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PRR (Czech Wikipedia)

Analysis of information sources in references of the Wikipedia article "PRR" in Czech language version.

refsWebsite
Global rank Czech rank
56doi.org
2nd place
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40nih.gov
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14worldcat.org
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8nature.com
234th place
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5elsevier.com
610th place
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3wiley.com
222nd place
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2annualreviews.org
3,867th place
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2harvard.edu
18th place
99th place
2pnas.org
1,293rd place
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2web.archive.org
1st place
1st place
2jleukbio.org
low place
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2fda.gov
447th place
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1plos.org
2,112th place
284th place
1mh-hannover.de
low place
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1asm.org
3,555th place
1,232nd place
1peerj.com
low place
1,427th place
1cancer.net
low place
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1wkhealth.com
low place
4,173rd place
1jbc.org
4,455th place
3,667th place
1frontiersin.org
4,679th place
990th place

annualreviews.org

asm.org

jvi.asm.org

  • PATTABHI, Sowmya; WILKINS, Courtney R.; DONG, Ran; KNOLL, Megan L.; POSAKONY, Jeffrey; KAISER, Shari; MIRE, Chad E. Targeting Innate Immunity for Antiviral Therapy through Small Molecule Agonists of the RLR Pathway. Journal of Virology. 2016-03-01, s. 2372–2387. Dostupné online. ISSN 0022-538X. doi:10.1128/jvi.02202-15. PMID 26676770. (anglicky) 

cancer.net

  • Understanding Immunotherapy. Cancer.Net. 2013-03-25. Dostupné online [cit. 2017-07-31]. (anglicky) 

