4. 参考文献
1. Schweizer, P ., Pokorny, J . , Schulze-Lefert, P. and Dudler, R. (2 0 00 ) Double-stranded RNA interfereswith gene function at the single-cell level in cereals. Plant J. 2 4 , 895-903.
2. Kanno, T ., Naito, S. and Shimamoto, K. (2000) Post-transcriptional gene silencing in cultured rice cells.Plant Cell Physiol. 4 1 , 321 -3 26 .
3. F ire, A ., X u , S. Q ., M ontgomery, M. K ., K o stas, S. A ., D river, S. E. and M ello , C. C. (1 9 9 8 ) Potentand specific in terference by dou ble-stran ded RNA in Caenorhabditis elegans. Nature 3 9 1 , 806-811.
4 . Z am o re, P . D ., T u sch l, T . , S h arp , P . A. and B artel, D. P . (2 0 0 0 ) RNAi : d o u b le-stran d ed RNA directsthe A T P -d ep en d en t cleavage of mRNA at 21 to 23 n ucleo tide intervals. Cell 1 0 1 , 2 5 -3 3 .
5. E lb ash ir, S. M ., L en d eck el, W. and T u sch l, T. (2 0 0 1 ) RNA in terference is m ed iated by 2 1- 2 2-nucleotideRNAs. Genes Dev. 1 5 , 188-200.
6. N ap o li, C ., L em ieux , C. and Jo rg en sen , R. (1 9 9 0 ) Introduction of a ch im eric ch alco n e synthase gene intoP etu n ia results in reversible co-suppression of homologous genes in tran s. Plant Cell 2 , 2 79-289.
7. Rom ano , N. an d M acin o , G. ( 1 9 9 2 ) Quelling - tran sien t inactivation of g en e-ex pressio n in Neurosporacra^ssa by transform ation with homologous seq uences. Mol. Microbiol. 6 , 3 3 4 3-33 5 3.
8. W aterh o u se, P . M ., G raham , M. W. and W an g , M. -B. ( 1 9 9 8 ) Virus resistan ce an d gene silencing inp lan ts can be in d u ced by sim ultaneous expression of sen se and an tisen se RNA. P. N. A. S. USA9 5 , 139591396 4 .
9. Goldoni, M ., A zzalin , G ., M acin o , G. an d Cogon, C. (2 0 0 4 ) Efficient gene silencin g by expression ofdouble strand ed RNA in Neurospora crassa. Fungal Genet. Biol. 4 1 , 1 016-102 4 .
10. Ham m ond, S. M ., C au d y, A. A. and Hannon G. J. (2 0 0 1 ) P o st-tran scrip tio n al gene silencing by doublestrand ed RNA. Nature Rev, Genetics 2 , 110-119.
11. Baulcom be, D. C. (1 9 9 9 ) Fast forward genetics b ased on v iru s-in d u ced gene silencing. Curr. Opin. PlantBiol 2 , 109-113.
12. S m ith , N. A ., S in g h , S. P . , W an g , M. B ., S to u tjesd ijk , P . A ., Green ^ A. G. an d W ater-h o u se, P . M.(2 0 0 0 ) Total silencin g by in tron -spliced hairpin RNAs. Nature 4 0 7 , 319 -3 20 .
13. R o th stein , S. J . , DiM aio, J . , S tran d , M. and R ice, D. (1 9 8 7 ) Stable and h eritab le in h ib ition of th e expression of n o p alin e synthase in tobacco expressing an tisense RNA. P . N. A. S. USA 8 4 , 8 4 39-8 44 3.
1 4 . H am ilto n , A. J. and Bau lcom b e, D. C. ( 1 9 9 9 ) A species of sm all an tisen se RNA in posttranscriptionalgene silencing in p lan ts. Science 2 8 6 , 9 50-952.
15. B ern stein , E . , C au d y , A. A ., Ham m o nd , S. M. and H an n o n , G. J. (2 0 0 1 ) Role for a bid en tate ribonu-clease in the in itiatio n step of RNA in terference. Nature 4 0 9 , 3 63-366.
16. H am ilto n, A. J . , V o in n et, 0 . , C h ap p ell, L. and B au lcom b e, D. C. (2 0 0 2 ) Two classes of shortinterfering RNA in RNA silencing. EMBO J. 2 1 , 4 67 1 - 4 6 7 9 .
17. L ip ard i, C ., W ei, Q. an d P aterso n , B. M. (2 0 0 1 ) siRNA prim ers convert mRNA into dsRNAs th at are degraded to g en erate new siRNAs. Cell 1 0 7 , 2 97-307.
18. S ijen , T . , F leen o r, J . , S im m er, F . , T h ijssen , K. L. P arrish , S . , Tim m ons, L . , P lasterk , R. H* A. andF ire, A. (2 0 0 1 ) On th e role of RNA am plification in d sRNA-triggered gene silencing. Cell 1 0 7 , 4 65 - 4 76 .
