• Title/Summary/Keyword: Auxin

검색결과 344건 처리시간 0.022초

산-생장설에 대한 최근 연구 동향 (Recent research progress on acid-growth theory)

  • 이상호
    • Journal of Plant Biotechnology
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    • 제43권4호
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    • pp.405-410
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    • 2016
  • Auxins are essential in plant growth and development. The auxin-stimulated elongation of plant cells has been explained by the "acid-growth theory", which was proposed forty years ago. According to this theory, the auxin activates plasma membrane $H^+-ATPase$ to induce proton extrusion into the apoplast, promoting cell expansion through the activation of cell wall-loosening proteins such as expansins. Even though accepted as the classical theory of auxin-induced cell growth for decades, the major signaling components comprising this model were unknown, until publication of recent reports. The major gap in the acid growth theory is the signaling mechanism by which auxin activates the plasma membrane $H^+-ATPase$. Recent genetic, molecular, and biochemical approaches reveal that several auxin-related molecules, such as TIR1/AFB AUX/IAA coreceptors and SMALL AUXIN UP RNA (SAUR), serve as important components of the acid-growth model, phosphorylating and subsequently activating the plasma membrane $H^+-ATPase$. These researches reestablish the four-decade-old theory by providing us the detailed signaling mechanism of auxininduced cell growth. In this review, we discuss the recent research progress in auxin-induced cell elongation, and a set of possible future works based on the reestablished acid-growth model.

SMALL AUXIN UP RNA 유전자 집단의 기능과 조절 메커니즘에 대한 최근 연구 동향 (Recent research progress on the functional roles and regulatory mechanisms of SMALL AUXIN UP RNA gene family)

  • 이상호
    • Journal of Plant Biotechnology
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    • 제45권3호
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    • pp.183-189
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    • 2018
  • The plant hormone auxin regulates the overall metabolic processes essential for plant growth and development. Auxin signaling is mediated by early auxin response genes, which are classified into three major families: AUXIN/INDOLE ACETIC ACID (AUX/IAA), GRETCHEN HAGEN3 (GH3) and SMALL AUIN UP RNA (SAUR). The SAUR gene family is the largest family among early auxin response genes and encodes the small and highly unstable gene products. The functional roles of SAUR genes have remained unclear for many years. The traditional genetic and molecular studies on the SAUR functions have been hampered by their likely genetic redundancy and tandem arrays of highly related genes in the plant genome, together with the molecular characteristics of SAUR. However, recent studies have suggested possible roles of SAUR in a variety of tissues and developmental stages in accordance with the novel approaches such as gain-of-function and RNA silencing techniques. In this review, the recent research progress on the functional roles and regulatory mechanisms of SAUR and a set of possible future works are discussed.

옥수수(Zea mays L.) 자엽초 절편에서 Naphtylphthalamic Acid에 대한 오옥신 이동계의 감지적응 (Sensory Adaptation in Polar Auxin Transport System to Naphtylphthalamic Acid in Corn Coleoptile Segments)

  • 윤인선
    • Journal of Plant Biology
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    • 제34권4호
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    • pp.317-323
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    • 1991
  • Partial recovery in auxin transport capacity from inhibition by N-naphthylphthalamic acid (NPA) was observed when corn coleoptile segments were subjected to a prolonged NPA treatment. Kinetic data indicated that the recovery time is a function of the concentration of NPA applied. Desensitization to NPA was also seen in tissue slices where NPA increased net uptake of auxin, indicating that the apparant adaptation in the auxin transport system did not results possibly from auxin accumulated during transport inhibition. Studies on in vitro binding of NPA to membrane vesicles isolated from the coleoptile indicated that preincubation of the tissue with NPA resulted in the reduced binding activity. Scatchard analysis of the data indicated that this was due to decreases in the number of NPA binding sites. The possibility of causal relationship of modified NPA receptors to the sensory adaptation in auxin transport observed in coleoptile segments will be discussed.

