Characterization of disease resistance gene candidates of the nucleotide binding site (NBS) type from banana and correlation of a transcriptional polymorphism with resistance to <Emphasis Type="Italic">Fusarium oxysporum</Emphasis> f.sp. <Emphasis Type="Italic">cubense</Emphasis> race 4

Most plant disease resistance (R) genes encode proteins with a nucleotide binding site and leucine-rich repeat structure (NBS-LRR). In this study, degenerate primers were used to amplify genomic NBS-type sequences from wild banana (Musa acuminata ssp. malaccensis) plants resistant to the fungal pathogen Fusarium oxysporum formae specialis (f. sp.) cubense (FOC) race 4. Five different classes of NBS-type sequences were identified and designated as resistance gene candidates (RGCs). The deduced amino acid sequences of the RGCs revealed the presence of motifs characteristic of the majority of known plant NBS-LRR resistance genes. Structural and phylogenetic analyses grouped the banana RGCs within the non-TIR (homology to Toll/interleukin-1 receptors) subclass of NBS sequences. Southern hybridization showed that each banana RGC is present in low copy number. The expression of the RGCs was assessed by RT-PCR in leaf and root tissues of plants resistant or susceptible to FOC race 4. RGC1, 3 and 5 showed a constitutive expression profile in both resistant and susceptible plants whereas no expression was detected for RGC4. Interestingly, RGC2 expression was found to be associated only to FOC race 4 resistant lines. This finding could assist in the identification of a FOC race 4 resistance gene.     

Isolation of Resistance Gene Candidates (RGCs) and characterization of an RGC cluster in cassava

Plant disease resistance genes (R genes) show significant similarity amongst themselves in terms of both their DNA sequences and structural motifs present in their protein products. Oligonucleotide primers designed from NBS (Nucleotide Binding Site) domains encoded by several R-genes have been used to amplify NBS sequences from the genomic DNA of various plant species, which have been called Resistance Gene Analogues (RGAs) or Resistance Gene Candidates (RGCs). Using specific primers from the NBS and TIR (Toll/Interleukin-1 Receptor) regions, we identified twelve classes of RGCs in cassava ( Manihot esculenta Crantz). Two classes were obtained from the PCR-amplification of the TIR domain. The other 10 classes correspond to the NBS sequences and were grouped into two subfamilies. Classes RCa1 to RCa5 are part of the first subfamily and were linked to a TIR domain in the N terminus. Classes RCa6 to RCa10 corresponded to non-TIR NBS-LRR encoding sequences. BAC library screening with the 12 RGC classes as probes allowed the identification of 42 BAC clones that were assembled into 10 contigs and 19 singletons. Members of the two TIR and non-TIR NBS-LRR subfamilies occurred together within individual BAC clones. The BAC screening and Southern hybridization analyses showed that all RGCs were single copy sequences except RCa6 that represented a large and diverse gene family. One BAC contained five NBS sequences and sequence analysis allowed the identification of two complete RGCs encoding two highly similar proteins. This BAC was located on linkage group J with three other RGC-containing BACs. At least one of these genes, RGC2, is expressed constitutively in cassava tissues.Communicated by M.-A. Grandbastien     

Haplotyping and mapping a large cluster of downy mildew resistance gene candidates in sunflower using multilocus intron fragment length polymorphisms

Downy mildew (Plasmopara halstedii (Farl.) Berlese et de Toni) is a serious foliar pathogen of cultivated sunflower (Helianthus annuus L.). Genetic resistance is conditioned by several linked downy mildew resistance gene specificities in the HaRGC1 cluster of TIR-NBS-LRR resistance gene candidates (RGCs) on linkage group 8. The complexity and diversity of the HaRGC1 cluster was assessed by multilocus intron fragment length polymorphism (IFLP) genotyping using a single pair of primers flanking a hypervariable intron located between the TIR and NBS domains. Two to 23 bands were amplified per germplasm accession. The size of the included intron ranged from 89 to 858 nucleotides. Forty-eight unique markers were distinguished among 24 elite inbred lines, six partially isogenic inbred lines, nine open-pollinated populations, four Native American land races, and 20 wild H. annuus populations. Nine haplotypes (based on 24 RGCs) were identified among elite inbred lines and were correlated with known downy mildew resistance specificities. Sixteen out of 39 RGCs identified in wild H. annuus populations were not observed in elite germplasm. Five partially isogenic downy mildew resistant lines developed from wild H. annuus and H. praecox donors carried eight RGCs not found in other elite inbred lines. Twenty-four HaRGC1 loci were mapped to a 2-4 cM segment of linkage group 8. The multilocus IFLP marker and duplicated, hypervariable microsatellite markers tightly linked to the HaRGC1 cluster are powerful tools for distinguishing downy mildew resistance gene specificities and identifying and introgressing new downy mildew resistance gene specificities from wild sunflowers.     