doi.org

doi.org

  • MAHLA, R.S. Sweeten PAMPs: Role of Sugar Complexed PAMPs in Innate Immunity and Vaccine Biology. Front Immunol. 2013, s. 248. doi:10.3389/fimmu.2013.00248. PMID 24032031. 
  • KUMAR, Himanshu; KAWAI, Taro; AKIRA, Shizuo. Pathogen Recognition by the Innate Immune System. International Reviews of Immunology. 2011-01-01, s. 16–34. Dostupné online. ISSN 0883-0185. doi:10.3109/08830185.2010.529976. PMID 21235323. 
  • SCHRODER, Kate; TSCHOPP, Jurg. The Inflammasomes. Cell. S. 821–832. Dostupné online. doi:10.1016/j.cell.2010.01.040. 
  • TAKEDA, Kiyoshi; KAISHO, Tsuneyasu; AKIRA, Shizuo. Toll-Like Receptors [online]. 2003-11-28 [cit. 2017-07-27]. Dostupné online. doi:10.1146/annurev.immunol.21.120601.141126. (anglicky) 
  • Song WY, Wang GL, Chen LL, Kim HS, Pi LY, Holsten T, Gardner J, Wang B, Zhai WX, Zhu LH, Fauquet C, Ronald P. A receptor kinase-like protein encoded by the rice disease resistance gene, Xa21. Science. December 1995, s. 1804–6. doi:10.1126/science.270.5243.1804. PMID 8525370. Bibcode 1995Sci...270.1804S. 
  • Beutler B, Jiang Z, Georgel P, Crozat K, Croker B, Rutschmann S, Du X, Hoebe K. Genetic analysis of host resistance: Toll-like receptor signaling and immunity at large. Annu. Rev. Immunol.. 2006, s. 353–389. doi:10.1146/annurev.immunol.24.021605.090552. PMID 16551253. 
  • BOTOS, Istvan; SEGAL, David M.; DAVIES, David R. The Structural Biology of Toll-like Receptors. Structure. S. 447–459. Dostupné online. doi:10.1016/j.str.2011.02.004. PMID 21481769. 
  • TAKEDA, Kiyoshi; KAISHO, Tsuneyasu; AKIRA, Shizuo. Toll-Like Receptors [online]. 2003-11-28 [cit. 2017-07-27]. Dostupné online. doi:10.1146/annurev.immunol.21.120601.141126. (anglicky) 
  • HATAI, Hirotsugu; LEPELLEY, Alice; ZENG, Wangyong; HAYDEN, Matthew S.; GHOSH, Sankar. Toll-Like Receptor 11 (TLR11) Interacts with Flagellin and Profilin through Disparate Mechanisms. PLOS ONE. 2016-02-09, s. e0148987. Dostupné online. ISSN 1932-6203. doi:10.1371/journal.pone.0148987. PMID 26859749. 
  • OZINSKY, Adrian; UNDERHILL, David M.; FONTENOT, Jason D.; HAJJAR, Adeline M.; SMITH, Kelly D.; WILSON, Christopher B.; SCHROEDER, Lea. The repertoire for pattern recognition of pathogens by the innate immune system is defined by cooperation between Toll-like receptors. Proceedings of the National Academy of Sciences. 2000-12-05, s. 13766–13771. Dostupné online. ISSN 0027-8424. doi:10.1073/pnas.250476497. PMID 11095740. (anglicky) 
  • KAWAI, Taro; AKIRA, Shizuo. The role of pattern-recognition receptors in innate immunity: update on Toll-like receptors. Nature Immunology. Roč. 11, čís. 5, s. 373–384. Dostupné online. doi:10.1038/ni.1863. 
  • AKIRA, Shizuo; TAKEDA, Kiyoshi. Toll-like receptor signalling. Nature Reviews Immunology. S. 499–511. Dostupné online. doi:10.1038/nri1391. 
  • Doyle SL, O'Neill LA. Toll-like receptors: from the discovery of NFkappaB to new insights into transcriptional regulations in innate immunity. Biochem. Pharmacol.. October 2006, s. 1102–1113. doi:10.1016/j.bcp.2006.07.010. PMID 16930560. 
  • HOVING, J. Claire; WILSON, Gillian J.; BROWN, Gordon D. Signalling C-Type lectin receptors, microbial recognition and immunity. Cellular Microbiology. 2014-02-01, s. 185–194. Dostupné online. ISSN 1462-5822. doi:10.1111/cmi.12249. PMID 24330199. (anglicky) 
  • HARDISON, Sarah E; BROWN, Gordon D. C-type lectin receptors orchestrate antifungal immunity. Nature Immunology. S. 817–822. Dostupné online. doi:10.1038/ni.2369. PMID 22910394. 
  • ZELENSKY, Alex N; GREADY, Jill E. The C-type lectin-like domain superfamily. FEBS Journal. 2005-12-01, s. 6179–6217. Dostupné online. ISSN 1742-4658. doi:10.1111/j.1742-4658.2005.05031.x. (anglicky) 
  • GEIJTENBEEK, Teunis B. H.; GRINGHUIS, Sonja I. Signalling through C-type lectin receptors: shaping immune responses. Nature Reviews Immunology. S. 465–479. Dostupné online. doi:10.1038/nri2569. 
  • EAST, L. The mannose receptor family. Biochimica et Biophysica Acta (BBA) - General Subjects. S. 364–386. Dostupné online. doi:10.1016/s0304-4165(02)00319-7. 
  • Apostolopoulos V, McKenzie IF. Role of the mannose receptor in the immune response. Curr. Mol. Med.. September 2001, s. 469–74. doi:10.2174/1566524013363645. PMID 11899091. 
