Journal of Plant Biotechnology

The Korean Society of Plant Biotechnology (한국식물생명공학회)
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Mass production of potato shoots by liquid culture

액체배지를 이용한 조직배양 감자줄기의 대량증식

  • 김재훈 ((주)마이크로프랜츠 중앙연구소) ;
  • 최은경 ((주)마이크로프랜츠 중앙연구소) ;
  • 김정국 (고려대학교 생명과학대학)
  • Published : 2009.03.31
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Abstract

A study was conducted to investigate in vitro micro propagation of four potato cultivars of Daese, Jasim, Chubaek and Haryeng in MS medium and PM medium (a medium containing half concentration of $NH_4NO_3$ and $KNO_3$, two fold concentration of $CaCl_2$ as compared to MS medium). During $1{\sim}2$ weeks of culture, Daese and Jasim showed better shoot elongation on the solid MS medium than Chubaek and Haryeng whereas Chubaek and Haryeng did better shoot elongation on the solid PM medium. But no difference was observed after 4 weeks of culture. As compared to shoot elongation on the solid medium, it was delayed at early stage of culture in the liquid medium without shaking. Shoot formation ratio of potato (above 4 cm of shoot length) began to increase significantly after 1 week of culture and kept on increasing until 4 weeks. The four cultivars showed the different patterns of shoot growth in bioreactor. The PM medium with a quarter salt strength was effective for the regeneration of axillary buds as well as shoot elongation of Jasim and Chubaek. Daese showed vigorous regeneration of axillary buds in the PM medium with a half salt strength. On the other hand, Haryeng showed slower growth than the other three cultivars.

MS배지와 PM (Potato medium)배지 (MS배지에서 $NH_4NO_3$$KNO_3$의 양은 1/2, $CaCl_2$는 2배 첨가하고 나머지는 동일)에서 대서, 자심, 추백, 하령 4 품종 감자줄기의 기내 대량증식을 위해 실험하였다. 고체배지에서 배양초기 ($1{\sim}2$주)에 대서와 자심은 MS배지에서 줄기의 신장이 가장 우수하였고, 하령과 추백은 PM배지가 효과적이었지만 배양후기인 4주 째에는 두 배지 사이에 차이가 없었다. 액체 정치배양한 배지에서는 고체배지와 달리 배양초기에는 생장이 늦었고 배양 1주 후부터 감자 (4 cm 이상)줄기 발생률이 급격히 증가하기 시작하였고, 4주까지 꾸준히 생장을 지속하였다. 바이오리액터에서 줄기의 생장은 품종에 따라 차이를 보였다. 특히 추백과 자심은 액아 발생뿐만 아니라 줄기신장이 1/4 PM배지가 우수하였고, 대서는 1/2 PM배지에서 액아발생이 왕성하였다. 한편, 하령은 다른 품종에 비해 생장이 늦었다.

Keywords

References

  1. Akita M, Takayama S (1994) Stimulation of patato (Solanum tuberosum L.) tuberization by semicontinuous liquid medium surface level control. Plant Cell Rep 13:184-187 https://doi.org/10.1007/BF00239889
  2. Choi KH, Yang DC, Jeon JH, Kim HS, Joung YH, Joung H (1998) A comparison of microtuberization efficiency between normal and adenosine deaminase transgenic potato plantlets cultured in vitro. Korean J Plant Res 11:252-256
  3. Gregory LE (1956) Some factors for tuberization in the potato plant. Amer J Bot 43:281-288 https://doi.org/10.2307/2438945
  4. Hussy G, Stacey NJ (1984) Factors affecting the formation of in vitro tubers of potato (Solanum tuberosum L). Ann bot 53: 565-578 https://doi.org/10.1093/oxfordjournals.aob.a086720
  5. Hwang HY, Lee YB (2008) Influences by position of node and existence of leaf on microtuberiztion in node culture of potato. J Plant Biotechnol 35:63-68 https://doi.org/10.5010/JPB.2008.35.1.063
  6. Jeon JH, Joung H, Park SW, Kim HS, Byun SM (1992) Regulation of in vitro tuberization potato (Solanum tuberosum L.) by plant growth regulators. Kor J Plant Tiss Cult 19: 67-73
  7. Joung H (1989) Mass production of potato microtuber by tissue culture technique and its application. '89 Agricultural biotechnology symposium pp 100-124
  8. Kim HS, Jeon JH, Park SW, Joung H (1992) Effects of alternating temperature on microtuberization of potato. J Kor Soc Hort Sci 33:432-437
  9. Kim HY, Joung H (1994) Influence of the physiological age of microtubers on field growth and tuber yield in potatoes. J Kor Soc Hort Sci 35:330-336
  10. Murashige T, Skoog F (1962) A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol Plant 15: 473-49 https://doi.org/10.1111/j.1399-3054.1962.tb08052.x
  11. Park SW, Jeon JH, Kim HS, Joung H (1996) Differences in storability and sprouting of potato microtubers. J Kor Soc Hort Sci 37:228-231
  12. Park SW, Jeon JH, Kim HS, Joung H (1992) Effects of paclobutrazol levels on shoot growth and microtuberization in tissue cultures of potato. Kor J plant Tiss Cult 19:311-315
  13. Vasil IK (1991) Cell culture and somatic cell genetics of plants, vol 8, Scale -up and automation in plant propagation, Academic press, San Diago

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