Diversity and evolution of four dispersed repetitive DNA sequences in the genus Secale

We present the first characterization of 360 sequences in six species of the genus Secale of both cultivated and wild accessions. These include four distinct kinds of dispersed repetitive DNA sequences named pSc20H, pSc119.1, pSaO5(411), and pSaD15(940) belonging to the Revolver family. During the evolution of the genus Secale from wild to cultivated accessions, the pSaO5(411)-like sequences became shorter mainly because of the deletion of a trinucleotide tandem repeating unit, the pSc20H-like sequences displayed apparent homogenization in cultivated rye, and the second intron of Revolver became longer. In addition, the pSc20H-, pSc119.1-, and pSaO5(411)-like sequences cloned from wild rye and cultivated rye could be divided into two large clades. No single case of the four kinds of repetitive elements has been inherited by each Secale accession from a lone ancestor. It is reasonable to consider the vertical transmission of the four repetitive elements during the evolution of the genus Secale. The pSc20H- and pSaO5(411)-like sequences showed evolutionary elimination at specific chromosomal locations from wild species to cultivated species. These cases imply that different repetitive DNA sequences have played different roles in the chromosome development and genomic evolution of rye. The present study adds important information to the investigations dealing with characterization of dispersed repetitive elements in wild and cultivated rye.     

Phylogenetic analyses of peanut resistance gene candidates and screening of different genotypes for polymorphic markers

The nucleotide-binding-site-leucine-rich-repeat (NBS–LRR)-encoding gene family has attracted much research interest because approximately 75% of the plant disease resistance genes that have been cloned to date are from this gene family. Here, we describe a collection of peanut NBS–LRR resistance gene candidates (RGCs) isolated from peanut (Arachis) species by mining Gene Bank data base. NBS–LRR sequences assembled into TIR-NBS-LRR (75.4%) and non-TIR-NBS-LRR (24.6%) subfamilies. Total of 20 distinct clades were identified and showed a high level of sequence divergence within TIR-NBS and non-TIR-NBS subfamilies. Thirty-four primer pairs were designed from these RGC sequences and used for screening different genotypes belonging to wild and cultivated peanuts. Therefore, peanut RGC identified in this study will provide useful tools for developing DNA markers and cloning the genes for resistance to different pathogens in peanut.     

Isolation,Cloning and Characterization of Resistance Gene Analogues in Pearl Millet Based on Conserved Nucleotide‐binding Sites

Sequence analysis of plant disease resistance genes shows similarity among themselves, with the presence of conserved motifs common to the nucleotide‐binding site (NBS). Oligonucleotide degenerate primers designed from the conserved NBS motifs encoded by several plant disease resistance genes were used to amplify resistance gene analogues (RGAs) corresponding to the NBS sequences from the genomic DNA of various plant species. Using specific primers designed from the conserved NBS regions, 22 RGAs were cloned and sequenced from pearl millet (Pennisetum glaucum L. Br.). Phylogenetic analysis of the predicted amino acid sequences grouped the RGAs into nine distinct classes. GenBank database searches with the consensus protein sequences of each of the nine classes revealed their conserved NBS domains and similarity to other known R genes of various crop species. One RGA 213 was mapped onto LG1 and LG7 in the pearl millet linkage map. This is the first report of the isolation and characterization of RGAs from pearl millet, which will facilitate the improvement of marker‐assisted breeding strategies.     

