The early nodulin transcript ENOD2 is located in the nodule parenchyma (inner cortex) of pea and soybean root nodules.

Wiel, C.C.M. van de; Scheres, Ben; Franssen, Henk; Lierop, M. J. Van; Lammeren, A. van; Kammen, A. van; Bisseling, Ton

doi:10.1002/j.1460-2075.1990.tb08073.x

Cited by 217 publications

(119 citation statements)

References 18 publications

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“…The senescent zone (zone IV) is not seen in these examples but is apparent in 12-day-old /n,Sar nodules (Figures 7G and 7H). The nodule parenchyma (inner cortex; Van de Wiel et al, 1990), nodule vascular bundles, and the (A) Total RNA (10 ^.g), isolated from roots (R; day 5 or 6) and nodules (days 9 and 12) of Saranac plants inoculated with either effective R. meliloti 102F51 or ineffective strains T202, G456, 1491, or F642, as indicated, was electrophoresed in a 1.5% formaldehydeagarose gel, transferred to a ZetaProbe membrane, and probed with 32 P-labeled AS13. (B) Radioactivity in the 2.2-kb AS band on each sampling date was determined by AMBIS radioanalytic image analysis.…”

Section: Localization Of As Transcripts In Effective and Ineffective mentioning

confidence: 99%

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Nitrogen assimilation in alfalfa: isolation and characterization of an asparagine synthetase gene showing enhanced expression in root nodules and dark-adapted leaves.

et al. 1997

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Asparagine, the primary assimilation product from N2 fixation in temperate legumes and the predominant nitrogen transport product in many plant species, is synthesized via asparagine synthetase (AS; EC 6.3.5.4). Here, we report the isolation and characterization of a cDNA and a gene encoding the nodule-enhanced form of AS from alfalfa. The AS gene is comprised of 13 exons separated by 12 introns. The 5' flanking region of the AS gene confers nodule-enhanced reporter gene activity in transformed alfalfa. This region also confers enhanced reporter gene activity in dark-treated leaves. These results indicate that the 5' upstream region of the AS gene contains elements that affect expression in root nodules and leaves. Both AS mRNA and enzyme activity increased -10-to 20-fold during the development of effective nodules. lneffective nodules have strikingly reduced amounts of AS transcript. Alfalfa leaves have quite low levels of AS mRNA and protein; however, exposure to darkness resulted in a considerable increase in both. In situ hybridization with effective nodules and P-glucuronidase staining of nodules from transgenic plants showed that AS is expressed in both infected and uninfected cells of the nodule symbiotic zone and in the nodule parenchyma. RNA gel blot analysis and in situ hybridization results are consistent with the hypothesis that initial AS expression in nodules is independent of nitrogenase activity.

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Section: Localization Of As Transcripts In Effective and Ineffective mentioning

confidence: 99%

“…In situ hybridization was performed essentially as described by Van de Wiel et al (1990). At least 20 day 12 Saranac and in,Sar nodules were fixed with 4% paraformaldehyde and 0.25% glutaraldehyde in 50 mM sodium phosphate buffer, pH 7.2, at room temperature.…”

Section: Plant Dna Extraction and Dna Gel Analysismentioning

confidence: 99%

Nitrogen assimilation in alfalfa: isolation and characterization of an asparagine synthetase gene showing enhanced expression in root nodules and dark-adapted leaves.

et al. 1997

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“…The first 24 deduced amino acids were found to display typical characteristics of signal peptides Werner and Schatz, 1988) and share a high degree of homology with the putative signal sequences of the soybean €nod2 (Franssen et a/., 1989) and Enodl2 (Scheres etal., 1990) gene products (data not shown). The remainder of the deduced protein sequence consists of a 55-fold repeat of short proline-rich oligopeptides ( Figure 2), thereby resembling EnodZproteins from other legumes (Dickstein eta/., 1988;Franssen eta/., 1987Franssen eta/., ,1989Govers etal., 1990;Szczyglowski and Legocki, 1990;Van de Wiel et a/., 199Oa). With a few exceptions, these proline-rich peptide repeats can be subdivided into two classes, represented by the following amino acid motifs: (X-)X-GIuLys-Pro-Pro-(Pro), repeated 30-fold, and X-Tyr-(X-)ProPro-(Pro), repeated 19-fold (Figure 2).…”

