• Journal of Plant Biology
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• 제32권4호
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• pp.323-330
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• 1989

This work was carried out to elucidate effects of endogenous and exogenous IAA transport on adventitious root formation in Phaseolus vulgaris hypocotyl cuttings. For inverted or normal incubation in distilled water, the adventitious root is always formed at the morphological base but not at the morphological apex. For inverted incubation, in both distilled water and certain chemical solution, the root formation is retarded more at the first stage (0-24 hr) than at the second stage (24-48 hr). When p-chlorophenoxyisobutyric acid (PCIB) was applied to the cuttings at the first stage, theroot formation was inhibited more than at the second stage. Treatment of 2,3,5-triiodobenzoic aicd (TIBA)markedly inhibited the adventitious root formation in Phaseolus vulgaris hypocotyl cuttings. This inhibition influenced the root according to the applied stage and period. Therefore, the root formation is more related to the stage of root primordium formation than to the stage of root elongation from the primordium. Inhibition of auxin transport oraction by TIBA or PCIB could also be reversed when hypocotyl cuttings are incubated in exogenously applied IAA solution.

• Journal of Plant Biotechnology
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• 제29권1호
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• pp.31-36
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• 2002

대두의 자엽 절편을 이용한 부정근 형성과 품종 반응을 비교하였다. 품종별 부정근 형성 양상은 직접적인 부정근 형성 품종과 callus형성이 동시에 이루어지는 품종들로 구분되었으며, callus 형성이 많은 품종에서는 부정근 형성수가 적었다. 자엽 절편에서의 부정근 형성은 절편의 향축면 치상시에만 부정근이 형성되었고, 배축면과 향축면이 동시에 치상될 경우에도 향축면에서만 부정근이 형성되며, 절편의 배축이 존재하였던 방향에서만 부정근이 형성되는 방향성이 존재하였다. 부정근 형성시 자엽 절편 내 탄수화물은 형성초기보다 형성이 가장 많은 유기 4일에 가장 많이 관찰되었으며 ,형성된 부정근의 생장이 이루어지는 7일 이후에는 관찰되지 않았다.

• Journal of Microbiology and Biotechnology
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• 제21권2호
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• pp.192-196
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• 2011

Microbial induction of rusty-root was proved in this study. The enzymes hydrolyzing plant structural materials, including pectinase, pectolyase, ligninase, and cellulase, caused the rusty-root in ginseng. Pectinase and pectolyase produced the highest rusty-color formation. Ferrous ion ($Fe^{+++}$) caused the synergistic effect on rusty-root formation in ginseng when it was used with pectinase. The effect of ferric ion ($Fe^{++}$) on rusty-root formation was slow, compared with $Fe^{+++}$, probably due to gradual oxidation to $Fe^{+++}$. Other metal ions including the ferric ion ($Fe^{++}$) did not affect rusty-root formation. The endophytic bacteria Agrobacterium tumefaciens, Lysobacter gummosus, Pseudomonas veronii, Pseudomonas marginalis, Rhodococcus erythropolis, and Rhodococcus globerulus, and the rotten-root forming phytophathogenic fungus Cylindrocarpon destructans, caused rusty-root. The polyphenol formation (rusty color) was not significantly different between microorganisms. The rotten-root-forming C. destructans produced large quantities of external cellulase activity (${\approx}2.3$ U[${\mu}m$/min/mg protein]), which indicated the pathogenecity of the fungus, whereas the bacteria produced 0.1-0.7 U. The fungal external pectinase activities (0.05 U) and rusty-root formation activity were similar to those of the bacteria. In this report, we proved that microbial hydrolyzing enzymes caused rusty-root (Hue value $15^{\circ}$) of ginseng, and ferrous ion worsened the symptom.

• Molecules and Cells
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• 제39권7호
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• pp.524-529
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• 2016

Controlling the production of diverse cell/tissue types is essential for the development of multicellular organisms such as animals and plants. The Arabidopsis thaliana root, which contains distinct cells/tissues along longitudinal and radial axes, has served as an elegant model to investigate how genetic programs and environmental signals interact to produce different cell/tissue types. In the root, a series of asymmetric cell divisions (ACDs) give rise to three ground tissue layers at maturity (endodermis, middle cortex, and cortex). Because the middle cortex is formed by a periclinal (parallel to the axis) ACD of the endodermis around 7 to 14 days post-germination, middle cortex formation is used as a parameter to assess maturation of the root ground tissue. Molecular, genetic, and physiological studies have revealed that the control of the timing and extent of middle cortex formation during root maturation relies on the interaction of plant hormones and transcription factors. In particular, abscisic acid and gibberellin act synergistically to regulate the timing and extent of middle cortex formation, unlike their typical antagonism. The SHORT-ROOT, SCARECROW, SCARECROW-LIKE 3, and DELLA transcription factors, all of which belong to the plant-specific GRAS family, play key roles in the regulation of middle cortex formation. Recently, two additional transcription factors, SEUSS and GA- AND ABA-RESPONSIVE ZINC FINGER, have also been characterized during ground tissue maturation. In this review, we provide a detailed account of the regulatory networks that control the timing and extent of middle cortex formation during post-embryonic root development.