19. W esley, S. V ., H elliw ell, C. A ., S m ith , N. A ., W an g , M. B ., R o u se, D. T . , L iu , Q ., Gooding, P . S . ,S in gh , S. P . , A b b o tt, D ., S to u tjesd ijk , P . A ., R ob in so n , S. P . , G leav e, A. P . , G reen , A. G. and Waterh o u se, P . M. (2 0 0 1 ) Construct design for efficien t, effective and high-throughput gene silencing in plants.Plant J. 2 7 , 5 8 1 -5 9 0 .
20. Sto utjesd ijk , P . A ., S in g h , S. P . , L iu , Q ., H u rlsto n e, C. J . , W aterh o u se, P . A. and G reen , A. G.(2 0 0 2 ) h p -R N A -m ed iated targeting of th e Arabidopsis FAD2 gene gives highly efficient and stable silencing.Plant Physiol. 1 2 9 , 1 72 3-17 3 1.
21. Carthew, R. W . (2 0 0 1 ) Gene silencing by d ou ble-stran ded RNA. Curr. Opin. Cell Biol. 1 3, 2 44 -2 4 8.
22. T rav ella, S . , Klim m , T. E. and K eller, B. (2 0 0 6 ) RNA in terference-based gene silen cin g as an efficienttool for functional genomics in hexaploid b read wheat. Plant Physiol. 1 4 2 , 6 -2 0.
23. Y an , L . , Loukoianov, A ., B lech l, A ., T ran q u illi, G ., R am ak rish n a, W ., S an M ig u el, P . , B en n etzen , J.L . ,E ch en iq u e , V. and Dubcovsky, J. (2 0 0 4 ) The wheatVK/V2 gene is a flowering represso r down-regulated by vernalization. Science 3 0 3 , 16 4 0-16 44 .
2 4 . Loukoianov, A ., Y an , L . , B lech l, A ., S an ch ez, A. and Dubcovsky, J. (2 0 0 5 ) Reg u latio n of VRN-l vernalization genes in normal an d transgenic wheat. Plant Physiol. 1 3 8 , 2 36 4 -2 3 7 3 .
25. L awrence, R. J. and P ik aard , C. S. (2 0 0 3 ) T ran sgene-in d uced RNA in terferen ce : a strategy for overcoming gene redundancy in polyploids to generate loss-of-function m utations. Plant J. 3 6 , 11 4 -121.
26. M ik i, D . , Ito h , R. and Shim am oto, K. (2 0 0 5 ) RNA silencing of single an d m u ltiple m em bers in a genefamily of rice. Plant Physiol. 1 3 8 , 1903-1913.
27. G uo , H. S . , F ei, J. F . , X ie, Q. and C h u a, N. H. (2 0 0 3 ) A ch em ical-reg ulated in d u cib le RNAi system inp lan ts. Plant J. 3 4 , 383 -3 92 .
28. W ielo po lsk a, A ., Townley, H . , M oore, I. , W aterh o u se, P . an d H elliw ell, C. (2 0 0 5 ) A high-throughputin d ucib le RNAi vector for p lan ts. Plant Biotechnol. / . 3 , 583-590.
29. C h risten sen , A. B ., T h o rd al-C h risten sen , H . , Zim m erm ann, G ., Gjetting , T . , L yn g kjr, M. F . , D u d ler,R. and Schweizer, P . (2 0 0 4 ) The germ inlike protein GLP 4 exhibits superoxide dism u tase activity and is anim portant com ponent of quantitativ e resistan ce in wheat and barley. Mol. Plant-Microbe Interact. 17,109-117.
30. Douchkov, D ., Nowara, D . , Z iero ld , U. an d Schweizer, P . (2 0 0 5 ) A high-throu g hp u t gen e-silen cing system for th e functional assessm en t of d efense-related genes in barley ep id erm al cells. MoL Plant-Microbe Interact. 1 8 , 7 5 5 -7 61 .
31. D in esh-K um ar, S. P . , A n an d alak sh m i, R . , M arath e, R . , Schiff, M. and L iu , Y. (2 0 0 3 ) Virus-in d ucedgene silencing. Methods MoL Biol. 2 3 6 , 2 87-29 4 .
32. B urch -S m ith, T. M ., A n d erso n , J. C ., M artin , G. B. and D in esh-K um ar, S. P . (2 0 0 4 ) Applications andadvantages of v iru s-in du ced gene silencing for gene function stud ies in p lan ts. Plant J. 3 9 , 73 4 -7 4 6 .
33. H ein , I . , B arciszew sk a-P acak , M ., H ru biko v a, K . , W illiam son, S . , D in esen , M ., S oend erby , I. E . ,S u n d ar, S . , Jarm olowski, A ., S h irasu , K. and Lacom m e, C. (2 0 0 5 ) V irus-in d uced gene silencin g-basedfunctional characterization of genes associated with powdery mildew resistan ce in barley. Plant Physiol. 138,2 1 5 5-21 6 4 .
3 4 . Scofield, S. R . , H u an g , L . , B ran d t, A. S. an d G ill, B. S. (2 0 0 5 ) Developm ent of a v iru s-in du ced gene-silencing system for hexaploid wheat and its u se in functional analysis of the L r21-m ediated leaf ru st resistan ce pathway. Plant Physiol. 1 3 8 , 216 5-21 7 3.
