[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5010/JPB.2018.45.2.110

Establishment of optimal conditions for micropropagation by node culture and multiple shoots formation from sucker explants of thornless Blackberry (Rubus fruticosus L. cv. BB21)

Lee, Kang Seop (Bioplus Co., LTD)
Kim, Hyo Jin (Bioplus Co., LTD)
Park, Dae Hyun (Bioplus Co., LTD)
Oh, Seung Cheol (Bioplus Co., LTD)
Cho, Han Jig (Bioplus Co., LTD)
Kim, Ee Youb (Bioplus Co., LTD)

Publication Information

Journal of Plant Biotechnology / v.45, no.2, 2018 , pp. 110-116 More about this Journal

Abstract

This study was conducted to develop a simple, rapid, and reliable method for in vitro propagation of disease-free and true-to-type clones from sucker explants of thornless blackberry (Rubus fruticosus L. ${\times}$ R. parvifolius L.). To induce multiple shoots, the sucker explants were sterilized in 1% NaOCl solution, and then were aseptically cultured on the full and 1/2 MS solid medium supplemented with BAP (0.1, 0.5, 1.0, 2.0 mg/L). After six weeks of culture, the highest frequency (85.4%) of shoot formation from sucker explants was obtained on the full-strength MS medium with 1.0 mg/L BAP. Node explants obtained from multiple shoots were cultured on the various media of full- or half-strength of AD, B5, MS, SH, QL, WPM media, respectively. After 30 days of culture, plant growth was good on the half-AD, half-QL medium. After 90 days of culture, plant growth was good on the full MS and full SH medium. The survival rate of the plantlets after transfer to plastic pots containing soil mixture (sand: soil: vermiculite was 1:1:1, vol.) in the greenhouse was 98%. The results indicate that a multiple-shoot procedure can be applied for an efficient mass propagation of Rubus fruticosus L. ${\times}$ R. parvifolius L.

본 연구에 사용한 식물체는 Rubus fruticosus L. cv. BB21은 Rubus fruticosus L. ${\times}$ R. parvifolius L. 교잡 블랙베리 V3품종에서 방사선을 처리하여 돌연변이로 선발 육종된 V9개체 중 다시 방사선을 처리하여 선발육종 된 품종이다. 이러한 우량계통의 신속한 증식을 이루기 위하여 조직 배양을 통한 효과적인 방법을 구명하고자 배지 및 생장조절물질 등의 처리에 따른 안정적인 생산을 위해 본 연구가 수행되었다. 땅속에서 채집된 근맹아 절편체를 0.1, 0.5, 1.0, 2.0 mg/L BAP가 첨가된 MS와 1/2MS 배지에 치상하여 6주간 배양한 후, 다경의 형성률을 조사하였다. 형성된 다경으로부터 산업적으로 이용하기 위한 안정된 생산을 위하여, 신초의 잎을 제거한 후 절간배양을 수행하여 다수의 소식물체를 증식하고자 여러종류의 배지 즉, AD (Anderson 1980), B5 (Gamborg 1968), MS (Murashige and Skoog 1962), SH (Schenk and Hildebrandt 1972), QL (Quoirin and Lepoivre 1977), WPM (Lloyd and McCown 1981)배지와 상기의 각각의 동일배지의 무기염류의 수준을 절반으로 한 1/2배지에 배양하였다. 초기의 생육(30일간 배양 시)에 있어서 생장은 배지 간에 차이를 나타내어 1/2AD, 1/2QL 배지에서 가장 양호한 초장을 나타내었으며, 절간수도 약 3.8, 4.4개를 나타내었으며, 뿌리, 생중량 다경유도 모두 양호하였다. 90일간 배양한 경우에서는 MS배지가 초장이 가장 양호하였으며 AD, SH 순으로 양호한 결과를 나타내었다. 식물체의 토양 순화는 신초와 뿌리가 잘 발달된 정상적인 식물체를 모래, 토양, 그리고 버뮤큘라이트가 혼합된 토양(1:1:1, v/v)에 각각 직접 이식하여 실시한 결과, 식물체의 발근율과 생존률(약98%)을 나타내었다. 이상의 결과를 통하여 블랙베리 묘목의 대량생산이 가능하여 농가에 원활한 공급이 가능할 것으로 예상된다.