  • VUKMAN, Krisztina V.; RAVIDÀ, Alessandra; ALDRIDGE, Allison M.; O'NEILL, Sandra M. Mannose receptor and macrophage galactose-type lectin are involved in Bordetella pertussis mast cell interaction. Journal of Leukocyte Biology. 2013-09-01, s. 439–448. Dostupné online. ISSN 0741-5400. doi:10.1189/jlb.0313130. PMID 23794711. (anglicky) [nedostupný zdroj]
  • HOVING, J. Claire; WILSON, Gillian J.; BROWN, Gordon D. Signalling C-Type lectin receptors, microbial recognition and immunity. Cellular Microbiology. 2014-02-01, s. 185–194. Dostupné online. ISSN 1462-5822. doi:10.1111/cmi.12249. PMID 24330199. (anglicky) 
  • CARUSO, Roberta; WARNER, Neil; INOHARA, Naohiro; NÚÑEZ, Gabriel. NOD1 and NOD2: Signaling, Host Defense, and Inflammatory Disease. Immunity. S. 898–908. Dostupné online. doi:10.1016/j.immuni.2014.12.010. PMID 25526305. 
  • Ting JP, Williams KL. The CATERPILLER family: an ancient family of immune/apoptotic proteins. Clin. Immunol.. April 2005, s. 33–37. doi:10.1016/j.clim.2005.02.007. PMID 15870018. 
  • Strober W, Murray PJ, Kitani A, Watanabe T. Signalling pathways and molecular interactions of NOD1 and NOD2. Nat. Rev. Immunol.. January 2006, s. 9–20. doi:10.1038/nri1747. PMID 16493424. 
  • BURBERRY, Aaron; ZENG, Melody Y.; DING, Lei; WICKS, Ian; INOHARA, Naohiro; MORRISON, Sean J.; NÚÑEZ, Gabriel. Infection Mobilizes Hematopoietic Stem Cells through Cooperative NOD-like Receptor and Toll-like Receptor Signaling. Cell Host & Microbe. S. 779–791. Dostupné online. doi:10.1016/j.chom.2014.05.004. PMID 24882704. 
  • KIM, Yun-Gi; PARK, Jong-Hwan; SHAW, Michael H.; FRANCHI, Luigi; INOHARA, Naohiro; NÚÑEZ, Gabriel. The Cytosolic Sensors Nod1 and Nod2 Are Critical for Bacterial Recognition and Host Defense after Exposure to Toll-like Receptor Ligands. Immunity. S. 246–257. Dostupné online. doi:10.1016/j.immuni.2007.12.012. 
  • IP, W. K. Eddie; MEDZHITOV, Ruslan. Macrophages monitor tissue osmolarity and induce inflammatory response through NLRP3 and NLRC4 inflammasome activation. Nature Communications. 2015-05-11, s. ncomms7931. Dostupné online. doi:10.1038/ncomms7931. PMID 25959047. (anglicky) 
  • GUO, Haitao; CALLAWAY, Justin B; TING, Jenny P-Y. Inflammasomes: mechanism of action, role in disease, and therapeutics. Nature Medicine. S. 677–687. Dostupné online. doi:10.1038/nm.3893. PMID 26121197. 
  • Inohara, Inohara, McDonald C, Nuñez G. NOD-LRR proteins: role in host-microbial interactions and inflammatory disease. Annu. Rev. Biochem.. 2005, s. 355–383. doi:10.1146/annurev.biochem.74.082803.133347. PMID 15952891. 
  • Jones DG, Dangl JL. The plant immune system. Nature. 2006, s. 323–329. doi:10.1038/nature05286. PMID 17108957. Bibcode 2006Natur.444..323J. 
  • PATTABHI, Sowmya; WILKINS, Courtney R.; DONG, Ran; KNOLL, Megan L.; POSAKONY, Jeffrey; KAISER, Shari; MIRE, Chad E. Targeting Innate Immunity for Antiviral Therapy through Small Molecule Agonists of the RLR Pathway. Journal of Virology. 2016-03-01, s. 2372–2387. Dostupné online. ISSN 0022-538X. doi:10.1128/jvi.02202-15. PMID 26676770. (anglicky) 
  • EISENÄCHER, Katharina; KRUG, Anne. Regulation of RLR-mediated innate immune signaling – It is all about keeping the balance. European Journal of Cell Biology. S. 36–47. Dostupné online. doi:10.1016/j.ejcb.2011.01.011. 
  • SATOH, Takashi; KATO, Hiroki; KUMAGAI, Yutaro; YONEYAMA, Mitsutoshi; SATO, Shintaro; MATSUSHITA, Kazufumi; TSUJIMURA, Tohru. LGP2 is a positive regulator of RIG-I– and MDA5-mediated antiviral responses. Proceedings of the National Academy of Sciences. 2010-01-26, s. 1512–1517. Dostupné online. ISSN 0027-8424. doi:10.1073/pnas.0912986107. PMID 20080593. (anglicky) 
  • LOO, Yueh-Ming; GALE, Michael. Immune Signaling by RIG-I-like Receptors. Immunity. S. 680–692. Dostupné online. doi:10.1016/j.immuni.2011.05.003. PMID 21616437. 
  • Bahar O, Pruitt R, Luu DD, Schwessinger B, Daudi A, Liu F, Ruan R, Fontaine-Bodin L, Koebnik R, Ronald P. The Xanthomonas Ax21 protein is processed by the general secretory system and is secreted in association with outer membrane vesicles. PeerJ. 2014, s. e242. Dostupné online. doi:10.7717/peerj.242. PMID 24482761. 
  • Boller T, Felix G. A renaissance of elicitors: perception of microbe-associated molecular patterns and danger signals by pattern-recognition receptors. Annu Rev Plant Biol. 2009, s. 379–406. doi:10.1146/annurev.arplant.57.032905.105346. PMID 19400727. 