35. T ao , X. and Z h o u , X. (2 0 0 4 ) A modified viral satellite DNA th at sup presses gene expression in plants.Plant / . 3 8 , 8 50-860.
36. Z h an g , C. and G h ab rial, S. A. (2 0 0 6 ) Developm ent of Bean pod mottle virus-bsised vectors for stab le protein expression an d seq u en ce-sp ecific v iru s-in du ced gene silencing in soybean. Virology 3 4 4 , 4 01 - 4 11 .
37. Holzb erg, S . , Brosio, P . , G ro ss, C. and P o g u e, G. P . (2 0 0 2 ) Barley stripe mosaic virus-induced gene silencing in a monocot p lan t. Plant J. 3 0 , 3 15-327.
38. S h en , Q. -H ., S aijo , Y . , M au ch , S . , B isk u p , C ., B ieri, S . , K eller, B ., S ek i, H . , iilk er, B ., Som ssich,I. E. and S ch ulze-L efert, P . (2 0 0 7 ) Nuclear activity of MLA im m une receptors links isolate-specific andb asal d isease-resistan ce resp o nses. Science 3 1 5 , 1098-1103.
39. Ding, X. D ., S ch n eid er, W. L . , C halu vad i, S. R . , M ian , M. A. R. an d N elso n , R. S. (2 0 0 6 ) C haracterization of a Brome mosaic virus strain and its u se as a vector for gene silen cin g in monocotyledonous hosts.Mol. Plant Microbe Interact. 1 9 , 1229-1239.
4 0. R eg in a, A ., B ird , A ., T op p ing , D ., Bowden, S . , F reem an , J . , B arsb y , T . , K o sar-H ash em i, B ., L i, Z . ,R ah m an , S. an d M orell, M. (2 0 0 5 ) High-am ylose wheat generated by RNA in terferen ce improves indicesof large bowel h ealth in rats. P . N. A. S. USA 1 0 3 , 3 5 4 6-3551.
4 1. M cGinnis, K ., M urphy, N ., C arlso n , A. R . , A k u la, A ., A k u la, C ., B asin g er, H . , C arlso n , M ., Her-m an son , P ., Kovacevic, N ., M cGill, M. A ., S esh ad ri, V ., Yoyokie, J . , C o n e, K . , K aep p ler, H. F . ,K aep p ler, S. M. and S p rin g er, N. M. (2 0 0 7 ) Assessing the efficiency of RNA in terference for m aize functional genomics. Plant Physiol. 1 4 3 , 1 44 1-1 4 51.
4 2. Rey n old s, A ., L eak e, D ., B oese, Q ., S carin g e, S . , M arsh all, W. S. an d Khvorova A. (2 0 0 4 ) RationalsiRNA design for RNA in terference. Nature Biotechnol. 2 2 , 3 26-330.
4 3. Kim b ara, J . , T ak ash i, R. an d N asu d a, S. (2 0 0 4 ) Characterization of th e genes encoding for MAD2 homo-logues in wheat. Chromosome Res. 1 2 , 703 -7 1 4 .
4 4 . C hristen sen , A. H . , Sh arro ck , R. A. and Q u ail, P . H. ( 1 992) Maize p olyu biqu itin g en es : stru ctu re, thermal p erturbatio n of expression and tran scrip t sp licin g , and prom oter activity following tran sfer to protoplastsby electroporation. Plant Mol. Biol. 1 8 , 6 75-689.
4 5. Q iu , S . , A d em a, C. M. an d L an e, T. (2 0 0 5 ) A com putational study of off-target effects of RNA interference. Nucleic Acid Res, 3 3 , 1 83 4 -18 4 7.
4 6. Cigan, A. M ., U ng er-W allace, E. and Hau g -Collet, K. (2 0 0 5 ) T ran scriptio nal gene silencin g as a tool foruncovering gene function in m aize. Plant J. 4 3 , 929 -9 4 0 .
4 7. Y an , H . , C h retien , R . , Y e, J. and Rom m ens, C. M. (2 0 0 6 ) New co n structs ap p ro aches for efficient genesilencing in p lan ts. Plant Physiol. 1 4 1 , 1508-1518.
4 8. Chu ang , C. F. and M eyerowitz, E. M. (2 0 0 0 ) Specific and h eritable g enetic in terference by d ou ble-stranded RNA in Arabidopsis thaliana. P. N. A. S. USA 9 7 , 4 98 5- 4 9 9 0.
4 9. P o g u e, G. P . , L in d b o , J. A ., Dawson, W. 0 . an d T u rp en , T. H. ( 1 9 9 8 ) Tobam ovirus tran sien t ex p ression v ecto rs : tools for p lan t biology and high-level expression of foreign pro teins in p lan ts, inPlantMolecular Biology Manual (G elv in , S. B. and S chilperoot, R. A ., eds. ) , Kluwer Academ ic P u b lish ers,D o rd rech t, The N eth erlan d s, p p. 1-27.
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