57,964 research outputs found
sj-pptx-1-cll-10.1177_09636897231221878 – Supplemental material for Proliferation and Differentiation Potential of Bone Marrow–Derived Mesenchymal Stem Cells From Children With Polydactyly and Adults With Basal Joint Arthritis
No full textSupplemental material, sj-pptx-1-cll-10.1177_09636897231221878 for Proliferation and Differentiation Potential of Bone Marrow–Derived Mesenchymal Stem Cells From Children With Polydactyly and Adults With Basal Joint Arthritis by Shih-Han Yeh, Jin-Huei Yu, Po-Hsin Chou, Szu-Hsien Wu, Yu-Ting Liao, Yi-Chao Huang, Tung-Ming Chen and Jung-Pan Wang in Cell Transplantation</p
ruo-yu-Pan/Hump-shaped-relationship_Aggregation-tendency_vs_bodysize: Hump-shaped-relationship_Aggregation-tendency_vs_bodysize
No full textNo description provided
The political role of the people's liberation army 1949-1973
Full text linkThis thesis is to study the political role of the People's Liberation Army from the approach of structure and function. The framework of the thesis consists of three major parts, first, the influence of Chinese traditional political culture on, and the formation of, the political role of the PL A; second, the influence of domestic political struggles and external military conflicts on the development of the political role of the PLA; and the third, the analysis of the transition of the PLA's political role from the structure and personnel arrangements of the CCPCC Within the above-mentioned three scopes, this thesis make a thorough discussion on the following: (1) The relationship between the structure of the PRC and the formation of the PLA's political role; (2) How has ideology influenced the army's political role; (3) What is Mao's viewpoint and his influence on the development of the army's political role; (4) What is the link between the army and the party, and how has this developed; (6) What accounts for the expansion of the PLA's political functions; (7) What is the influence of political factional struggles on the PLA's political role; (8) Is it political institution or military institution that controls the recruitment of the military elite; (9) What are the disparities between the military elite in handling international conflicts and what are their political considerations; (10) What is the Party's position in the army; (11) How have the Party’s important meetings and personnel arrangements influenced the rise and fall of the PLA's political role
Stilicoderus maolini Yu, Hu & Pan, 2016, sp. n.
No full textStilicoderus maolini sp. n. (Figs 1, 3– 7) Type material. Holotype: male, " China: W. Jiangxi, Ji'an City, Jinggang Shan, Jingzhu Shan, 26 ° 29 ′ 45 ″N, 114 °04′ 45 ″E, mixed leaf litter, sifted, 1160 m, 31.VII. 2014, Chen, Hu, Lv & Yu leg." (SNUC). Paratypes: 2 males, "Jiangxi, Ji’an City, Jinggang Shan, Bijia Shan, 26 ° 31 ′03″N, 114 ° 11 ′ 17 ″E, mixed leaf litter, sifted, 580 m. Description. Body length: 5.9 –7.0 mm; forebody length: 3.4–4.2 mm. Coloration: body dark-brown; tarsi and antennae reddish-brown. Head (Fig. 3) 0.81–0.90 times as long as broad, lateral margins behind eyes broadly convex in dorsal view; punctation moderately coarse, dense, and defined; interstices without microsculpture, distinctly narrower than punctures. Eyes moderately large, approximately 0.86 times as long as distance from posterior margin of eye to posterior constriction. Pronotum (Fig. 3) 1.10–1.11 times as long as broad and 0.77–0.81 times as wide as head, surface covered with small setose tubercles; midline with broad impunctate band. Elytra (Fig. 3) 0.66–0.82 