  • Chisholm ST, Coaker G, Day B, Staskawicz BJ. Host-microbe interactions: shaping the evolution of the plant immune response. Cell. 2006, s. 803–814. doi:10.1016/j.cell.2006.02.008. PMID 16497589. 
  • McHale L, Tan X, Koehl P, Michelmore RW. Plant NBS-LRR proteins: adaptable guards. Genome Biol. 2006, s. 212. doi:10.1186/gb-2006-7-4-212. PMID 16677430. 
  • DARDICK, Chris; SCHWESSINGER, Benjamin; RONALD, Pamela. Non-arginine-aspartate (non-RD) kinases are associated with innate immune receptors that recognize conserved microbial signatures. Current Opinion in Plant Biology. S. 358–366. Dostupné online. doi:10.1016/j.pbi.2012.05.002. 
  • Dardick C, Ronald P. Plant and animal pathogen recognition receptors signal through non-RD kinases. PLoS Pathog.. January 2006, s. e2. doi:10.1371/journal.ppat.0020002. PMID 16424920. 
  • Wang GL, Ruan DL, Song WY, Sideris S, Chen L, Pi LY, Zhang S, Zhang Z, Fauquet C, Gaut BS, Whalen MC, Ronald PC. Xa21D encodes a receptor-like molecule with a leucine-rich repeat domain that determines race-specific recognition and is subject to adaptive evolution. Plant Cell. May 1998, s. 765–79. doi:10.2307/3870663. PMID 9596635. 
  • Dommett RM, Klein N, Turner MW. Mannose-binding lectin in innate immunity: past, present and future. Tissue Antigens. September 2006, s. 193–209. doi:10.1111/j.1399-0039.2006.00649.x. PMID 16948640. 
  • CHEN, Edward S. Innate immunity in sarcoidosis pathobiology. Current Opinion in Pulmonary Medicine. S. 469–475. Dostupné online. doi:10.1097/mcp.0000000000000305. 
  • PHILPOTT, Dana J.; SORBARA, Matthew T.; ROBERTSON, Susan J.; CROITORU, Kenneth; GIRARDIN, Stephen E. NOD proteins: regulators of inflammation in health and disease. Nature Reviews Immunology. S. 9–23. Dostupné online. doi:10.1038/nri3565. 
  • JUN, Janice C.; COMINELLI, Fabio; ABBOTT, Derek W. RIP2 activity in inflammatory disease and implications for novel therapeutics. Journal of Leukocyte Biology. 2013-11-01, s. 927–932. Dostupné v archivu pořízeném dne 2016-05-10. ISSN 0741-5400. doi:10.1189/jlb.0213109. PMID 23794710. (anglicky)  Archivovaná kopie. www.jleukbio.org [online]. [cit. 2017-08-01]. Dostupné v archivu pořízeném z originálu dne 2016-05-10. 
  • TIGNO-ARANJUEZ, Justine T.; BENDERITTER, Pascal; ROMBOUTS, Frederik; DEROOSE, Frederik; BAI, XiaoDong; MATTIOLI, Benedetta; COMINELLI, Fabio. In Vivo Inhibition of RIPK2 Kinase Alleviates Inflammatory Disease. Journal of Biological Chemistry. 2014-10-24, s. 29651–29664. Dostupné online. ISSN 0021-9258. doi:10.1074/jbc.m114.591388. PMID 25213858. (anglicky) 
  • HAILE, Pamela A.; VOTTA, Bartholomew J.; MARQUIS, Robert W.; BURY, Michael J.; MEHLMANN, John F.; SINGHAUS, Robert; CHARNLEY, Adam K. The Identification and Pharmacological Characterization of 6-(tert-Butylsulfonyl)-N-(5-fluoro-1H-indazol-3-yl)quinolin-4-amine (GSK583), a Highly Potent and Selective Inhibitor of RIP2 Kinase. Journal of Medicinal Chemistry. 2016-05-26, s. 4867–4880. Dostupné online. ISSN 0022-2623. doi:10.1021/acs.jmedchem.6b00211. 
  • CORRIDONI, D; RODRIGUEZ-PALACIOS, A; STEFANO, G Di; MARTINO, L Di; ANTONOPOULOS, D A; CHANG, E B; ARSENEAU, K O. Genetic deletion of the bacterial sensor NOD2 improves murine Crohn’s disease-like ileitis independent of functional dysbiosis. Mucosal Immunology. S. 971–982. Dostupné online. doi:10.1038/mi.2016.98. PMID 27848951. 
  • CANNING, Peter; RUAN, Qui; SCHWERD, Tobias; HRDINKA, Matous; MAKI, Jenny L.; SALEH, Danish; SUEBSUWONG, Chalada. Inflammatory Signaling by NOD-RIPK2 Is Inhibited by Clinically Relevant Type II Kinase Inhibitors. Chemistry & Biology. S. 1174–1184. Dostupné online. doi:10.1016/j.chembiol.2015.07.017. PMID 26320862. 
  • CASTAÑO-RODRÍGUEZ, Natalia; KAAKOUSH, Nadeem O.; MITCHELL, Hazel M. Pattern-Recognition Receptors and Gastric Cancer. Frontiers in Immunology. 2014. Dostupné online. ISSN 1664-3224. doi:10.3389/fimmu.2014.00336. PMID 25101079. (English) 
  • KIGERL, Kristina A.; VACCARI, Juan Pablo de Rivero; DIETRICH, W. Dalton; POPOVICH, Phillip G.; KEANE, Robert W. Pattern recognition receptors and central nervous system repair. Experimental Neurology. S. 5–16. Dostupné online. doi:10.1016/j.expneurol.2014.01.001. PMID 25017883. 

