Identification and validation of molecular markers linked to the leaf rust resistance gene Lr19 in wheat

A leaf rust resistance gene Lr19 on the chromosome 7DL of wheat derived from Agropyron elongatum was tagged with random amplified polymorphic DNA (RAPD) and microsatellite markers. The F₂ population of 340 plants derived from a cross between the leaf rust resistant near-isogenic line (NIL) of Thatcher (Tc + Lr19) and leaf rust susceptible line Agra Local that segregated for dominant monogenic leaf rust resistance was utilized for generating the mapping population. The molecular markers were mapped in the F₂ derived F₃ homozygous population of 140 seedlings. Sixteen RAPD markers were identified as linked to the alien gene Lr19 among which eight were in a coupling phase linkage. Twelve RAPD markers co-segregated with Lr19 locus. Nine microsatellite markers located on the long arm of chromosome 7D were also mapped as linked to the gene Lr19, including 7 markers which co-segregated with Lr19 locus, thus generating a saturated region carrying 25 molecular markers linked to the gene Lr19 within 10.2 ± 0.062 cM on either side of the locus. Two RAPD markers S265₅₁₂ and S253₇₃₇ which flanked the locus Lr19 were converted to sequence characterized amplified region markers SCS265₅₁₂ and SCS253₇₃₆, respectively. The marker SCS265₅₁₂ was linked with Lr19 in a coupling phase and the marker SCS253₇₃₆ was linked in a repulsion phase, which when used together mimicked one co-dominant marker capable of distinguishing the heterozygous resistant seedlings from the homozygous resistant. The molecular markers were validated on NILs mostly in Thatcher background isogenic for 44 different Lr genes belonging to both native and alien origin. The validation for polymorphism in common leaf rust susceptible cultivars also confirmed the utility of these tightly linked markers to the gene Lr19 in marker-assisted selection.     

Development of sequence characterized DNA markers linked to leaf rust (<Emphasis Type="Italic">Hemileia vastatrix</Emphasis>) resistance in coffee (<Emphasis Type="Italic">Coffea arabica</Emphasis> L.)

Coffee leaf rust due to Hemileia vastatrix is one of the most serious diseases in Arabica coffee (Coffea arabica). A resistance gene (S_H3) has been transferred from C. liberica into C. arabica. The present work aimed at developing sequence-characterized genetic markers for leaf rust resistance. Linkage between markers and leaf rust resistance was tested by analysing two segregating populations, one F₂ population of 101 individuals and one backcross (BC₂) population of 43 individuals, derived from a cross between a susceptible and a SH3-introgressed resistant genotype. A total of ten sequence-characterized genetic markers closely associated with the S_H3 leaf rust resistance gene were generated. These included simple sequence repeats (SSR) markers, sequence-characterised amplified regions (SCAR) markers resulting from the conversion of amplified fragment length polymorphism (AFLP) markers previously identified and SCAR markers derived from end-sequences of bacterial artificial chromosome (BAC) clones. Those BAC clones were identified by screening of C. arabica genomic BAC library using a cloned AFLP-marker as probe. The markers we developed are easy and inexpensive to run, requiring one PCR step followed by gel separation. While three markers were linked in repulsion with the S_H3 gene, seven markers were clustered in coupling around the S_H3 gene. Notably, two markers appeared to co-segregate perfectly with the S_H3 gene in the two plant populations analyzed. These markers are suitable for marker-assisted selection for leaf rust resistance and to facilitate pyramiding of the S_H3 gene with other leaf rust resistance genes.     

