86,440 research outputs found
Author Correction: Evaluation of skin cancer resection guide using hyper‑realistic in‑vitro phantom fabricated by 3D printing
The original version of this Article contained an error in the spelling of the author Taehun Kim which was incorrectly given as Teahun Kim. The original Article has been corrected
Arenibacillus arenosus Kim & Kanjanasuntree & Kim & Lee & Sukhoom & Kantachote & Kim 2019, SP. NOV.
DESCRIPTION OF ARENIBACILLUS ARENOSUS SP. NOV. Arenibacillus arenosus sp. nov. (a.re.no′ sus. L. masc. adj. arenosus sandy, dwelling in marine sediment, sand). Cells are rod-shaped, 0.1–0.9×2.6–3.4 µm, Gram-stain-negative, non-motile and non-spore-forming. Colonies on MA are cream-coloured, circular, smooth, convex and 0.1– 0.2 mm in diameter after 3 days of incubation at 30 Ǫ C. Growth occurs at 20–37 Ǫ C, but not at 4 Ǫ C or above 40 Ǫ C; optimum growth is at 30 Ǫ C. Growth occurs at pH 6.5–10.0, but not at pH 6.0 or pH 10.5; optimum growth is at pH 8.5. Growth occurs in the presence of 0–4 % (w/v) NaCl with optimum growth at 1 % (w/v) NaCl, but not at above 5 % (w/v) NaCl. Negative results in tests for slime production, intracytoplasmic membrane system and growth under photoautotrophic and photoheterotrophic conditions. Bchl a is not present. Indole production is negative and Voges– Proskauer reaction is positive. Reduces nitrate to nitrite. Aesculin is hydrolysed but starch, casein and gelatin are not. Citrate is not utilized. The following substrates are utilized as sole carbon sources: D- mannose, D- mannitol, L- arabinose, D- ribose and D- xylose. The following substrates are not utilized as sole carbon sources: D- arabinose, D- adonitol, D-galactose, D- glucose, D- fructose, D- fucose, D- mannose, L-sorbose, L- rhamnose, D- sorbitol, melibiose, cellobiose, maltose, lactose, D- arabitol, potassium 2-ketogluconate and potassium 5-ketogluconate. In the API ZYM system, alkaline phosphatase, esterase (C4), esterase lipase (C8), leucine arylamidase, valine arylamidase, naphthol-AS-BI-phosphohydrolase, a- glucosidase and b- glucosidase show positive results, but cystine arylamidase, trypsin, a- chymotrypsin and acid phosphatase are negative. The respiratory quinone is Q-10. The polar lipid pattern consists of phosphatidylglycerol, phosphatidylcholine and an unidentified aminolipid. The predominant cellular fatty acid (>10 % of the total) is C 18: 1 Ɯ 7 c. The type strain is CAU 1304 T (= KCTC 42827 T = NBRC 113022 T), isolated from sea sand collected in Eurwangri in the Republic of Korea. The genomic DNA G+C content of the type strain is 55.9 mol%.Published as part of Kim, Jong-Hwa, Kanjanasuntree, Rungravee, Kim, Dae-Hoon, Lee, Jung-Sook, Sukhoom, Ampaitip, Kantachote, Duangporn & Kim, Wonyong, 2019, Arenibacillus arenosus gen. nov., sp. nov., a member of the family Rhodobacteraceae isolated from sea sand, pp. 153-158 in International Journal of Systematic and Evolutionary Microbiology 69 (1) on page 157, DOI: 10.1099/ijsem.0.003121, http://zenodo.org/record/604861
Measurement of the production and differential cross sections of W+W- bosons in association with jets in pp¯ collisions at ?s = 1.96TeV