dx.doi.org

  • KUMAR, Himanshu; KAWAI, Taro; AKIRA, Shizuo. Pathogen Recognition by the Innate Immune System. International Reviews of Immunology. 2011-01-01, s. 16–34. Dostupné online. ISSN 0883-0185. doi:10.3109/08830185.2010.529976. PMID 21235323. 
  • CARUSO, Roberta; WARNER, Neil; INOHARA, Naohiro; NÚÑEZ, Gabriel. NOD1 and NOD2: Signaling, Host Defense, and Inflammatory Disease. Immunity. S. 898–908. Dostupné online. doi:10.1016/j.immuni.2014.12.010. PMID 25526305. 
  • HAILE, Pamela A.; VOTTA, Bartholomew J.; MARQUIS, Robert W.; BURY, Michael J.; MEHLMANN, John F.; SINGHAUS, Robert; CHARNLEY, Adam K. The Identification and Pharmacological Characterization of 6-(tert-Butylsulfonyl)-N-(5-fluoro-1H-indazol-3-yl)quinolin-4-amine (GSK583), a Highly Potent and Selective Inhibitor of RIP2 Kinase. Journal of Medicinal Chemistry. 2016-05-26, s. 4867–4880. Dostupné online. ISSN 0022-2623. doi:10.1021/acs.jmedchem.6b00211. 
  • CANNING, Peter; RUAN, Qui; SCHWERD, Tobias; HRDINKA, Matous; MAKI, Jenny L.; SALEH, Danish; SUEBSUWONG, Chalada. Inflammatory Signaling by NOD-RIPK2 Is Inhibited by Clinically Relevant Type II Kinase Inhibitors. Chemistry & Biology. S. 1174–1184. Dostupné online. doi:10.1016/j.chembiol.2015.07.017. PMID 26320862. 
  • KIGERL, Kristina A.; VACCARI, Juan Pablo de Rivero; DIETRICH, W. Dalton; POPOVICH, Phillip G.; KEANE, Robert W. Pattern recognition receptors and central nervous system repair. Experimental Neurology. S. 5–16. Dostupné online. doi:10.1016/j.expneurol.2014.01.001. PMID 25017883. 