Survey and characterization of NBS-LRR (R) genes in Curcuma longa transcriptome

Resistance genes are among the most important gene classes for plant breeding purposes being responsible for activation of plant defense mechanisms. Among them, the nucleotide binding site-leucine rich repeat (NBS-LRR) class R-genes are the most abundant and actively found in all types of plants. Insilico characterization of EST database resulted in the detection of 28 NBS types R-gene sequences in Curcuma longa. All the 28 sequences represented the NB-ARC domain, 21 of which were found to have highly conserved motif characteristics and categorized as regular NBS genes. The Open Reading Frames varied from 361 (CL.CON.3566) to 112 (CL.CON.1267) with an average of 279 amino acids. Most alignment occurred with monocots (67.8%) with emphasis on Oryza sativa and Zingiber sequences. All best alignments with dicots occurred with Arabidopsis thaliana, Populus trichocarpa and Medicago sativa. These detected NBS type Rgenes from Curcuma longa can be used as a valuable resource for molecular marker development, molecular mapping of R-genes, and identification of resistance gene analogs and functional and evolutionary characterization of NBS-LRR-encoding resistance genes in asexually reproducing plants.     

Isolation and characterization of resistance gene analogues from Psilanthus species that represent wild relatives of cultivated coffee endemic to India

Biotic or abiotic stress can cause considerable damage to crop plants that can be managed by building disease resistance in the cultivated gene pool through breeding for disease resistance genes (R-genes). R-genes, conferring resistance to diverse pathogens or pests share a high level of similarity at the DNA and protein levels in different plant species. This property of R-genes has been successfully employed to isolate putative resistance gene analogues (RGAs) using a PCR-based approach from new plant sources. Using a similar approach, in the present study, we have successfully amplified putative RGAs having nucleotide-binding-site leucine-rich repeats (NBS-LRR-type RGAs) from seven different sources: two cultivated coffee species (Coffea arabica L. and Coffea canephora Pierre ex. A. Froehner), four related taxa endemic to India (wild tree coffee species: Psilanthus bengalensis (Roem. & Schuttles) J.-F. Leroy, Psilanthus khasiana , Psilanthus travencorensis (Wight & Arn.) J.-F. Leroy, Psilanthus weightiana (Wall. ex Wight & Arn.) J.-F. Leroy), and a cDNA pool originally prepared from light- and drought-stressed Coffea arabica L. leaves. The total PCR amplicons obtained using NBS-LRR-specific primers from each source were cloned and transformed to construct seven independent libraries, from which 434 randomly picked clones were sequenced. In silico analysis of the sequenced clones revealed 27 sequences that contained characteristic RGA motifs, of which 24 had complete uninterrupted open reading frames. Comparisons of these with published RGAs showed several of these to be novel RGA sequences. Interestingly, most of such novel RGAs belonged to the related wild Psilanthus species. The data thus suggest the potential of the secondary gene pool as possible untapped donors of resistance genes to the present day cultivated species of coffee.     

Comparative analysis of superfamilies of NBS-encoding disease resistance gene analogs in cultivated and wild apple species

Eleven distinct families of resistance gene analogs (RGAs) with the characteristic nucleotide-binding sequence (NBS) were identified in two wild apple species, Malus prunifolia and M. baccata, and two cultivated apple cultivars, M. domestica cv. Fuji and M. domestica cv. Hong-ok, using PCR approaches with degenerate primers based on two conserved motifs of known NBS-LRR resistance genes. These RGA families were found to be represented in all the apple species tested, including wild and cultivated species. However, their sequences are very divergent from each other. Furthermore, the low level of recombination detected within their RGA families supports the idea that the evolution of NBS-encoding sequences in apple species involves the gradual accumulation of mutations. Despite the high diversity of the RGA families found in all apple species, the apparent lack of differentiation between wild and cultivated forms suggests that other factors, such as the capacity to tolerate pathogens, might play an important role in the survival of wild-type species.     

Cloning and analysis of the resistance gene fragments from silverleaf sunflower <Emphasis Type="Italic">Helianthus agrophyllus</Emphasis>

Using a combination of degenerate primers designed from the NBS domains of the resistance genes, amplification and subsequent cloning of the resistance gene fragments from sunflower (Helianthus agrophyllus) was conducted. Sequences of cloned PCR products differed from one another and displayed homology to NBS domain fragments of the already known plant resistance genes, as well as to the analogous genes from different classes. The highest homology was shown to the NBS domain regions of cultivated sunflower and the other members of the family Compositae. Two cloned fragments had open reading frames, while the other sequences carried stop codons and seemed to belong to pseudogenes. Amino acid sequences of Helianthus agrophyllus analyzed contained conservative regions typical of NBS domains of the resistance gene products.     

