The Entire Population of Thermus thermophilus Cells Is Always Competent at Any Growth Phase

Thermus thermophilus mutants carrying unlinked double auxotrophic markers were transformed with wild type chromosomal DNA at various growth phases. The percentages of competent cells in the total population were calculated based on the results of transformation efficiencies for single or double markers. It was concluded that all the T. thermophilus cells at any growth phase were competent.     

One way to do experiments on gene conversion?

Summary Competent cells of B. subtilis were transfected with heteroduplex SPP1 DNA, made by annealing complementary strands of wild type and 21 plaque type mutant DNAs. The frequencies of cells yielding mutant and wild type, only wild type, and only mutant phages were determined by single burst analyses of transfected cells. The data obtained reveal that an effective mechanism is operating in B. subtilis, which converts heterozygous to homozygous molecules prior to their replication. This correction mechanism is asymmetric with regard to the strand which is preferentially corrected in a given heteroduplex pair. The direction of asymmetry thus defined depends on the marker introduced into a particular heteroduplex. The efficiency of correction varies with the markers used and is correlated to the position of markers in the genetic map. From this correlation, the direction of replication of the SPP1 genome is deduced. The frequency distribution of wild type and mutant phages in cells yielding both genotypes indicates that both strands of the input DNA contribute equally to the production of progeny, i.e. DNA replication is symmetric.     

Genetic system in Pseudomonas alcaligenes NCIB 9867

Abstract Genetic transfer of both auxotrophic and catabolic markers was detected in filter matings of mutant strains of Pseudomonas alcaligenes NCIB 9867. Bidirectional transfer of auxotrophic markers was demonstrated in most of the crosses. Strains could either act as donors or recipients. Polarized transfer of auxotrophic markers was observed in some crosses. There was low co-inheritance of both 2,5X⁺ catabolic marker and auxotrophic markers. No evidence could be presented indicating the involvement of the indigenous 33-kb plasmid in the genetic transfer process. Partial sensitivity to DNase was observed in some of the crosses. Maximum frequency of recombinant formation obtained with mating cultures from stationary growth phase suggested an influence of physiological states on genetic transfer. As transfer did not appear to be due to classical transformation or to be plasmid-mediated, the likely mechanism could involve the release of DNA upon intimate cell-to-cell contact. The gene transfer system may be useful for linkage analysis of closely linked genes.     

A sugar beet (Beta vulgaris L.) reference FISH karyotype for chromosome and chromosome‐arm identification,integration of genetic linkage groups and analysis of major repeat family distribution

We developed a reference karyotype for B. vulgaris which is applicable to all beet cultivars and provides a consistent numbering of chromosomes and genetic linkage groups. Linkage groups of sugar beet were assigned to physical chromosome arms by FISH (fluorescent in situ hybridization) using a set of 18 genetically anchored BAC (bacterial artificial chromosome) markers. Genetic maps of sugar beet were correlated to chromosome arms, and North–South orientation of linkage groups was established. The FISH karyotype provides a technical platform for genome studies and can be applied for numbering and identification of chromosomes in related wild beet species. The discrimination of all nine chromosomes by BAC probes enabled the study of chromosome‐specific distribution of the major repetitive components of sugar beet genome comprising pericentromeric, intercalary and subtelomeric satellites and 18S‐5.8S‐25S and 5S rRNA gene arrays. We developed a multicolor FISH procedure allowing the identification of all nine sugar beet chromosome pairs in a single hybridization using a pool of satellite DNA probes. Fiber‐FISH was applied to analyse five chromosome arms in which the furthermost genetic marker of the linkage group was mapped adjacently to terminal repetitive sequences on pachytene chromosomes. Only on two arms telomere arrays and the markers are physically linked, hence these linkage groups can be considered as terminally closed making the further identification of distal informative markers difficult. The results support genetic mapping by marker localization, the anchoring of contigs and scaffolds for the annotation of the sugar beet genome sequence and the analysis of the chromosomal distribution patterns of major families of repetitive DNA.     

Temperature dependence of strand separation of the DNA molecules containing integrated SV40 DNA in transformed cells.