• 한국생물공학회:학술대회논문집
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• 한국생물공학회 2002년도 생물공학의 동향 (X)
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• pp.305-308
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• 2002

접종 초기 root segmentation 은 뿌리의 생장 속도를 감소시키고 그 생산성을 저하시키기도 하지만 F/D ratio를 감소시켜 뿌리가 자랄 수 있는 배지 내 공간을 제공하기 때문에 고농도 배양에 유리할 뿐 아니라, 생산성이 높은 secondary root의 비율을 증가시키기 때문에 decursinol angelate 의 생산량을 중대시킨다. 참당귀 뿌리배양을 위한 plant growth regulator의 최적 조건으로 secondary root의 생장성 측면이나 decursinol angelate 의 생산성 측면에서 4 mg/L 이상의 IBA 첨가가 요구됨을 확인하였다.

• 한국작물학회:학술대회논문집
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• 한국작물학회 2017년도 9th Asian Crop Science Association conference
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• pp.169-169
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• 2017

Medium composition plays a key role on influencing organogenesis in plant tissue culture. This study was carried out to examine the effects of medium composition on organogenesis in diploid and tetraploid Codonopsis lanceolata and obtain in-vitro mass propagation of superior species of C. lanceolata. Diploid C. lanceolata was found to be declined regarding MS medium composition for each concentration. However, shoot and adventitious root formation were suppressed with higher mineral salt concentration, and active growth of shoot and adventitious root was exhibited as 4.9 cm and 3.2 cm respectively in 1/2 MS medium. While in tetraploid C. lanceolata, it showed 2.9 cm and 3.2 cm respectively in 1/4 MS medium. In the case of sucrose concentration, no consistent decrease was observed for growth of shoot and the adventitious root of diploid both at high and low concentration. The growth of shoot (at 3% concentration) and adventitious root (at 7% concentration) was 2.3 cm and 2.0 cm respectively. Although there was no difference in shoot formation of tetraploid C. lanceolata in all concentrations with the range of 1.7~1.8, there was a slight decrease in shoot growth at high concentration. Results revealed that the adventitious root formation was suppressed at high concentration. The concentration of agar exhibited no significant difference in shoot formation of diploid C. lanceolata at all concentrations. The maximum result of adventitious growth (4.1 cm) was observed at 0.8% concentration. Slight inhibition of shoot formation and root formation of tetraploid C. lanceolata was observed at higher concentration. Shoot formation of diploid C. lanceolata also exhibited inhibition at higher concentration. Shoot formation of diploid C. lanceolata was increased at lower pH and shoot growth was the highest (2.3 cm) at pH 3.8. Adventitious root formation was higher at lower pH. However, both the adventitious root formation and growth exhibited comparatively higher result at pH 5.8. Taken together, the levels of pH had an effect on shoot and root formation in diploid and tetraploid of C. lanceolata

• Journal of Welding and Joining
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• 제29권6호
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• pp.77-81
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• 2011

In most industry, manual GTAW welding is preferred for formation of stable back bead in root weld of butt joint. However, manual GTAW welding has low productivity as compared with GMAW, also it has unstable bead quality which depend on skilled workers. So it is necessary to develop process of root pass welding by using automation GMAW that have stable back bead formation and high productivity. In this paper, the design of U-groove with 3mm root face was applied to extend the tolerance of misalignment in condition of standard root gap 1.5mm. Consequently, for the formation of stable back bead in root pass of butt welding, in case of the narrow root gap(0.5mm) the large arc force was applied by increasing the current and voltage. In case of the large root gap(2.5mm), the small arc force was applied by decreasing the current and voltage. Considering the various root gap, the required deposited metal was controlled by welding speed only.

