. We extracted bone noncollagenous proteins (NCPs) from Fam20C-knockout (KO) mice and analyzed the phosphorylation levels. The total NCPs were separated into osteopontin-, bone sialoprotein-, and dentin matrix protein-1-enriched fractions by anion-exchange chromatography and analyzed by SDS-PAGE, native PAGE, and Western immunoblot analysis. The NCP phosphorylation level in the KO mice was lower than that in the wild-type (WT). On the native gel, the SIBLINGs from KO mice showed a lower migration rate (Mr) than those from the WT. Calf intestine phosphatase treatment shifted SIBLINGs from the WT mice to the level adjacent to the KO, but failed to shift the latter, suggesting a phosphorylation loss of SIBLINGs in the KO mice. Mass spectrometry identified less pSers in the SIBLINGs from the KO mice [including the region of the acidic Ser- and aspartate-rich motif (ASARM) peptides]. In an intriguing finding, several pSers in the Ser-X-Glu motifs in the KO mice maintained their phosphorylation, whereas several others in non-Ser-X-Glu motifs did not. Phospho-Tyrs and phospho-Thrs in the SIBLINGs did not appear to be associated with FAM20C. Our results indicate that FAM20C is the primary, but not the only, kinase for the SIBLINGs.--Yang, X., Yan, W., Tian, Y., Ma, P., Opperman, L. A., Wang, X. Family with sequence similarity member 20C is the primary but not the only kinase for the small-integrin-binding ligand N-linked glycoproteins in bone. [ABSTRACT FROM AUTHOR]

Published
2016
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24. Preparation of cobalt-doped colloidal silica abrasives and their chemical mechanical polishing performances on sapphire.

Author

Pan Ma, Hong Lei, and Ruling Chen

Subjects
CHEMICAL sample preparation, COBALT compounds, SILICA gel, ABRASIVES, SAPPHIRES
Abstract

Cobalt (Co)-doped colloidal silica abrasives were synthesised by seed-induced growth method. Time-of-flight secondary ion mass spectroscopy was used to characterise the composition of the obtained abrasives. The morphology of the abrasives was measured by using scanning electron microscopy. The chemical mechanical polishing (CMP) performances of the Co-doped colloidal silica abrasives on sapphire substrates were investigated. Experiment results indicate that the Co-doped colloidal silica abrasives exhibit lower surface roughness and higher material removal rate (MRR) than that of pure colloidal silica abrasive under the same testing conditions. Furthermore, the inductively coupled plasma-atomic emission spectrometry and X-ray photoelectron spectroscopy were also used to investigate the acting mechanism of the Co-doped colloidal silica in sapphire CMP. Analysis results show that cobalt aluminate appears after polishing, implying the tribochemistry reaction occurs during CMP. The chemical reaction between element cobalt and sapphire surface during CMP can promote the chemical effect in CMP and lead to the increasing of MRR. [ABSTRACT FROM AUTHOR]

Published
2015
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29. Influence of Annealing on Mechanical Properties of Al-20Si Processed by Selective Laser Melting.

Author

Pan Ma, Prashanth, Konda G., Scudino, Sergio, Yandong Jia, Hongwei Wang, Chunming Zou, Zunjie Wei, and Eckert, Jürgen

Subjects
ANNEALING of metals, ALUMINUM-silicon alloys, SELECTIVE laser sintering, HEAT treatment of metals, MICROSTRUCTURE
Abstract

The microstructure and mechanical properties of Al-20Si produced by selective laser melting (SLM) are investigated for different heat treatment conditions. As a result of the high cooling rate during processing, the as-built SLM material displays a microstructure consisting of a supersaturated Al(Si) solid solution along with heavily refined eutectic Si and Si particles. The Si particles become coarser, and the eutectic Si gradually changes its morphology from fibrous to plate-like shape with increasing annealing temperature. The microstructural variations occurring during heat treatment significantly affect the mechanical behavior of the samples. The yield and ultimate strengths decrease from 374 and 506 MPa for the as-built SLM material to 162 and 252 MPa for the sample annealed at 673 K, whereas the ductility increases from 1.6 to 8.7%. This offers the possibility to tune microstructure and corresponding properties of the Al-20Si SLM parts to meet specific requirements. [ABSTRACT FROM AUTHOR]

Published
2014
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30. Influence of Thread Pitch, Helix Angle, and Compactness on Micromotion of Immediately Loaded Implants in Three Types of Bone Quality: A Three-Dimensional Finite Element Analysis.

