13,175 research outputs found
Qiu lai ju qin pu
"Qiu lai ju qin pu" wei gu qin da shi Cheng Gongliang xian sheng de gu qin qu ji, shou lu le "Gui qu lai ci", "Yi gu ren", "Xiao xiang shui yun", "Tao yuan chun xiao", "Pao xiu luo lan (ba shou)" deng er shi jiu shou qin qu, wan zheng cheng xian le Cheng Gongliang xian sheng zai ji cheng chuan tong qu mu, da pu, gai bian he chuang zuo fang mian de qin xue cheng j
Chun qiu yu tu
顧復初輯.綫裝.匡21.6 x 15 公分, 11行25字, 小字雙行不等, 白口, 無魚尾, 四周單邊, 版心下刻"萬卷樓"《春秋大事表》内封題"乾隆十二年新鐫, 萬卷樓藏板", 其中"二"字或由"三"字剜改而成 ; 《春秋輿圖》内封題"乾隆十四年新鐫, 萬卷樓藏板".Xian zhuang.Kuang 21.6 x 15 gong fen, 11 hang 25 zi, xiao zi shuang xing bu deng, bai kou, wu yu wei, si zhou dan bian, ban xin xia ke"wan juan lou""Chun qiu da shi biao" nei feng ti "Qianlong shi er nian xin juan, wan juan lou cang ban", qi zhong "er" zi huo you "san" zi wan gai er cheng ; "Chun qiu yu tu" nei feng ti "Qianlong shi si nian xin juan, Wan juan lou cang ban".Gu Fuchu ji
Neng yuan yu kuang ye gong cheng juan di zhi zi yuan ke xue ji shu yu gong cheng fen ce
Ben shu shou lu le 49 wei he ke xue ji shu yu gong cheng zhuan jia,Zhan shi ta men de qiu xue jing li,Xue shu cheng jiu,Zhi xue fang lüe he jia zhi guan nian.Juan shou jian yao hui gu 20 shi ji zhong guo he ke xue ji shu yu gong cheng fa zhan jian shi,Juan wei fu 20 shi ji zhong guo he ke xue ji shu yu gong cheng da shi j
Paenibacillus shunpengii Yang & Zhang & Chen & Cheng & Qiu & He & He 2018, SP. NOV.
DESCRIPTION OF PAENIBACILLUS SHUNPENGII SP. NOV. Paenibacillus shunpengii (shun.peng′ i.i. N.L. gen. n. shunpengii of Shun-peng, to honour Shun-peng Li, a respected Chinese microbiologist, for his great contributions to China’ s environmental microbiology). Cells are aerobic or facultatively anaerobic, Gram-stainpositive, motile, endospore-forming and rod-shaped (0.4– 0.6× 0.8–1.2 mm). Ellipsoidal spores are formed at terminal positions in swollen sporangia. After 24 h of growth on LB agar, colonies are circular, greyish, smooth, shiny and up to 5 mm in diameter. Grows at 18–42 Ǫ C (optimum 35 Ǫ C), pH 6.5–8.0 (optimum pH 7.5) and with 0.0–4.0 % (w/v) NaCl (optimum 0.5 %, w/v). In API 50 CH tests, acid is produced from L- arabinose, ribose, D- xylose, fructose, mannose, mannitol, N -acetylgulcosamine, amygdalin, arbutin, aesculin, salicin, celliobiose, maltose, lactose, melibiose, starch and potassium gluconate, but not from glycerol, erythritol, D-arabinose, L- xylose, adonite, xyloside, galactose, glucose, sorbose/sorbitose, rhamnose, dulcitol, inositol, D- sorbitol, methyl a- D- mannopyranoside, methyl a- D- glucopyranoside, sucrose, trehalose, inulin, melezitose, raffinose, glycogen, xylitol, gentiobiose, turanose, D- lyxose, D- tagatose, D-fucose, L- fucose, D- arabitol, L- arabitol, potassium 2-ketogluconate or potassium 5-ketogluconate. In API 20NE tests, utilizes aesculin, ferric citrate, gelatin, 4-nitrophenyl-b- D-galactopyranoside, L- arabinose, D- mannose, D- mannitol, N - acetylglucosamine, maltose and potassium gluconate, but not potassium nitrate, L- trypophan, D- glucose, L- arginine, urea, capric acid, adipic acid, malic acid, trisodium citrate or phenylacetic acid. In the API ZYM system, positive for cystine arylamidase and negative for esterase C4, esterase lipase C8, lipase C14, leucine arylamidase, valine arylamidase, trypsin, a- chymotrypsin, acid phosphatase, naphthol-AS-BI-phosphohydrolase, a- galactosidase, b- galactosidase, b-glucuronidase, a- glucosidase, b- glucosidase, N -acetyl-b-glucosaminidase, a- mannosidase and a- fucosidase/fucosidase. Voges-Proskauer test is negative. The major cellular fatty acids are anteiso-C 15: 0, iso-C 16: 0 and anteiso-C 17: 0. The predominant respiratory quinone is MK-7. The polar lipid profile contains diphosphatidylglycerol, phosphatidylethanolamine, phosphatidylglycerol and phospholipids. Cells are resistant to lincomycin, rifampin, novobiocin, nalidixic acid, bacitracin and polymyxin B. The type strain, YYJ7-1 T (= ACCC 19965 T = KCTC 33849 T), was isolated from farmland soil in Wenzhou, Zhejiang Province, China (27 Ǫ 53′ N 120 Ǫ 36′ E). The DNA G+C content of the type strain is 39.4 mol%.Published as part of Yang, You-Jian, Zhang, Yan-Ting, Chen, Guo-Qiang, Cheng, Dan, Qiu, Ji-Guo, He, Qin & He, Jian, 2018, Paenibacillus shunpengii sp. nov., isolated from farmland soil, pp. 211-216 in International Journal of Systematic and Evolutionary Microbiology 68 (1) on page 215, DOI: 10.1099/ijsem.0.002484, http://zenodo.org/record/604840