It has previously been demonstrated that the DNA molecules containing a genetic marker from one region of a bacterial genome undergo complete strand separation at temperatures usually different from the molecules containing a genetic marker from another region of the genome. The experiments also showed that if a group of molecules undergo complete strand separation over a narrow temperature range, of the order of one to three degrees, it is highly likely that they all come from one region of the bacterial genome. The purpose of the work reported here was to establish appropriate procedures for doing a similar analysis of the DNA molecules containing the integrated SV40 DNA in transformed mouse cells. One result of interest is that in the 11A8 cell line about 40 per cent of the integrated SV40 DNA detectable by an RNA-DNA hybridization assay can be accounted for by a group of molecules which undergo complete strand separation within a 1.0 degree C interval.     

Chromatographically Fractionated Complementary Strands of Bacillus subtilis Deoxyribonucleic Acid: Transformation of Hybrids

The annealing properties as measured by the restoration of transforming activity and hypochromicity of methylated albumin-kieselguhr (MAK)-fractionated complementary strands of Bacillus subtilis deoxyribonucleic acid (DNA) are presented. Temperature-absorbance measurements performed on annealed mixtures of various L and H strand fractions indicated the existence of a complementarity gradient between the two MAK peaks. The markers purA16, leu-8, metB(5), thr-5, and the linked marker hisB(2)-try-2 exhibited different bimodal distributions on MAK columns. The transforming efficiency of heteroduplex mixtures, prepared by cross-annealing resolved complementary strands of wild-type and recipient DNA, was compared. The transforming efficiency of the wild-type L and H strands was equal in one preparation and unequal in a second preparation. It was found that in the second strand preparation the heteroduplex DNA containing the H strand from wild type was more efficient for all of the markers tested. The variations in transforming efficiencies of the complementary strands in heteroduplex molecules reported here and by others are due in part to strands of unequal length and probably to the self-annealing property of the H strands. At present, no conclusion could be made regarding the existence of strand selection bias during integration of donor DNA in competent B. subtilis cells.     

A Primary Genetic Linkage Map of 14 Polymorphic Loci for the Short Arm of Human Chromosome 8

A genetic linkage map of markers for the short arm of human chromosome 8 has been constructed with 14 polymorphic DNA markers on the basis of genotypes obtained in 40 CEPH reference families. This unbroken map spans 45 cM in males and 79 cM in females. The 14 markers include three genes, MSR, LPL, and NEFL, and one anonymous DNA segment that were previously assigned to chromosome 8. The other 10 marker had been isolated from a chromosome 8-specific cosmid library and physically localized to chromosomal bands by fluorescence in situ hybridization. The order of loci determined by genetic linkage was consistent with their physical locations. This map will facilitate efficient linkage studies of human genetic diseases that may be segregating on chromosome 8p and will provide anchor points for development of high-resolution maps for this chromosomal region.     

Construction of an M13 histidine-transducing phage: a single-stranded cloning vehicle with one EcoRI site.

In order to create a ready source of single-stranded DNA for DNA sequence determination by the dideoxy chain-termination method, the promoter-proximal part of the histidine operon, the hisOGD region of Salmonella typhimurium, was cloned onto the single-stranded phage M13. Both orientations of the his DNA were cloned to supply DNA template for sequencing of each strand. Insertion was achieved at an HaeIII site in the intergenic region (IR) of M13, and a single EcoRI site was purposely regenerated at one boundary of the his DNA insert. Infected colonies, not plaques, were selected using the hisD gene as a selective marker. The single RI site and the hisD marker for auxotrophic selection represent improvements on the wild type M13 as a single-stranded vector for cloning other DNA.     

