KOREAN JOURNAL OF CROP SCIENCE (한국작물학회지)

The Korean Society of Crop Science (한국작물학회)
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Major character analysis of CAX 1 (cation exchanger 1) transgenic rice plants in In Vivo

CAX 1 형질전환체 벼의 In Vivo에서 주요특성 분석

  • Kim, Kyung-Min (School of Applied Ecological Resources, Kyungpook National University)
  • 김경민 (경북대학교 생태자원응용학부)
  • Published : 2009.12.31
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Abstract

This study was carried out to develop transgenic rice cultivars with the CAX1 (accession no. U57411) gene. We successfully selected the transgenic rice plants over-expressing the Arabidopsis H+/$Ca^{2+}$ antiporter CAX1 (accession no. U57411) gene in T6 generation. The brown rice of the CAX1 expressing rice contained 13.4~68.0 % more calcium $(Ca^{2+})$ than that of the wild type and 5 lines were selected based on the phenotypes compared to the control cultivar at the GMO field. The CAX1 expressing transgenic rice plants were similar in phenotype to the wild type during the whole growth period. Also these selected 4 lines appeared to be resistant to blast, cold and water solution compared with the wild type. Difference in 1,000 grain weight of brown rice was observed among each line but grain shape did not show any morphological alternations. These results suggest the enhanced Ca-substrate specificity of CAX1 exchanger in donor plant. Therefore, intact CAX1 exchanger can be functionally useful for $Ca^{2+}$ nutrient enrichment of rice with reduced accumulation of undesirable cation.

CAX1 유전자가 도입된 형질전환 벼는 T3 세대까지 34계통을 모식물인 일품벼와 공시하였고, 그 외 종자 내 칼슘함량 조사를 비롯한 5가지 실험에서 이전에 실시한 Southern 분석 결과 CAX1 prove의 band 양상이 뚜렷이 나타난 7계 통(T-14, T-15, T-17, T-18, T-19, T-20, T-24)을 $T_4{\sim}T_6$ 계통에서 공시하였다. 앞으로 $T_7$ 세대에 대한 특성조사를 거쳐 $Ca^{2+}$함량이 안정적으로 높게 유지되는 계통을 선발하여 세대육성하면 칼슘과 관련된 유전자의 내재해성 작물의 기초자료 이용뿐만 아니라 농산물의 품질 고급화 및 안정성 향상 그리고 병충해에 의한 농작물 피해를 줄일 수 있는 효과를 가져 오고자 수행한 결과는 다음과 같다. $T_4$ 세대에서 형질이 안정적으로 발현되면서 모품종과 유사하고 농업적 형질이 우수한 5 계통을 선발하여 $T_6$세대까지 농업적인 생육 안정성(수장, 수수, 간장)은 15, 17, 18, 24 계통들은 출수기가 모품종인 일품벼와 비슷한 경향이었고 14, 19, 20계통들은 일품벼보다 6~11일까지 늦어지는 경향이었다. 형질전환체 7 계통의 간장을 조사한 결과 14 계통을 제외하고는 대부분 모품종인 일품벼와 유사하게 나타났다. CAX1 형질전환체인 $T_5{\sim}T_6$세대에서 병저항성은 일품 모품종보다 벼도열병(blast)과 벼잎집무늬마름병(sheath blight)의 방제가가 낮게 나왔으며, 벼도열병은 2 년간 모두 모품종에 대비해 T-14, 17, 18, 19, 20은 방제가가 높게 나타나 병저항성이 있는 것으로 나타났다. 그러나 벼잎집무늬마름병은 T-14, 19, 20, 24 계통이 방제가가 높게 나타났으며, 벼도열병과 벼잎집무늬마름병 모두 방제가가 높은 계통은 T-14, 19, 20 으로 조사되었다. 저온처리 된 벼의 초장 조사에서 각각 온실과 $17^{\circ}C$의 두 조건에 있어서 온실에서의 초장 조사와 생존 개체수를 대비해 볼 때 일품벼와 형질전환체 모두 정상적인 발육상태를 보였으나, 저온조건에서 초장 조사는 일품벼에 비해 $T_6$-19을 제외한 형질전환 계통들이 양호하였으며 $T_6$-18, 24 계통은 내한성 품종인 상주벼와 유사하거나 조금 차이가 났다. 종자내의 캄슘함량을 분석하기 위하여 $T_3{\sim}T_7$ 종자를 이용하여 얻어진 결과는 $T_3$ 종자에서 452.2~1,376.2%로 칼슘함량이 증가되었고 분자 marker에 의해 선발하여 된 T7종자까지 분석한바 13.4~68.0%로 나타남을 확인할 수 있었다.