Notes on Early Land Plants Today. 57. Cheilolejeunea boliviensis and Cheilolejeunea savesiana, two new synonyms in Lejeunea (Marchantiophyta, Lejeuneaceae)
Qiu, Qiong, Y.-M, Cheng, Xia-Fang, Zhu, Rui-Liang (2014): Notes on Early Land Plants Today. 57. Cheilolejeunea boliviensis and Cheilolejeunea savesiana, two new synonyms in Lejeunea (Marchantiophyta, Lejeuneaceae). Phytotaxa 173 (1): 88-90, DOI: 10.11646/phytotaxa.173.1.9, URL: http://dx.doi.org/10.11646/phytotaxa.173.1.
Supplemental Material—Survival Outcomes Related to Treatment Modalities in Patients With Oropharyngeal Squamous Cell Carcinoma
Supplemental Material for Survival Outcomes Related to Treatment Modalities in Patients With Oropharyngeal Squamous Cell Carcinoma by Danni Cheng, Yufang Rao, Jianqing Qiu, Yao Song, Wendu Pang, Ke Qiu, Yijun Dong, Qiurui Liu, Yu Zhao, Jun Liu, Wei Xu and Jianjun Ren in Ear, Nose & Throat Journal</p
A study of Liu-xiang (劉向)'s Theory of Chun-qiu (春秋)
This paper is to offer a study of Liu-xiang's theory of Chun-qiu through examining Xin-xu (新序) and Shuo-yuan (説苑) written by Liu-xiang.
I think that Xin-xu was completed early in the Yuan-di (元帝) era, and Shuo-yuan in the Cheng-di (成帝) era. Lin-xiang's theories of Chun-qiu in the above works are different from each other. His former theory on Chun-qiu is based on Gu-Iiang-zhuong (穀梁伝), while the latter one on Gong-yang-zhuang (公羊伝).
The reasons for the change can be summarized as follows :
1. Gu-Iiang-zhuong does not have the zai-yi (災異) theory.
2. Gu-Iiang-zhuong was the basis for the movement of religious reformation (祭祀改革運動)
Using a simulation approach to optimize time-domain diffuse correlation spectroscopy measurement on human head
Time-domain diffuse correlation spectroscopy (TD-DCS) has been recently proposed to improve detection of deep blood flow dynamics in a biological tissue, such as human brain. To obtain a high sensitive measurement, several experimental parameters such as the source-detector (SD) distance, gate opening time, and width need to be considered and optimized. We use a simulation approach to optimize these parameters based on Monte Carlo computations using a realistic human head model. Two cortical regions are investigated including the frontal and temporal lobes. SD distance ranging from 0 to 45 mm, gate opening time from 400 to 1000 ps, and gate width from 50 to 3000 ps are considered. The goal is to find out the optimal combinations of these parameters by which the higher contrast measurement on the cortical dynamics can be achieved. The simulations show that with an acceptable input power of light, the combinations of SD distance ranging from 0 to 15 mm, gate opening time at 700 to 800 ps, and gate width of 800 ps are optimal for achieving higher contrast measurement on the cortical dynamics. The simulation approach and results are helpful for the optimization of TD-DCS experimental design focused on brain functional detection
Serum ACTH and Cortisol Level is Associated with the Acute Gastrointestinal Injury Grade in ICU Patients [Erratum]
Xu W, Qiu Y, Qiu H, Zhong M, Li L. Int J Gen Med. 2024;17:127–134.
On page 127, the third author’s name should read from “Hongping Qiu” to “Hongping Qu”.
This error was introduced by the Editorial staff during the publication process
Paenibacillus shunpengii sp. nov., isolated from farmland soil
Yang, You-Jian, Zhang, Yan-Ting, Chen, Guo-Qiang, Cheng, Dan, Qiu, Ji-Guo, He, Qin, He, Jian (2018): Paenibacillus shunpengii sp. nov., isolated from farmland soil. International Journal of Systematic and Evolutionary Microbiology 68 (1): 211-216, DOI: 10.1099/ijsem.0.002484, URL: http://dx.doi.org/10.1099/ijsem.0.00248
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