Section: /Solation and Characterization Of The Srenod2 Locusmentioning

confidence: 99%

The early nodulin gene SrEnod2 from Sesbania rostrata is inducible by cytokinin

1992

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Summary The structure and expression of the early nodulin gene Enod2 from the stem‐nodulated tropical legume Sesbania rostrata (SrEnod2) was examined. Genomic clones carrying the single SrEnod2locus were isolated and the DMA sequence of the gene was determined. The SrEnod2 gene was found to lack introns and to encode a protein consisting primarily of a 55‐fold repeat of short proline‐rich oligopeptides. A putative signal sequence, which may be responsible for targeting of the Enod2 protein to the cell wall, was found to precede this repeat. The temporal expression of the SrEnod2 gene was found to be different in S. rostrata stem versus root nodules induced by Azorhizobium caulinodans ORS571. SrEnod2 gene expression was shown to be induced specifically and rapidly by physiologically significant concentrations of exogenously supplied cytokinins. The SrEnod2gene was also found to be highly expressed in S. rostrata crown gall tumors induced by wild‐type Agrobacterium tumefaciens strains, but not in tumors induced by an A. tumefaciens strain carrying a mutation in the cytokinin biosynthesis gene 4. Implications of these observations with regard to cytokinin‐induced plant gene expression and a possible role for cytokinin as a symbiotic signal are discussed.

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“…PRPs were first identified as proteins that accumulate in the cell wall in response to physical damage (Chen and Varner, 1985;Tierney et al, 1988) and have subsequently been shown to be temporally regulated during plant development. PRP gene expression is associated with early stages of legume root nodule formation (Franssen et al, 1987;van de Wiel et al, 1990;Wilson et al, 1994), soybean seedling, leaf, stem, and seed coat development (Hong et al, 1989;Kleis-San Francisco and Tierney, 1990;Lindstrom and Vodkin, 1991;Ye et al, 1991), bean seedling growth (Sheng et al, 1991), and with early stages of tomato fruit development (Santino et al, 1997). The spatial pattern of PRP expression is also tightly regulated, as shown by in situ hybridization and reporter gene expression analysis (Wyatt et al, 1992;Suzuki et al, 1993).…”

mentioning

confidence: 99%

Characterization and Expression of Four Proline-Rich Cell Wall Protein Genes in Arabidopsis Encoding Two Distinct Subsets of Multiple Domain Proteins

1999

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We have characterized the molecular organization and expression of four proline-rich protein genes from Arabidopsis (AtPRPs). These genes predict two classes of cell wall proteins based on DNA sequence identity, repetitive motifs, and domain organization. AtPRP1 and AtPRP3 encode proteins containing an N-terminal PRPlike domain followed by a C-terminal domain that is biased toward P, T, Y, and K. AtPRP2 and AtPRP4 represent a second, novel group of PRP genes that encode two-domain proteins containing a nonrepetitive N-terminal domain followed by a PRP-like region rich in P, V, K, and C. Northern hybridization analysis indicated that AtPRP1 and AtPRP3 are exclusively expressed in roots, while transcripts encoding AtPRP2 and AtPRP4 were most abundant in aerial organs of the plant. Histochemical analyses of promoter/␤-glucuronidase fusions localized AtPRP3 expression to regions of the root containing root hairs. AtPRP2 and AtPRP4 expression was detected in expanding leaves, stems, flowers, and siliques. In addition, AtPRP4 expression was detected in stipules and during the early stages of lateral root formation. These studies support a model for involvement of PRPs in specifying cell-type-specific wall structures, and provide the basis for a genetic approach to dissect the function of PRPs during growth and development.

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The early nodulin transcript ENOD2 is located in the nodule parenchyma (inner cortex) of pea and soybean root nodules.

Cited by 217 publications

References 18 publications

Nitrogen assimilation in alfalfa: isolation and characterization of an asparagine synthetase gene showing enhanced expression in root nodules and dark-adapted leaves.

Nitrogen assimilation in alfalfa: isolation and characterization of an asparagine synthetase gene showing enhanced expression in root nodules and dark-adapted leaves.

The early nodulin gene SrEnod2 from Sesbania rostrata is inducible by cytokinin

Characterization and Expression of Four Proline-Rich Cell Wall Protein Genes in Arabidopsis Encoding Two Distinct Subsets of Multiple Domain Proteins

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