RWP-RK Transcription Factor Family
Schauser et al. 2005: Genetic studies in Lotus japonicus and pea have identified Nin as
a core symbiotic gene required for establishing symbiosis between legumes and nitrogen
fixing bacteria collectively called Rhizobium. Sequencing of additional Lotus cDNAs
combined with analysis of genome sequences from Arabidopsis and rice reveals that Nin
homologues in all three species constitute small gene families. In total, the
Arabidopsis and rice genomes encode nine and three NIN-like proteins (NLPs),
respectively. We present here a bioinformatics analysis and prediction of NLP
evolution. On a genome scale we show that in Arabidopsis, this family has evolved
through segmental duplication rather than through tandem amplification. Alignment of
all predicted NLP protein sequences shows a composition with six conserved modules. In
addition, Lotus and pea NLPs contain segments that might characterize NIN proteins of
legumes and be of importance for their function in symbiosis. The most conserved region
in NLPs, the RWP-RK domain, has secondary structure predictions consistent with DNA
binding properties. This motif is shared by several other small proteins in both
Arabidopsis and rice. In rice, the RWP-RK domain sequences have diversified
significantly more than in Arabidopsis. Database searches reveal that, apart from its
presence in Arabidopsis and rice, the motif is also found in the algae Chlamydomonas
and in the slime mold Dictyostelium discoideum. Thus, the origin of this putative DNA
binding region seems to predate the fungus-plant divide.
- Above description taken from
PlnTFDB.
Notes: RWP-RK is missed in TOBFAC and PlantTFDB.
16 RWP-RK predicted putative TF peptide,
CDS, and cDNA sequences;
blast HSP, and multiple sequence alignment in
Soy - TFKB.
RWP-RK domain peptide sequences with alignment
and phylogeny tree.
16 genes listed in PlnTFDB for Arabidopsis.
Last updated by Dr. Jeff Chen on July 20, 2009.