Citation: Aaltonen, T., Amerio, S., Amidei, D., Anastassov, A., Annovi, A., Antos, J., . . . Zucchelli, S. (2015). Measurement of the production and differential cross sections of W+W- bosons in association with jets in pp¯ collisions at ?s = 1.96TeV. Physical Review D - Particles, Fields, Gravitation and Cosmology, 91(11). doi:10.1103/PhysRevD.91.111101We present a measurement of the W-boson-pair production cross section in pp¯ collisions at 1.96 TeV center-of-mass energy and the first measurement of the differential cross section as a function of jet multiplicity and leading-jet energy. The W+W- cross section is measured in the final state comprising two charged leptons and neutrinos, where either charged lepton can be an electron or a muon. Using data collected by the CDF experiment corresponding to 9.7fb-1 of integrated luminosity, a total of 3027 collision events consistent with W+W- production are observed with an estimated background contribution of 1790 ± 190 events. The measured total cross section is ?(pp¯ ? W+W-)= 14.0 ± 0.6 (stat)-1.0+1.2 (syst) ± 0.8 (lumi) pb, consistent with the standard model prediction. © 2015; American Physical Society. All righs reserved.Additional Authors: Badgett, W.;Bae, T.;Barbaro-Galtieri, A.;Barnes, V. E.;Barnett, B. A.;Barria, P.;Bartos, P.;Bauce, M.;Bedeschi, F.;Behari, S.;Bellettini, G.;Bellinger, J.;Benjamin, D.;Beretvas, A.;Bhatti, A.;Bland, K. R.;Blumenfeld, B.;Bocci, A.;Bodek, A.;Bortoletto, D.;Boudreau, J.;Boveia, A.;Brigliadori, L.;Bromberg, C.;Brucken, E.;Budagov, J.;Budd, H. S.;Burkett, K.;Busetto, G.;Bussey, P.;Butti, P.;Buzatu, A.;Calamba, A.;Camarda, S.;Campanelli, M.;Canelli, F.;Carls, B.;Carlsmith, D.;Carosi, R.;Carrillo, S.;Casal, B.;Casarsa, M.;Castro, A.;Catastini, P.;Cauz, D.;Cavaliere, V.;Cerri, A.;Cerrito, L.;Chen, Y. C.;Chertok, M.;Chiarelli, G.;Chlachidze, G.;Cho, K.;Chokheli, D.;Clark, A.;Clarke, C.;Convery, M. E.;Conway, J.;Corbo, M.;Cordelli, M.;Cox, C. A.;Cox, D. J.;Cremonesi, M.;Cruz, D.;Cuevas, J.;Culbertson, R.;D'Ascenzo, N.;Datta, M.;De Barbaro, P.;Demortier, L.;Deninno, M.;D'Errico, M.;Devoto, F.;Di Canto, A.;Di Ruzza, B.;Dittmann, J. R.;Donati, S.;D'Onofrio, M.;Dorigo, M.;Driutti, A.;Ebina, K.;Edgar, R.;Elagin, A.;Erbacher, R.;Errede, S.;Esham, B.;Farrington, S.;Fernández Ramos, J. P.;Field, R.;Flanagan, G.;Forrest, R.;Franklin, M.;Freeman, J. C.;Frisch, H.;Funakoshi, Y.;Galloni, C.;Garfinkel, A. F.;Garosi, P.;Gerberich, H.;Gerchtein, E.;Giagu, S.;Giakoumopoulou, V.;Gibson, K.;Ginsburg, C. M.;Giokaris, N.;Giromini, P.;Glagolev, V.;Glenzinski, D.;Gold, M.;Goldin, D.;Golossanov, A.;Gomez, G.;Gomez-Ceballos, G.;Goncharov, M.;González López, O.;Gorelov, I.;Goshaw, A. T.;Goulianos, K.;Gramellini, E.;Grosso-Pilcher, C.;Group, R. C.;Guimaraes Da Costa, J.;Hahn, S. R.;Han, J. Y.;Happacher, F.;Hara, K.;Hare, M.;Harr, R. F.;Harrington-Taber, T.;Hatakeyama, K.;Hays, C.;Heinrich, J.;Herndon, M.;Hocker, A.;Hong, Z.;Hopkins, W.;Hou, S.;Hughes, R. E.;Husemann, U.;Hussein, M.;Huston, J.;Introzzi, G.;Iori, M.;Ivanov, A.;James, E.;Jang, D.;Jayatilaka, B.;Jeon, E. J.;Jindariani, S.;Jones, M.;Joo, K. K.;Jun, S. Y.;Junk, T. R.;Kambeitz, M.;Kamon, T.;Karchin, P. E.;Kasmi, A.;Kato, Y.;Ketchum, W.;Keung, J.;Kilminster, B.;Kim, D. H.;Kim, H. S.;Kim, J. E.;Kim, M. J.;Kim, S. H.;Kim, S. B.;Kim, Y. J.;Kim, Y. K.;Kimura, N.;Kirby, M.;Knoepfel, K.;Kondo, K.;Kong, D. J.;Konigsberg, J.;Kotwal, A. V.;Kreps, M.;Kroll, J.;Kruse, M.;Kuhr, T.;Kurata, M.;Laasanen, A. T.;Lammel, S.;Lancaster, M.;Lannon, K.;Latino, G.;Lee, H. S.;Lee, J. S.;Leo, S.;Leone, S.;Lewis, J. D.;Limosani, A.;Lipeles, E.;Lister, A.;Liu, H.;Liu, Q.;Liu, T.;Lockwitz, S.;Loginov, A.;Lucchesi, D.;Lucà, A.;Lueck, J.;Lujan, P.;Lukens, P.;Lungu, G.;Lys, J.;Lysak, R.;Madrak, R.;Maestro, P.;Malik, S.;Manca, G.;Manousakis-Katsikakis, A.;Marchese, L.;Margaroli, F.;Marino, P.;Matera, K.;Mattson, M. E.;Mazzacane, A.;Mazzanti, P.;McNulty, R.;Mehta, A.;Mehtala, P.;Mesropian, C.;Miao, T.;Mietlicki, D.;Mitra, A.;Miyake, H.;Moed, S.;Moggi, N.;Moon, C. S.;Moore, R.;Morello, M. J.;Mukherjee, A.;Muller, Th;Murat, P.;Mussini, M.;Nachtman, J.;Nagai, Y.;Naganoma, J.;Nakano, I.;Napier, A.;Nett, J.;Neu, C.;Nigmanov, T.;Nodulman, L.;Noh, S. Y.;Norniella, O.;Oakes, L.;Oh, S. H.;Oh, Y. D.;Oksuzian, I.;Okusawa, T.;Orava, R.;Ortolan, L.;Pagliarone, C.;Palencia, E.;Palni, P.;Papadimitriou, V.;Parker, W.;Pauletta, G.;Paulini, M.;Paus, C.;Phillips, T. J.;Piacentino, G.;Pianori, E.;Pilot, J.;Pitts, K.;Plager, C.;Pondrom, L.;Poprocki, S.;Potamianos, K.;Pranko, A.;Prokoshin, F.;Ptohos, F.;Punzi, G.;Redondo Fernández, I.;Renton, P.;Rescigno, M.;Rimondi, F.;Ristori, L.;Robson, A.;Rodriguez, T.;Rolli, S.;Ronzani, M.;Roser, R.;Rosner, J. L.;Ruffini, F.;Ruiz, A.;Russ, J.;Rusu, V.;Sakumoto, W. K.;Sakurai, Y.;Santi, L.;Sato, K.;Saveliev, V.;Savoy-Navarro, A.;Schlabach, P.;Schmidt, E. E.;Schwarz, T.;Scodellaro, L.;Scuri, F.;Seidel, S.;Seiya, Y.;Semenov, A.;Sforza, F.;Shalhout, S. Z.;Shears, T.;Shepard, P. F.;Shimojima, M.;Shochet, M.;Shreyber-Tecker, I.;Simonenko, A.;Sliwa, K.;Smith, J. R.;Snider, F. D.;Song, H.;Sorin, V.;St. Denis, R.;Stancari, M.;Stentz, D.;Strologas, J.;Sudo, Y.;Sukhanov, A.;Suslov, I.;Takemasa, K.;Takeuchi, Y.;Tang, J.;Tecchio, M.;Teng, P. K.;Thom, J.;Thomson, E.;Thukral, V.;Toback, D.;Tokar, S.;Tollefson, K.;Tomura, T.;Tonelli, D.;Torre, S.;Torretta, D.;Totaro, P.;Trovato, M.;Ukegawa, F.;Uozumi, S.;Vázquez, F.;Velev, G.;Vellidis, C.;Vernieri, C.;Vidal, M.;Vilar, R.;Vizán, J.;Vogel, M.;Volpi, G.;Wagner, P.;Wallny, R.;Wang, S. M.;Waters, D.;Wester W.C, III;Whiteson, D.;Wicklund, A. B.;Wilbur, S.;Williams, H. H.;Wilson, J. S.;Wilson, P.;Winer, B. L.;Wittich, P.;Wolbers, S.;Wolfe, H.;Wright, T.;Wu, X.;Wu, Z.;Yamamoto, K.;Yamato, D.;Yang, T.;Yang, U. K.;Yang, Y. C.;Yao, W. M.;Yeh, G. P.;Yi, K.;Yoh, J.;Yorita, K.;Yoshida, T.;Yu, G. B.;Yu, I.;Zanetti, A. M.;Zeng, Y.;Zhou, C.;Zucchelli, S
Analysis of Noise Coupling From a Power Distribution Network to Signal Traces in High-Speed Multilayer Printed Circuit Boards
As layout density increases in highly integrated multilayer printed circuit boards (PCBs), the noise that exists in the power distribution network (PDN) is increasingly coupled to the signal traces, and precise modeling to describe the coupling phenomenon becomes necessary. This paper presents a model to describe noise coupling between the power/ground planes and signal traces in multilayer systems. An analytical model for the coupling has been successfully derived, and the coupling mechanism was rigorously analyzed and clarified. Wave equations for a signal trace with power/ground noise were solved by imposing boundary conditions. Measurements in both the frequency and time domains have been conducted to confirm the validity of the proposed model
