Registro:

Referencias:

• Dreyfuss, G., Matunis, M.J., Pinolroma, S., Burd, C.G., HnRNP proteins and the biogenesis of messenger-RNA (1993) Annu. Rev. Biochem., 62, pp. 289-321
• Han, S.P., Tang, I.H., Smith, R., Functional diversity of the hnRNPs: Past, present and perspectives (2010) Biochem. J., 430 (3), pp. 379-392. , Complete and updated review regarding the structure and cellular functions of most heterogeneous nuclear ribonucleoproteins (hnRNPs) described to date
• Chaudhury, A., Chander, P., Howe, P.H., Heterogeneous nuclear ribonucleoproteins (hnRNPs) in cellular processes: Focus on hnRNP E1's multifunctional regulatory roles (2010) RNA, 16 (8), pp. 1449-1462
• Cheunim, T., Zhang, J., Milligan, S.G., McPhillips, M.G., Graham, S.V., The alternative splicing factor hnRNP A1 is up-regulated during virus-infected epithelial cell differentiation and binds the human papillomavirus type 16 late regulatory element (2008) Virus Res., 131 (2), pp. 189-198
• Monette, A., Ajamian, L., López-Lastra, M., Mouland, A.J., Human immunodeficiency virus type 1 (HIV-1) induces the cytoplasmic retention of heterogeneous nuclear ribonucleoprotein A1 by disrupting nuclear import: Implications for HIV-1 gene expression (2009) J. Biol. Chem., 284 (45), pp. 31350-33162. , Interesting article that accurately explores both the mechanism of cytoplasmic relocalization and the function of hnRNP A1 during HIV infection
• Maeto, C.A., Knott, M.E., Linero, F.N., Ellenberg, P.C., Scolaro, L.A., Castilla, V., Differential effect of acute and persistent Junin virus infections on the nucleo-cytoplasmic trafficking and expression of heterogeneous nuclear ribonucleoproteins type A and B (2011) J. Gen. Virol., 92 (9), pp. 2181-2190
• Belov, G.A., Evstafieva, A.G., Rubtsov, Y.P., Mikitas, O.V., Vartapetian, A.B., Agol, V.I., Early alteration of nucleocytoplasmic traffic induced by some RNA viruses (2000) Virology, 275 (2), pp. 244-248
• Gustin, K.E., Sarnow, P., Inhibition of nuclear import and alteration of nuclear pore complex composition by rhinovirus (2002) J. Virol., 76 (17), pp. 8787-8796
• Gustin, K.E., Inhibition of nucleo-cytoplasmic trafficking by RNA viruses: Targeting the nuclear pore complex (2003) Virus Res., 95 (1-2), pp. 35-44
• Romanelli, M.G., Morandi, C., Importin a binds to an unusual bipartite nuclear localization signal in the heterogeneous ribonucleoprotein type I (2002) Eur. J. Biochem., 269 (11), pp. 2727-2734
• Park, N., Katikaneni, P., Skern, T., Gustin, K.E., Differential targeting of nuclear pore complex proteins in poliovirus-infected cells (2008) J. Virol., 82 (4), pp. 1647-1655
• Porter, F.W., Bochkov, Y.A., Albee, A.J., Wiese, C., Palmenberg, A.C., A picornavirus protein interacts with Ran-GTPase and disrupts nucleocytoplasmic transport (2006) Proc. Natl Acad. Sci. USA, 103 (33), pp. 12417-12422
• Petersen, J.M., Her, L.S., Dahlberg, J.E., Multiple vesiculoviral matrix proteins inhibit both nuclear export and import (2001) Proc. Natl Acad. Sci. USA, 98 (15), pp. 8590-8595
• Von Kobbe, C., Van Deursen, J.M.A., Rodrigues, J.P., Vesicular stomatitis virus matrix protein inhibits host cell gene expression by targeting the nucleopoin Nup98 (2000) Mol. Cell, 6 (5), pp. 1243-1252
• Pettit Kneller, E.L., Connor, J.H., Lyles, D.S., hnRNPs relocalize to the cytoplasm following infection with vesicular stomatitis virus (2009) J. Virol., 83 (2), pp. 770-780
• Faria, P.A., Chakraborty, P., Levay, A., VSV disrupts the Rae1/mrnp41 mRNA nuclear export pathway (2005) Mol. Cell, 17 (1), pp. 93-102
