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1Academic Journal
Authors: M. A. Volkova, Ir. A. Chvala
Source: Ветеринария сегодня, Vol 0, Iss 2, Pp 37-43 (2018)
Subject Terms: проточная цитофлуориметрия, иммунофенотипирование лимфоцитов кур, Veterinary medicine, SF600-1100
File Description: electronic resource
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2Academic Journal
Source: Medical Immunology (Russia); Том 17, № 1 (2015); 19-26 ; Медицинская иммунология; Том 17, № 1 (2015); 19-26 ; 2313-741X ; 1563-0625 ; 10.15789/1563-0625-2015-1
Subject Terms: иммунофенотипирование лимфоцитов, multicolor analysis, immunophenotyping, многоцветный анализ
File Description: application/pdf
Relation: https://www.mimmun.ru/mimmun/article/view/803/747; Байдун Л.А., Зурочка А.В., Тотолян Арег А., Хайдуков С.В. Стандартизованная технология «исследование субпопуляционного состава лимфоцитов периферической крови с применением проточных цитофлюориметров-анализаторов» (проект) // Медицинская иммунология, 2012. Т. 14, No 3. С.255-268.[Ba’dun L.A., Zurochka A.V., Totolian Areg A., Khaidukov S.V. Stadartizovannaya tekhnologiya "issledovanie subpopuliasionnogo soslava limphocytov pirifericheskoy krovi s primenemiem protochnih cytophluorimetrov-analizatorov" (proekt). Meditsinskaya immunologia = Medical Immunology (Russia), 2012, Vol. 14, no.3. pp. 255-268. (In Russ.)]; Зурочка А.В., Хайдуков С.В., Кудрявцев И.В., Черешнев В.А. Проточная цитометрия в медицине и биологии. Екатеринбург: РИО УрОРАН, 2013. 552 с. [Zurochka A.V., Khaidukov S.V., Kudryavtsev I.V., Chereshnev V.A. Flow cytometry in medicine and biology]. Ekaterinburg: RIO UrORAN, 2013. 552 p.; Autissier P., Soulas C., Burdo T.H., Williams K.C. Evaluation of a 12-color flow cytometry panel to study lymphocyte, monocyte, and dendritic cell subsets in humans. Cytometry A, 2010, Vol. 77. pp. 410-419.; Bendall S.C., Nolan G.P., Roederer M., Chattopadhyay P.K. A deep profiler’s guide to cytometry. Trends Immunol., 2012, Vol. 33, pp. 323-332.; Chattopadhyay P.K., Price D.A., Harper T.F., Betts M.R., Yu J., Gostick E., Perfetto S.P., Goepfert P., Koup R.A., De Rosa S.C., Bruchez M.P., Roederer M. Quantum dot semiconductor nanocrystals for immunophenotyping by polychromatic flow cytometry. Nat. Med., 2006, Vol. 12, pp. 972-977.; Chattopadhyay P.K., Roederer M. Cytometry: today’s technology and tomorrow’s horizons. Methods, 2012, Vol. 57, pp. 251-258.; De Rosa S.C., Herzenberg L.A., Herzenberg L.A., Roederer M. 11-color, 13-parameter flow cytometry: identification of human naive T cells by phenotype, function, and T-cell receptor diversity. Nat. Med., 2001, Vol. 7, pp. 245-248.; Horvatinovich J.M., Sparks S.D., Mann K.P. Establishing a pure lymphocyte gate for subset analysis by flow cytometry. Cytometry, 1996, Vol. 26, pp. 172-177.; Lansdorp P.M., Smith C., Safford M., Terstappen L.W., Thomas T.E. Single laser three color immunofluorescence staining procedures based on energy transfer between phycoerythrin and cyanine 5. Cytometry, 1991, Vol. 12, pp. 723-730.; Maecker H.T., Frey T., Nomura L.E., Trotter J. Selecting fluorochrome conjugates for maximum sensitivity. Cytometry A, 2004, Vol. 62, pp. 169-173.; Mahnke Y.D., Roederer M. Optimizing a multicolor immunophenotyping assay. Clin. Lab. Med., 2007, Vol. 27, pp. 469-485.; Mandy F.F., Nicholson J.K., McDougal J.S.; CDC. Guidelines for performing single-platform absolute CD4+ T-cell determinations with CD45 gating for persons infected with human immunodeficiency virus. Centers for Disease Control and Prevention. MMWR Recomm. Rep., 2003, Vol. 52, RR-2, pp. 1-13.; Roederer M., De Rosa S., Gerstein R., Anderson M., Bigos M., Stovel R., Nozaki T., Parks D., Herzenberg L., Herzenberg L. 8 color, 10-parameter flow cytometry to elucidate complex leukocyte heterogeneity. Cytometry, 1997, Vol. 29, pp. 328-339.; Roederer M., Kantor A.B., Parks D.R., Herzenberg L.A. Cy7PE and Cy7APC: bright new probes for immunofluorescence. Cytometry, 1996, Vol. 24, pp. 191-197.; Schenker E.L., Hultin L.E., Bauer K.D., Ferbas J., Margolick J.B., Giorgi J.V. Evaluation of a dual-color flow cytometry immunophenotyping panel in a multicenter quality assurance program. Cytometry, 1993, Vol. 14, pp. 307-317.; Soghoian D.Z., Jessen H., Flanders M., Sierra-Davidson K., Cutler S., Pertel T., Ranasinghe S., Lindqvist M., Davis I., Lane K., Rychert J., Rosenberg E.S., Piechocka-Trocha A., Brass A.L., Brenchley J.M., Walker B.D., Streeck H. HIV-specific cytolytic CD4 T cell responses during acute HIV infection predict disease outcome. Sci. Transl. Med., 2012, Vol. 4, pp. 123-125.; Steinkamp J.A., Orlicky D.A., Crissman H.A. Dual-laser flow cytometry of single mammalian cells. J. Histochem. Cytochem., 1979, Vol. 27, pp. 273-276.; Telford W.G. Lasers in flow cytometry. Methods Cell. Biol., 2011, Vol. 102, pp. 375-409.; https://www.mimmun.ru/mimmun/article/view/803
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3Academic Journal
Subject Terms: ПРОТОЧНАЯ ЦИТОМЕТРИЯ, МНОГОЦВЕТНЫЙ АНАЛИЗ, ИММУНОФЕНОТИПИРОВАНИЕ ЛИМФОЦИТОВ
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4Academic Journal
Source: Медицинская иммунология.
Subject Terms: ПРОТОЧНАЯ ЦИТОМЕТРИЯ, МНОГОЦВЕТНЫЙ АНАЛИЗ, ИММУНОФЕНОТИПИРОВАНИЕ ЛИМФОЦИТОВ, 3. Good health
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