Inverse Relationship between Polyamine Levels and the Degree of Phenotypic Alteration Induced by the Root-Inducing, Left-Hand Transferred DNA from <i>Agrobacterium rhizogenes</i>

Martin-Tanguy, J.; Tepfer, David; Paynot, M.; Burtin, Daniel; Heisler, Laura; Martı́n, Carmen

doi:10.1104/pp.92.4.912

Cited by 54 publications

(24 citation statements)

References 31 publications

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“…Here we examine four examples of attenuation of a transformed phenotype: the first two in plants containing wild-type Ri T-DNA, the third in plants transformed by the rolA gene controlled by the 35s promoter, and the fourth in transformants carrying the rolA gene under the control of the wild-type regulatory sequences. We extend previous studies showing that the degree of phenotypic change is correlated with the degree of alteration in PA metabolism (Martin-Tanguy et al, 1990), and we show that a flowering deficiency in plants expressing I',,,-rolA can be corrected by grafting onto rootstock that has been induced to flower. We also show that methylation is a correlate of spontaneous repression of the rolA gene under the control of the wild-type regulatory sequences, and we discuss evolutionary implications of these regulatory processes.…”

supporting

confidence: 71%

“…Increased sensitivity to auxin in tobacco pedicel explants containing wild-type TL-DNA was attributed to decreased sensitivity to ethylene (Smulders et al, 1991). The degree of phenotypic change associated with the wild-type Ri T-DNA was negatively correlated with the accumulation of PAs and their conjugates (Martin-Tanguy et al, 1990), and this transformed phenotype was mimicked by treating normal plants, not carrying foreign DNA, with a-difluoromethylornithine, an inhibitor of Orn decarboxylase, a key enzyme in PA metabolism (Burtin et al, 1991).…”

mentioning

confidence: 89%

“…To be significant in evolution the Ri TL-DNA must get into gametes, explaining the fact that it encodes functions that stimulate organ formation (Tepfer, 1984(Tepfer, , 1989Levesque et al, 1988), in part by reducing the accumulation of PAs and their conjugates (Martin-Tanguy et al, 1990;Burtin et al, 1991). However, the physiological changes (e.g.…”

Section: Discussionmentioning

confidence: 99%

“…RNA was extracted (Verwoerd et al, 1989) and hybridization was performed after separation of RNAs in formaldehyde gels (Thomas, 1980). Amines were measured in shoot tops at different stages of floral development using previously described methods (Martin-Tanguy et al, 1978, 1990Cabanne et al, 1981). A shoot top was defined as the apical 1-to 1.5-cm fragment of the foliar stem before floral evocation.…”

Section: Biochemical and Molecular Methodsmentioning

confidence: 99%

“…the T' phenotype appeared in hemizygotes and the T phenotype appeared in homozygotes; thus, homozygosity attenuated the T' phenotype to the T phenotype. Selfing or outcrossing were used to produce uniform T and T' plants that served in the search for physiological correlates of these phenotypes (Martin-Tanguy et al, 1990). The N, T, and T' phenotypes are illustrated in Figure 1.…”

Section: Attenuation Of the T' Phenotype By Homozygositymentioning

confidence: 99%

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Attenuation of the Phenotype Caused by the Root-Inducing, Left-Hand, Transferred DNA and Its rolA Gene (Correlations with Changes in Polyamine Metabolism and DNA Methylation)

Martin-Tanguy¹,

Sun²,

Burtin³

et al. 1996

Plant Physiology

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We present four examples of attenuation of the transformed phenotype caused by the root-inducing, left-hand, transferred DNA from Agrobacterium rhizogenes in tobacco (Nicotiana tabacum). The first was associated with a genetic variable (homozygosity for the T-DNA), and the second was induced at the physiological level by putrescine and tyramine, suggesting that the transformed phenotype depends on defective polyamine metabolism. Physiological attenuation is further illustrated in the third example, i n which the inhibition of flowering caused by P,,,-ro/A, a gene from the rootinducing, left-hand, transferred DNA driven by a strong vira1 promoter, was attenuated by grafting the transformed shoot onto nontransformed rootstock that had been induced to flower. lnfertility in the resulting flowers was corrected by a mixture of putrescine and tyramine, indicating that P,,,-ro/A inhibited flowering through interference with polyamine conjugation and that tyramine was essentia1 to fertility. A fourth example of attenuation of the transformed phenotype occurred in lateral branches of plants expressing rolA under the control of its native promoter. In these branches, reduction in the accumulation of ro/A transcripts was correlated with the methylation of a site 3' to the rolA coding sequence; thus, the transformed plant seems capable of recognizing and repressing a gene that interferes with flowering.

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supporting

confidence: 71%

mentioning

confidence: 89%

Section: Discussionmentioning

confidence: 99%

Section: Biochemical and Molecular Methodsmentioning

confidence: 99%

Section: Attenuation Of the T' Phenotype By Homozygositymentioning

confidence: 99%

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Attenuation of the Phenotype Caused by the Root-Inducing, Left-Hand, Transferred DNA and Its rolA Gene (Correlations with Changes in Polyamine Metabolism and DNA Methylation)

Martin-Tanguy¹,

Sun²,

Burtin³

et al. 1996

Plant Physiology

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Polyamines and Cytokinin: Is Nitric Oxide Biosynthesis the Key to Overlapping Functions?

Wimalasekera

Scherer

2009

Nitric Oxide in Plant Physiology

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Morphology and withanolide production of Withania coagulans hairy root cultures

Mirjalili¹,

Fakhr-Tabatabaei²,

Bonfill³

et al. 2009

Engineering in Life Sciences

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Inoculation of leaf sections of Withania coagulans with Agrobacterium tumefaciens strain C58C1 (pRiA4) induced transformed roots with the capacity to produce the most important bioactive compounds of Withania species, withanolide A and withaferin A. The hairy roots obtained showed two morphologies: callus‐like roots (CR) with a high capacity to produce withanolides and typical hairy roots (HR) with faster growth capacity and lower withanolide accumulation. The aux1 gene of pRiA4 was detected by PCR analyses in all roots showing callus‐like morphology. However, this gene was only detected in 12.5% of the roots showing typical hairy root morphology. This fact suggests a significant role of aux genes in the morphology of transformed roots. Time course studies of withanolide production showed that withanolide A accumulated during the first part of the culture whereas the maximum accumulation of withaferin A occurred at the end of the culture period. Some transformed root lines, such as HR112 and CR26, showed considerable potential to produce withanolides in a scaled up bioreactor system, especially the important pharmaceutical compound withanolide A.

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Inverse Relationship between Polyamine Levels and the Degree of Phenotypic Alteration Induced by the Root-Inducing, Left-Hand Transferred DNA from Agrobacterium rhizogenes

Cited by 54 publications

References 31 publications

Attenuation of the Phenotype Caused by the Root-Inducing, Left-Hand, Transferred DNA and Its rolA Gene (Correlations with Changes in Polyamine Metabolism and DNA Methylation)

Attenuation of the Phenotype Caused by the Root-Inducing, Left-Hand, Transferred DNA and Its rolA Gene (Correlations with Changes in Polyamine Metabolism and DNA Methylation)

Polyamines and Cytokinin: Is Nitric Oxide Biosynthesis the Key to Overlapping Functions?

Morphology and withanolide production of Withania coagulans hairy root cultures

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