N MA: A NAC domain protein interacts with Tomato leaf curl
N MA: A NAC domain protein interacts with Tomato leaf curl virus replication accessory protein and enhances viral replication. Plant Cell 2005, 17:31125. 44. Whitham SA, Quan S, Chang HS, Cooper B, Estes B: Diverse RNA viruses elicit the expression of common sets of genes in susceptible Arabidopsis thaliana plants. Plant J 2003, 33(two):27183. 45. Senthil G, Liu H, Puram VG, Clark A, Stromberg A, Goodin MM: Precise and widespread changes in Nicotiana benthamiana gene expression in response to infection by enveloped viruses. J Gen Virol 2005, 86:2615625. 46. Schenk P, Kazan K, Wilson I, Anderson J, Richmond T, Somerville S, Manners J: Co-ordinated plant defense responses in Arabidopsis revealed in microarray analysis. PNAS 2000, 97:116551660. 47. Pierce EJ, Rey MEC: Assessing worldwide transcriptome modifications in response to South African cassava mosaic virus [ZA-99] infection in susceptible Arabidopsis thaliana. PLoS A single 2013, 8:e67534. 48. Miozzi L, Napoli C, Sardo L, Accotto GP: Transcriptomics with the interaction among the monopartite phloem-limited geminivirus tomato yellow leaf curl Sardinia virus and Solanum lycopersicum highlights a part for plant hormones, autophagy and plant immune program fine tuning through infection. PLoS One particular 2014, 9(two):e8995. 49. Eybishtz A, Peretz Y, Sade D, Akad F, Czosnek H: Silencing of a single gene in tomato plants resistant to Tomato yellow leaf curl virus renders them susceptible to the virus. Plant Mol Biol 2009, 71:15771. 50. Eybishtz A, Peretz Y, Sade D, Gorovits R, Czosnek H: Tomato yellow leaf curl virus infection of a resistant tomato line having a silenced sucrose transporter gene LeHT1 final results in inhibition of development, enhanced virus spread, and necrosis. Planta 2010, 231:53748. 51. Sade D, Brothman Y, Eybishtz A, NLRP3 MedChemExpress Cuadros-inostroza A, Fernie AR, Willmitzer L, Czosnek H: Involvement of your hexose transporter gene LeHT1 and of sugars in TLR2 web resistance of tomato to tomato yellow leaf curl virus. Mol Plant 2013. doi:10.1093/mp/sst036. 52. Wang Z, Gerstein M, Snyder M: RNA-Seq: a revolutionary tool for transcriptomics. Nat Rev Genet 2008, ten:573. 53. Sharma CM, Hoffmann S, Darfeuille F, Reignier J, Findeiss S, Sittka A, Chabas S, Reiche K, Hackermuller J, Reinhardt R, Stadler PF, Vogel J: The major transcriptome of your major human pathogen Helicobacter pylori. Nature 2010, 464:25055. 54. Liu L, Li Y, Li S, He Y: Comparison of next-generation sequencing systems. J Biomed Biotechnol 2012, 2012:251364. 55. Dressman D, Yan H, Traverso G, Kinzler KW, Vogelstein B: Transforming single DNA molecules into fluorescent magnetic particles for detection and enumeration of genetic variations. PNAS 2003, one hundred:8817822. 56. Weber APM, Weber KL, Wilkerson C, Ohlrogge JB: Sampling the Arabidopsis transcriptome with massively parallel pyrosequencing. Plant Physiol 2007, 144:322. 57. Fedurco M, Romieu A, Williams S, Lawrence I, Turcatti G: BTA, a novel reagent for DNA attachment on glass and effective generation of solid-phase amplified DNA colonies. Nucleic Acids Res 2006, 34(3):e22. 58. Anderson JV, Delseny M, Fregene MA, Jorge V, Mba C, Lopez C, Restrepo S, Soto S, Piegu B, Verdier V, Cooke R, Tohme J, Horvath DP: An EST resource for cassava as well as other species of Euphorbiaceae. Plant Mol Biol 2004, 56:52739.59. Lokko Y, Anderson JV, Rudd S, Raji A, Horvath D, Mikel MA, Kim R, Liu L, Hernandez A, Dixon AG, Ingelbrecht IL: Characterization of an 18,166 EST dataset for cassava (Manihot esculenta Crantz) enriched for drought-responsive.

By mPEGS 1