Ectopic expression of soybean methionine synthase delays flowering time in transgenic tobacco plants

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• 作者：A. H. Sha (2) (3)
  Z. L. Gao (1)
  H. Wu (1)
  D. Z. Lin (1)
  Q. L. Zhang (1)
  Y. H. Chen (1)
  
  2. Oil Crops Research Institute ; Chinese Academy of Agriculture Sciences ; Wuhan ; 430062 ; P.R China
  3. College of Agriculture ; Yangtze University ; Jingzhou ; 434023 ; P.R China
  1. Hainan Key Laboratory for Sustainable Utilization of Tropical Bioresource and College of Agriculture ; Hainan University ; Haikou ; 570228 ; P.R China
  
• 关键词：anthocyanin ; chlorophyll ; ectopic expression ; Glycine max ; photoperiod response ; protein
• 刊名：Biologia Plantarum
• 出版年：2015
• 出版时间：January 2015
• 年：2015
• 卷：59
• 期：1
• 页码：47-54
• 全文大小：764 KB
• 参考文献：1. Abeles, F., Morgan, P., Saltveit, M. (ed.): Ethylene in Plant Biology. 2^nd Ed. 鈥?Academic Press, San Diego 1992.
  2. Amir, R.: Current understanding of the factors regulating methionine content in vegetative tissues of higher plants. 鈥?Amino Acids 39: 917鈥?31, 2010. CrossRef
  3. Andr茅s, F., Coupland, G.: The genetic basis of flowering responses to seasonal cues. 鈥?Nat. Rev. Genet. 13: 627鈥?39, 2012. CrossRef
  4. Bachem, C.W., Van der Hoeven, R.S., De Bruijn, S.M., Vreugdenhil, D., Zabeau, M., Visser, R.G.F.: Visualization of differential gene expression using a novel method of RNA fingerprinting based on AFLP: analysis of gene expression during potato tuber development. 鈥?Plant J. 9: 745鈥?53, 1996. CrossRef
  5. Banergee, R.V., Matthews, R.G.: Cobalamin-dependent methionine synthase. 鈥?FASEB J. 4: 1450鈥?459, 1990.
  6. Bernard, R.L.: Two major genes for time of flowering and maturity in soybeans. 鈥?Crop Sci. 11: 242鈥?44, 1971. CrossRef
  7. Bernier, G., Kinet, J.M., Sachs, R.M. (ed.): The Physiology of Flowering. Vol. I. 鈥?CRC Press, Boca Raton 1981.
  8. Boerjan, W., Bauw, G., Van Montagu, M., lnzeb, D.: Distinct phenotypes generated by overexpression and suppression of S-adenosyl-L-methionine synthetase reveal developmental patterns of gene silencing in tobacco. 鈥?Plant Cell 6: 1401鈥?414, 1994. CrossRef
  9. Bradford, M.M.: A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. 鈥?Anal. Biochem. 72: 248鈥?54, 1976. CrossRef
  10. Buzzell, R.I.: Inheritance of a soybean flowering response to fluorescent-day length conditions. 鈥?Can. J. Genet. Cytol. 13: 703鈥?07, 1971.
  11. Buzzell, R.I., Voldeng, H.D.: Inheritance of insensitivity to long daylength. 鈥?Soybean Genet. News 7: 26鈥?9, 1980.
  12. Chalhoub, B.A., Thibault, S., Laucou, V., Rameau, C., H枚fte, H., Cousin, R.: Silver staining and recovery of AFLP amplification products on large denaturing polyacrylamide gels. 鈥?Biotechniques 22: 216鈥?18, 1997.
  13. Chen, Q.J., Zhou, H.M., Chen, J., Wang, X.C.: Using a modified TA cloning method to create entry clones. 鈥?Anal. Biochem. 358: 120鈥?25, 2006. CrossRef
  14. Chi, Y., Huang, F., Liu, H., Yang, S., Yu, D.: An / APETALA1-like gene of soybean regulates flowering time and specifies floral organs. 鈥?J. Plant Physiol. 168: 2251鈥?259, 2011. CrossRef
  15. Cober, E.R.: A new soybean maturity and photoperiod-sensitivity locus linked to / E1 and / T. 鈥?Crop Sci. 41: 698, 2001. CrossRef
