AMELIORATION OF THE DELETERIOUS PLEIOTROPIC EFFECTS OF AN ADAPTIVE MUTATION IN BACILLUS SUBTILIS

The deleterious pleiotropic effects of an adaptive mutation may be ameliorated by one of two modes of evolution: (1) by replacement, in which an adaptive mutation with harmful pleiotropic effects is replaced by one that confers an equal benefit but at less cost; or (2) by compensatory evolution, in which natural selection favors modifiers at other loci that compensate for the deleterious effects of the mutant allele. In this study, we have measured the potential of these two modes of evolution to ameliorate the deleterious pleiotropic effects of resistance to the antibiotic rifampicin in the soil bacterium Bacillus subtilis. One approach was to measure the fitness cost of a series of spontaneous rifampicin-resistance mutations from each of several strains. The potential for amelioration by the replacement mode was estimated by the variation in fitness cost among the mutants of a single strain. Another approach was to introduce a series of different rifampicin-resistance alleles into a diversity of strains, and to measure the fitness cost of rifampicin resistance for each allele-by-strain combination. The potential for amelioration by the replacement mode was estimated by the variation in fitness costs among rifampicin-resistance alleles; the potential for compensatory evolution was estimated by variation in the fitness cost of rifampicin resistance among strains. This study has shown that the cost of rifampicin resistance may be ameliorated by both the compensatory and replacement modes.     

Mapping of cysteine genes on the chromosome of Pseudomonas aeruginosa PAO

Summary Three loci coding for different steps in the pathway of cysteine biosynthesis have been mapped by R68.45-mediated coconjugation analysis. The cysteine auxotrophic mutants could be subdivided into sulfite and sulfide-requiring mutants. Sulfide-requiring mutants (cysIV group) were localized at a single position between pyrF and pur-67, while sulfite-requiring mutants (cysI and cysII) mapped at two different regions. The cysI group was also localized between pyrF and pur-67, although more distal to pyrF than the cysIV group. This group included the cys-54 marker, which has been mapped previously. The second group of sulfite-requiring mutants, designated as cysII, was cotransducible with hisI and localized at the end of the PAO chromosomal map. This location was also confirmed for the marker cys-59.The marker cys-59 (which was cotransducible with his1) was cotransferred by R68.45-mediated conjugations with both the late marker pur-67 and the early marker ilv-226. As the late marker hisI was positioned at about 60–65 min (Herrmann and Günther, in press) the length of the PAO chromosome was estimated to be about 70 min.     

Development of molecular diagnostic markers for sharpshooters Homalodisca coagulata and Homalodisca liturata for use in predator gut content examinations

To aid in identifying key predators of Proconiini sharpshooter species present in California, we developed and tested molecular diagnostic markers for the glassy‐winged sharpshooter, Homalodisca coagulata (Say), and smoke‐tree sharpshooter, Homalodisca liturata (Ball) (Homoptera: Cicadellidae). Two different types of markers were compared, those targeting single‐copy sequence characterized amplified regions (SCAR) and mitochondrial markers targeting the multicopy cytochrome oxidase subunit genes I (COI) and II (COII). A total of six markers were developed, two SCAR and four mitochondrial COI or COII markers. Specificity assays demonstrated that SCAR marker HcF5/HcR7 was H. coagulata specific and HcF6/HcR9 was H. coagulata/H. liturata specific. COI (HcCOI‐F/R) and COII (HcCOII‐F4/R4) markers were H. coagulata specific, COII (G/S‐COII‐F/R) marker was H. coagulata/H. liturata specific, and lastly, COII marker (Hl‐COII‐F/R) was H. liturata specific. Sensitivity assays using genomic DNA showed the COI marker to be the most sensitive marker with a detection limit of 6 pg of DNA. This marker was 66‐fold more sensitive than marker Hl‐COII‐F/R that showed a detection limit of 400 pg of DNA. In addition, the COI marker was 4.2‐fold more sensitive than the COII marker. In predator gut assays, the COI and COII markers demonstrated significantly higher detection efficiency than the SCAR markers. Furthermore, the COI marker demonstrated slightly higher detection efficiency over the COII marker. Lastly, we describe the inclusion of an internal control (28S amplification) for predation studies performing predator gut analyses utilizing the polymerase chain reaction (PCR). This control was critical in order to monitor reactions for PCR failures, PCR inhibitors, and for the presence of DNA.     