times as long and 1.19–1.36 times as broad as pronotum; humeral angles marked; non-setiferous puncture-like impressions coarser, interspersed with fine and very dense setiferous punctation. Hind wings fully developed. Abdomen as broad as elytra; punctation very fine and dense; interstices with shallow microsculpture; posterior margin of tergite VII with palisade fringe. ♂: posterior margin of sternite VII (Fig. 4) weakly and broadly convex; sternite VIII (Fig. 5) with deep and broad posterior excision; aedeagus 0.83–0.86 mm long, with pair of broad apical internal structures; ventral process broad and straight in lateral view (Figs 6, 7). Comparative notes. Based on the morphology of the aedeagus (shape of apical internal structures and ventral process), S. maolini belongs to the S. variolosus group. It can be distinguished from other congeners by the aedeagus with broad and straight ventral process. Distribution and biological notes. The specimens were collected in Jiangxi and Hunan provinces, China, by sifting leaf litter at altitudes from 580 to1510 m. Etymology. This species is named in honor of Lin Mao, father of the first author.Published as part of Yu, Ting-Ting, Hu, Jia-Yao & Pan, Zhao-Hui, 2016, Two new species and new records of Stilicoderus Sharp from China (Coleoptera, Staphylinidae, Paederinae), pp. 373-390 in Zootaxa 4138 (2) on pages 374-376, DOI: 10.11646/zootaxa.4138.2.9, http://zenodo.org/record/27199
Hui tu zhen ben jing shi mu yu jin gang zuan
No full text著作者余好辯, 伍憤時.Cover title.上下卷.On double leaves, East Asian binding.木魚歌文.zhu zuo zhe Yu Haobian, Wu Fenshi.Shang xia juan.Mu yu ge wen
Source code and demo of MAGUS (Machine Learning and Graph Theory Assisted Universal Structure Searcher) v2.0.0
No full textThis is the source code and demo for MAGUS (Machine Learning and Graph Theory Assisted Universal Structure Searcher) v2.0.0. Future updates can be accessed from gitlab (https://gitlab.com/bigd4/magus) after registration (https://www.wjx.top/vm/m5eWS0X.aspx).MAGUS is a Python package designed to predict crystal structures, which is free for non-commercial academic use, subject to registration and approval at https://www.wjx.top/vm/m5eWS0X.aspx .
1) This Code or its derivative work will not be used for any purpose other than non-commercial research.
2) This Code or its derivative code will not be published or otherwise distributed.
3) The use of this Code should be acknowledged by citing the tutorial paper describing the use of this code:
[1] Junjie Wang, Hao Gao, Yu Han, Chi Ding, Shuning Pan, Yong Wang, Qiuhan Jia, Hui-Tian Wang, Dingyu Xing, and Jian Sun, "MAGUS: machine learning and graph theory assisted universal structure searcher", National Science Review 10 (7), nwad128 (2023).
[2] Kang Xia, Hao Gao, Cong Liu, Jianan Yuan, Jian Sun, Hui-Tian Wang, Dingyu Xing, "A novel superhard tungsten nitride predicted by machine-learning accelerated crystal structure search", Sci. Bull. 63, 817 (2018).Additional references that may be cited (at the discretion of the user) are:
Graph theory:
[3] Hao Gao, Junjie Wang, Yu Han, Jian Sun, "Enhancing Crystal Structure Prediction by Decomposition and Evolution Schemes Based on Graph Theory", Fundamental Research 1, 466 (2021).
[4] Hao Gao, Junjie Wang, Zhaopeng Guo, Jian Sun, "Determining dimensionalities and multiplicities of crystal nets" npj Comput. Mater. 6, 143 (2020).
Surface reconstruction:
[5] Y. Han, J. Wang, C. Ding, H. Gao, S. Pan, Q. Jia, and J. Sun, "Prediction of surface reconstructions using MAGUS", The Journal of Chemical Physics 158 (17), 174109 (2023).