Sztuczny człowiek w internecie. Kim są wirtualni influencerzy?
Artykuł przedstawia fenomen wirtualnych influencerów, którzy zyskują popularność dzięki swojej aktywności w popkulturze i w mediach społecznościowych. Jego celem jest uporządkowanie dotychczasowej wiedzy na ich temat. W celu zilustrowania zagadnienia za pomocą metody studium przypadku w artykule opisana została instagramowa gwiazda Miquela i influencerzy z Aww Inc. Na wybranych przykładach zaprezentowano modele i sposoby funkcjonowania tych bytów w dzisiejszych czasach.This article discusses the phenomenon of virtual influencers who gain popularity through their activities in pop culture and social media. Its goal is to systematize existing knowledge on the topic. In order to illustrate the issue with the usage of the case study method, the article describes Instagram star Miquela and the influencers from Aww Inc. On selected examples the author presents models and ways in which these entities function today
Behavioral characteristics of composite-antenna-structure covering three bands under compression load
A composite-antenna-structure covering three bands of global positioning system (1.575 GHz), digital multimedia broadcasting (2.62 GHz) and direct broadcast satellite (11.7-13.5 GHz) was designed and fabricated as a part of the structure surfaces. A new concept of antennas integrated into a composite sandwich structure provides a design that is an electrically and structurally effective multi-functional antenna structure. We designed two types of antennas. One is an annular ring patch antenna for global positioning system and digital multimedia broadcasting. The other is a microstrip patch antenna for direct broadcast satellite. In the design process, the effects of the composites and adhesive films are considered for in the design processes, because structural materials affect the antenna performance. Additionally, the composite-antenna-structure was designed by considering the coupling effect in a strict substrate. The measured results of buckling tests have provided useful information regarding not only the compression behavioral characteristics but also its degradation in electrical performance before and after the test. The experimental results have shown good results for compressive tolerance, though the specimens after compression loading returns to their original shape before failure. Additionally, an acoustic emission system is implemented in the buckling test system to study the inner behavior of the composite-antenna-structure for the reliability of secure mechanical performance. The antenna performance, as measured by the return loss and radiation pattern, remained excellent after the compression tests. These electrical performance results suggest that antennas with composite laminates will function well despite damage.1122sciescopu
Migration und Familie im Werk von Anna Kim
