Taxonomic group: bacteria / Proteobacteria
(Phylum: Proteobacteria)
Publication DOI: 10.1111/j.1365-313X.1994.00319.xJournal NLM ID: 9207397Publisher: Oxford: Blackwell Scientific Publishers and BIOS Scientific Publishers for the Society for Experimental Biology
Institutions: Institut des Sciences Végétales, CNRS, Gif-sur-Yvette, France, Institute of Genetics, Biological Research Center, Hungarian Academy of Sciences, Szeged, Hungary, Botanisches lnstitut der Universität Basel, Basel, Switzerland
Acylated chitooligosaccharide signals (Nod factors) trigger the development of root nodules on leguminous plants and play an important role in determining host specificity in the Rhizobium-plant symbiosis. Here, the ability of plant chitinases to hydrolyze different Nod factors and the potential significance of the structural modifications of Nod factors in stabilizing them against enzymatic inactivation were investigated. Incubation of the sulfated Nod factors of Rhizobium meliloti, NodRm-IV(S) and NodRm-V(S), as well as their desulfated derivatives NodRm-IV and NodRm-V, with purified chitinases from the roots of the host plant Medicago and the nonhost plant Vicia resulted in the release of the acylated lipotrisaccharide NodRm-III from NodRm-V, NodRm-IV and NodRm-V(S), whereas NodRm-IV(S) was completely resistant to digestion by both chitinases. Kinetic analysis showed that the structural parameters determining host specificity, the length of the oligosaccharide chain, the acylation at the nonreducing end and the sulfatation at the reducing end of the lipooligosaccharide, influence the stability of the molecule against degradation by chitinases. When the Nod factors were incubated in the presence of intact roots of Medicago, as well as of Vicia, the acylated lipotrisaccharide was similarly released in vivo from all Nod factors except NodRm-IV(S). In addition, a dimer-forming activity was observed in intact roots which also cleaved NodRm-IV(S). This activity was much greater in Medicago than in Vicia and increased upon incubation. The initial overall degradation rate of the Nod factors on Medicago was inversely correlated with their biological activities on Medicago roots. These results open the possibility that the activity of Nod factors on Medicago may partly be determined by the action of chitinases.
Structure type: homopolymer ; n=3-5
Location inside paper: table 3
Trivial name: NodRm-III, n=3, NodRm-IV, n=4, NodRm-V, n=5
Compound class: chitin glycolipid
Contained glycoepitopes: IEDB_135813,IEDB_137340,IEDB_141807,IEDB_151531,IEDB_153212,IEDB_241099,IEDB_423114,IEDB_423150,SB_74,SB_85
Methods: FAB-MS, SDS-PAGE, TLC, enzymatic hydrolysis
Biological activity: Nod factor
Enzymes that release or process the structure: plant chitinases
Synthetic data: synthesis
Comments, role: capped with hexadecanoate at N2
Related record ID(s): 146941
NCBI Taxonomy refs (TaxIDs): 382Reference(s) to other database(s): GTC:G97099AY, CCSD:
34111, CBank-STR:6127
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There is only one chemically distinct structure:
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(later renamed to: Sinorhizobium meliloti)