Characterization and mapping of <Emphasis Type="Italic">Rpi1</Emphasis>, a gene that confers dominant resistance to stalk rot in maize

The maize inbred lines 1145 (resistant) and Y331 (susceptible), and the F₁, F₂ and BC₁F₁ populations derived from them were inoculated with the pathogen Pythium inflatum Matthews, which causes stalk rot in Zea mays. Field data revealed that the ratio of resistant to susceptible plants was 3:1 in the F₂ population, and 1:1 in the BC₁F₁population, indicating that the resistance to P. inflatum Matthews was controlled by a single dominant gene in the 1145×Y331 cross. The gene that confers resistance to P. inflatum Matthews was designated Rpi1 for resistance to P. inflatum) according to the standard nomenclature for plant disease resistance genes. Fifty SSR markers from 10 chromosomes were first screened in the F₂ population to find markers linked to the Rpi1 gene. The results indicated that umc1702 and mmc0371 were both linked to Rpi1, placing the resistance gene on chromosome 4. RAPD (randomly amplified polymorphic DNA) markers were then tested in the F₂population using bulked segregant analysis (BSA). Four RAPD products were found to show linkage to the Rpi1 gene. Then 27 SSR markers and 8 RFLP markers in the region encompassing Rpi1 were used for fine-scale mapping of the resistance gene. Two SSR markers and four RFLP markers were linked to the Rpi1 gene. Finally, the Rpi1 gene was mapped between the SSR markers bnlg1937 and agrr286 on chromosome 4, 1.6 cM away from the former and 4.1 cM distant from the latter. This is the first time that a dominant gene for resistance to maize stalk rot caused by P. inflatum Matthews has been mapped with molecular marker techniques.     

Isolation and characterization of trinucleotide microsatellites in African malaria mosquito Anopheles funestus

We developed microsatellite markers for an important African malaria mosquito Anopheles funestus Giles. The microsatellite‐enriched genomic library was constructed and screened with single‐strand oligonucleotides [(CCT)₁₇, (AAT)₁₇, (CAG)₁₇ and (GA)₂₅] as probes. Among the 47 pairs of polymerase chain reaction primers screened, 31 produced successful and consistent amplification. Although only a few A. funestus individuals from one geographical location were used to screen microsatellite marker polymorphism, 27 markers were found polymorphic and four markers monomorphic. Most polymorphic markers are trinucleotide markers. Isolation of polymorphic microsatellite markers provide useful tools for A. funestus population genetic studies and genome mapping.     

STS markers linked to the Rf 1 fertility restorer gene of cotton

Marker-assisted selection (MAS) can accelerate the process of plant breeding, and sequence-tagged site (STS) markers are highly specific for regions of DNA being used for MAS. The objective of this research was to develop STS markers tightly linked with Rf₁, the fertility restoring gene for cytoplasmic male sterility (CMS) in cotton (Gossypium hirsutum L.). Bulked segregant analysis was employed to screen for Rf₁-linked RAPD markers in a backcross population. Four RAPD markers were identified, three of which co-segregated with Rf₁ (UBC147₁₄₀₀, UBC607₅₀₀, and UBC679₇₀₀). Another fragment, UBC169₈₀₀, co-segregated with the previously reported UBC169₇₀₀ in repulsion phase at a distance of 4.5 cM from Rf₁. A marker published by others (UBC659₁₅₀₀) mapped to 2.7 cM from Rf₁ and 1.8 cM from UBC169₈₀₀. Four sets of STS primer pairs were designed based on the RAPD fragment sequences. The primer pairs from the UBC147₁₄₀₀ and UBC607₅₀₀ fragments both amplified a single fragment specific to fertile plants. The UBC679₇₀₀ and UBC659₁₅₀₀ STS primer pairs each amplified one fragment specific to fertile plants and a monomorphic fragment. These four Rf₁-linked STS markers were also present in the Rf₁ donor species G. harknessii (D_2-2). The three primer pairs that produced co-segregating STS markers also amplified fragments from G. trilobum (D₈). However, the D₈ fragment amplified by the UBC147₁₄₀₀ STS primers was larger than that from D_2-2, and G. trilobum does not restore fertility to CMS-D2-2 lines. These STS markers will be useful in the development of restorer parental lines in cotton CMS breeding efforts.     

Interval Estimation of the Effective Population Size from Heterozygote‐Excess in SNP Markers

The effective population size N_e is an important parameter in population genetics and conservation biology. In recent years, there has been great interest in the use of molecular markers to estimate N_e. Although the point estimates from molecular markers in general suffer from a low reliability, the use of single nucleotide polymorphism (SNP) markers over a wide range of genome is expected to remarkably improve the reliability. In this study, expressions were derived for interval estimates of N_e from one published method, the heterozygote‐excess method, when it is applied to SNP markers. The conditional variance theory is applied to the derivation of a confidence interval for N_e under random union of gametes, monogamy and polygyny. Stochastic simulation shows that the obtained confidence interval is slightly conservative, but fairly useful for practical applications. The result is illustrated with real data on SNP markers in a pig strain.     

