Abstract
The genus Lupinus comprises approximately 500 plant species widespread in North and South Americas, Africa, and Southern Europe. Reconstruction of lupine phylogeny based on the analysis of symbiosis-related genes, rbcL, and SSU rRNA genes indicates that lupines represent one of the most ancient genera among Papilionideae (Doyle and Doyle, 1997). It is presumed that lupines retained many unique and ancient features. One of such features seems to be a lupinoid type, collar shaped nodule, which shares the characteristics of both determinate and indeterminate nodules (Golinowski et al., 1987). In the course of our studies, we characterised two genes coding for PR10 class proteins. The unique character of these genes can be recognised in distinct expression patterns in different organs as a response to pathogenic or symbiotic bacteria. The linkage between symbiosis and expression of these two genes appears to be especially intriguing. To understand this relationship, the symbiotic region carrying nodulation functions from Bradyrhizobium sp. WM9 (Lupinus) was characterised. Our further objective is to study plant responses using PR10 genes as molecular markers upon inoculation with bacteria carrying mutations in defined nod functions responsible for the host range determination.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Barratt DHP and Clark JA 1993. Proteins arising during the late stages of embryogenesis in Pisum sativum L. Planta (Heidelb.). 184, 14–23.
Barrera LL, Trujillo ME, Goodfellow M, Garcia FJ, Hernandez-Lucas I, Davila G, van Berkum P, and Martinez-Romero E 1997. Biodiversity of bradyrhizobia nodulating Lupinus spp. Int. J. Syst. Bacteriol. 47,1086–1091.
Breda C, Sallaud C, El-Turk J, Buffard D, de Kozak I, Esnault R, and Kondorosi A 1996. Defence Reaction in Medicago sativa: A Gene Encoding a Class 10 PR Protein Is Expressed in Vascular Bundles. Mol. Plant-Microbe Interact. 9, 713–719.
Breiteneder H, Hoffman-Sommergruber K, Oriordain G, Susani M, Ahorn H, Ebner C, Kraft D, and Scheiner O 1995. Molecular characterisation of Api g 1, the major allergen of celery (Apium graveolens), and its immunological and structural relationships to a group of 17-kDa tree pollen allergens. Eur. J. Biochem. 223, 484–489.
Breiteneder H, Pettenburger K, Bito A, Valenta R, Kraft D, Rumpold H, Scheiner O, and Breitenbach M 1989. The gene coding for the major birch pollen allergen Bet v 1 is highly homologous to a pea disease resistance response gene. EMBO J. 8, 1935–1938.
Bufe A, Spangfort MD, Kahlert H, Schlaak M, and Becker W-M 1996. The major birch pollen allergen, Bet v 1, shows ribonuclease activity. Planta. 199, 413–415.
Constabel CP and Brisson N 1995. Stigma-and vascular-specific expression of the PR10a gene of potato: a novel expression of a pathogenesis-related gene. Mol. Plant-Microbe Interact. 8,104–113.
Crowell DN, John ME, Russel D, and Amasino RM 1992. Characterisation of stress-induced, developmentally regulated gene family from soybean. Plant Mol. Biol. 18, 459–466.
Doyle JJ and Doyle JL 1997. Phylogenetic perspectives on the origins and evolution of nodulation in the legumes and allies. In NATO ASI Series, Vol. G39 Biological Fixation of Nitrogen for Ecology and Sustainable Agriculture. Eds A Legocki, H Bothe, and A Puhler. pp 307–312. Springer Verlag, Berlin Heidelberg.
Folch-Mallol JL, Marroqui S, Sousa C, Manyani H, Lopez-Lara I, van der Drift KMGM, Hoverkamp J, Quinto C, Gil-Serrano A, Thomas-Oates J, Spaink H, and Megias M 1996. Characterization of Rhizobium tropici CIAT899 nodulation factors: the role of nodH and nodPQ genes in their sulfation. Mol. Plant-Microbe Interact. 9,151–163.
Gajhede M, Osmark P, Poulsen FM, Ipsen H, Larsen JN, Joost van Neerven RJ, Schou C, Lovenstein H, Spangfort MD 1996. X-ray, and NMR structure of Betvl, the origin of birch pollen allergy. Nature Structural Biol. 12,1040–1045.
Gillette WK and Elkan GH 1996. Bradyrhizobium (Arachis) sp. strain NC92 contains two nodD genes involved in the repression of nodA and a nolA gene required for efficient nodulation of host plants. J. Bacteriol. 178, 2757–2766.
Golinowski W, Kopcifiska J, and Borucki W 1987. The morphogenesis of lupine root nodules during infection by Rhizobium lupini. Acta Societas Botanicum Poloniae. 56, 687–703.
Kundig C, Bec C, Hennecke H, and Gottfert M 1995. A single rRNA gene region in Bradyrhizobium japonicum. J. Bacteriol. 177, 5151–5154.