Structure searching in confined space:
[6] Chi Ding, Junjie Wang, Yu Han, Jianan Yuan, Hao Gao, and Jian Sun, "High Energy Density Polymeric Nitrogen Nanotubes inside Carbon Nanotubes", Chin. Phys. Lett. 39, 036101 (2022). (Express Letter)Peer reviewe
Juan shou shou ye ti: San huang wu di san wang shi yi dai huang di shi shi
No full text李純卿草創 ; 謝遷補遺 ; 王守仁覆詳 ; 王世貞會纂 ; 李槃增修.綫裝, 二函.框23.4x14.5公分, 分上下欄. 上欄刻評, 小字每行4字. 下欄正文,大字12行27字, 小字雙行同, 中字15行27字, 無界行. 白口, 四周單邊, 單黑魚尾. 版心上鐫"世史類編"及卷次, 中鐫小題, 下鐫葉次.刻書年據序.卷首有曹于汴序, 萬曆三十二年馮夢楨序, 萬曆三十一年李槃序、又序, 萬曆三十四年余應虬序、余昌祚序; 卷末有周之錦跋, 朱京跋.Xian zhuang, er han.Kuang 23.4 x 14.5 gong fen, fen shang xia lan. Shang lan ke ping, xiao zi mei hang 4 zi. Xia lan zheng wen, da zi 12 hang 27 zi, xiao zi shuang hang tong, zhong zi 15 hang 27 zi, wu jie hang. Bai kou, si zhou dan bian, dan hei yu wei. Ban xin shang juan "Shi shi lei bian" ji juan ci, zhong juan xiao ti, xia juan ye ci.Ke shu nian ju xu.Juan shou you Cao Yubian xu, Wanli san shi er nian Feng Mengzhen xu, Wanli san shi yi nian Li Pan xu, you xu, Wanli san shi si nian Yu Yingqiu xu, Yu Changzuo xu; juan mo you Zhou Zhijin ba, Zhu Jing ba.Li Chunqing cao chuang ; Xie Qian bu yi ; Wang Shouren fu xiang ; Wang Shizhen hui zuan ; Li Pan zeng xiu
Euomphalus pronodocarinatus Pan & Yu 1993
No full textEuomphalus cf. pronodocarinatus Pan & Yu, 1993 (Fig. 7) cf. Euomphalus pronodocarinatus Pan & Yu, 1993: p. 36, pl. 2, fig. 4. Material. Two specimens: ESKU-19- LP 61, 95. Dimensions (mm): ESKU-19- LP 61: height = 1.7; width = 7.8. ESKU-19- LP 61: height = 2.0; width = 7.6. Description. Small anisostrophic, discoidal shell; whorls rounded, convex, circular in transverse section, with the periphery at mid-whorl; whorls slowly increasing in diameter, only slightly embracing; suture deep; widely phaneromphalous with basal umbilicus deeper; whorl surface smooth with very faint and dense orthocline growth lines; rounded angulation on upper whorl surface at transition to upper umbilicus; base rounded; aperture subcircular, inner lip straight to somewhat concave. Remarks. The present specimens closely resemble Euomphalus pronodocarinatus Pan & Yu, 1993 from the Lower Permian of Qixia Formation in Shangpingchuan, China in having a discoidal shape, a deep suture and numerous dense growth lines. However, the holotype of E. pronodocarinatus has nodes which are especially characteristic for this species that are absent in the studied material. Straparollus (Straparollus) planorbiformis de Koninck, 1881 as illustrated by Batten (1966 a, p. 15, pl. 2, figs 12–14) from the Lower Carboniferous of the Hotwells Limestone, England is also similar in having rounded whorls with well-developed growth lines but it differs in being more high spired. Another similar species is S. (Leptomphalus) micidus Yochelson, 1956 (p. 220, pl. 12, figs 1–4) from the Middle Permian of Southwestern USA which is discoidal and has a weaker upper angulation. However, S. (L.) micidus differs in having a sinus on the angulation of the upper whorl surface. There are other Permian euomphalid species which were reported from Southeast Asia such as Discotropis sp. from the Tak Fa Limestone of Thailand (Ketwetsuriya et al. 2016), S. (Euomphalus) sp. from Perak, Malaysia (Batten 1972), E. khmerianus Mansuy, 1912 from the Sisophon limestone of Cambodia (Mansuy 1912; Delpey 1941) and E. subcircularis Mansuy, 1912 (pl. 7, figs 7–8). In addition, the present species also resembles S. (E.) alaskensis Yochelson & Dutro, 1960 from the Permian Siksikpuk Formation, USA, but the present specimens lack an upper angulation on whorl and the former species is larger in size. The studied specimens might represent a new species of the genus Euomphalus but the present material too poorly preserved to characterize it sufficiently.Published as part of Ketwetsuriya, Chatchalerm, Karapunar, Baran, Charoentitirat, Thasinee & Nützel, Al- Exander, 2020, Middle Permian (Roadian) gastropods from the Khao Khad Formation, Central Thailand: Implications for palaeogeography of the Indochina Terrane, pp. 1-47 in Zootaxa 4766 (1) on page 10, DOI: 10.11646/zootaxa.4766.1.1, http://zenodo.org/record/376390
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