Inheritance of organelle DNA markers in a pea cross associated with nuclear-cytoplasmic incompatibility

An unusual biparental mode of plastid inheritance was found in pea, in a cross associated with nuclear-cytoplasmic incompatibility manifested as deficiency of chlorophyll pigmentation. Plastid DNA marker trnK and mitochondrial DNA marker cox1 were analyzed in F1 progeny that received cytoplasm from an accession of a wild subspecies Pisum sativum ssp. elatius. Plants with sectors of green tissue on leaves and seed cotyledons with green patches on an otherwise chlorotic background were found to carry paternally inherited plastid DNA, suggesting that photosynthetic function was affected by nuclear-cytoplasmic conflict and required proliferation of paternally inherited plastids for normal performance. The paternally inherited plastid DNA marker was also observed in the roots. The presence of the paternal marker in cotyledons, roots and leaves was independent of each other. Inheritance of the mitochondrial DNA marker cox1 appeared to be of the maternal type.     

Development and implementation of a sequence-specific PCR marker linked to a gene conferring resistance to anthracnose disease in narrow-leafed lupin (Lupinus angustifolius L.)

Anthracnose caused by Colletotrichum gloeosporioides is the most serious disease of lupins (Lupinus spp). A cross was made between cultivars Tanjil (resistant) and Unicrop (susceptible) in narrow-leafed lupin (L. angustifolius). Analysis of disease reaction data on the F₂ population and on the resultant F₇ recombinant inbred lines suggested that Tanjil contained a single dominant gene (Lanr1) conferring resistance to anthracnose. The parents and the representative F₂ plants were used to generate molecular markers liked to the Lanr1 gene using the MFLP technique. A co-dominant MFLP polymorphism linked to the Lanr1 gene was identified as a candidate marker. The bands were isolated, re-amplified by PCR, cloned and sequenced. The MFLP polymorphism was converted into a co-dominant, sequence-specific, simple PCR-based marker. Linkage analysis by the computer program MAPMAKER indicated that the marker was 3.5 centiMorgans (cM) from the gene Lanr1. This marker is currently being implemented for marker assisted selection in the Australian National Lupin Breeding Program.     

The Ry-fsto gene from Solanum stoloniferum for extreme resistant to Potato virus Y maps to potato chromosome XII and is diagnosed by PCR marker GP122718 in PVY resistant potato cultivars

A novel locus for extreme resistance to Potato virus Y (PVY), Ry-f_sto, was identified on potato chromosome XII. The gene Ry-f_sto has been introgressed from the wild potato species Solanum stoloniferum. Inheritance of Ry-f_sto in the tetraploid potato population Rysto was consistent with the model of a single, dominant gene. Bulked segregant analysis identified an ISSR (inter-simple sequence repeat) marker UBC 857₉₈₀ linked to Ry-f_sto. This marker mapped to linkage group XII of a reference potato RFLP (restriction fragment length polymorphism) map. Chromosome XII specific RFLP markers were converted into PCR-based STS and CAPS markers and tested for linkage with Ry-f_sto in the population Rysto. CAPS marker GP122₇₁₈ was tightly linked to the resistance gene and was successfully used to identify Polish and German cultivars expressing extreme resistance to PVY. This indicates that the source of Ry-f_sto has been widely utilized in various potato breeding programs and can be monitored by a diagnostic marker in marker-assisted selection.     

The Construction of a New Integrative Vector with a New Selective Marker of Copper Resistance for Glycerol Producer <Emphasis Type="Italic">Candida glycerinogenes</Emphasis>

Candida glycerinogenes WL2002-5 has been used for industrial-scale fermentation of glycerol and may be a promising genetic host due to its tolerance to high osmotic pressure and fast growth. It resists many kinds of drugs, such as G418/hygromycin/cycloheximide. In previous studies, only Zeocin was used as a drug-resistant marker. But Zeocin is so expensive that it largely limits the genetic and molecular study. Here, we constructed a eukaryotic integrative vector pGAPZU, based on pGAPZB, to gain a new selectable marker of copper resistance for this strain. The results showed that the CUP1 gene of Saccharomyces cerevisiae elevated copper resistance of C. glycerinogenes. The C. glycerinogenes transformed with recombinant vector pGUC, obtained from introducing CUP1 gene into plasmid pGAPZU, could resist 21 mM copper, while the minimum inhibitory concentration (MIC) of wild type was 18 mM in solid YEPD medium. With copper resistance as a selective marker, research cost was largely reduced from 114.0 /L with Zeocin as selective marker to 0.1/L with Zeocin as selective marker to 0.1 /L. The new expression vector pGUC and selective marker of copper resistance gene establish a good foundation for further study on this industrial strain.     