Celem artykułu jest analiza przedstawionych w twórczości austriackiej autorki Anny Kim związków między migracją a kształtem struktur rodzinnych. Punktem wyjścia rozważań jest określenie pojęć rodzina i rodzina interkulturowa wraz ze wskazaniem na specyfikę potencjalnych konfliktów, dotykających rodzinę z doświadczeniem imigracji. Na tej podstawie naświetlono literackie obrazy konstelacji rodzinnych. Niniejsze rozważania koncentrują się wokół trzech głównych pytań: Jakie historie migracji i jakie konstelacje rodzinne kreuje autorka? Co jest charakterystyczne dla przedstawionych projektów tożsamości i wzorców integracji migrantów? Jaką rolę ogrywa w kontekście migracji pamięć rodzinna?The article analyses the relations between migration and the development of family structures as presented in the works of the Austrian author Anna Kim. The starting point of the reflections is the definition of the concepts of ‘family’ and ‘intercultural family’ along with an indication of the specificity of potential conflicts affecting families with emigrant experience. Literary images of family constellations are subsequently presented against this background. The article addresses three main questions: What are the migration histories and family constellations created by the author? What are the characteristic features of the projects of identity and patterns of migrant integration? What role does family memory play in the context of migration?Der Beitrag setzt sich zum Ziel, die im Werk der österreichischen Autorin Anna Kim inszenierten Wechselbeziehungen zwischen Migration und Familienstrukturen zu analysieren. Den Ausgangspunkt der Untersuchung bildet die Erörterung der Begriffe ‚Familie’ sowie ‚interkulturelle Familie’ mit einer Andeutung spezifischer Konfliktpotenziale in einer von den Folgen der Migration betroffenen Familie. Vor diesem Hintergrund werden Figurationen der Familienstrukturen in Kims Werk beleuchtet. Die folgenden Ausführungen konzentrieren sich auf drei zentrale Fragen: Welche Migrationsgeschichten und Familienkonstellationen werden von der Autorin dargestellt? Was ist für die geschilderten Identitätskonzepte und Integrationsmuster der Migrant/innen charakteristisch? Welche Rolle wird im Kontext der Migration dem Familiengedächtnis beigemessen
Enhancement of operational stability of immobilized whole cell D-hydantoinase
A bacterium Pseudomonas sp. KBEL 101 isolated from soil was immobilized within polyacrylamide gel and used for the synthesis of D-p-hydroxyphenylglycine from DL-5-substituted hydantoin. The half-life of immobilized whole cell D-hydantoinase was found to be about 50 hrs. In order to increase the operational stability of immobilized whole cell D-hydantoinase, a carbon or nitrogen source was supplied with the reaction mixture in the continuous stirred tank reactor. As a sole source of carbon, glycerol was found to be most effective, and the activity of immobilized whole cell enzyme was maintained stably during 7 days when O.1%(W/V) glycerol solution was provided. In the case of nitrogen source, supplying of O.1%(W/V) yeast extract prolonged the half-life of immobilized whole cell D-hydantoinase to about 25 days