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옥수수 자엽초 생장에서 오옥신과 $Ca^{2+}$ 상호작용 (Interaction of Auxin and $Ca^{2+}$ on Corn Coleoptile Segment Elogation)

  • 엄혜강
    • Journal of Plant Biology
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    • 제33권4호
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    • pp.315-320
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    • 1990
  • We investigated the interaction of auxin and Ca2+ on coleoptile segment elongation in seedlings of Zea mays L. Seedlings imbibed and raised either in the presence of 10 mM CaCl2 (HC), or in the absence of Ca2+ (LC) were used. Exposure to 10-5M auxin of coleoptiles from either HC or LC seedlings resulted in strong promotion of elongation. However, longer latent period (90 min) of the auxin effect was observed in HC than in LC seedlings (20 min). The length of latent period observed in HC coleoptiles was proportional to the concentration of CaCl2. The latent period of auxin effect observed in HC seedlings was abolished by pretreatment of the coleoptiles with TMB-8 which inhibits IP3-induced Ca2+ release from the tonoplasts. In segments of LC seedlings, the promotive effect of IAA (10-5M) was abolished by treatment with 5 mM calcium but was reversible upon treatment of the segments with 5 mM EGTA. These results suggest that the effect of auxin on coleoptile elongation is closely related to intracellular Ca2+ level.

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Sensitivity Changes of Auxin Transport System in Maize Coleoptile Segments

  • 윤인선
    • Journal of Plant Biology
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    • 제36권1호
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    • pp.59-66
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    • 1993
  • In maize coleoptile segments where auxin transport capacity decreases with time following excision, susceptability of the tissue to transport inhibitors such as N-1-naphthylphthalamic acid (NPA), 3,4,5-triiodobenzoic acid (TIBA) or high concentrations of IAA was found to be rather increased. A time-dependent increase in the sensitivity to NPA can be postulated since the dose-response curve for NPA was shifted in the‘aged’tissue to the left (i.e. lower concentration). Preincubation of the tissue at a low temperature abolished the time-dependent sensitivity change, suggesting that cellular metabolism could be involved. The NPA-sensitive state was also brought about by calcium depletion of the tissue, which can be partially reversed by addition of calcium. Presence of exogenous IAA in the preincubation medium kept the auxin transport system from decay, implicating auxin as an endogenous controlling factor. Results of our experiments indicate a reversible, time-dependent changes of auxin transport system in which transport capacity and sensitivity to NPA are tightly coupled. Changes in the sensitivity to NPA were also seen in auxin action as well.

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Auxin Effects on Symptom Development of Beet Curly Top Virus Infected Arabidopsis thaliana

  • Lee, Suk-Chan
    • Journal of Plant Biology
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    • 제39권4호
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    • pp.249-256
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    • 1996
  • Beet curly top virus is the DNA virus that is providing useful for basic studies of the infection of Arabidopsis thaliana with viral host and provides a system for studying both resistance and the molecular basis of symptom development. An importnat aspect of symptom development observed in BCTV-infected A. thaliana (ecotype Sei-O) was the induction of cell division on phloem and surrounding cortex cells. Analysis of the expression of GUS reporter gene activity in transgenic plants containing constructs with promoter of the auxin-inducible saur gene showed that saur promoter activity was induced concomitantly in symptomatic tissues at the inflorescence shoot tips of the transgenic lines. The auxin sensitivity tests showed that hypersusceptible ecotype, Sei-O produced more amounts of callus than susceptible ecotype, Col-O. These studies indicated that changes in auxin concentration were involved in the induction of cell division in BCTV-infected plants and clearly demonstrated that there was a strong correlation between auxin-induced gene expression and the activation of cell division.