Development of markers linked to Diuraphisnoxia resistance in wheat using a novel PCR-RFLP approach

Through random amplified polymorphic DNA (RAPD) analysis we identified a putative marker linked to the Dn5 resistance gene. This marker was converted to a more reliable sequence-characterised-amplified regions (SCAR) marker. The initial SCAR marker amplified the correct amplification product but failed to discern between the susceptible and resistant individuals. Hence, it was utilised to sequence the internal fragment. All nested primers designed from the internal sequences were also unable to produce any polymorphism between the susceptible and resistant cultivars. Restriction digests were then performed on these fragments, and the restriction enzyme EcoRI was able to discern between the susceptible and resistant F₂ individuals of the Dn5 population. This granted one marker amplified with the internal SCAR primer set OPF14₁₀₈₃ the ability to differentiate between parental individuals carrying the Dn5 genes. This marker was tested in a segregating F₂ population carrying the Dn5 resistance gene and proved able to differentiate between the segregating individuals. This marker may prove useful in marker assisted selection (MAS), although performing restriction digests may hamper the throughput of a high number of samples. Received: 4 August 1999 / Accepted: 27 August 1999     

Association of the polymorphisms of the <Emphasis Type="Italic">ERBB3</Emphasis> and <Emphasis Type="Italic">SH2B3</Emphasis> genes with type 1 diabetes

To study the association with diabetes mellitus type 1, we analyzed the distribution of allele and genotype frequencies of polymorphic marker rs2292239 of ERBB3 gene, encoding epidermal growth factor receptor type 3 and polymorphic marker rs3184504 of SH2B3 gene, encoding adaptor protein LNK. The study included groups of T1DM patients and unrelated controls of Russian origin. Genotyping was performed using RFLP and real-time amplification methods. No statistically significant association with type 1 diabetes was found for the polymorphic marker rs2292239 of ERBB3, while the analysis of the distribution of allele and genotype frequencies of the polymorphic marker rs3184504 of SH2B3 gene revealed the association with T1DM in the Russian population.     

A family of LRR sequences in the vicinity of the Co-2 locus for anthracnose resistance in Phaseolus vulgaris and its potential use in marker-assisted selection

 Molecular markers offer new opportunities for breeding for disease resistance. Resistance gene pyramiding in a single cultivar, as a strategy for durable resistance, can be facilitated by marker-assisted selection (MAS). A RAPD marker, ROH20⁴⁵⁰, linked to the Mesoamerican Co-2 anthracnose resistance gene, was previously transformed into a SCAR marker, SCH20. In the present paper we have further characterized the relevance of the SCH20 SCAR marker in different genetic backgrounds. Since this SCAR marker was found to be useful mainly in the Andean gene pool, we identified a new PCR-based marker (SCAreoli) for indirect scoring of the presence of the Co-2 gene. The SCAreoli SCAR marker is polymorphic in the Mesoamerican as well as in the Andean gene pool and should be useful in MAS. We also report that PvH20, the cloned sequence corresponding to the 450-bp RAPD marker ROH20⁴⁵⁰, contains six imperfect leucine-rich repeats, and reveals a family of related sequences in the vicinity of the Co-2 locus. These results are discussed in the context of the recent cloning of some plant resistance genes. Received: 26 June 1997 / Accepted: 13 October 1997     

Development of a molecular marker for the adult plant leaf rust resistance gene Lr35 in wheat