• Koloteva-Levine, N., Amichay, M., Elroy-Stein, O., Interaction of hnRNP-C1/C2 proteins with RNA: Analysis using the yeast three-hybrid system (2002) FEBS Lett., 523 (1-3), pp. 73-78
• Brunner, J.E., Nguyen, J.H., Roehl, H.H., Ho, T.V., Swiderek, K.M., Semler, B.L., Functional interaction of heterogeneous nuclear ribonucleoprotein C with poliovirus RNA synthesis initiation complexes (2005) J. Virol., 79 (6), pp. 3254-3266
• Ertel, K.J., Brunner, J.E., Semler, B.L., Mechanistic consequences of hnRNP C binding to both RNA termini of poliovirus negative-strand RNA intermediates (2010) J. Virol., 84 (9), pp. 4229-4242. , Demonstrates the role of an hnRNP in the promotion of efficient poliovirus positive-strand RNA synthesis
• Brunner, J.E., Ertel, K.J., Rozovics, J.M., Semler, B.L., Delayed kinetics of poliovirus RNA synthesis in a human cell line with reduced levels of hnRNP C proteins (2010) Virology, 400 (2), pp. 240-247
• Dejgaard, K., Leffers, H., Characterisation of the nucleic-acid binding activity of KH domains. Different properties of different domains (1996) Eur. J. Biochem., 241 (2), pp. 425-431
• Gamarnik, A.V., Andino, R., Two functional complexes formed by KH domain containing proteins with the 5′ noncoding region of poliovirus RNA (1997) RNA, 3 (8), pp. 882-892
• Kim, J.H., Hahm, B., Kim, Y.K., Choi, M., Jang, S.K., Protein-protein interaction among hnRNPs shuttling between nucleus and cytoplasm (2000) J. Mol. Biol., 298 (3), pp. 395-405
• Gamarnik, A.V., Andino, R., Switch from translation to RNA replication in a positive-stranded RNA virus (1998) Genes Dev., 12 (15), pp. 2293-2304
• Walter, B.L., Parsley, T.B., Ehrenfeld, E., Semler, B.L., Distinct poly(rC) binding protein KH domain determinants for poliovirus translation initiation and viral RNA replication (2002) J. Virol., 76 (23), pp. 12008-12022
• Barton, D.J., O'Donnell, B.J., Flanegan, J.B., 5′ cloverleaf in poliovirus RNA is a cis-acting replication element required for negative strand synthesis (2001) EMBO J., 20 (6), pp. 1439-1448
• Herold, J., Andino, R., Poliovirus RNA replication requires genome circularization through a protein-protein bridge (2001) Mol. Cell, 7 (3), pp. 581-591
• Toyoda, H., Franco, D., Fujita, K., Paul, A.V., Wimmer, E., Replication of poliovirus requires binding of the poly(rC) binding protein to the cloverleaf as well as to the adjacent C-rich spacer sequence between the cloverleaf and the internal ribosomal entry site (2007) J. Virol., 81 (18), pp. 10017-10028
• Sharma, N., Ogram, S.A., Morasco, B.J., Spear, A., Chapman, N.M., Flanegan, J.B., Functional role of the 5′ terminal cloverleaf in Coxsackievirus RNA replication (2009) Virology, 393 (2), pp. 238-249
• Bomsztyk, K., Denisenko, O., Ostrowski, J., hnRNP K: One protein multiple processes (2004) Bioessays, 26 (6), pp. 629-638
• Lin, J.Y., Li, M.L., Huang, P.N., Chien, K.Y., Horng, J.T., Shih, S.R., Heterogeneous nuclear ribonuclear protein K interacts with the enterovirus 71 5′ untranslated region and participates in virus replication (2008) J. Gen. Virol., 89 (10), pp. 2540-2549
• Shih, S.R., Stollar, V., Li, M.L., Host factors in enterovirus 71 replication (2011) J. Virol., 85 (19), pp. 9658-9666. , Complete revision of the roles of different host factors, including hnRNPs, in the replication of enterovirus 71
• Paranjape, S.M., Harris, E., Y box-binding protein-1 binds to the dengue virus 3′-untranslated region and mediates antiviral effects (2007) J. Biol. Chem., 282 (42), pp. 30497-30508
• Agis-Juárez, R.A., Galván, I., Medina, F., Polypyrimidine tract-binding protein is relocated to the cytoplasm and is required during dengue virus infection in Vero cells (2009) J. Gen. Virol., 90 (12), pp. 2893-2901