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Auxin과 항진균물질을 생산하는 식물생장촉진근권세균의 분리동정 및 특성 (Selection and Identification of Auxin-Producing Plant Growth Promoting Rhizobacteria having Phytopathogen-antagonistic activity)

  • 권도형;최준형;정희경;임종희;주길재;김상달
    • Applied Biological Chemistry
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    • 제47권1호
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    • pp.17-21
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    • 2004
  • 경작지 근권토양에서 식물생장촉진물질인 auxin라 항진균물질을 동시에 생산하는 농업용 미생물제제로 사용할 PGPR 균주를 선발하고 동정하였다. 경북 경산 일대의 다수확 밭토양의 근권토양에서 균주를 선발하고 그 중 auxin 생산성이 높은 2균주 K36, N21를 분리하였다. 이들 균주를 동정한 결과 K36은 Pantoea agglomerans이고 N21은 Pseudomonans fulva로 동정되었다. 선발된 균주의 식물생장촉진능을 in vivo 녹두발아촉진검사법으로 확인하였으며, 식물병원진균에 대한 길항력을 확인하였다. 배양조건에 따른 auxin 생산성을 조사한 결과 K36 균주는 $pH\;7.5,\;35^{\circ}C$, 37시간에서 최대로 나타났고, N21균주는 $pH\;7.5,\;35^{\circ}C$, 20시간에서 최대값을 나타내었다.

인삼모상근의 생장에 미치는 Auxin과 Casein Hydrolysate의 영향 (The Effects of Auxin and Casein Hydrolysate on the Growth of Ginseng Hairy Root)

  • 오승용;박효진;민병훈;양계진;양덕춘
    • Journal of Ginseng Research
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    • 제24권3호
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    • pp.123-127
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    • 2000
  • 인삼모상근의 생장에 영향을 미치는 auxin과 CH의 효과를 규명하기 위하여 auxin류인 IBA, MA, NAA와 아미노산 화합물인 CH를 각각 농도별로 처리하여 MS 고체배지와 액체배지에서 50일간 배양후 수거하여 생중량과 건중량을 측정하여 농도별로 생장률을 측정한 결과, 인삼모상근의 생장에 미치는 auxin의 효과는 고체배양시에는 IBA를 1 mg/L의 농도로 암배양하는 것이 가장 효과적이었으며, NAA 1 mg/L의 농도로 광배양 하는 것도 효과적이었다. 반면에 IAA와 CH는 인삼모상근의 생장에 효과가 없었다. 액체배양시에는 IAA와 NAA를 처리했을 때 농도의 증가에 따른 생장의 증가는 보이지 않고 생장의 감소 없이 거의 일정하게 그 수준이 유지되었으며 IBA와 CH는 모두 인삼모상근의 생장을 오히려 억제하는 경향이었다.

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Expression of EuNOD-ARP1 Encoding Auxin-repressed Protein Homolog Is Upregulated by Auxin and Localized to the Fixation Zone in Root Nodules of Elaeagnus umbellata

  • Kim, Ho Bang;Lee, Hyoungseok;Oh, Chang Jae;Lee, Nam Houn;An, Chung Sun
    • Molecules and Cells
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    • 제23권1호
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    • pp.115-121
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    • 2007
  • Root nodule formation is controlled by plant hormones such as auxin. Auxin-repressed protein (ARP) genes have been identified in various plant species but their functions are not clear. We have isolated a full-length cDNA clone (EuNOD-ARP1) showing high sequence homology to previously identified ARP genes from root nodules of Elaeagnus umbellata. Genomic Southern hybridization showed that there are at least four ARP-related genes in the genome of E. umbellata. The cDNA clone encodes a polypeptide of 120 amino acid residues with no signal peptide or organelle-targeting signals, indicating that it is a cytosolic protein. Its cytosolic location was confirmed using Arabidopsis protoplasts expressing a EuNOD-ARP1:smGFP fusion protein. Northern hybridization showed that EuNOD-ARP1 expression was higher in root nodules than in leaves or uninoculated roots. Unlike the ARP genes of strawberry and black locust, which are negatively regulated by exogenous auxin, EuNOD-ARP1 expression is induced by auxin in leaf tissue of E. umbellata. In situ hybridization revealed that EuNOD-ARP1 is mainly expressed in the fixation zone of root nodules.