The objective of this work was to develop a marker for the adult plant leaf rust resistance gene Lr35. The Lr35 gene was originally introgressed into chromosome 2B from Triticum speltoides, a diploid relative of wheat. A segregating population of 96 F ₂ plants derived from a cross between the resistant line ThatcherLr35 and the susceptible variety Frisal was analysed. Out of 80 RFLP probes previously mapped on wheat chromosome 2B, 51 detected a polymorphism between the parents of the cross. Three of them were completely linked with the resistance gene Lr35. The co-segregating probe BCD260 was converted into a PCR-based sequence-tagged-site (STS) marker. A set of 48 different breeding lines derived from several European breeding programs was tested with the STS marker. None of these lines has a donor for Lr35 in its pedigree and all of them reacted negatively with the STS marker. As no leaf rust races virulent on Lr35 have been found in different areas of the world, the STS marker for the Lr35 resistance gene is of great value to support the introgression of this gene in combination with other leaf rust (Lr) genes into breeding material by marker-assisted selection. Received: 14 December 1998 / Accepted: 30 January 1999     

A sex‐linked SCAR marker in Bryonia dioica (Cucurbitaceae), a dioecious species with XY sex‐determination and homomorphic sex chromosomes

Genetic crosses between the dioecious Bryonia dioica (Cucurbitaceae) and the monoecious B. alba in 1903 provided the first clear evidence for Mendelian inheritance of dioecy and made B. dioica the first organism for which XY sex‐determination was experimentally proven. Applying molecular tools to this system, we developed a sex‐linked sequence‐characterized amplified region (SCAR) marker for B. dioica and sequenced it for individuals representing the full geographic range of the species from Scotland to North Africa. For comparison, we also sequenced this marker for representatives of the dioecious B. cretica, B. multiflora and B. syriaca, and monoecious B. alba. In no case did any individual, male or female, yield more than two haplotypes. In northern Europe, we found strong linkage between our marker and sex, with all Y‐sequences being identical to each other. In southern Europe, however, the linkage between our marker and sex was weak, with recombination detected within both the X‐ and the Y‐homologues. Population genetic analyses suggest that the SCAR marker experienced different evolutionary pressures in northern and southern Europe. These findings fit with phylogenetic evidence that the XY system in Bryonia is labile and suggest that the genus may be a good system in which to study the early steps of sex chromosome evolution.     

Genic markers for wild abortive (WA) cytoplasm based male sterility and its fertility restoration in rice

Commercial exploitation of heterosis is essential for enhancing productivity of rice. The use of cytoplasmic male sterility (CMS) and fertility restoration system greatly facilitates large scale production of hybrid seed. The wild abortive (WA) cytoplasm is most widely used for hybrid seed production in rice. The present study was undertaken to develop molecular markers for both WA cytoplasm based male sterility and its fertility restoration for use in efficient hybrid breeding. High degree of genetic differentiation of WA-cytoplasm from its normal fertile counterpart was observed due to DNA rearrangements involving five (coxI, coxIII, cob, atp6 and rps3) mitochondrial genes. Cleaved amplified polymorphic sequence (CAPS) markers based on five mitochondrial genes namely, coxIII, cob, atp9, rps3 and 18SrRNA polymorphic between CMS and maintainer line were developed. The utility of these informative markers was demonstrated in purity testing of the CMS line Pusa6A being used in commercial hybrid seed production. Fertility restoration was found to be controlled by a major locus in the Basmati restorer line PRR78, which was mapped to a short marker interval of 0.8 cM and a physical interval of 163.6 kb on rice chromosome 10. A total of 13 pentatricopeptide repeat (PPR) motif containing genes were predicted in a 1.66 Mb region on the long-arm of this chromosome of which, four were present in the marker interval containing the fertility restorer gene. High degree of conservation of gene order was observed between japonica and indica for the predicted PPR genes. A sequence tagged site (STS) and a genic non-coding microsatellite (GNMS) marker were designed based on one of the candidate PPR motif containing genes present in the marker interval, which were validated using F₂ population and other known restorer lines. The candidate gene based marker identified in the present study would be useful in marker assisted selection (MAS) for fertility restorer gene in hybrid breeding programme based on WA-CMS of rice.     

