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Rhizobium nodulation protein NodA is a host-specific determinant of the transfer of fatty acids in Nod factor biosynthesis (1996)

Ritsema, T. ; Wijfjes, André H. M. ; Lugtenberg, B. J. J. ; [et al.]

Springer

Molecular genetics and genomics 251 (1996), S. 44-51

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ISSN: 1617-4623

Keywords: Key words Rhizobium ; Nodulation ; Nod factors ; Acyl transfer ; nodA

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In the biosynthesis of lipochitin oligosaccharides (LCOs) the Rhizobium nodulation protein NodA plays an essential role in the transfer of an acyl chain to the chitin oligosaccharide acceptor molecule. The presence of nodA in the nodABCIJ operon makes genetic studies difficult to interpret. In order to be able to investigate the biological and biochemical functions of NodA, we have constructed a test system in which the nodA, nodB and nodC genes are separately present on different plasmids. Efficient nodulation was only obtained if nodC was present on a low-copy-number vector. Our results confirm the notion that nodA of Rhizobium leguminosarum biovar viciae is essential for nodulation on Vicia. Surprisingly, replacement of R. l. bv. viciae nodA by that of Bradyrhizobium sp. ANU289 results in a nodulation-minus phenotype on Vicia. Further analysis revealed that the Bradyrhizobium sp. ANU289 NodA is active in the biosynthesis of LCOs, but is unable to direct the transfer of the R. l. bv. viciae nodFE-dependent multi-unsaturated fatty acid to the chitin oligosaccharide acceptor. These results lead to the conclusion that the original notion that nodA is a common nod gene should be revised.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02174343

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Functional analysis of an interspecies chimera of acyl carrier proteins indicates a specialized domain for protein recognition (1998)

Ritsema, T. ; Gehring, A. M. ; Stuitje, A. R. ; [et al.]

Springer

Molecular genetics and genomics 257 (1998), S. 641-648

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ISSN: 1617-4623

Keywords: Key words Nodulation ; Rhizobium ; Lipo-chitin oligosaccharide ; NodF ; Fatty acid biosynthesis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The nodulation protein NodF of Rhizobium shows 25% identity to acyl carrier protein (ACP) from Escherichia coli (encoded by the gene acpP). However, NodF cannot be functionally replaced by AcpP. We have investigated whether NodF is a substrate for various E. coli enzymes which are involved in the synthesis of fatty acids. NodF is a substrate for the addition of the 4′-phosphopantetheine prosthetic group by holo-ACP synthase. The Km value for NodF is 61 μM, as compared to 2 μM for AcpP. The resulting holo-NodF serves as a substrate for coupling of malonate by malonyl-CoA:ACP transacylase (MCAT) and for coupling of palmitic acid by acyl-ACP synthetase. NodF is not a substrate for β-keto-acyl ACP synthase III (KASIII), which catalyses the initial condensation reaction in fatty acid biosynthesis. A chimeric gene was constructed comprising part of the E.coliacpP gene and part of the nodF gene. Circular dichroism studies of the chimeric AcpP-NodF (residues 1–33 of AcpP fused to amino acids 43–93 of NodF) protein encoded by this gene indicate a similar folding pattern to that of the parental proteins. Enzymatic analysis shows that AcpP-NodF is a substrate for the enzymes holo-ACP synthase, MCAT and acyl-ACP synthetase. Biological complementation studies show that the chimeric AcpP-NodF gene is able functionally to replace NodF in the root nodulation process in Vicia sativa. We therefore conclude that NodF is a specialized acyl carrier protein whose specific features are encoded in the C-terminal region of the protein. The ability to exchange domains between such distantly related proteins without affecting conformation opens exciting possibilities for further mapping of the functional domains of acyl carrier proteins (i. e., their recognition sites for many enzymes).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004380050692

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Rhizobium nodulation protein NodA is a host-specific determinant of the transfer of fatty acids in Nod factor biosynthesis (1996)

Ritsema, T. ; Wijfjes, A. H. M. ; Lugtenberg, B. J. J. ; [et al.]

Springer

Molecular genetics and genomics 251 (1996), S. 44-51

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Details

ISSN: 1617-4623

Keywords: Rhizobium ; Nodulation ; Nod factors ; Acyl transfer ; nodA

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In the biosynthesis of lipochitin oligosaccharides (LCOs) theRhizobium nodulation protein NodA plays an essential role in the transfer of an acyl chain to the chitin oligosaccharide acceptor molecule. The presence ofnodA in thenodABCIJ operon makes genetic studies difficult to interpret. In order to be able to investigate the biological and biochemical functions of NodA, we have constructed a test system in which thenodA, nodB andnodC genes are separately present on different plasmids. Efficient nodulation was only obtained ifnodC was present on a low-copy-number vector. Our results confirm the notion thatnodA ofRhizobium leguminosarum biovarviciae is essential for nodulation onVicia. Surprisingly, replacement ofR. l. bv.viciae nodA by that ofBradyrhizobium sp. ANU289 results in a nodulation-minus phenotype onVicia. Further analysis revealed that theBradyrhizobium sp. ANU289 NodA is active in the biosynthesis of LCOs, but is unable to direct the transfer of theR. l. bv.viciae nodF E-dependent multi-unsaturated fatty acid to the chitin oligosaccharide acceptor. These results lead to the conclusion that the original notion thatnodA is a commonnod gene should be revised.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02174343

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