Author

Pan Ma, Wei Xiong, Baosheng Tan, Wei Geng, Jiaqiang Liu, Weihong Li, and Dehua Li

Abstract

This study investigated the influence of thread pitch, helix angle, and compactness on micromotion in immediately loaded implants in bone of varying density (D2, D3, and D4). Five models of the three-dimensional finite element (0.8mm pitch, 1.6mm pitch, 2.4mm pitch, double-threaded, and triple-threaded implants) in three types of bone were created using Pro/E, Hypermesh, and ABAQUS software. The study had three groups: Group 1, different pitches (Pitch Group); Group 2, same compactness but different helix angles (Angle Group); and Group 3, same helix angle but different compactness (Compact Group). Implant micromotion was assessed as the comprehensive relative displacement. We found that vertical relative displacement was affected by thread pitch, helix angle, and compactness. Under vertical loading, displacement was positively correlated with thread pitch and helix angle but negatively with compactness. Under horizontal loading in D2, the influence of pitch, helix angle, and compactness on implant stability was limited; however, in D3 and D4, the influence of pitch, helix angle, and compactness on implant stability is increased. The additional evidence was provided that trabecular bone density has less effect on implant micromotion than cortical bone thickness. Bone type amplifies the influence of thread pattern on displacement. [ABSTRACT FROM AUTHOR]

Published
2014
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31. The first solution-processable n-type phthalocyaninato copper semiconductor: tuning the semiconducting nature viaperipheral electron-withdrawing octyloxycarbonyl substituentsElectronic supplementary information (ESI) available: Experimental and simulated isotopic patterns for molecular ion of phthalocyaninato copper complex 2; Schematic representation of the unit cell in the aggregates of compounds 2–6formed in methanol; IR spectra of complexes 1–6in the region of 400–3100 cm−1with 2 cm−1resolution; Cyclic voltammogram of compounds 2in CH2Cl2containing 0.1M [NBu4][ClO4] at a scan rate of 20 mV S−1; Drain–source current (Ids) versusdrain–source voltage (Vds) characteristic at different gate voltage for the OFET of compound 2–5on the HMDS-treated SiO2/Si substrate; Electronic absorption data for the self-assemblies in methanol (1–5) or n-hexane (6). See DOI: 10.1039/c1jm13082j

Author

Pan Ma, Jinglan Kan, Yuexing Zhang, Chunhua Hang, Yongzhong Bian, Yanli Chen, Nagao Kobayshi, and Jianzhuang Jiang

Abstract

A series of unsymmetrical phthalocyaninato copper complexes simultaneously incorporating electron-withdrawing and electron-donating substituents at the phthalocyanine periphery Cu{Pc(15C5)[(COOC8H17)6]} (2), Cu{Pc[(adj-15C5)2][(COOC8H17)4]} (3), Cu{Pc[(opp-15C5)2][(COOC8H17)4]} (4), Cu{Pc(15C5)3[(COOC8H17)2]} (5) were prepared and isolated. For comparative studies, symmetrical analogues including 2,3,9,10,16,17,24,25-octakis(octyloxycarbonyl)phthalocyaninato copper complex Cu[Pc(COOC8H17)8] (1) and 2,3,9,10,16,17,24,25-tetrakis(15-crown-5)phthalocyaninato copper complex Cu[Pc(15C5)4] (6) were also prepared. Their electrochemistry was studied by cyclic voltammetry (CV) and differential pulse voltammetry (DPV). With the help of a solution-based self-assembly process, these compounds were fabricated into organic field effect transistors (OFETs) with top contact configuration on hexamethyldisilazane (HMDS)-treated SiO2/Si substrate. In line with the electrochemical investigation results, a p-type OFET with a carrier mobility (for holes) of 0.06 cm2V−1s−1was shown for Cu[Pc(15C5)4] (6) with electron-donating 15-crown-5 as the sole type of peripheral substituent. In contrast, n-type devices with a carrier mobility (for electrons) of 6.7 × 10−6–1.6 × 10−4cm2V−1s−1were achieved for 1–5with electron-withdrawing octyloxycarbonyl substituents at the peripheral positions of phthalocyanine ring, indicating the significant effect of electron-withdrawing octyloxycarbonyl substituents on tuning the nature of phthalocyanine organic semiconductors. The present results represent the first example of solution-processed n-type phthalocyanine-based OFET devices. [ABSTRACT FROM AUTHOR]

Published
2011
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32. Morphology and chirality controlled self-assembled nanostructures of porphyrin–pentapeptide conjugate: effect of the peptide secondary conformation.