  16. Dancs, G., Kondrak, M., Banfalvi, Z. The effects of enhanced methionine synthesis on amino acid and anthocyanin content of potato tubers. 鈥?BMC Plant Biol. 8: 65, 2008. CrossRef
  17. Ergon, 脜., Hamland, H., Rognli, O.: Differential expression of / VRN1 and other MADS-box genes in / Festuca pratensis selections with different vernalization requirements. 鈥?Biol. Plant. 57: 245鈥?54, 2013. CrossRef
  18. Gakiere, B., Denis, L., Droux, M., Ravanel, S., Douce, R., Job, D.: Methionine synthesis in higher plants: sense strategy applied to cystathionine gamma-synthase and cystathionine beta-lyase in / Arabidopsis thaliana. 鈥?In: Brunold C. (ed.): Sulfur Nutrition and Sulfur Assimilation in Higher Plants. Pp. 313鈥?15. Paul Haupt Publishers, Berlin 2000a.
  19. Gakiere, B., Ravanel, S., Droux, M., Douce, R., Job, D.: Mechanisms to account for maintenance of the soluble methionine pool in transgenic / Arabidopsis plants expressing antisense cystathionine gamma-synthase cDNA. 鈥?Compt.rend. Acad. Sci. Paris 323: 841鈥?51, 2000b.
  20. Garner, W.W., Allard. H.A.: Effect of the relative length of day and night and other factors of the environment on growth and reproduction in plants. 鈥?J. agr. Res. 18: 553鈥?06, 1920.
  21. Hacham, Y., Avraham, T., Amir, R.: The N-terminal region of / Arabidopsis cystathionine gamma-synthase plays an important regulatory role in methionine metabolism. 鈥?Plant Physiol. 128: 454鈥?62, 2002. CrossRef
  22. Hayama, R., Coupland, G.: The molecular basis of diversity in the photoperiodic flowering responses of / Arabidopsis and rice. 鈥?Plant Physiol. 135: 677鈥?84, 2004. CrossRef
  23. Hayama, R., Yokoi, S., Tamaki, S., Yano, M., Shimamoto, K.: Adaptation of photoperiodic control pathways produces short-day flowering in rice. 鈥?Nature 422: 719鈥?22, 2003. CrossRef
  24. Hecht, V., Foucher, F., Ferr谩ndiz, C., Macknight, R., Navarro, C., Morin, J., Vardy, M., Ellis, N., Beltr谩n, J.P., Rameau, C., Weller, J.L.: Conservation of / Arabidopsis flowering genes in model legumes. 鈥?Plant Physiol. 137: 1420鈥?434, 2005. CrossRef
  25. Horsch, R.B., Fry, J.E., Hoffmann, N.L., Eichholtz, D., Rogers, S.G., Fraley, R.T.: A simple and general method for transformation genes into plants. 鈥?Science 227: 1229鈥?231, 1985. CrossRef
  26. Inskeep, W.P., Bloom, P.R.: Extinction coefficients of chlorophyll / a and / b in N,N-dimethylformamide and 80 % acetone. 鈥?Plant Physiol. 77: 483鈥?85, 1985. CrossRef
  27. Izawa, T., Oikawa, T., Sugiyama, N., Tanisaka, T., Yano, M., Shimamoto, K.: Phytochrome mediates the external light signal to repress / FT orthologs in photoperiodic flowering of rice. 鈥?Genes Dev. 16: 2006鈥?020, 2002. CrossRef
  28. Izawa, T., Oikawa, T., Tokutomi, S., Okuno, K., Shimamoto, K.: Phytochromes confer the photoperiodic control of flowering in rice (a short-day plant). 鈥?Plant J. 22: 391鈥?99, 2000. CrossRef
  29. Izawa, T., Takahashi, Y., Yano, M.: Comparative biology comes into bloom: genomic and genetic comparison of flowering pathways in rice and / Arabidopsis. 鈥?Curr. Opin. Plant Biol. 6: 113鈥?20, 2003. CrossRef
  30. Jackson, S.: Plant responses to photoperiod. 鈥?New Phytol. 181: 517鈥?31, 2009. CrossRef
  31. Jarrett, J., Goulding, C., Fluhr, K., Huang, S., Matthews, R.: Purification and assay of cobalamin-dependent methionine synthase from / Escherichia coli. 鈥?Methods Enzymol. 281: 196鈥?13, 1997. CrossRef