Isolation of polymorphic tetranucleotide microsatellite markers for the skink Mabuya affinis

We isolated 10 polymorphic microsatellite markers for the skink Mabuya affinis from genomic libraries enriched for (AAGG)_n and (AAAG)_n repetitive elements. The number of alleles ranged from eight to 13 per locus with the observed heterozygosity ranging from 0.60 to 0.92. These markers will be useful for analysis of questions concerning population genetic structure and models of speciation.     

Mapping of the potato leafroll virus resistance gene, Rlr etb , from Solanum etuberosum identifies interchromosomal translocations among its E-genome chromosomes 4 and 9 relative to the A-genome of Solanum L. sect. Petota

Gene Rlr _etb , derived from the potato species Solanum etuberosum, confers resistance to potato leafroll virus (PLRV). Mapping of this gene would aid in developing marker-assisted selection protocols to facilitate its introgression into cultivated potato. One RFLP marker and 45 cleaved amplified polymorphic markers (CAPs) markers were used to screen an etuberosum-derived BC₃ family segregating for PLRV resistance conferred by Rlr _etb . Nine markers from linkage group 4 of the tomato map displayed linkage with Rlr _etb , however, eight additional markers from linkage group 4 that should have been syntenic with Rlr _etb were not. Instead they segregated with 12 markers previously mapped to linkage group 9 of the tomato map, indicative that chromosomes 4 and 9 of S. etuberosum have translocated regions relative to the potato and tomato genomes. These chromosomal translocations have placed Rlr _etb beyond the end of the published map of linkage group 4 of tomato with the closest marker, C2_At1g42990, mapping 13.6 cM from Rlr _etb .     

Isolation of polymorphic tetranucleotide microsatellite markers for the streak‐necked flycatcher Mionectes striaticollis

We have isolated 11 polymorphic microsatellite markers for the streak‐necked flycatcher Mionectes striaticollis from genomic libraries enriched for either (AACC)_n, (AAGG)_n or (AAAG)_n repetitive elements. The number of alleles ranged from four to 14 per locus with the observed heterozygosity ranging from 0.38 to 1.00. These markers will be useful for analysis of questions concerning population genetic structure and models of speciation.     

Identification of RAPD markers linked to the gene PM 1 for resistance to powdery mildew in wheat

 Powdery mildew caused by Blumeria graminis DC. f. sp. triticiém. Marchal is an important disease of wheat (Triticum aestivum L. em Thell). We report here the identification of three random amplified polymorphic DNA (RAPD) markers closely linked to a gene for resistance to B. graminis in wheat. RAPD-PCR (polymerase chain reaction) analysis was conducted using bulked segregant analysis of closely related lines developed from a segregating F₅ family. The F₅ family was derived from a cross between the susceptible cultivar Clark and the resistant line Zhengzhou 871124. Genetic analysis indicated that resistance of Zhengzhou 871124 to powdery mildew is conferred by the gene Pm1. After performing RAPD-PCR analysis with 1300 arbitrary 10-mer primers and agarose-gel electrophoresis, two RAPD markers, UBC320₄₂₀ and UBC638₅₅₀, were identified to be co-segregating with the disease resistance. No recombinants were observed between either of the RAPD markers and the gene for resistance to powdery mildew after analysis of 244 F₂ plants. The third RAPD marker, OPF12₆₅₀, was identified with denaturing gradient-gel electrophoresis (DGGE), and was determined to be 5.4±1.9 cM from the resistance gene. UBC320₄₂₀ and UBC638₅₅₀ were present in wheat powdery mildew differential lines carrying the gene Pm1, suggesting linkage between these markers and the Pm1 resistance gene. Co-segregation between Pm1 and the two markers UBC320₄₂₀ and UBC638₅₅₀ was confirmed in a segregating population derived from a cross with CI14114, the wheat differential line carrying Pm1. The method of deriving closely related lines from inbred families that are segregating for a trait of interest should find wide application in the identification of DNA markers linked to important plant genes. The RAPD marker UBC638₅₅₀ was converted to a sequence tagged site (STS). RAPD markers tightly linked to target genes may facilitate selection and enable gene pyramiding for powdery mildew resistance in wheat breeding programs. Received: 10 December 1995 / Accepted: 13 September 1996     