• Chang, C.J., Luh, H.W., Wang, S.H., Lin, H.J., Lee, S.C., Hu, S.T., The heterogeneous nuclear ribonucleoprotein K (hnRNP K) interacts with dengue virus core protein (2001) DNA Cell Biol., 20 (9), pp. 569-577
• Noisakran, S., Sengsai, S., Thongboonkerd, V., Identification of human hnRNP C1/C2 as a dengue virus NS1-interacting protein (2008) Biochem. Biophys. Res. Commun., 372 (1), pp. 67-72
• Katoh, H., Mori, Y., Kambara, H., Heterogeneous nuclear ribonucleoprotein A2 participates in the replication of Japanese encephalitis virus through an interaction with viral proteins and RNA (2011) J. Virol., 85 (21), pp. 10976-10988. , Constitutes a detailed analysis of the involvement of hnRNP A2 in different stages of the replication of the flavivirus Japanese encephalitis virus
• Wang, L., Jeng, K.S., Lai, M.M., Poly(C)-binding protein 2 interacts with sequences required for viral replication in the hepatitis C virus (HCV) 5′ untranslated region and directs HCV RNA replication through circularizing the viral genome (2011) J. Virol., 85 (16), pp. 7954-7964. , Meticulous study that investigates the interaction of an hnRNP (PCBP2) with viral components and its relevance to virus replication
• Xin, Z., Han, W., Zhao, Z., PCBP2 enhances the antiviral activity of IFN-α against HCV by stabilizing the mRNA of STAT1 and STAT2 (2011) PLoS One, 6 (10), pp. e25419
• Ito, T., Lai, M.M.C., An internal polypyrimidine-tract-binding protein-binding site in the hepatitis C virus RNA attenuates translation, which is relieved by the 3V-untranslated sequence (1999) Virology, 254 (2), pp. 288-296
• Anwar, A., Ali, N., Tanveer, R., Siddiqui, A., Demonstration of functional requirement of polypyrimidine tract-binding protein by SELEX RNA during hepatitis C virus internal ribosome entry site mediated translation initiation (2000) J. Biol. Chem., 275 (44), pp. 34231-34235
• Domitrovich, A.M., Diebel, K.W., Ali, N., Sarker, S., Siddiqui, A., Role of la autoantigen and polypyrimidine tract-binding protein in HCV replication (2005) Virology, 335 (1), pp. 72-86
• Aizaki, H., Choi, K.S., Liu, M., Li, Y.J., Lai, M.M., Polypyrimidine-tract-binding protein is component of the HCV RNA replication complex and necessary for RNA synthesis (2006) J. Biomed. Sci., 13 (4), pp. 469-480
• Liu, H.M., Aizaki, H., Choi, K.S., Machida, K., Ou, J.J., Lai, M.M., SYNCRIP (synaptotagmin-binding, cytoplasmic RNA-interacting protein) is a host factor involved in hepatitis C virus RNA replication (2009) Virology, 386 (2), pp. 249-256
• Sola, I., Galán, C., Mateos-Gómez, P.A., The polypyrimidine tract-binding protein affects coronavirus RNA accumulation levels and relocalizes viral RNAs to novel cytoplasmic domains different from replication-transcription sites (2011) J. Virol., 85 (10), pp. 5136-5149. , Very interesting article that examines the participation of hnRNP I in the complex processes of coronavirus RNA replication and transcription
• Li, H.P., Huang, P., Park, S., Lai, M.M., Polypyrimidine tract-binding protein binds to the leader RNA of mouse hepatitis virus and serves as a regulator of viral transcription (1999) J. Virol., 73 (1), pp. 772-777
• Huang, P., Lai, M.M., Polypyrimidine tract-binding protein binds to the complementary strand of the mouse hepatitis virus 3′ untranslated region, thereby altering RNA conformation (1999) J. Virol., 73 (11), pp. 9110-9116
• Choi, K.S., Huang, P., Lai, M.M., Polypyrimidine-tract-binding protein affects transcription but not translation of mouse hepatitis virus RNA (2002) Virology, 303 (1), pp. 58-68