  32. Jung, C., M眉ller, A.E.: Flowering time control and applications in plant breeding. 鈥?Trends Plant Sci. 14: 563鈥?73, 2009. CrossRef
  33. Karimi, M., Inz茅, D., Depicker, A.: GATEWAYTM vectors for / Agrobacterium-mediated plant transformation. 鈥?Trends Plant Sci. 7: 193鈥?95, 2002. CrossRef
  34. Kim, J., Leustek, T.: Cloning and analysis of the gene for cystathionine 纬-synthase from / Arabidopsis thaliana. 鈥?Plant mol. Biol. 32: 1117鈥?124, 1996. CrossRef
  35. Kim, J., Lee, M., Chalam, R., Martin, M.N., Leustek, T., Boerjan, W.: Constitutive overexpression of cystathionine 纬-synthase in / Arabidopsis thaliana leads to accumulation of soluble methionine and S-methylmethionine. 鈥?Plant Physiol. 128: 95鈥?07, 2002. CrossRef
  36. Kojima, S., Takahashi, Y., Kobayashi, Y., Monna, L., Sasaki, T., Araki, T., Yano, M.: / Hd3a, a rice ortholog of the / Arabidopsis FT gene, promotes transition to flowering downstream of / Hd1 under short-day conditions. 鈥?Plant Cell Physiol. 43: 1096鈥?105, 2002. CrossRef
  37. Kong, F., Liu, B., Xia, Z., Sato, S., Kim, B.M., Watanabe, S., Yamada, T., Tabata, S., Kanazawa, A., Harada, K., Abe, J.: Two coordinately regulated homologs of / FLOWERING LOCUS T are involved in the control of photoperiodic flowering in soybean. 鈥?Plant Physiol. 154: 1220鈥?231, 2010. CrossRef
  38. Liu, H., Wang, H., Gao, P., Xu, J., Xu, T., Wang, J., Wang, B., Lin, C., Fu, Y.: Analysis of clock gene homologs using unifoliolates as target organs in soybean ( / Glycine max). 鈥?J. Plant Physiol. 166: 278鈥?89, 2009. CrossRef
  39. McBlain, B.A.: A new gene affecting the time of flowering and maturity in soybeans. 鈥?J. Hered. 78: 160鈥?62, 1987.
  40. Nikiforova, V.J., Kopka, J., Tolstikov, V., Fiehn, O., Hopkins, L., Hawkesford, M.J., Hesse, H., Hoefgen, R.: Systems rebalancing of metabolism in response to sulfur deprivation, as revealed by metabolome analysis of / Arabidopsis plants. 鈥?Plant Physiol. 138: 304鈥?18, 2005. CrossRef
  41. Ogawara, T., Higashi, K., Kamada, H., Ezura, H.: Ethylene advances the transition from vegetative growth to flowering in / Arabidopsis thaliana. 鈥?J. Plant Physiol. 160: 1335鈥?340, 2003. CrossRef
  42. Ravanel, S., Gaki茅re, B., Job, D., Douce, R.: The specific features of methionine biosynthesis and metabolism in plants. 鈥?Proc. nat. Acad. Sci. USA 95: 7805鈥?812, 1998. CrossRef
  43. Simpson, G.G., Gendall, A.R., Dean, C.: When to switch to flowering. 鈥?Annu. Rev. cell. dev. Biol. 15: 519鈥?50, 1999. CrossRef
  44. Tamura, K., Dudley, J., Nei, M., Kumar, S.: MEGA4: molecular evolutionary genetics analysis (MEGA) software version 4.0. 鈥?Mol. Biol. Evolut. 24: 1596鈥?599, 2007. CrossRef
  45. Thakare, D., Kumudini, S., Dinkins, R.: Expression of flowering-time genes in soybean / E1 near-isogenic lines under short and long day conditions. 鈥?Planta 31: 951鈥?63, 2010. CrossRef
  46. Thakare, D., Kumudini, S., Dinkins, R.D.: The alleles at the E1 locus impact the expression pattern of two soybean / FT-like genes shown to induce flowering in / Arabidopsis. 鈥?Planta 234: 933鈥?43, 2011. CrossRef
  47. Thomas, B., Vince, P.D. (ed.): Photoperiodism in Plants. 鈥?Academic Press, London 1997.
  48. Trusov, Y., Botella, J.R.: Silencing of the ACC synthase gene / ACACS2 causes delayed flowering in pineapple [ / Ananas comosus (L.) Merr.]. 鈥?J. exp. Bot. 57: 3953鈥?960, 2006. CrossRef