Author

Quanbo Wang, Yanli Chen, Pan Ma, Jitao Lu, Xiaomei Zhang, and Jianzhuang Jiang

Abstract

An optically active porphyrin–pentapeptide conjugate 1, actually a porphyrinato zinc complex covalently linked with a glycinyl–alanyl–glycinyl–alanyl–glycine (GAGAG) peptide chain, was designed and synthesized. The self-assembly properties of this novel porphyrin–pentapeptide conjugate in THF/n-hexane and THF/water were comparatively investigated by electronic absorption, circular dichroism (CD), IR spectroscopy, transmission electron microscopy (TEM), scanning electron microscopy (SEM), and X-ray diffraction (XRD) technique. Associated with the different secondary conformation of the pentapeptide chain covalently linked to the porphyrin ring in different solvent systems, self-assembly of conjugate 1leads to the formation of nanofibers with right-handed helical arrangement and nanotubes with left-handed helical arrangement in a stack of porphyrin chromophores according to the CD spectroscopic result in apolar THF/n-hexane (1 : 3) and polar THF/water (1 : 3) system depending on the cooperation between intramolecular or intermolecular hydrogen bonding interaction with chiral discrimination between pentapeptide chains and porphyrin–porphyrin interactions in the direction parallel to the tetrapyrrole ring of neighboring conjugate molecules. IR spectroscopic result clearly reveals the α-helix and β-sheet secondary conformation, respectively, employed by the pentapeptide chain attached at the porphyrin core in the nanostructures formed in THF/n-hexane (1 : 3) and THF/water (1 : 3). The X-ray diffraction (XRD) result confirms that in the nanotubes, a dimeric supramolecular bilayer structure was formed through an intermolecular hydrogen bonding interaction between two conjugate molecules which, as the building block, self-assembles into the target nanostructures. These results clearly reveal the effect of a secondary conformation of pentapeptide chain in the conjugate molecule on the packing mode of porphyrin chromophore, supramolecular chirality, and morphology of the self-assembled nanostructure. The present result represents not only the first example of organic nanostructures self-assembled from a covalently linked porphyrin–pentapeptide conjugate, but more importantly the first effort towards controlling and tuning the morphology and in particular the supramolecular chirality of porphyrin nanostructures viatuning the secondary conformation of peptides in different solvent systems, which is helpful towards understanding, designing, preparing, and mimicking the structure and role of naturally occurring porphyrin–peptide conjugates. In addition, both nanofibers and nanotubes were revealed to show good semiconducting properties. [ABSTRACT FROM AUTHOR]

Published
2011
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33. 2,3,9,10,16,17,23,24-Octakis(hexylsulfonyl)phthalocyanines with good n-type semiconducting properties. Synthesis, spectroscopic, and electrochemical characteristicsElectronic supplementary information (ESI) available: Synthesis procedures for 4,5-di(hexylthio)phthalonitrile, H2Pc(SC6H13)8, Cu[Pc(SC6H13)8], and Zn[Pc(SC6H13)8]; Experimental and simulated isotopic pattern for the molecular ion of Cu[Pc(SO2C6H13)8] (2) shown in the MALDI-TOF mass spectrum; 1H NMR spectra for H2Pc(SC6H13)8, Zn[Pc(SC6H13)8], and H2Pc(SO2C6H13)8(1) in CDCl3; Molecular orbital maps of HOMO and LUMO for MPc and M[Pc(SO2CH3)8] (M = 2H, Zn); the electronic absorption spectra of the aggregates fabricated from 1–3dispersed in methanol; SEM images of the two-electrode device fabricated from the aggregates of 1–3; SEM images and I–Vcurves of the two-electrode devices fabricated from the aggregates of H2Pc(SC6H13)8, Zn[Pc(SC6H13)8], and H2Pc(SO2C6H13)8. See DOI: 10.1039/c1jm10295h

Author

Yi Zhang, Pan Ma, Peihua Zhu, Xianyao Zhang, Yingning Gao, Dongdong Qi, Yongzhong Bian, Nagao Kobayashi, and Jianzhuang Jiang