• Shi, S.T., Yu, G.Y., Lai, M.M., Multiple type A/B heterogeneous nuclear ribonucleoproteins (hnRNPs) can replace hnRNP A1 in mouse hepatitis virus RNA synthesis (2003) J. Virol., 77 (19), pp. 10584-10593
• Li, H.P., Zhang, X., Duncan, R., Comai, L., Lai, M.M., Heterogeneous nuclear ribonucleoprotein A1 binds to the transcription-regulatory region of mouse hepatitis virus RNA (1997) Proc. Natl Acad. Sci. USA, 94 (18), pp. 9544-9549
• Shi, S.T., Huang, P., Li, H.P., Lai, M.M., Heterogeneous nuclear ribonucleoprotein A1 regulates RNA synthesis of a cytoplasmic virus (2000) EMBO J., 19 (17), pp. 4701-4711
• Shen, X., Masters, P.S., Evaluation of the role of heterogeneous nuclear ribonucleoprotein A1 as a host factor in murine coronavirus discontinuous transcription and genome replication (2001) Proc. Natl Acad. Sci. USA, 98 (5), pp. 2717-2722
• Choi, K.S., Mizutani, A., Lai, M.M., SYNCRIP, a member of the heterogeneous nuclear ribonucleoprotein family, is involved in mouse hepatitis virus RNA synthesis (2004) J. Virol., 78 (23), pp. 13153-13162
• Galán, C., Sola, I., Nogales, A., Host cell proteins interacting with the 3′ end of TGEV coronavirus genome influence virus replication (2009) Virology, 391 (2), pp. 304-314
• Burnham, A.J., Gong, L., Hardy, R.W., Heterogeneous nuclear ribonuclear protein K interacts with Sindbis virus nonstructural proteins and viral subgenomic mRNA (2007) Virology, 367 (1), pp. 212-221
• Lin, J.Y., Shih, S.R., Pan, M., hnRNP A1 interacts with the 5′ untranslated regions of enterovirus 71 and Sindbis virus RNA and is required for viral replication (2009) J. Virol., 83 (12), pp. 6106-6114
• Gui, H., Lu, C.W., Adams, S., Stollar, V., Li, M.L., hnRNP A1 interacts with the genomic and subgenomic RNA promoters of Sindbis virus and is required for the synthesis of G and SG RNA (2010) J. Biomed. Sci., 17, p. 59
• Dinh, P.X., Beura, L.K., Panda, D., Das, A., Pattnaik, A.K., Antagonistic effects of cellular poly(C) binding proteins on vesicular stomatitis virus gene expression (2011) J. Virol., 85 (18), pp. 9459-9471
• Jorba, N., Juarez, S., Torreira, E., Gastaminza, P., Zamarreño, N., Albar, J.P., Ortín, J., Analysis of the interaction of influenza virus polymerase complex with human cell factors (2008) Proteomics, 8 (10), pp. 2077-2088
• Lee, J.H., Kim, S.H., Pascua, P.N., Direct interaction of cellular hnRNP-F and NS1 of influenza A virus accelerates viral replication by modulation of viral transcriptional activity and host gene expression (2010) Virology, 397 (1), pp. 89-99
• Jablonski, J.A., Caputi, M., Role of cellular RNA processing factors in human immunodeficiency virus type 1 mRNA metabolism, replication, and infectivity (2009) J. Virol., 83 (2), pp. 981-992. , Investigates the role of different RNA processing factors, including hnRNPs, in mRNA processing during HIV replication
• Walter, B.L., Nguyen, J.H., Ehrenfeld, E., Semler, B.L., Differential utilization of poly(rC) binding protein 2 in translation directed by picornavirus IRES elements (1999) RNA, 5 (12), pp. 1570-1585
• Blyn, L.B., Towner, J.S., Semler, B.L., Ehrenfeld, E., Requirement of poly(rC) binding protein 2 for translation of poliovirus RNA (1997) J. Virol., 71 (8), pp. 6243-6246
• Sean, P., Nguyen, J.H., Semler, B.L., The linker domain of poly(rC) binding protein 2 is a major determinant in poliovirus cap-independent translation (2008) Virology, 378 (2), pp. 243-253
• Hunt, S.L., Jackson, R.J., Polypyrimidine-tract-binding protein (PTB) is necessary, but not sufficient, for efficient internal initiation of translation of human rhinovirus-2 RNA (1999) RNA, 5 (3), pp. 344-359