Isolation of polymorphic tetranucleotide microsatellite markers for the green‐eyed tree frog (Litoria genimaculata)

We have isolated 16 polymorphic microsatellite markers for the green‐eyed tree frog, Litoria genimaculata, from genomic libraries enriched for (AAGG)_n and (AAAG)_n repetitive elements. The number of alleles ranges from four to 14 per locus with the observed heterozygosity ranging from 0.36 to 1.00. These markers will be useful for analysis of questions concerning population genetic structure and speciation.     

A detailed linkage map around an apple scab resistance gene demonstrates that two disease resistance classes both carry the V f gene

A detailed genetic map has been constructed in apple (Malus x domestica Borkh.) in the region of the v _f gene. This gene confers resistance to the apple scab fungus Venturia inaequalis (Cooke) Wint. Linkage data on four RAPD (random amplified polymorphic DNA) markers and the isoenzyme marker PGM-1, previously reported to be linked to the v _f gene, are integrated using two populations segregating for resistance to apple scab. Two new RAPD markers linked to v _f (identified by bulked segregant analysis) and a third marker previously reported as being present in several cultivars containing v _f are also placed on the map. The map around v _f now contains eight genetic markers spread over approximately 28 cM, with markers on both sides of the resistance gene. The study indicates that RAPD markers in the region of crab apple DNA introgressed with resistance are often transportable between apple clones carrying resistance from the same source. Analysis of co-segregation of the resistance classes 3A (weakly resistant) and 3B (weakly susceptible) with the linked set of genetic markers demonstrates that progeny of both classes carry the resistance gene.This work was supported in part by grants from the New Zealand Foundation for Research Science and Technology (FoRST) Programme 94-HRT-07-366 and ENZA New Zealand (International)     

Isolation of polymorphic tetranucleotide microsatellite markers for the pygmy kingfisher Ceyx picta

We have isolated 13 polymorphic microsatellite markers for the pygmy kingfisher, Ceyx picta, from genomic libraries enriched for either (AAGG)_n or (AACC)_n repetitive elements. The number of alleles range from three to 15 per locus with an observed heterozygosity ranging from 0.46 to 1.00. These markers will be useful for analysis of questions concerning population genetic structure and models of speciation.     

Development of SRAP, SRAP-RGA, RAPD and SCAR markers linked with a Fusarium wilt resistance gene in eggplant

Fusarium wilt (Fusarium oxysporum Schlecht. f. sp. melongenae) is a vascular disease of eggplant (Solanum melongena L.). The objectives of this work were (1) to confirm the monogenic inheritance of fusarium wilt resistance in eggplant, (2) to identify molecular markers linked to this resistance, and (3) to develop SCAR markers from most informative markers. We report the tagging of the gene for resistance to fusarium wilt (FOM) in eggplant using SRAP, RGA, SRAP-RGA and RAPD markers. Analysis of segregation data confirmed the monogenic inheritance of resistance. DNA from F₂ and BC₁ populations of eggplant segregating for fusarium wilt resistance was screened with 2,316 primer combinations to detect polymorphism. Three markers were linked within 2.6 cM of the gene. The codominant SRAP marker Me8/Em5 and dominant SRAP-RGA marker Em12/GLPL2 were tightly linked to each other and mapped 1.2 cM from the resistance gene, whereas RAPD marker H12 mapped 2.6 cM from the gene and on the same side as the other two markers. The SRAP marker was converted into two dominant SCAR markers that were confirmed to be linked to the resistance gene in the F_2, BC₁ and F₂ of BC₃ generations of the same cross. These markers provide a starting point for mapping the eggplant FOM resistance gene in eggplant and for exploring the synteny between solanaceous crops for fusarium wilt resistance genes. The SCAR markers will be useful for identifying fusarium wilt-resistant genotypes in marker-assisted selection breeding programs using segregating progenies of the resistant eggplant progenitor used in this study.     