Genetic Diversity of Pto-Like Serine/Threonine Kinase Disease Resistance Genes in Cultivated and Wild Strawberries

Degenerate oligonucleotide primers, designed based on conserved regions of several serine-threonine kinases (STK) previously cloned in tomato and Arabidopsis, were used to isolate STK candidates in wild and cultivated strawberries. Seven distinct classes of STKs were identified from three related wild species, i.e., Fragaria vesca, Fragaria chiloensis, and Potentilla tucumanensis, and seven different Fragaria x ananassa cultivars. Alignment of the deduced amino acid sequences and the Pto R protein from tomato revealed the presence of characteristic subdomains and conservation of the plant STK consensus and other residues that are crucial for Pto function. Based on identity scores and clustering in phylogenetic trees, five groups were recognized as Pto-like kinases. Strawberry Pto-like clones presented sequences that were clearly identified as the activation segments contained in the Pto, and some of them showed residues previously identified as being required for binding to AvrPto. Some of the non-Pto-like kinases presented a high degree of identity and grouped together with B-lectin receptor kinases that are also involved in disease resistance. Statistical studies carried out to evaluate departure from the neutral theory and nonsynonymous/synonymous substitutions suggest that the evolution of STK-encoding sequences in strawberries is subjected mainly to a purifying selection process. These results represent the first report of Pto-like STKs in strawberry.     

Identification of non-TIR-NBS-LRR markers linked to the <Emphasis Type="Italic">Pl5</Emphasis>/<Emphasis Type="Italic">Pl8</Emphasis> locus for resistance to downy mildew in sunflower

The resistance of sunflower, Helianthus annuus L., to downy mildew, caused by Plasmopara halstedii, is conferred by major genes denoted by Pl. Using degenerate and specific primers, 16 different resistance gene analogs (RGAs) have been cloned and sequenced. Sequence comparison and Southern-blot analysis distinguished six classes of RGA. Two of these classes correspond to TIR-NBS-LRR sequences while the remaining four classes correspond to the non-TIR-NBS-LRR type of resistance genes. The genetic mapping of these RGAs on two segregating F2 populations showed that the non-TIR-NBS-LRR RGAs are clustered and linked to the Pl5/ Pl8 locus for resistance to downy mildew in sunflower. These and other results indicate that different Pl loci conferring resistance to the same pathogen races may contain different sequences.     

Evaluation of microsatellites of Catha edulis (qat; Celastraceae) identified using pyrosequencing

The use of Next Generation Sequencing (NGS) techniques to identify microsatellite markers has replaced more time intensive methods such as molecular cloning. The main advantage of NGS over traditional methods of identifying microsatellite markers is the generation of many more sequences with less effort. It is possible to design primers from unenriched DNA, thereby further reducing the workload and also allowing the use of SSRs that are difficult to enrich (e.g., TA/AT and TAA/ATT). We present microsatellite primer pairs that may be used for phylogeographic analysis as well as to infer the geographical origin of traded material of Catha edulis, which contains two amphetamines that are controlled substances in many counties. We used data from two partial 454 pyrosequencing runs that generated about 2000 sequences containing microsatellites (3% of all sequences) as well as flanking regions sufficient for primer design. Using 23 samples of C. edulis we identified 27 single-copy markers that were broadly amplified across the sampled individuals; 18 showed polymorphism information content (PIC) higher than 0.5. The genetic structure in wild individuals is concordant with their geographic origins; wild samples from northern Kenya are more closely related to Ethiopian samples than are other wild samples from Kenya. The geographic differences in allele frequencies indicate that microsatellite analysis can be used to determine the geographic source of cultivated and wild collected material.     