• Gosert, R., Chang, K.H., Rijnbrand, R., Yi, M., Sangar, D.V., Lemon, S.M., Transient expression of cellular polypyrimidine-tract binding protein stimulates cap-independent translation directed by both picornaviral and flaviviral internal ribosome entry sites in vivo (2000) Mol. Cell Biol., 20 (5), pp. 1583-1595
• Niepmann, M., Petersen, A., Meyer, K., Beck, E., Functional involvement of polypyrimidine-tract-binding protein in translation initiation complexes with the internal ribosome entry site of foot-and mouth disease virus (1997) J. Virol., 71 (11), pp. 8330-8339
• Kaminski, A., Jackson, R.J., The polypyrimidine-tract binding protein (PTB) requirement for internal initiation of translation of cardiovirus RNAs is conditional rather than absolute (1998) RNA, 4 (6), pp. 626-638
• Kafasla, P., Morgner, N., Robinson, C.V., Jackson, R.J., Polypyrimidine tract-binding protein stimulates the poliovirus IRES by modulating eIF4G binding (2010) EMBO J., 29 (21), pp. 3710-3722. , Constitutes a meticulous study on the mechanism of hnRNP modulation of the poliovirus internal ribosome entry site-dependent translation process
• Cammas, A., Pileur, F., Bonnal, S., Cytoplasmic relocalization of heterogeneous nuclear ribonucleoprotein A1 controls translation initiation of specific mRNAs (2007) Mol. Biol. Cell, 18 (12), pp. 5048-5059
• Fukushi, S., Okada, M., Kageyama, T., Hoshino, F.B., Nagai, K., Katayama, K., Interaction of poly(rC)-binding protein 2 with the 5′-terminal stem loop of the hepatitis C-virus genome (2001) Virus Res., 73 (1), pp. 67-79
• Murray, K.E., Roberts, A.W., Barton, D.J., Poly(rC) binding proteins mediate poliovirus mRNA stability (2001) RNA, 7 (8), pp. 1126-1141
• Fontanes, V., Raychaudhuri, S., Dasgupta, A., A cell-permeable peptide inhibits hepatitis C virus replication by sequestering IRES transacting factors (2009) Virology, 394 (1), pp. 82-90
• Kim, J.H., Paek, K.Y., Ha, S.H., A cellular RNA-binding protein enhances internal ribosomal entry site-dependent translation through an interaction downstream of the hepatitis C virus polyprotein initiation codon (2004) Mol. Cell Biol., 24 (18), pp. 7878-7890
• Park, S.M., Paek, K.Y., Hong, K.Y., Translation-competent 48S complex formation on HCV IRES requires the RNA-binding protein NSAP1 (2011) Nucleic Acids Res., 39 (17), pp. 7791-7802
• Hwang, B., Lim, J.H., Hahm, B., Jang, S.K., Lee, S.W., hnRNP L is required for the translation mediated by HCV IRES (2009) Biochem. Biophys. Res. Commun., 378 (3), pp. 584-588
• Paek, K.Y., Kim, C.S., Park, S.M., Kim, J.H., Jang, S.K., RNA-binding protein hnRNP D modulates internal ribosome entry site-dependent translation of hepatitis C virus RNA (2008) J. Virol., 82 (24), pp. 12082-12093
• Bolinger, C., Boris-Lawrie, K., Mechanisms employed by retroviruses to exploit host factors for translational control of a complicated proteome (2009) Retrovirology, 6, p. 8
• Hadian, K., Vincendeau, M., Mäusbacher, N., Identification of a heterogeneous nuclear ribonucleoprotein-recognition region in the HIV Rev protein (2009) J. Biol. Chem., 284 (48), pp. 33384-33391
• Lund, N., Milev, M.P., Wong, R., Differential effects of hnRNP D/AUF1 isoforms on HIV-1 gene expression (2011) Nucleic Acids Res., , doi:10.1093/nar/gkr1238 (Epub ahead of print)
• Woolaway, K., Asai, K., Emili, A., Cochrane, A., hnRNP E1 and E2 have distinct roles in modulating HIV-1 gene expression (2007) Retrovirology, 4, p. 28
• Schaub, M.C., Lopez, S.R., Caputi, M., Members of the heterogeneous nuclear ribonucleoprotein H family activate splicing of an HIV-1 splicing substrate by promoting formation of ATP-dependent spliceosomal complexes (2007) J. Biol. Chem., 282 (18), pp. 13617-13626