Development and evaluation of broadly applicable markers for <Emphasis Type="Italic">Restorer-of-fertility</Emphasis> in pepper

The Restorer-of-fertility (Rf) gene is used for efficient hybrid seed production in chili pepper. Although molecular markers linked to Rf in pepper are available, their applications have been limited by lack of agreement between marker genotype and phenotype. To overcome this limitation, we developed new molecular markers using an Rf-segregating population for which most of previously developed markers are not suitable, because of lack of polymorphism. The petunia Rf gene was used as a candidate for marker development. First of all, a pepper bacterial artificial chromosome (BAC) library was screened using a pepper homolog of the petunia Rf gene. The 52 selected BAC clones were classified into three contig groups and each contig group was mapped to chromosome 6. Three markers were developed using the three groups; their genetic distances from the Rf locus were 1.4, 3.2 and 14 cM, respectively. In the second place, an Rf-linked marker was developed from the sequence of a tomoto BAC clone containing three genes which are homologous to petunia Rf gene. Genetic distance between this marker and Rf gene was 1.4 cM. When newly-, and previously-developed molecular markers linked to Rf were applied to 55 pepper breeding lines, one marker named CRF-SCAR was found to be the most broadly applicable, based on correct determination of phenotypes. In the present study, we demonstrate that previously cloned Rf genes can be used as candidate genes for development of new markers for the reliable detection of restorer lines. We expect that the newly-developed markers and information obtained from application of markers will be useful for reliable detection of restorer lines.     

A New Method for Repeated “Self-Cloning” Promoter Replacement in <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis>

A method for repeated PCR-mediated promoter replacement in the yeast Saccharomyces cerevisiae is described. It was proposed to use the DNA fragment comprising the marker gene that enables both positive and negative selection (a selectable/counter-selectable marker) surrounded by direct repeats of the desired promoter as a promoter replacement cassette. This fragment is integrated upstream of the target gene because of PCR-added terminal sequences for homologous recombination with the target locus. Subsequent marker excision via homologous recombination between the copies of the two promoters leaves one copy of the desired promoter upstream of the target genes, without any heterologous scar sequence. To test this method, a set of plasmids bearing the S. cerevisiae URA3 gene surrounded by two copies of the ADH1 or PGK1 promoter was constructed. Using these cassettes, the native promoters of the GSH1 and GSH2 genes were replaced in the ura3Δ0 recipient strains. The proposed method is useful for research applications due to simple marker excision, and for construction of “self-cloning” industrial strains, because no heterologous DNA is retained in the genome of the resulting strain after marker excision.     

小麦旗叶早衰性状的QTL定位

为小麦旗叶早衰性状的精细定位和基因克隆奠定基础,该试验以普通小麦(Triticum aestivum L.)‘宁春4号’和‘宁春27号’杂交得到的128个F10代RIL群体为研究材料,利用307对多态性SSR标记对小麦旗叶早衰性状进行了QTL定位,并通过构建整合图谱的方法进行了标记加密。结果表明,共检测到1个控制旗叶早衰性状的加性QTL,位于2A染色体长臂的gwm526和gwm382标记区间内,可解释49.88%的表型变异。经遗传图谱整合后发现,gwm526和gwm382标记之间存在124个SNP标记。     

Development of a novel molecular marker on the mitochondrial genome of a toxic dinoflagellate, <Emphasis Type="Italic">Alexandrium</Emphasis> spp., and its application in single-cell PCR

Although the molecular data currently used for identifying dinoflagellates are generally limited to nuclear ribosomal RNA genes, some dinoflagellates cannot be identified by their gene sequence or morphotype, suggesting that additional effective molecular makers are required. We report here a novel species-specific marker on the mitochondrial (mt) genome of dinoflagellates belonging to six Alexandrium spp., namely, A. tamarense, A. catenella, A. tamiyavanichii, A. affine, A. hiranoi, and A. pseudogonyaulax. This new mt marker was able to clearly differentiate these six species. PCR analysis using a primer set for the A. tamarense-specific sequence confirmed that this sequence is conserved in A. tamarense strains but not in other dinoflagellate species. We also sequenced the mt genome containing the developed molecular marker using a single cell from a field sample, which suggests that this marker is a powerful tool for identifying unculturable dinoflagellates. The sequenced molecular region was also used to identify Alexandrium-like cells isolated from environmental seawater as A. tamarense and A. affine.     

Transformation in E. coli K12: Relation of linkage to distance between markers

Summary E. coli K12 transformants, selected as leu ⁺ or pyrA ⁺ transformants, were analysed for inheritance of some closely linked unselected markers. Based on the observation that the number of recombinants which require, besides an integration event, one or more crossing-over events was negligible, a simple mapping function was deduced. The function L=e ^–kd , which directly relates observed linkage of an unselected marker and the relative distance of that unselected marker to the selected marker, gave a consistent interpretation of the experimental results.