elsevier.com

linkinghub.elsevier.com

  • BOTOS, Istvan; SEGAL, David M.; DAVIES, David R. The Structural Biology of Toll-like Receptors. Structure. S. 447–459. Dostupné online. doi:10.1016/j.str.2011.02.004. PMID 21481769. 
  • BURBERRY, Aaron; ZENG, Melody Y.; DING, Lei; WICKS, Ian; INOHARA, Naohiro; MORRISON, Sean J.; NÚÑEZ, Gabriel. Infection Mobilizes Hematopoietic Stem Cells through Cooperative NOD-like Receptor and Toll-like Receptor Signaling. Cell Host & Microbe. S. 779–791. Dostupné online. doi:10.1016/j.chom.2014.05.004. PMID 24882704. 
  • KIM, Yun-Gi; PARK, Jong-Hwan; SHAW, Michael H.; FRANCHI, Luigi; INOHARA, Naohiro; NÚÑEZ, Gabriel. The Cytosolic Sensors Nod1 and Nod2 Are Critical for Bacterial Recognition and Host Defense after Exposure to Toll-like Receptor Ligands. Immunity. S. 246–257. Dostupné online. doi:10.1016/j.immuni.2007.12.012. 
  • EISENÄCHER, Katharina; KRUG, Anne. Regulation of RLR-mediated innate immune signaling – It is all about keeping the balance. European Journal of Cell Biology. S. 36–47. Dostupné online. doi:10.1016/j.ejcb.2011.01.011. 
  • LOO, Yueh-Ming; GALE, Michael. Immune Signaling by RIG-I-like Receptors. Immunity. S. 680–692. Dostupné online. doi:10.1016/j.immuni.2011.05.003. PMID 21616437. 

fda.gov

fda.gov

  • Press Announcements - FDA approves targeted therapy for first-line treatment of patients with a type of metastatic lung cancer. www.fda.gov [online]. [cit. 2017-08-01]. Dostupné online. (anglicky) 

accessdata.fda.gov

  • Drugs@FDA: FDA Approved Drug Products. www.accessdata.fda.gov [online]. [cit. 2017-08-01]. Dostupné online. 

frontiersin.org

journal.frontiersin.org

harvard.edu

adsabs.harvard.edu

jbc.org

  • TIGNO-ARANJUEZ, Justine T.; BENDERITTER, Pascal; ROMBOUTS, Frederik; DEROOSE, Frederik; BAI, XiaoDong; MATTIOLI, Benedetta; COMINELLI, Fabio. In Vivo Inhibition of RIPK2 Kinase Alleviates Inflammatory Disease. Journal of Biological Chemistry. 2014-10-24, s. 29651–29664. Dostupné online. ISSN 0021-9258. doi:10.1074/jbc.m114.591388. PMID 25213858. (anglicky) 

jleukbio.org

mh-hannover.de

nature.com

  • KAWAI, Taro; AKIRA, Shizuo. The role of pattern-recognition receptors in innate immunity: update on Toll-like receptors. Nature Immunology. Roč. 11, čís. 5, s. 373–384. Dostupné online. doi:10.1038/ni.1863. 
  • AKIRA, Shizuo; TAKEDA, Kiyoshi. Toll-like receptor signalling. Nature Reviews Immunology. S. 499–511. Dostupné online. doi:10.1038/nri1391. 
  • HARDISON, Sarah E; BROWN, Gordon D. C-type lectin receptors orchestrate antifungal immunity. Nature Immunology. S. 817–822. Dostupné online. doi:10.1038/ni.2369. PMID 22910394. 
  • GEIJTENBEEK, Teunis B. H.; GRINGHUIS, Sonja I. Signalling through C-type lectin receptors: shaping immune responses. Nature Reviews Immunology. S. 465–479. Dostupné online. doi:10.1038/nri2569. 
  • IP, W. K. Eddie; MEDZHITOV, Ruslan. Macrophages monitor tissue osmolarity and induce inflammatory response through NLRP3 and NLRC4 inflammasome activation. Nature Communications. 2015-05-11, s. ncomms7931. Dostupné online. doi:10.1038/ncomms7931. PMID 25959047. (anglicky) 
  • GUO, Haitao; CALLAWAY, Justin B; TING, Jenny P-Y. Inflammasomes: mechanism of action, role in disease, and therapeutics. Nature Medicine. S. 677–687. Dostupné online. doi:10.1038/nm.3893. PMID 26121197. 
  • PHILPOTT, Dana J.; SORBARA, Matthew T.; ROBERTSON, Susan J.; CROITORU, Kenneth; GIRARDIN, Stephen E. NOD proteins: regulators of inflammation in health and disease. Nature Reviews Immunology. S. 9–23. Dostupné online. doi:10.1038/nri3565. 
  • CORRIDONI, D; RODRIGUEZ-PALACIOS, A; STEFANO, G Di; MARTINO, L Di; ANTONOPOULOS, D A; CHANG, E B; ARSENEAU, K O. Genetic deletion of the bacterial sensor NOD2 improves murine Crohn’s disease-like ileitis independent of functional dysbiosis. Mucosal Immunology. S. 971–982. Dostupné online. doi:10.1038/mi.2016.98. PMID 27848951. 