• Okunola, H.L., Krainer, A.R., Cooperative-binding and splicing-repressive properties of hnRNP A1 (2009) Mol. Cell Biol., 29 (20), pp. 5620-5631
• Najera, I., Krieg, M., Karn, J., Synergistic stimulation of HIV-1 rev-dependent export of unspliced mRNA to the cytoplasm by hnRNP A1 (1999) J. Mol. Biol., 285 (5), pp. 1951-1964
• Dodon, M.D., Hamaia, S., Martin, J., Gazzolo, L., Heterogeneous nuclear ribonucleoprotein A1 interferes with the binding of the human T cell leukemia virus type 1 rex regulatory protein to its response element (2002) J. Biol. Chem., 277 (21), pp. 18744-18752
• Milligan, S.G., Veerapraditsin, T., Ahamet, B., Mole, S., Graham, S.V., Analysis of novel human papillomavirus type 16 late mRNAs in differentiated W12 cervical epithelial cells (2007) Virology, 360 (1), pp. 172-181
• Schwartz, S., HPV-16 RNA processing (2008) Front. Biosci., 13, pp. 5880-5891
• Sanford, J.R., Ellis, J., Cáceres, J.F., Multiple roles of arginine/serine-rich splicing factors in RNA processing (2005) Biochem. Soc. Trans., 33 (3), pp. 443-446
• Zhao, X., Fay, J., Lambkin, H., Schwartz, S., Identification of a 17-nucleotide splicing enhancer in HPV-16 L1 that counteracts the effect of multiple hnRNP A1-binding splicing silencers (2007) Virology, 369 (2), pp. 351-363
• Oberg, D., Fay, J., Lambkin, H., Schwartz, S., A downstream polyadenylation element in human papillomavirus type 16 L2 encodes multiple GGG motifs and interacts with hnRNP H (2005) J. Virol., 79 (14), pp. 9254-9269
• Somberg, M., Zhao, X., Fröhlich, M., Evander, M., Schwartz, S., Polypyrimidine tract binding protein induces human papillomavirus type 16 late gene expression by interfering with splicing inhibitory elements at the major late 5′ splice site, SD3632 (2008) J. Virol., 82 (7), pp. 3665-3678. , Describes the role of an hnRNP (PTB) as a splicing factor that controls late gene expression of HPV16 and its association with latent infection
• Bériault, V., Clément, J.F., Lévesque, K., A late role for the association of hnRNP A2 with the HIV-1 hnRNP A2 response elements in genomic RNA, Gag, and Vpr localization (2004) J. Biol. Chem., 279 (42), pp. 44141-44153
• Lévesque, K., Halvorsen, M., Abrahamyan, L., Trafficking of HIV-1 RNA is mediated by heterogeneous nuclear ribonucleoprotein A2 expression and impacts on viral assembly (2006) Traffic, 7 (9), pp. 1177-1193
• Schmidt, T., Striebinger, H., Haas, J., Bailer, S.M., The heterogeneous nuclear ribonucleoprotein K is important for Herpes simplex virus-1 propagation (2010) FEBS Lett., 584 (20), pp. 4361-4365
• Kanlaya, R., Pattanakitsakul, S.N., Sinchaikul, S., Chen, S.T., Thongboonkerd, V., Vimentin interacts with heterogeneous nuclear ribonucleoproteins and dengue nonstructural protein 1 and is important for viral replication and release (2010) Mol. Biosyst., 6 (5), pp. 795-806
• Bailey, D., Karakasiliotis, I., Vashist, S., Functional analysis of RNA structures present at the 3′ extremity of the murine norovirus genome: The variable polypyrimidine tract plays a role in viral virulence (2010) J. Virol., 84 (6), pp. 2859-2870
• Guest, S., Pilipenko, E., Sharma, K., Chumakov, K., Roos, R.P., Molecular mechanisms of attenuation of the Sabin strain of poliovirus type 3 (2004) J. Virol., 78 (20), pp. 11097-11107
• Bortz, E., Westera, L., Maamary, J., Host- and strain-specific regulation of influenza virus polymerase activity by interacting cellular proteins (2011) MBio, 2, pp. e00151-e00161
• Zhao, X., Rush, M., Schwartz, S., Identification of an hnRNP A1-dependent splicing silencer in the human papillomavirus type 16 L1 coding region that prevents premature expression of the late L1 gene (2004) J. Virol., 78 (20), pp. 10888-108905