Increased quantity of tumor-infiltrating FOXP3-positive regulatory T cells is an independent predictor for improved clinical outcome in extranodal NK/T-cell lymphoma
Patients and methods: We collected 64 NKTCL cases and numerically quantified the amount of tumor-infiltrating FOXP3-positive Tregs by automated slide scanning and image analysis program after immunohistochemical staining using anti-FOXP3 antibody. Results: Patients were able to be classified into two end groups by their level of Tregs. Twenty-eight (44%) patients had Tregs < 50/0.40 mm(2), while 36 (56%) had Tregs >= 50/0.40 mm(2) within the tumor. The decreased number of Tregs (< 50/0.40 mm(2)) was more common in patients with poor performance status or in those presented in non-upper aerodigestive tract. However, the level of Tregs was not associated with other prognostic factors, including stage, lactate dehydrogenase level, International Prognostic Index, and NKTCL Prognostic Index. Importantly, patients with increased numbers of Tregs (>= 50/0.40 mm(2)) showed prolonged overall and progression-free survival (P = 0.0005 and P = 0.0079, respectively). The number of FOXP3-positive Tregs was an independent prognostic factor (P = 0.001) by multivariate analysis. Conclusion: Increased quantity of tumor-infiltrating Tregs predicted improved clinical outcome in NKTCL patients.Kim TM, 2008, ANN ONCOL, V19, P1477, DOI 10.1093/annonc/mdn147Baumforth KRN, 2008, AM J PATHOL, V173, P195, DOI 10.2353/ajpath.2008.070845Mittal S, 2008, BLOOD, V111, P5359, DOI 10.1182/blood-2007-08-105395Lee NR, 2008, LEUKEMIA LYMPHOMA, V49, P247, DOI 10.1080/10428190701824536CHAN JKC, 2008, WHO CLASSIFICATION T, P285Gjerdrum LM, 2007, LEUKEMIA, V21, P2512, DOI 10.1038/sj.leu.2404913Kim SJ, 2007, ANN ONCOL, V18, P1382, DOI 10.1093/annonc/mdm183Pai S, 2007, IMMUNOL CELL BIOL, V85, P370, DOI 10.1038/sj.icb.7100046Hasselblom S, 2007, BRIT J HAEMATOL, V137, P364, DOI 10.1111/j.1365-2141.2007.06593.xBossard C, 2007, BLOOD, V109, P2183, DOI 10.1180/blood-2006-07-033142Ralainirina N, 2007, J LEUKOCYTE BIOL, V81, P144, DOI 10.1189/jlb.0606409Shim SJ, 2007, INT J RADIAT ONCOL, V67, P31, DOI 10.1016/j.ijrobp.2006.07.1387Ghiringhelli F, 2006, IMMUNOL REV, V214, P229Carreras J, 2006, BLOOD, V108, P2957, DOI 10.1182/blood-2006-04-018218Lee J, 2006, J CLIN ONCOL, V24, P612, DOI 10.1200/JCO.2005.04.1384Barath S, 2006, ACTA HAEMATOL-BASEL, V116, P181, DOI 10.1159/000094678Dannull J, 2005, J CLIN INVEST, V115, P3623, DOI 10.1172/JC125947Kim TM, 2005, BLOOD, V106, P3785Ghiringhelli F, 2005, J EXP MED, V202, P1075, DOI 10.1084/jem.20051511Romagnani C, 2005, EUR J IMMUNOL, V35, P2452, DOI 10.1002/eji.200526069Lee J, 2005, EUR J CANCER, V41, P1402, DOI 10.1016/j.ejca.2005.03.010Alvaro T, 2005, CLIN CANCER RES, V11, P1467Curiel TJ, 2004, NAT MED, V10, P942, DOI 10.1038/nm1093Sakaguchi S, 2004, ANNU REV IMMUNOL, V22, P531, DOI 10.1146/annurev.immunol.21.120601.141122Ichihara F, 2003, CLIN CANCER RES, V9, P4404Cheung MMC, 2002, INT J RADIAT ONCOL, V54, P182Woo EY, 2001, CANCER RES, V61, P4766Ho JWY, 1999, J CLIN PATHOL-MOL PA, V52, P269Kagami Y, 1998, BRIT J HAEMATOL, V103, P669Boulland ML, 1998, AM J PATHOL, V153, P1229Cheung MMC, 1998, J CLIN ONCOL, V16, P706Y
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