Lopez-Lara I, van der Drift KMGM, van Brussel AA, Hoverkamp J, Lugtenberg BJJ, Thomas-Oates JE, and Spaink HP 1995. Structural identification of the lipo-chitin oligosaccharide nodulation signals of Rhizobium loti. Mol. Microbiol. 15, 627–638.
Moiseyev GP, Fedoreyeva LI, Zhuravlev YN, Yasnetskaya E, Jekel PA, and Beintema JJ 1997. Primary structures of two ribonucleases from ginseng callus. FEBS Lett. 407, 207–210.
Palacios R, Boistard P, Davila G, Fonstein M, Gottfert M, Perret X, Ronson C, and Sobral B 1997. Genome structure in nitrogen-fixing organisms. In Biological Nitrogen Fixation for the 21st Century. Eds C Elmerich, A Kondorosi, WE Newton. pp 541–547. Kluwer, Academic Publishers, Dordrecht.
Pinto PM and Ricardo CPP 1995. Lupinus albus L. Pathogenesis-Related Proteins That Show Similarity to PR10 Proteins. Plant Physiol. 109, 1345–1351.
Sikorski MM 1997. Expression of Lupinus luteus cDNA coding for PR10 protein in Escherichia coli: Purification of the recombinant protein for structural and functional studies. Acta Biochim. Pol. 3, 565–578.
Sikorski MM, Szlagowska AE, and Legocki AB 1996. cDNA sequences encoding for two homologues of Lupinus luteus (L.) IPR-like proteins (Accession Nos X79974 and X79975 for L1R10A and LIR18B mRNA’s respectively). Plant Physiol. PGR 95–114.
Sikorski MM, Szybiak-Strozycka U, Strozycki P, Golinska B, Madrzak CJ, Kamp RM, Wittmann-Liebold B, and Legocki AB 1989. Coordinated synthesis of leghemoglobin and root protein R18 in yellow lupin. Acta Biochim. Polon. 36, 63–72.
Swoboda I, Hoffman-Sommergruber K, O’Riordain G, Scheiner O, Heberle-Bors E, and Vicente O 1996. Bet v 1 proteins, the major birch pollen allergens and members of a family of conserved pathogenesis-related proteins, show ribonuclease activity in vitro. Physiol. Plant. 96, 433–438.
Swoboda I, Scheiner O, Kraft D, Breitenbach M, Heberle-Bors E, and Vicente O 1994. A birch gene family encoding pollen allergens and pathogenesis-related proteins. Biochim. Biophys. Acta. 1219, 457–464.
Van Loon LC, Pierpoint WS, Boller T, and Conejero V 1994. Recommendations for naming plant pathogenesis-related proteins. Plant Mol. Biol. Rep. 12, 245–264.
Vanek-Krebitz M, Hoffman-Sommergruber K, Machado MLD, Susani M, Ebner C, Kraft D, Scheiner O, and Breiteneder H 1995. Cloning and sequencing of Mal d 1, the major allergen from apple (Malus domestica), and its immunological relationship to Bet v 1, the major birch pollen allergen. Biochem. Biophys. Res. Commun. 214,538–551.
Walter MH, Liu J-W, Grand C, Lamb CJ, and Hess D 1990. Bean pathogenesis-related (PR) proteins deduced from elicitor-induced transcripts are members of a ubiquitous new class of conserved PR proteins including pollen allergens. Mol. Gen. Genet. 222, 353–360.
Warner SAJ, Gill A, and Draper J 1994. The developmental expression of the asparagus intracellular PR protein (AoPR1) gene correlates with sites of phenylpropanoid biosynthesis. Plant J. 6,31–43.
Warner SAJ, Scott R, and Draper J 1992. Characterisation of a wound-induced transcript from the monocot asparagus that shares similarity with a class of intracellular pathogenesis-related (PR10) proteins. Plant Mol. Biol. 19, 555–561.
Warner SAJ, Scott R, and Draper J 1993. Isolation of an asparagus intracellular PR gene (AoPR1) wound-responsive promoter by the inverse polymerase chain reaction and its characterization in transgenic tobacco. Plant J. 3, 191–201.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1999 Springer Science+Business Media New York
About this chapter
Cite this chapter
Sikorski, M.M. et al. (1999). Differential Expression of Symbiosis-Related Genes in Yellow Lupine. In: Martĺnez, E., Hernández, G. (eds) Highlights of Nitrogen Fixation Research. Springer, Boston, MA. https://doi.org/10.1007/978-1-4615-4795-2_24
Download citation
DOI: https://doi.org/10.1007/978-1-4615-4795-2_24
Publisher Name: Springer, Boston, MA
Print ISBN: 978-1-4613-7172-4
Online ISBN: 978-1-4615-4795-2
eBook Packages: Springer Book Archive