• Baccala, R., Gonzalez-Quintial, R., Lawson, B.R., Stern, M.E., Kono, D.H., Beutler, B., Sensors of the innate immune system: Their mode of action (2009) Nat. Rev. Rheumatol., 5 (8), pp. 448-456
• Thompson, M.R., Kaminski, J.J., Kurt-Jones, E.A., Fitzgerald, K.A., Pattern recognition receptors and the innate immune response to viral infection (2011) Viruses, 3 (6), pp. 920-940
• Platanias, L.C., Mechanisms of type-I- and type-II-interferon-mediated signalling (2005) Nat. Rev. Immunol., 5 (5), pp. 375-386
• Yao, L., Yan, X., Dong, H., Nelson, D.R., Liu, C., Li, X., Expression of an IRF-3 fusion protein and mouse estrogen receptor, inhibits hepatitis C viral replication in RIG-I-deficient Huh 7.5 cells (2011) Virol. J., 21 (8), p. 445
• Shabman, R.S., Gulcicek, E.E., Stone, K.L., Basler, C.F., The Ebola virus VP24 protein prevents hnRNP C1/C2 binding to karyopherin a1 and partially alters its nuclear import (2011) J. Infect. Dis., 204, pp. S904-S910. , Suppl. 3
• Beura, L.K., Dinh, P.X., Osorio, F.A., Pattnaik, A., Cellular poly(c) binding proteins 1 and 2 interact with porcine reproductive and respiratory syndrome virus nonstructural protein 1b and support viral replication (2011) J. Virol., 85 (24), pp. 12939-12949
• Das, S., Ward, S.V., Markle, D., Samuel, C.E., DNA damage-binding proteins and heterogeneous nuclear ribonucleoprotein A1 function as constitutive KCS element components of the interferon-inducible RNA-dependent protein kinase promoter (2004) J. Biol. Chem., 279 (8), pp. 7313-7321
• Dhar, D., Venkataramana, M., Ponnuswamy, A., Das, S., Role of polypyrimidine tract binding protein in mediating internal initiation of translation of interferon regulatory factor 2 RNA (2009) PLoS One, 4 (9), p. 7049
• Söderberg, M., Raffalli-Mathieu, F., Lang, M.A., Identification of a regulatory cis-element within the 3′-untranslated region of the murine inducible nitric oxide synthase (iNOS) mRNA; interaction with heterogeneous nuclear ribonucleoproteins I and L and role in the iNOS gene expression (2007) Mol. Immunol., 44 (4), pp. 434-442
• Gaudreau, M.C., Heyd, F., Bastien, R., Wilhelm, B., Möröy, T., Alternative splicing controlled by heterogeneous nuclear ribonucleoprotein L regulates development, proliferation, and migration of thymic pre-T cells (2012) J. Immunol., , doi:10.4049/jimmunol.1103142 (Epub ahead of print)
• Motta-Mena, L.B., Smith, S.A., Mallory, M.J., Jackson, J., Wang, J., Lynch, K.W., A disease-associated polymorphism alters splicing of the human CD45 phosphatase gene by disrupting combinatorial repression by heterogeneous nuclear ribonucleoproteins (hnRNPs) (2011) J. Biol. Chem., 286 (22), pp. 20043-20053
• Triboulet, R., Mari, B., Lin, Y.-L., Suppression of microRNA-silencing pathway by HIV-1 during virus replication (2007) Science, 315 (5818), pp. 1579-1582
• Gregory, R.I., Yan, K., Amuthan, G., Chendrimada, T., Doratotaj, B., The Microprocessor complex mediates the genesis of microRNAs (2004) Nature, 432 (7014), pp. 235-240
• Buratti, E., Baralle, F.E., The multiple roles of TDP-43 in pre-mRNA processing and gene expression regulation (2010) RNA Biol., 7 (4), pp. 420-429
• Saumet, A., Lecellier, C.-H., Anti-viral RNA silencing: Do we look like plants? (2006) Retrovirology, 3, p. 3
• Chiang, K., Rice, A.P., Mini ways to stop a virus: MicroRNAs and HIV-1 replication (2011) Future Virol., 6 (2), pp. 209-221

Citas:

---------- APA ----------

---------- CHICAGO ----------

---------- MLA ----------

---------- VANCOUVER ----------