Cloning and analysis of the resistance gene fragments from silverleaf sunflower Helianthus agrophyllus

Using a combination of degenerate primers designed from the NBS domains of the resistance genes, amplification and subsequent cloning of the resistance gene fragments from sunflower (Helianthus agrophyllus) was conducted. Sequences of cloned PCR products differed from one another and displayed homology to NBS domain fragments of the already known plant resistance genes, as well as to the analogous genes from different classes. The highest homology was shown to the NBS domain regions of cultivated sunflower and the other members of the family Compositae. Two cloned fragments had open reading frames, while the other sequences carried stop codons and seemed to belong to pseudogenes. Amino acid sequences of Helianthus agrophyllus analyzed contained conservative regions typical of NBS domains of the resistance gene products.     

Inter-primer binding site retrotransposon and inter-simple sequence repeat diversity among wild Lens species

Even though lentil has been an important food legume for centuries, genetic studies in lentil are still in their infancy. Genetic diversity and relationships among wild Lens species from Turkey has seldom been investigated. Additionally, a limited number of simple sequence repeat (SSR) markers have been developed for use in breeding and genetic studies of lentil crop. In this study, molecular characterization of 50 accessions mostly from Turkey, belonging to 6 wild and 1 cultivated Lens species, was performed using newly developed inter-primer binding site (iPBS) retrotransposons and inter-SSR (ISSR) markers. The 10 iPBS primers generated a total of 151 scorable bands, of which 150 were polymorphic (99.3%) with an average of 15.0 polymorphic fragments per primer. The 10 ISSR primers detected 138 scorable bands showing 100% polymorphism, with an average of 13.5 bands per primer. The average polymorphism information content (PIC) value for ISSR markers (0.97) was higher than that for iPBS markers (0.90). Lens orientalis was found to be the most diverse species, raising the possibility of wide crosses with cultivated species Lens culinaris. Cultivated varieties also showed high level of polymorphism, at 82.92% and 51.92% with ISSR and iPBS markers, respectively. Lens lamottei and Lens tomentosus were found as the least polymorphic species using both marker systems. The grouping of accessions and species within clusters were almost similar when iPBS and ISSR graphs were compared. Our data also suggested the role of iPBS-retrotransposons as ‘a universal marker’ for molecular characterization of wild and cultivated Lens species.     

Strain-typing of Lentinula edodes in China with inter simple sequence repeat markers

To validate strain typing by inter simple sequence repeat (ISSR) analysis in Lentinula edodes cultivars, 17 Chinese L. edodes strains including 15 cultivated strains cultivated on a large scale and two wild strains were analyzed with the ISSR technique. With the use of two ISSR primers, a total of 32 DNA products were detected, of which, 31 DNA products (96.9% of the detected products) were polymorphic between two or more strains. The profiles of those two primers could be employed to differentiate all of the tested strains. A cluster analysis based on ISSR data revealed that the 17 strains could be classified into two distinct groups. One group consisted of eight strains in which the cultivated strains were H (high-temperature)-type or B (broad-temperature)-type, and the other group comprised cultivated strains that were of the L (low-temperature)-type or M (medium-temperature)-type. In contrast to the two wild strains, the genetic diversity of 15 cultivated strains was very rich based on a similarity coefficient analysis.     

Isolation and diversity analysis of resistance gene analogues (RGAs) from cultivated and wild strawberries

Degenerate oligonucleotide primers, designed based on conserved regions of Nucleotide Binding Site (NBS) domains from previously cloned plant resistance genes, were used to isolate Resistance Gene Analogues (RGAs) from wild and cultivated strawberries. Seven distinct families of RGAs of the NBS-LRR type were identified from two related wild species, Fragaria vesca and F. chiloensis, and six different Fragaria × ananassa cultivars. With one exception (GAV-3), the deduced amino acid sequences of strawberry RGAs showed strong similarity to TIR (Toll Interleukin I Receptor)-type R genes from Arabidopsis, tobacco and flax, suggesting the existence of common ancestors. GAV-3 seemed to be more closely related to the non-TIR type. Further studies showed that the recombination level and the ratio of non-synonymous to synonymous substitutions within families were low. These data suggest that NBS-encoding sequences of RGAs in strawberry are subject to a gradual accumulation of mutations leading to purifying selection, rather than to a diversifying process. The present paper is the first report on RGAs in strawberry.Communicated by M.-A. Grandbastien