Keywords

References

  1. Allen, G. J., S. R. Muir and D. Sander. 1995. Release of Ca$^{2+}$ from individual plant vacuoles by both insp (3) and cyclic ADP-ribose. Science 286 : 735-737
  2. Bashir K., T. Husnain, T. Fatima, Z. Latif, S.A.Mhdi, S. Riazuddin. 2004. Field evaluation and risk assessment of transgenic indica basmati rice. Molecular Breeding 13 : 301-312 https://doi.org/10.1023/B:MOLB.0000034078.54872.25
  3. Barkla, B. J. and O. Pantoja. 1996. Physiology of ion transport across the tonoplast of higher plants, Annu. Rev. Plant Sci 47 : 159-184
  4. Bjorn L. O., V. Sangwan, F. Oman and R.S. Dhindsa. 2000. Early steps in cold sensing by plant cells: the roles of actin cytoskeleton and membrane fluidity. The Plant Journal 23(6): 785-794 https://doi.org/10.1046/j.1365-313x.2000.00845.x
  5. Bush, D. S., 1995. Calcium regulation in plant cells and its role in signaling. Annu. Rev. Plant Physiol. Plant Mol. Biol.46 : 95-122 https://doi.org/10.1146/annurev.pp.46.060195.000523
  6. Cheng, N. H., J. Z. Liu, R. S. Nelson and K. D. Hirschi. 2004. Characterization of CXIP4, a novel Arabidopsis protein that activates the H$^{+}$/Ca$^{2+}$ antiporter, CAX1. FEBS Letters559 : 99-106 https://doi.org/10.1016/S0014-5793(04)00036-5
  7. Hirschi, K. D. 1999. Expression of Arabidopsis CAX1 in tabacco : altered calcium homeostasis and increased stress sensitivity. Plant Cell 11 : 2113-2122 https://doi.org/10.1105/tpc.11.11.2113
  8. Hirschi, K. D., R. G. Zhen, K. W. Cunningham, P. A. Rea and G. Fink. 1996. CAX1, and H$^{+}$/Ca$^{2+}$ antiporter from Arabidopsis. Proc. Natl. Acad. Sci. USA 93 : 8782-8786 https://doi.org/10.1073/pnas.93.16.8782
  9. Jang, S. W., P. G. Shin and Y. I. Hahm. 2003. Agronomic characteristics of transgenic tomatoes resistant to TMV in field. J. Kor. Hort. Sci 44 : 35-39
  10. Jeon, Y. H., K. H. Kang, J. P. Suh, J. U. Jeung, Y. J. Won, K. S. Lee and Y. T. Lee. 2007. Comparison of agromic traits on herbcide resistant transgenic rice in korea mid-region. Treat. of Crop Res. 8 : 195-201
  11. Kiegle, E., C. A. Moor, J. Haseloff, M. A. Tester and M. R. Knight. 2000. Cell-type-specific calcium responses to drought, salt and cold in the Arabidopsis root. Plant Cell J. 23 : 267-278
  12. Kim, K. M., C. K. Kim, K. D. and B. O. Kim. 2008. Safety test of brown rice expressing Arabidopsis calcium transporter by feeding trial in mice. J. of Life Science 18(10) : 1390-1394 https://doi.org/10.5352/JLS.2008.18.10.1390
  13. Kim, K. M., Y. H. Park, C. K. Kim, K. D. Hirschi and J. K. Sohn. 2004. Development of transgenic rice plants overexpressing the Arabidopsis H$^{+}$/Ca$^{2+}$ antiporter CAX1 gene. Plant Cell Rep 23 : 678-682
  14. Kitigawa, Y and K. Yoshizaki. 1998. Water stress-induced chilling tolerance in rice : putative relationship between chilling tolerance and Ca$^{2+}$ flux. Plant Sci 137 : 73-85 https://doi.org/10.1016/S0168-9452(98)00118-6
  15. Knight, H., A. J. Trewavas and M. R. Knight. 1997. Calcium signaling in Arabidopsis thaliana responding to drought and salinity. Plant J 12 : 1067-1078 https://doi.org/10.1046/j.1365-313X.1997.12051067.x