Genetics and molecular mapping of genes for high-temperature resistance to stripe rust in wheat cultivar Xiaoyan 54

Stripe rust, caused by Puccinia striiformis f. sp. tritici, is one of the most widespread and destructive wheat diseases worldwide. Growing resistant cultivars is the preferred means of control of the disease. The winter wheat cultivar Xiaoyan 54 has high-temperature resistance to stripe rust. To identify genes for stripe rust resistance, Xiaoyan 54 was crossed with Mingxian 169, a winter wheat genotype susceptible to all Chinese races of the pathogen. Seedlings and adult plants of the parents and F₁, F₂, F₃ and F₄ progeny were tested with Chinese race CYR32 under controlled greenhouse conditions and in the field. Xiaoyan 54 has two recessive resistance genes, designated as Yrxy1 and Yrxy2, conferring high-temperature resistance. Simple sequence repeat (SSR) primers were used to identify molecular markers flanking Yrxy2 using 181 plants from one segregating F₃ line. A total of nine markers, two of which flanked the locus at genetic distances of 4.0 and 6.4 cM on the long arm of chromosome 2A were identified. Resistance gene analog polymorphism (RGAP) and SSR techniques were used to identify molecular markers linked to Yrxy1. A linkage group of nine RGAP and two SSR markers was constructed for Yrxy1 using 177 plants of another segregating F₃ line. Two RGAP markers were closely linked to the locus with genetic distances of 2.3 and 3.5 cM. Amplification of a set of nulli-tetrasomic Chinese Spring lines with RGAP markers M8 and M9 and the two SSR markers located Yrxy1 on the short arm of chromosome 7A. The SSR markers Xbarc49 and Xwmc422 were 15.8 and 26.1 cM, respectively, from the gene. The closely linked molecular markers should be useful for incorporating the resistance genes into commercial cultivars and combining them with other genes for stripe rust resistance.     

Development of SCAR markers linked to male sterility and very high linoleic acid content in safflower

Practically no molecular tools have been developed so far for safflower (Carthamus tinctorius L.) breeding. The objective of the present research was to develop molecular markers for the closely linked genes Li, controlling very high linoleic acid content, and Ms, controlling nuclear male sterility (NMS). A mapping population of 162 individuals was developed from the NMS line CL1 (64–79% linoleic acid) and the line CR-142 (84–90%), and phenotyped in the F₂ and F₃ generations. Bulked segregant analysis with random amplified polymorphic (RAPD) markers revealed linkage of five RAPD bands to the Li and Ms genes. RAPD fragments were converted into sequence-characterized amplified region (SCAR) markers. A linkage map including the five SCAR markers and the Li and Ms genes was constructed. SCAR markers flanked both loci at minimum distances of 15.7 cM from the Li locus and 3.7 cM from the Ms locus. These are the first molecular markers developed for trait selection in safflower.     

Polymorphic microsatellite DNA markers for the grey fantail,Rhipidura albiscapa

We isolated and characterized five polymorphic microsatellite markers for the grey fantail Rhipidura albiscapa from genomic libraries enriched for (AC)_n and (GT)_n microsatellites. In 34 adult individuals, the number of alleles per locus ranged from eight to 17. Observed and expected heterozygosities ranged from 0.65 to 0.94 and 0.83 to 0.94, respectively. These markers will be useful for analysing extra‐pair paternity in fantails.     

