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Frankia Symbiosis
(Englisch)
Developments in Plant and Soil Sciences 100
Normand, P. & Pawlowski, K. & Dawson, J. O.

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Proceedings of the 12th meeting on Frankia and actinorhizal Plants
The 12th meeting on Frankia and Actinorhizal Plants that took place in Carry-le-Rouet, France in June 2001 was the opportunity for scientists to communicate about latest developments on this symbiosis that concerns a wide range of dicotyledonous plants, initiates ecological successions and is used in a number of countries to protect crops from winds or improve soil status. Selected papers on plant ecology, Frankia's genetics or physiology, and host plants' genetics or physiology are published in this special Plant & Soil issue.
1. Introduction. 2. Frankia inoculation, soil biota, and host tissue amendment influence Casuarina nodulation capacity of a tropical soil; J.F. Zimpfer, et al. 3. An assessment of soil enrichment by actinorhizal N2 fixation using delta15N values in a chronosequence of deglaciation at Glacier Bay, Alaska; S.J. Kohls, et al. 4. Effects of land irrigation with partially-treated wastewater on Frankia survival and infectivity; W.F. Sayed. 5. The production and utilisation of monoclonal antibodies for identification of a Frankia strain utilised as inoculum for Casuarina equisetifolia; A. Hahn, et al. 6. The effects of fire on soil nitrogen associated with patches of the actinorhizal shrub Ceanothus cordulatus; B.B. Oakley, et al. 7. Alder and lupine enhanced nitrogen cycling in a degraded forest soil in Northern Sweden; D.D. Myrold, K. Huss-Danell. 8. Germination and physiological properties of Frankia spores; G.D. Krumholz, et al. 9. Improving dispersed growth of Frankia using Carbopol; O.T. Harriott, A. Bourret. 10. Identification and expression studies of a catalase and a bifunctional catalase-peroxidase in Frankia strain R43; F. Tavares, et al. 11. Effect of electroporation conditions on cell viability of Frankia EuI1c; A.K. Myers, L.S. Tisa. 12. Molecular cloning and characterization of adr and ivd genes from Frankia EuIK1 strain; H.J. Kwon, et al. 13. Cloning, characterization and phylogenic analysis of the sigA s70 factor gene sequence from the actinomycete Frankia; D. Blaha, B. Cournoyer.14. An insertion sequence unique to Frankia strain ArI5; T.R. John, et al.15. Genomic fingerprinting of Frankia strains by PCR techniques. Assessment of a primer based on the sequence of 16S rRNA gene of Escherichia coli; J.M. Igual, et al. 16. Progress on the genetics of the N2-fixing actinorhizal symbiont Frankia; C. Lavire, B. Cournoyer. 17. Ammonium assimilation in root nodules of actinorhizal Discaria trinervis. regulation of enzyme activities and protein levels by the availability of macronutrients (N, P and C); C. Valverde, L.G. Wall. 18. The regulation of nodulation, nitrogen fixation and ammonium assimilation under a carbohydrate shortage stress in the Discaria trinervis-Frankia symbiosis; C. Valverde, L.G. Wall. 19. Seasonal flooding regimes influence survival, nitrogen fixation, and the partitioning of nitrogen and biomass in Alnus incana spp. rugosa; C.M. Kaelke, J.O. Dawson. 20. Tripartite associations in an alder: effects of Frankia and Alpova diplophloeus on the growth, nitrogen fixation and mineral acquisition of Alnus tenuifolia; T. Yamanaka, et al. 21. Nodulation potential of soils from red alder stands covering a wide age range; K.J. Martin, et al. 22. A possible role for phenyl acetic acid (PAA) on Alnus glutinosa nodulation by Frankia; Y. Hammad, et al. 23. Molecular phylogeny of Alnus (Betulaceae), inferred from nuclear ribosomal DNA ITS sequences; E. Navarro, et al. 24.

