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1.
Theor Appl Genet ; 131(2): 253-265, 2018 Feb.
Artículo en Inglés | MEDLINE | ID: mdl-29038948

RESUMEN

KEY MESSAGE: The divergence patterns of NBS - LRR genes in soybean Rsv3 locus were deciphered and several divergent alleles ( NBS_C, NBS_D and Columbia NBS_E ) were identified as the likely functional candidates of Rsv3. The soybean Rsv3 locus, which confers resistance to the soybean mosaic virus (SMV), has been previously mapped to a region containing five nucleotide binding site-leucine-rich repeats (NBS-LRR) genes (referred to as nbs_A-E) in Williams 82. In resistant cultivars, however, the number of NBS-LRR genes in this region and their divergence from susceptible alleles remain unclear. In the present study, we constructed and screened a bacterial artificial chromosome (BAC) library for an Rsv3-possessing cultivar, Zaoshu 18. Sequencing two positive BAC inserts on the Rsv3 locus revealed that Zaoshu 18 possesses the same gene content and order as Williams 82, but two of the NBS-LRR genes, NBS_C and NBS_D, exhibit distinct features that were not observed in the Williams 82 alleles. Obtaining these NBS-LRR genes from eight additional cultivars demonstrated that the NBS_A-D genes diverged into two different alleles: the nbs_A-D alleles were associated with the rsv3-type cultivars, whereas the NBS_A-D alleles were associated with the Rsv3-possessing cultivars. For the NBS_E gene, the cultivar Columbia possesses an allele (NBS_E) that differed from that in Zaoshu 18 and rsv3-type cultivars (nbs_E). Exchanged fragments were further detected on alleles of the NBS_C-E genes, suggesting that recombination is a major force responsible for allele divergence. Also, the LRR domains of the NBS_C-E genes exhibited extremely strong signals of positive selection. Overall, the divergence patterns of the NBS-LRR genes in Rsv3 locus elucidated by this study indicate that not only NBS_C but also NBS_D and Columbia NBS_E are likely functional alleles that confer resistance to SMV.


Asunto(s)
Resistencia a la Enfermedad/genética , Glycine max/genética , Enfermedades de las Plantas/genética , Potyvirus , Alelos , Genes de Plantas , Enfermedades de las Plantas/virología , Glycine max/virología
2.
Plant Physiol ; 166(1): 217-34, 2014 Sep.
Artículo en Inglés | MEDLINE | ID: mdl-25052854

RESUMEN

Proper utilization of plant disease resistance genes requires a good understanding of their short- and long-term evolution. Here we present a comprehensive study of the long-term evolutionary history of nucleotide-binding site (NBS)-leucine-rich repeat (LRR) genes within and beyond the legume family. The small group of NBS-LRR genes with an amino-terminal RESISTANCE TO POWDERY MILDEW8 (RPW8)-like domain (referred to as RNL) was first revealed as a basal clade sister to both coiled-coil-NBS-LRR (CNL) and Toll/Interleukin1 receptor-NBS-LRR (TNL) clades. Using Arabidopsis (Arabidopsis thaliana) as an outgroup, this study explicitly recovered 31 ancestral NBS lineages (two RNL, 21 CNL, and eight TNL) that had existed in the rosid common ancestor and 119 ancestral lineages (nine RNL, 55 CNL, and 55 TNL) that had diverged in the legume common ancestor. It was shown that, during their evolution in the past 54 million years, approximately 94% (112 of 119) of the ancestral legume NBS lineages experienced deletions or significant expansions, while seven original lineages were maintained in a conservative manner. The NBS gene duplication pattern was further examined. The local tandem duplications dominated NBS gene gains in the total number of genes (more than 75%), which was not surprising. However, it was interesting from our study that ectopic duplications had created many novel NBS gene loci in individual legume genomes, which occurred at a significant frequency of 8% to 20% in different legume lineages. Finally, by surveying the legume microRNAs that can potentially regulate NBS genes, we found that the microRNA-NBS gene interaction also exhibited a gain-and-loss pattern during the legume evolution.