  16. Marty F. 1999. Plant vacuoles. Plant Cell. 11 : 587-600 https://doi.org/10.1105/tpc.11.4.587
  17. Monroy, A. F and R. S. Dhindsa. 1995. Low-temperature signal transduction : induction of cold acclimation-specific genes of alfalfa by calcium at 25${^{\circ}C}$ Plant Cell 7 : 321-331 https://doi.org/10.1105/tpc.7.3.321
  18. Oh, J. Y., M. Y. Chung., H. S. Lee., H. R. Kim., S. O. Jee., J. S. Han., J. H. Kim and C. K. Kim. 2005. Selection of transgenic calcium - rich potato (Solanium tuberosum cv. Superior) tuber overexpressing Arabidopsis sCAX1, Kor. J. Hort. Sci. Technol 23 : 170-174
  19. Park. H. M., Y. H. Kim, J. P. Suh, M. S. Choi, K. J. Kim, D. B. shin, C. H. Park, J. Y. Lee. 2007. Evaluation of agronomic and molecular biological characteristics of the herbicide resistant transgenic rice. K. J. Breed. Sci. 39(2) : 148-154
  20. Park, S. H., C. K. Kim., L. M. Pike., R. H. Smith and K. D. Hirschi. 2004. Increased calcium in carrots by expression of Arabidopsis H$^{+}$/Ca$^{2+}$ transporter. Mol. Breed 14 : 275-282 https://doi.org/10.1023/B:MOLB.0000047773.20175.ae
  21. Park, S. H., T. S. Kang, C. K. Kim, J. S. Han, S. G. Kim, R.H. Smith, L.M. Pike, and K. D. Hirschi. 2005. Genetic manipulation for enhancing calcium content in potato tuber. J. Agri Food Chem 53 : 5598-5603 https://doi.org/10.1021/jf050531c
  22. Plieth, C., U. P. Hanson., H. Knight and M. R. Knight. 1999. Temperature sensing by plants : the primary characteristics of signal perception and calcium response. The Plant J 18 : 491-497 https://doi.org/10.1046/j.1365-313X.1999.00471.x
  23. Saijo, Y., S. Hata., J. Kyozuka ., K. Shimamoto and K. Izui. 2002. Over - expression of a single Ca$^{2+}$-dependent protein kinase confer both cold and salt/drought tolerance on rice plants. The Plant J. 23 : 319-327
  24. Sanders D., C. Brownlee and J.F. Harper. 1999. Communicating with calcium. The Plant Cell. 11: 691-706 https://doi.org/10.2307/3870893
  25. Schiott, M and M. G. Palmgren. 2005. Two plant Ca$^{2+}$ pumps expressed in stomatal guard cells show opposite expression patterns during cold stress. Physiologia Plantarum 124 : 278-283 https://doi.org/10.1111/j.1399-3054.2005.00512.x
  26. Tahtiharju, S. V., Sangwan., A. F. Monroy., R. S. Dhindsa and M. Borg. 1997. The induction of kin genes in cold-acclimating Arabidopsis thaliana. Evidence of a role for calcium. Planta 203 : 442-447 https://doi.org/10.1007/s004250050212
  27. Vega, C. M., J. P. Palta and J. B. Heaney. 2000. Variability in the rate of cold acclimation and deacclimation among tuber-bearing Solanum(potato) species. J. Am. Soc. hort. Sci.125 : 205-211
  28. Won, J. W., G. H. Yi, J. H. Cho, J. M. Ko, H. M. Park, C. D. Han, S. J. Yang, S. C. Kim, M. H. Nam. 2004. Establishment of a new breeding scheme for rapid release of variety using bar gene transformed rice. Korean J. plant Biotechnol. 31(1) 7-11 https://doi.org/10.5010/JPB.2004.31.1.007
  29. Waterer, D. S., S. Lee and G. Scoles. 2000. Field evaluation of herbicide-resistant transgenic broccoli.. Hort Science 35 : 930-932
  30. Yoshida, S., D.A. Forno, J.H. Cock and K.A. Gomez. 1976. Laboratory manual for physiological studies of rice. Los Banos, Laguna, Philippines