nih.gov

ncbi.nlm.nih.gov

  • MAHLA, R.S. Sweeten PAMPs: Role of Sugar Complexed PAMPs in Innate Immunity and Vaccine Biology. Front Immunol. 2013, s. 248. doi:10.3389/fimmu.2013.00248. PMID 24032031. 
  • KUMAR, Himanshu; KAWAI, Taro; AKIRA, Shizuo. Pathogen Recognition by the Innate Immune System. International Reviews of Immunology. 2011-01-01, s. 16–34. Dostupné online. ISSN 0883-0185. doi:10.3109/08830185.2010.529976. PMID 21235323. 
  • ALBERTS, Bruce; JOHNSON, Alexander; LEWIS, Julian; RAFF, Martin; ROBERTS, Keith; WALTER, Peter. Innate Immunity. www.ncbi.nlm.nih.gov. 2002. Dostupné online. (anglicky) 
  • Song WY, Wang GL, Chen LL, Kim HS, Pi LY, Holsten T, Gardner J, Wang B, Zhai WX, Zhu LH, Fauquet C, Ronald P. A receptor kinase-like protein encoded by the rice disease resistance gene, Xa21. Science. December 1995, s. 1804–6. doi:10.1126/science.270.5243.1804. PMID 8525370. Bibcode 1995Sci...270.1804S. 
  • Beutler B, Jiang Z, Georgel P, Crozat K, Croker B, Rutschmann S, Du X, Hoebe K. Genetic analysis of host resistance: Toll-like receptor signaling and immunity at large. Annu. Rev. Immunol.. 2006, s. 353–389. doi:10.1146/annurev.immunol.24.021605.090552. PMID 16551253. 
  • BOTOS, Istvan; SEGAL, David M.; DAVIES, David R. The Structural Biology of Toll-like Receptors. Structure. S. 447–459. Dostupné online. doi:10.1016/j.str.2011.02.004. PMID 21481769. 
  • HATAI, Hirotsugu; LEPELLEY, Alice; ZENG, Wangyong; HAYDEN, Matthew S.; GHOSH, Sankar. Toll-Like Receptor 11 (TLR11) Interacts with Flagellin and Profilin through Disparate Mechanisms. PLOS ONE. 2016-02-09, s. e0148987. Dostupné online. ISSN 1932-6203. doi:10.1371/journal.pone.0148987. PMID 26859749. 
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  • SATOH, Takashi; KATO, Hiroki; KUMAGAI, Yutaro; YONEYAMA, Mitsutoshi; SATO, Shintaro; MATSUSHITA, Kazufumi; TSUJIMURA, Tohru. LGP2 is a positive regulator of RIG-I– and MDA5-mediated antiviral responses. Proceedings of the National Academy of Sciences. 2010-01-26, s. 1512–1517. Dostupné online. ISSN 0027-8424. doi:10.1073/pnas.0912986107. PMID 20080593. (anglicky) 

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worldcat.org

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  • JUN, Janice C.; COMINELLI, Fabio; ABBOTT, Derek W. RIP2 activity in inflammatory disease and implications for novel therapeutics. Journal of Leukocyte Biology. 2013-11-01, s. 927–932. Dostupné v archivu pořízeném dne 2016-05-10. ISSN 0741-5400. doi:10.1189/jlb.0213109. PMID 23794710. (anglicky)  Archivovaná kopie. www.jleukbio.org [online]. [cit. 2017-08-01]. Dostupné v archivu pořízeném z originálu dne 2016-05-10. 
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