RAPD linkage map of the genomic region encompassing the root-knot nematode (Meloidogyne javanica) resistance locus in carrot

Inheritance studies have indicated that resistance to the root-knot nematode (Meloidogyne javanica) in carrot inbred line ’Brasilia-1252’ is controlled by the action of one or two (duplicated) dominant gene(s) located at a single genomic region (designated the Mj-1 locus). A systematic search for randomly amplified polymorphic DNA (RAPD) markers linked to Mj-1 was carried out using bulked segregant analysis (BSA). Altogether 1000 ten-mer primers were screened with 69.1% displaying scorable amplicons. A total of approximately 2400 RAPD bands were examined. Four reproducible markers (OP-C2₁₇₀₀, OP-Q6₅₀₀, OP-U12₇₀₀, and OP-AL15₅₀₀) were identified, in coupling-phase linkage, flanking the Mj-1 region. The genetic distances between RAPD markers and the Mj-1 locus, estimated using an F₂ progeny of 412 individuals from ’Brasilia 1252’×’B6274’, ranged from 0.8 to 5.7 cM . The two closest flanking markers (OP-Q6₅₀₀ and OP-AL15₅₀₀) encompassed a region of 2.7 cM . The frequency of these RAPD loci was evaluated in 121 accessions of a broad-based carrot germplasm collection. Only five entries (all resistant to M. javanica and genetically related to ’Brasilia 1252’) exhibited the simultaneous presence of all four markers. An advanced line derived from the same cross, susceptible to M. javanica but relatively resistant to another root-knot nematode species (M. incognita), did not share three of the closest markers. These results suggest that at least some genes controlling resistance to M. incognita and M. javanica in ’Brasilia 1252’ reside at distinct loci. The low number of markers suggests a reduced amount of genetic divergence between the parental lines at the region surrounding the target locus. Nevertheless, the low rate of recombination indicated these markers could be useful landmarks for positional cloning of the resistance gene(s). These RAPD markers could also be used to increase the Mj-1 frequency during recurrent selection cycles and in backcrossing programs to minimize ’linkage drag’ in elite lines employed for the development of resistant F₁ hybrids. Received: 22 June 1999 / Accepted: 6 July 1999     

Resistance to Leptosphaeria maculans is conserved in a specific region of the Brassica B genome

 Offspring from asymmetric hybrids between Brassica napus and the three B-genome species Brassica nigra, Brassica juncea and Brassica carinata were analysed for the presence of B-genome markers and resistance to the fungus Leptosphaeria maculans, the causal agent of blackleg disease. Twenty five plants from each species combination were analysed in the first backcross (BC₁) generation, 30 plants in BC₂ and 60 plants in BC₃. The plants were analysed by 46 RFLP markers detecting 85 loci dispersed throughout the B. nigra genome. The plants with additional B. carinata DNA had a decrease in the presence of RFLP markers ranging from 59% in BC₁ to 36% in BC₂ and down to 11% in BC₃. Similar results were obtained in the lines with additional DNA from B. juncea where the 60% presence of RFLP markers in BC₁ was reduced to 33% in BC₂ and to 10% in BC₃. However presence of the markers were significantly lower in the B. nigra-derived material where BC₁ had 46%, BC₂ 25% and BC₃ 8%. Since at least two loci could be detected on each end of the eight linkage groups of the B genome, the degree of symmetry was estimated. After one back-cross between 0.5 and 1.25% intact chromosomes were retained, whereas in BC₂ this frequency was 0.21% for all three B-genome donor species. The maintenance of half-chromosomes ranged from 2.63% to 5.38% in BC₁ and between 0.73% and 1.15% in BC₂. No chromosome arms were found in any of the BC₃ plants. In total, four co-segregating markers for cotyledon and adult-leaf resistance to L. maculans were found which detected six loci located on linkage groups 2, 5 and 8. When the results from the three donor species were compared, one triplicate region in the B genome had preserved the resistance loci in all three species. Received: 19 January 1999 / Accepted: 30 January 1999     

Isolation of polymorphic tetranucleotide microsatellite markers for the large‐billed scrubwren (Sericornis magnirostris)

We isolated 12 polymorphic microsatellite markers for the large‐billed scrubwren Sericornis magnirostris from genomic libraries enriched for (AAGG)_n and (AACC)_n repetitive elements and characterized them in 11 individuals. The number of alleles ranged from four to 15 per locus with the observed heterozygosity ranging from 0.14 to 0.91. These markers will be useful to address questions concerning population genetic structure and models of speciation.