  49. Valverde, F., Mouradov, A., Soppe, W., Ravenscroft, D., Samach, A., Coupland, G.: Photoreceptor regulation of CONSTANS protein in photoperiodic flowering. 鈥?Science 303: 1003鈥?006, 2004. CrossRef
  50. Wang, W., Xu, J., Liu, X., Yu, Y., Ge, Q.: Cadmium induces early flowering in / Arabidopsis. 鈥?Biol. Plant. 56: 117鈥?20, 2012. CrossRef
  51. Wu, F.Q., Zhang, X.M., Li, D.M., Fu, Y.F.: Ectopic expression reveals a conserved / PHYB homolog in soybean. 鈥?PLoS One 6: e27737, 2011.
  52. Wuriyanghan, H., Zhang, B., Cao, W., Ma, B., Lei, G., Liu, Y., Wei, W., Wu, H., Chen, L., Chen, H., Cao, Y., He, S., Zhang, W., Wang, X., Chen, S., Zhang, J.:. The ethylene receptor ETR2 delays floral transition and affects starch accumulation in rice. 鈥?Plant Cell 21: 1473鈥?494, 2009. CrossRef
  53. Xia, Z., Watanabe, S., Yamada, T., Tsubokura, Y., Nakashima, H., Zhai, H., Anai, T., Sato, S., Yamazaki, T., L眉, S., Wu, H., Tabata, S., Harada, K.: Positional cloning and characterization reveal the molecular basis for soybean maturity locus E1 that regulates photoperiodic flowering. 鈥?Proc. nat. Acad. Sci. USA 109: 2155鈥?164, 2012. CrossRef
  54. Xue, Z.G., Zhang, X.M., Lei, C.F., Chen, X.J., Fu, Y.F.: Molecular cloning and functional analysis of one / ZEITLUPE homolog / GmZTL3 in soybean. 鈥?Mol. Biol. Rep. 39: 1411鈥?418, 2012. CrossRef
  55. Yang, Z.P., Zhang, X.J., Cai, S.P., Zhou, X.A.: [Response of short juvenility soybean varieties to photoperiods: response to short daylength.] 鈥?Chin. J. Oil. Crop Sci. 23: 35鈥?0, 2001. [In Chinese].
  56. Zhang, Q., Li, H., Li, R., Hu, R., Fan, C., Chen, F., Wang, Z., Liu, X., Fu, Y., Lina, C.: Association of the circadian rhythmic expression of / GmCRY1a with a latitudinal cline in photoperiodic flowering of soybean. 鈥?Proc. nat. Acad. Sci. USA 105: 21028鈥?1033, 2008. CrossRef
  57. Zhao, L., Hao, D., Chen, L., Lu, Q., Zhang, Y., Li, Y., Duan, Y., Li, W.: Roles for a soybean RAV-like orthologue in shoot regeneration and photoperiodicity inferred from transgenic plants. 鈥?J. exp. Bot. 63: 3257鈥?270, 2012. CrossRef
  58. Zhao, L., Luo, Q., Yang, C., Han, Y., Li, W.: A RAV-like transcription factor controls photosynthesis and senescence in soybean. 鈥?Planta 227: 1389鈥?399, 2008. CrossRef
  
• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Life Sciences
  Plant Sciences
  
• 出版者：Springer Netherlands
• ISSN：1573-8264

文摘

A photoperiod-sensitive soybean [Glycine max (L.) Merr] cv. ZhongDou 24 (ZD24) exhibiting delayed flowering when grown under long-days (LD, a 16-h photoperiod) was used to identify the genetic control of flowering delay. A differential expression profiling technique enabled identification of a gene fragment that was up-regulated under LD. This fragment was homologous to a gene encoding methionine synthase (MS) in soybean and was named GmMS. The RNA content confirmed that GmMS was expressed in roots, stems, and leaves of soybean grown under LD. The highest expression was in stems. Full length GmMS, encoding 763 amino acids, was transferred into tobacco plants. The ectopic expression of GmMS in tobacco resulted in delayed flowering. Other effects included stunting, an increased MS activity and methionine content, a higher content of alcohol-soluble proteins and of chlorophylls, and a lower content of anthocyanins.