Keywords

Blackberry; Node culture; multiple shoots; Sucker; Rubus fruticosus;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Cho MJ, LR Howard, RL Rrior and JR Clark (2004) Flavonoid glycosides and antioxidant capacity of various blackberry, blueberry and red grape genotypes determined by high-performance liquid chromatography/mass spectrometry. J SCI Food AGR 84(13):771-1782
2	Cuenca S, JB Amo-Marco and R Parra (1999) Micropropagation from inflorescence stems of the Spanish endemic plant Centaurea paui Loscos ex Willk. (Compositae). Plant Cell Rep 18:674-679 DOI
3	Debnath SC (2004) Clonal propagation of dwarf raspberry (Rubus pubescens Raf.) through in vitro axillary shoot proliferation. Plant growth regul 43:179-186 DOI
4	Fernandez GE and JR Clark (1991) In vitro propagation of the erect thornless 'Navaho' blackberry. Hortscience 26(9):12-19
5	Gamborg. O., Miller, R and Ojima, K. (1968) Nutrient Requirements of Suspension Cultures of Soybean Root Cells. Experimental Cell Research (50):151-158
6	Han MS, HK Moon, YJ Kang, WW Kim, BS Kang and KO Byun (2004) Micropropagation of an endangered species, Stellera rosea Nakai by tissue culture. Korean J Plant Biotechnol 31:31-35 DOI
7	Harper PC (1978) Tissue culture propagation of blackberry and tayberry. Hortic Res 18:141-143
8	Kang HD, HK Moon, IS Park and MS LEE (2004) Effect of TDZ (Thidiazuron) on shoot proliferation of Peace poplaf. Korean J Plant Biotechnol 31:49-53 DOI
9	Kim MS, GC Pang and MV Lee (1997) Flavunoids from the leaves of Rubus coreanum. Yakhak Hoeji 40: 666-669
10	Kim MS, KC Pang and MW Lee (1996) Tannins from the leaves of Rubus coreanum. Yakhak Hoeji 40:666-669
11	Meng R, Chen THH, Finn CE and Li YH (2004) Improving in vitro plant regeneration from leaf and petiole explants of 'Marion' blackberry. Hortscience 39(2):316-320
12	Kresty LA, Frankel WL, Hammond CD, Baird ME, Mele JM, Stoner GD and Fromkes JJ (2006) Transitioning from preclinical to clinical chemopreventive assessments of lyophilized blackberries: interim results show berries modulate markers of oxidative stress in Barrett's esophagus patients. Nutrition and Cancer 54:148-156 DOI
13	Linsmaier EM , Skoog F (1975) Organic growth factor requirements of tobacco, Physiol. Plant 18:100-127
14	Lloyd G. and Mccown B. (1981) Connercially feasible micropropagation of mountain laurel, Kalmia latifolia by use of shoot-tip culture. Combined Proceeding of the International plant Propagation Society 30:421-426
15	Murashige T and F Skoog (1962) A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant. 15:473-497 DOI
16	Quoirin M , Lepoivre P (1977) Improved medium for in vitro culture of Prunus sp, Acta Hortic 78:437-442
17	Schenk T, Schenk RU, Hildebrandt AC (1972) Medium and techniques for induction and growth of monocotyledonous and dicotyledonous plant cell cultures. Can J Bot 50:199-204 DOI
18	Kim KH, Lee YA, Kim JS, Lee DI, Choi YW, Kim HH and Lee MW (2000) Antioxidative activity of tannins from Rubus coreanum. Yakhak Hoeji 44:354-357
19	Shin JS, OK Sim, JC Lee, HJ Cho, EY Kim and KS Lee (2005) Plant regeneration via multiple shoot formation from sucker explants of Rubus fruticosus L. Korean J Plant Resource 18(3):456-461
20	Shin JS, JC Lee, LK Sim, TY Yoon, HJ Cho and EY Kim (2008) Plant regeneration via multiple shoot formation from sucker explant of hybrid blackberry (Rubus fruticosus L. $\times$ R. parvifolius L.). Korean J Plant Resource 21(2):111-116
21	Skirvin RM, MC Chu and E Gomez (1981) In vitro propagation of thornless trailing blackberries. Hortscience 16(3):310-312
22	Thompson MM (1997) Survey of chromosom number in Rubus (Rosaceae: Rosoideae). Ann Mol Bot Garden 84:129-165
23	Turk BA, HJ Swartz and RH Zimerman (1994) Adventitious shoot regeneration from in vitro-cultured leaves of Rubus genotypes. Plant Cell Tiss Org cult 38:11-17 DOI
24	Wang SY and HS Lin (2000) Antioxidant activity in fruits and leaves of blackberry, raspberry, and strawberry varies with cultivar and developmental stage. J Agr Food Chem 48(2):140-146 DOI
25	Wu J-H, SA Miller, HK. Hall, PA Mooney (2009) Factors affecting the efficiency of micropropagation from lateral buds and shoot tips of Rubus Plant Cell Tiss Org (2009) 99:17-25 DOI
26	Zawadzka M and T Orlikowska (2006) Increase in the quality of raspberry cultures under the influence of FeEDDHA. Acta Hortic 725:161-164
27	Casto BC, Kresty LA, Kraly CL, Pearl DK, Knobloch TJ, Schut HA, Stoner GD, Mallery SR and Weghorst CM (2002) Chemoprevention of oral cancer by black rasberries. Anticancer Res. 22:4005-4015
28	Anderson (1980) Tissue culture propagation of red and black raspberries (Rubus idaeus and R. occidentalis) Acta Hort. 112:13-20
29	Bobrowski VL, Mello-Farias PC and Peters JA (1996) Micropropagation of blackberries (Rubus sp.) cultivars. Rev. Bras. de Agrociencia 2: 17-20
30	Broome OC, Zimmerman RH (1978) In vitro propagation of blackberry. HortSci 13:151-153