Author:
Cubo Teresa,Romero Francisco,Vinardell Jose M.,Ruiz-Sainz Jose E.
Abstract
Many different Rhizobium strains produce melanin
(Mel+) when grown on solid media supplemented with
L-tyrosine. The composition of the media and the culture conditions are of
great importance for pigment production. Previous reports showed that some
Rhizobium leguminosarum biovar
phaseoli strains that produce the pigment in complete
solid media (TY) failed to produce the pigment in minimal media (SY)
supplemented with L-tyrosine or in TY liquid media. In this paper we have
investigated different R. fredii,
R. meliloti, R. etli and
R. leguminosarum bv. trifolii and
phaseoli strains (all of them Mel+
in solid media) for their ability to produce the pigment in liquid media. All
Rhizobium species tested, except
Rhizobium etli, were Mel+ in
liquid media and in all cases the pigment yielded maximum absorption peaks at
280 and 315 nm. Melanin production by other bacteria (such as
Vibrio, Streptomyces or
Azospirillum) is enhanced by the presence of amino acids
other that tyrosine. In this paper we show that the addition of L-methionine,
which is not a precursor of rhizobial melanins, stimulated pigment production
by Rhizobium cultures supplemented with L-tyrosine. The
role of melanin production by Rhizobium strains is
unclear. One hypothesis is that the Rhizobium
tyrosinase, a bifunctional copper-containing enzyme that is essential for
melanin biosynthesis, could detoxify polyphenolic compounds which might
accumulate in senescing nodules. We show here that
R. etli and R. fredii bacteroids
produced melanin, which supports the idea that bacteroids contain the enzyme
tyrosinase. Previous reports showed that, in
R. leguminosarum bv. phaseoli
strain 8002, the expression of the tyrosinase gene
(melA) is dependent on the presence of
nifA, a regulatory gene that is located in the symbiotic
plasmid. However, transfer of R. leguminosarum bv.
phaseoli melA gene to pSym-cured derivatives of
R. leguminosarum bv. trifolii and
viciae, R. fredii and
Rhizobium sp. (Hedysarum) produced
Mel+ transconjugants. DNA-hybridisation experiments
showed that the pSym-cured strains did not contain any copy of
nifA. Therefore, in contrast to the results reported on
R. leguminosarum bv. phaseoli
strain 8002, the expression of the melA gene in other
rhizobia is not nifA-dependent.
Key words: Rhizobium, melanin.
Subject
Plant Science,Agronomy and Crop Science
Cited by
7 articles.
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