Abstract

The synthesis of peripherally octa-substituted phthalocyanine compounds with eight strong electron-withdrawing hexylsulfonyl groups was systematically studied. Three new phthalocyanines M[Pc(SO2C6H13)8] [Pc(SO2C6H13)8= 2,3,9,10,16,17,23,24-octakis(hexylsulfonyl)phthalocyaninate; M = 2H (1), Cu (2), Zn (3)] were synthesized viadirect cyclic tetramerization of 4,5-di(hexylsulfonyl)phthalonitrile or through a diiminoisoindoline intermediate. Compounds 1–3could alternatively be prepared by oxidation of the hexylthio substituents in corresponding 2,3,9,10,16,17,23,24-octakis(hexylthio)phthalocyanine compounds M[Pc(SC6H13)8] (M = 2H, Cu, Zn) with m-chloroperbenzoic acid. They were fully characterized by elemental analysis and a series of spectroscopic methods. Their electrochemistry was studied by cyclic voltammetry (CV) and differential pulse voltammetry (DPV). Density function theory (DFT) calculations were conducted to study the effect of the strong electron-withdrawing groups on the electronic structure of the phthalocyanine molecules. Particularly, the first reduction potentials in the range −0.30∼−0.04 V vs.the saturated calomel electrode (SCE) for 1–3reveal their n-type semiconducting nature. The current–voltage characteristics of their aggregates demonstrate the good semiconducting properties especially for 1and 2with the conductivity value of 5.24 × 10−4and 2.73 × 10−4S m−1, respectively. [ABSTRACT FROM AUTHOR]

Published
2011
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34. Revealing orbital dependent quantum interference of O2 underlying channel-resolved strong-field spectroscopies.

Author

Jiaqi Yu, Xitao Yu, Xinning Zhao, Zhongyu Yin, Xiaokai Li, Pan Ma, Chuncheng Wang, Sizuo Luo, and Dajun Ding

Subjects
QUANTUM interference, FRONTIER orbitals, PHOTOELECTRONS, ELECTRON impact ionization, MOMENTUM distributions, MOLECULAR orbitals, DAUGHTER ions, QUANTUM networks (Optics)
Abstract

We study the molecular orbital dependent tunneling ionization and quantum interference during laser-driven rescattering electron wavepacket of O2 by performing the channel-resolved photoion and photoelectron measurements. The shifted above threshold ionization electron spectra demonstrate that direct ionization of HOMO-2 to the excited cation state contributes significantly to the generation of fragment ions, while the parent ions are generated from tunneling ionization of highest occupied molecular orbital (HOMO). Furthermore, the destructive and constructive interferences between different rescattering orbits from strong-field ionization of HOMO and HOMO-2 are confirmed by the measured channel and angle-resolved photoelectron momentum distribution. [ABSTRACT FROM AUTHOR]

Published
2020
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36. Comparison study for multiple ionization of carbonyl sulfide by linearly and circularly polarized intense femtosecond laser fields using Coulomb explosion imaging.

Author

Pan Ma, Chuncheng Wang, Sizuo Luo, Xitao Yu, Xiaokai Li, Zhenzhen Wang, Wenhui Hu, Jiaqi Yu, Yizhang Yang, Xu Tian, Zhonghua Cui, and Dajun Ding

Subjects
IONIZATION (Atomic physics), COULOMB explosion, FEMTOSECOND lasers
Abstract

We studied the relative yields and dissociation dynamics for two- and three-body Coulomb explosion (CE) channels from highly charged carbonyl sulfide molecules in intense laser fields using the CE imaging technique. The electron recollision contributions are evaluated by comparing the relative yields for the multiple ionization process in linearly polarized and circularly polarized (LP and CP) laser fields. The nonsequential multiple ionization is only confirmed for the charge states of 2 to 4 because the energy for further ionization from the inner orbital is much larger than the maximum recollision energy, 3.2Up. The novel deviations of kinetic energy releases distributions between LP and CP pulses are observed for the charge states higher than 4. It can be attributed to the stronger molecular bending in highly charged states before three-body CE with CP light, in which the bending wave packet is initialed by the triple or quartic ionization and spread along their potential curves. Compared to LP light, CP light ionizes a larger fraction of bending molecules in the polarization plane. [ABSTRACT FROM AUTHOR]

Published
2018
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38. Contribution of resonance excitation on ionization of OCS molecules in strong laser fields.

Author

Jiaqi Yu, Wenhui Hu, Xiaokai Li, Pan Ma, Lanhai He, Fuchun Liu, Chuncheng Wang, Sizuo Luo, and Dajun Ding

Subjects
RESONANCE, IONIZATION energy, PHOTOELECTRONS
Abstract

Photoelectron images from single ionization of OCS molecules are measured at 800 nm or 400 nm linearly polarized laser pulses (∼50 fs) using velocity-map imaging techniques. The resonant ionization of the molecules has been studied by tracing the electron energy shift in the photoelectron energy spectra at different laser intensities, and the contributions of three excited states at certain laser intensities and wavelengths are identified. During the ionization of OCS molecules, two excited states (1Δ and 1∏) are shifted into resonance at different 800 nm laser intensities, and the Rydberg state 4pσ ∏ is involved in the resonance for a 400 nm laser. The demonstration of resonant excitation contribution experimentally will help further the understanding of OCS ionization in strong laser fields. [ABSTRACT FROM AUTHOR]

Published
2017
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