• 한국작물학회지
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• 제28권3호
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• pp.299-304
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• 1983

간척지에서 생육된 수도의 근군형성양상을 조사하기 위해 염해의 정도가 서로 다른 3구에서, 시료를 채취하여 다음과 같은 결과를 얻었다. 1. 고염지에서 생육한 수도의 근군은 저염지에서 생육된 수도의 근군보다 천근성을 나타냈다. 2. 고염지에서 생육된 수도의 근군을 구성하는 관근수는 저염지에서 생육된 수도의 근군을 구성하는 관근수보다 적었다. 3. 각 요소에서 출근된 관근수도 고염지에서 생육된 수도가 저염지에서 생육된 수도보다 적었으며, 이와 같은 현상은 이앙후 출근하는 요소에서부터 나타났다. 4. 각 처리구의 관근에 형성된 분지근의 밀도는 고염지에서 생육된 수도가 저염지에서 생육된 수도보다 높은 경향을 나타냈다. 5. 각 처리구의 관근에 형성된 근모의 형성양상은 고염지에서 생육된 수도가 저염지에서 생육된 수도에 비하여 근모형성율이 낮고 또 근모장도 짧은 경향을 나타냈다.

• 생명과학회지
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• 제25권4호
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• pp.390-396
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• 2015

본 연구는 항산화 기능이 뛰어나다고 알려진 며느리배꼽(Persicaria perfoliata)의 캘러스를 사용하여, 어떤 식물호르몬이 부정근 형성에 영향을 미치는지 알아보기 위한 실험이다. 며느리배꼽의 잎으로부터 캘러스를 유도하고 이로부터 부정근 형성을 관찰하였다. 캘러스 유도의 최적 조건을 구한 결과 1% sucrose, 4.5 μM 2.4-D, 1/2 MS였다. 어떤 식물호르몬이 이 식물의 캘러스에서 부정근 형성 효과를 가지고 있는지 알아보기 위하여 GA₃, IAA, 2iP, 2,4-D를 캘러스 조직에 각각 첨가한 결과, GA₃와 IAA를 첨가한 배지에서만 부정근이 나타났음을 확인 할 수 있었다. 이를 자세히 조사하기 위해서 GA₃와 IAA의 농도별(0.1, 1, 10 mg/l) 부정근 형성, 길이 및 직경을 알아본 결과, 높은 수준의 GA₃ 또는 낮은 수준의 IAA처리에서 더 많은 부정근 형성을 보였다. 이 두 호르몬 중 어떤 것이 더욱 더 중요한 역할을 하는지 알아보기 위하여 옥신 유입 저해제인 NPA와 지베렐린 생합성 저해제인 PBZ를 처리한 실험을 한 결과, GA₃가 IAA 보다 부정근 형성에 더욱 더 중요한 역할이라는 것을 알았다. 하여 지베렐린의 수준을 증가 또는 감소시킨다고 알려진 식물호르몬(IAA, 2iP, kinetin, ABA)들을 GA₃와 혼용 처리한 결과, 이 역시 지베렐린이 부정근을 형성하는데 중요한 역할을 한다는 것을 재확인 하였다. 본 연구는 지베렐린이 며느리배꼽의 캘러스에서 부정근 형성을 증진시킨다는 것을 처음으로 밝힌다.

• 한국작물학회:학술대회논문집
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• 한국작물학회 2017년도 9th Asian Crop Science Association conference
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• pp.328-328
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• 2017

Drought is a major limiting factor that reduces rice production and occurs often especially under recent climate change. Plants have the ability to alter their developmental morphology in response to changing environment, which is known as phenotypic plasticity. In our previous studies, we found that one chromosome segment substitution line (CSSL50 derived from Nipponbare and Kasalath crosses) showed no differences in shoot and root growth as compared with the recurrent genotype, Nipponbare under non-stress condition but showed greater growth responses compared with Nipponbare under mild drought stress condition. We hypothesized that reducing root respiration as metabolic cost, which may be largely a consequence of aerenchyma formation would be one of the key mechanisms for root plasticity expression. This study aimed to evaluate the root respiration and aerenchyma formation under various soil moisture conditions among genotypes with different root plasticity. CSSL50 together with Nipponbare and Kasalath were grown under waterlogged conditions (Control) and mild drought stress conditions (20% of soil moisture content) in a plastic pot ($11cm{\times}14cm$, ${\varphi}{\times}H$) and PVC tube ($3cm{\times}30cm$, ${\varphi}{\times}H$). Root respiration rate was measured with infrared gas analyzer (IRGA, GMP343, Vaisala, Finland) with a closed static chamber system. There was no significant difference between genotypes in control for shoot and root growth as well as root respiration rate. In contrast, all the genotypes increased their root respiration rates in response to mild drought stress. However, CSSL50 showed lower root respiration rate than Nipponbare, which was associated by higher root aerenchyma formation that was estimated based on internal gas space (porosity) under mild drought stress conditions. Furthermore, there were significant negative correlations between root length and root respiration rate. These results imply that reducing the metabolic cost (= root respiration rate) is a key mechanism for root plasticity expression, which CSSL50 showed under mild drought.