Asunto(s)
Evolución Molecular , Fabaceae/genética , Familia de Multigenes , Eliminación de Gen , Duplicación de Gen , Genoma de Planta , MicroARNs/metabolismo , Filogenia
3.
Gene ; 540(1): 54-61, 2014 Apr 25.
Artículo en Inglés | MEDLINE | ID: mdl-24576745

RESUMEN

A genome triplication took place in the ancestor of Brassiceae species after the split of the Arabidopsis lineage. The postfragmentation and shuffling of the genome turned the ancestral hexaploid back to diploids and caused the radiation of Brassiceae species. The course of speciation was accompanied by the loss of duplicate genes and also influenced the evolution of retained genes. Of all the genes, those encoding NBS domains are typical R genes that confer resistance to invading pathogens. In this study, using the genome of Arabidopsis thaliana as a reference, we examined the loss/retention of orthologous NBS-encoding loci in the tripled Brassica rapa genome and discovered differential loss/retention frequencies. Further analysis indicated that loci of different retention ratios showed different evolutionary patterns. The loci of classesII and III (maintaining two and three syntenic loci, respectively, multi-loci) show sharper expansions by tandem duplications, have faster evolutionary rates and have more potential to be associated with novel gene functions. On the other hand, the loci that are retained at the minimal rate (keeping only one locus, class I, single locus) showed opposite patterns. Phylogenetic analysis indicated that recombination and translocation events were common among multi-loci in B. rapa, and differential evolutionary patterns between multi- and single-loci are likely the consequence of recombination. Investigations towards other gene families demonstrated different evolutionary characteristics between different gene families. The evolution of genes is more likely determined by the property of each gene family, and the whole genome triplication provided only a specific condition.


Asunto(s)
Brassica rapa/genética , Proteínas de Unión al ADN/genética , Resistencia a la Enfermedad/genética , Genes de Plantas , Proteínas de Plantas/genética , Arabidopsis/genética , Evolución Molecular , Genoma de Planta , Filogenia , Ploidias , Recombinación Genética , Análisis de Secuencia de ADN , Sintenía
4.
Virus Res ; 191: 125-33, 2014 Oct 13.
Artículo en Inglés | MEDLINE | ID: mdl-25107622

RESUMEN

Widely known as a severe pathogen of bean plants, the bean common mosaic virus (BCMV) has been reported to infect soybeans only sporadically and the involved strains were all found in China regions. To explore variations among soybean-infecting BCMV strains, hundreds of soybean mosaic leave samples were collected throughout China, with a total of 30 BCMV isolates detected and their genomes sequenced. These newly obtained genomes, together with 16 other BCMV genomes available in GenBank were examined from multiple aspects to characterize BCMV evolutionary processes. Phylogenetic analysis showed that both soybean-infecting BCMVs (group I) and peanut-infecting BCMVs (group II) are distantly related to other BCMVs, suggesting ancestral differentiation and host adaptation. Genetic variation analysis showed that P1, P3 and 6K2 genes and the beginning portion of CP gene showed higher levels of variation relative to other genes. Moreover, selection analyses further confirmed that a number of sites within the P1 and P3 genes have suffered positive selection. These obtained BCMV sequences also exhibit high recombination frequencies, indicating a more dynamic evolutionary history. Finally, 12 different soybean cultivars were challenged with two BCMV isolates (DXH015 and HZZB011), with most of the cultivars successfully infected. These findings suggest that BCMV is indeed a potential threat to soybean production.


Asunto(s)
Genoma Viral , Glycine max/virología , Enfermedades de las Plantas/virología , Potyvirus/aislamiento & purificación , China , Genómica , Datos de Secuencia Molecular , Filogenia , Potyvirus/clasificación , Potyvirus/genética , Proteínas Virales/genética
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