The 12th meeting on Frankia and Actinorhizal Plants that took place in Carry-le-Rouet, France in June 2001 was the opportunity for scientists to communicate about latest developments on this symbiosis that concerns a wide range of dicotyledonous plants, initiates ecological successions and is used in a number of countries to protect crops from winds or improve soil status. Selected papers on plant ecology, Frankia's genetics or physiology, and host plants' genetics or physiology are published in this special Plant & Soil issue.
2. Frankia inoculation, soil biota, and host tissue amendment influence Casuarina nodulation capacity of a tropical soil.- 3. An assessment of soil enrichment by actinorhizal N2 fixation using ?15N values in a chronosequence of deglaciation at Glacier Bay, Alaska.- 4. Effects of land irrigation with partially-treated wastewater on Frankia survival and infectivity.- 5. The production and utilisation of monoclonal antibodies for identification of a Frankia strain utilised as inoculum for Casuarina equisetifolia.- 6. The effects of fire on soil nitrogen associated with patches of the actinorhizal shrub Ceanothus cordulatus.- 7. Alder and lupine enhance nitrogen cycling in a degraded forest soil in Northern Sweden.- 8. Germination and physiological properties of Frankia spores.- 9. Improving dispersed growth of Frankia using Carbopol.- 10. Identification and expression studies of a catalase and a bifunctional catalase-peroxidase in Frankia strain R43.- 11. Effect of electroporation conditions on cell viability of Frankia EuI1c.- 12. Molecular cloning and characterization of adr and ivd genes from Frankia EuIK1 strain.- 13. Cloning, characterisation and phylogenetic analysis of the sigA?70 factor gene sequence from the actinomycete Frankia.- 14. An insertion sequence unique to Frankia strain ArI5.- 15. Genomic fingerprinting of Frankia strains by PCR-based techniques. Assessment of a primer based on the sequence of 16S rRNA gene of Escherichia coli.- 16. Progress on the genetics of the N2-fixing actinorhizal symbiont Frankia.- 17. Ammonium assimilation in root nodules of actinorhizal Discaria trinervis. Regulation of enzyme activities and protein levels by the availability of macronutrients (N, P and C).- 18. The regulation of nodulation, nitrogen fixation and ammoniumassimilation under a carbohydrate shortage stress in the Discaria trinervis-Frankia symbiosis.- 19. Seasonal flooding regimes influence survival, nitrogen fixation, and the partitioning of nitrogen and biomass in Alnus incana ssp. rugosa.- 20. Tripartite associations in an alder: effects of Frankia and Alpova diplophloeus on the growth, nitrogen fixation and mineral acquisition of Alnus tenuifolia.- 21. Nodulation potential of soils from red alder stands covering a wide age range.- 22. A possible role for phenyl acetic acid (PAA) on Alnus glutinosa nodulation by Frankia.- 23. Molecular phylogeny of Alnus (Betulaceae), inferred from nuclear ribosomal DNA ITS sequences.- 24. Evolutionary implications of nucleotide sequence relatedness between Alnus nepalensis and Alnus glutinosa and also between corresponding Frankia microsymbionts.- 25. Choosing a reporter for gene expression studies in transgenic actinorhizal plants of the Casuarinaceae family.- 26. Expression pattern of ara12*, an Arabidopsis homologue of the nodule-specific actinorhizal subtilases cg12/ag12.

Inhaltsverzeichnis



1. Introduction. 2. Frankia inoculation, soil biota, and host tissue amendment influence Casuarina nodulation capacity of a tropical soil; J.F. Zimpfer, et al. 3. An assessment of soil enrichment by actinorhizal N2 fixation using delta15N values in a chronosequence of deglaciation at Glacier Bay, Alaska; S.J. Kohls, et al. 4. Effects of land irrigation with partially-treated wastewater on Frankia survival and infectivity; W.F. Sayed. 5. The production and utilisation of monoclonal antibodies for identification of a Frankia strain utilised as inoculum for Casuarina equisetifolia; A. Hahn, et al. 6. The effects of fire on soil nitrogen associated with patches of the actinorhizal shrub Ceanothus cordulatus; B.B. Oakley, et al. 7. Alder and lupine enhanced nitrogen cycling in a degraded forest soil in Northern Sweden; D.D. Myrold, K. Huss-Danell. 8. Germination and physiological properties of Frankia spores; G.D. Krumholz, et al. 9. Improving dispersed growth of Frankia using Carbopol; O.T. Harriott, A. Bourret. 10. Identification and expression studies of a catalase and a bifunctional catalase-peroxidase in Frankia strain R43; F. Tavares, et al. 11. Effect of electroporation conditions on cell viability of Frankia EuI1c; A.K. Myers, L.S. Tisa. 12. Molecular cloning and characterization of adr and ivd genes from Frankia EuIK1 strain; H.J. Kwon, et al. 13. Cloning, characterization and phylogenic analysis of the sigA s70 factor gene sequence from the actinomycete Frankia; D. Blaha, B. Cournoyer. 14. An insertion sequence unique to Frankia strain ArI5; T.R. John, et al. 15. Genomic fingerprinting of Frankia strains by PCR techniques. Assessment of a primer based on the sequence of 16S rRNA gene of Escherichia coli; J.M. Igual, et al. 16. Progress on the genetics of the N2-fixing actinorhizal symbiont Frankia; C. Lavire, B. Cournoyer. 17. Ammonium assimilation in root nodules of actinorhizal Discaria trinervis. regulation of enzyme activities and protein levels by the availability of macronutrients (N, P and C); C. Valverde, L.G. Wall. 18. The regulation of nodulation, nitrogen fixation and ammonium assimilation under a carbohydrate shortage stress in the Discaria trinervis-Frankia symbiosis; C. Valverde, L.G. Wall. 19. Seasonal flooding regimes influence survival, nitrogen fixation, and the partitioning of nitrogen and biomass in Alnus incana spp. rugosa; C.M. Kaelke, J.O. Dawson. 20. Tripartite associations in an alder: effects of Frankia and Alpova diplophloeus on the growth, nitrogen fixation and mineral acquisition of Alnus tenuifolia; T. Yamanaka, et al. 21. Nodulation potential of soils from red alder stands covering a wide age range; K.J. Martin, et al. 22. A possible role for phenyl acetic acid (PAA) on Alnus glutinosa nodulation by Frankia; Y. Hammad, et al. 23. Molecular phylogeny of Alnus (Betulaceae), inferred from nuclear ribosomal DNA ITS sequences; E. Navarro, et al. 24.


Klappentext

The 12th meeting on Frankia and Actinorhizal Plants that took place in Carry-le-Rouet, France in June 2001 was the opportunity for scientists to communicate about latest developments on this symbiosis that concerns a wide range of dicotyledonous plants, initiates ecological successions and is used in a number of countries to protect crops from winds or improve soil status. Selected papers on plant ecology, Frankia's genetics or physiology, and host plants' genetics or physiology are published in this special Plant & Soil issue.




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