Temperature-Sensitive Induction of Bacteriophage in Bacillus subtilis 168

In a temperature-sensitive mutant of Bacillus subtilis 168, induction of the defective phage PBSX occurred at 48 C. Cell lysis began after 90 min of growth at 48 C, and cell viability began to decrease after 10 to 30 min. The loss in viability at the nonpermissive temperature was prevented by azide or cyanide. Deoxyribonucleic acid (DNA), ribonucleic acid, and protein synthesis were not inhibited at 48 C. Temperature induction of the temperate phage SPO2 also occurred in this mutant. The temperature-sensitive mutation, designated tsi-23, was linked by transduction to purB6 and pig, the order being purB6 pig tsi-23. Mutation tsi-23 was transformable to wild type by B. subtilis 168 DNA but not by DNA from the closely related strains W23 or S31. DNA from the latter two strains transformed auxotrophic markers of strain 168 at frequencies close to those found with 168 donor DNA. Upon temperature induction, cellular DNA was broken to a size of 22S, characteristic of DNA in PBSX particles. The DNA isolated from temperature-induced PBSX did not give an increased Ade(+)/Met(+) transformant ratio relative to cellular DNA nor contain preferential break points as determined by transformation of four closely linked markers.     

Contritution of correction to genetic recombination in T4 phage measured by the effect of map contraction

Marker-dependence of the fine structure map contraction in T4 phage is studied in two-factor crosses between rIIB mutants separated by indicator distances. The genetic intervals, which were short as compared with mean length of the heteroduplex region in hybrid DNA molecules but which exceeded the length of the DNA strand involved in a single correction event, were selected as indicator ones. On the basis of a deviation of measured frequencies from additivity (map contraction) the marker-specific frequencies of wild type recombinants arising as a result of correction to the wild type (kappa (- leads to +)) were calculated. For the most of the marker studied both of the base substitution and frame shift type the frequencies kappa (- leads to +) have the values below 2.10(-4). In the case of three most highly corrected frame shift markers with kappa (- leads to +) being 14.10(-4)--17.10(-4), about ten percent of all mismatched regions are corrected to the wild type.     

Genetic Transformation of Biosynthetically Defective Neisseria gonorrhoeae Clinical Isolates

Deoxyribonucleic acid (DNA) and chemically defined media were used in transformation tests of 51 strains of Neisseria gonorrhoeae which exhibited various biosynthetic defects when isolated from patients. These auxotrophic gonococci had one or more nutritional requirements involving proline, methionine, arginine, hypoxanthine, uracil, and thiamine pyrophosphate (THPP). DNA from a clinical isolate which did not require these compounds for growth on defined medium transformed each of the auxotrophic markers of all 51 recipient populations. Ten isolates had defects involving the synthesis of THPP; four strains (designated Thp(-)) had a growth requirement that was satisfied only by THPP, whereas the requirement of six strains (designated Thi(-)) was satisfied by either thiamine or THPP. DNA from Thp(-) donors elicited transformation of Thp(-) as well as Thi(-) recipients. Reciprocally, DNA from a Thi(-) donor transformed both Thi(-) and Thp(-) recipients. Furthermore, DNA from other auxotrophic gonococci had transforming activity for some phenotypically similar auxotrophic recipients. The findings indicate the existence of various nonidentical genetic defects which block reactions in the biosynthesis of proline, methionine, arginine, hypoxanthine, and THPP. Routine cultures from patients with gonorrhea were the source of these auxotrophic strains of N. gonorrhoeae; the various nutritional requirements were identified by a recently described system of gonococcal auxotyping. The transformation test results verify the hereditary basis of the auxotypes, establish that many different mutations exist in potentially virulent gonococci, and illustrate the value of these auxotrophic mutants for studies of the genetic structure and evolution of natural populations of gonococci.     

应用贝叶斯理论推断DNA分子标记基因型

引入贝叶斯理论用以从DNA分子标记的表现型（电泳谱带）推断其基因型（DNA来源）。结果表明,根据标记座位独立贫富而确定的遗传信息不完全标记的基因型概率,与根据邻近的遗传信息完全标记的基因型和有关重组率算得的相应贝叶斯概率,通常都有很大的差异,所以在进行数量性状基因定位和标记辅助选择等工作前前,应当计算每一个体基因组上所有遗传信息不完全座位的有关基因型的贝叶斯概率,文中列出计算未知基因型的贝叶斯概率的详细过程,也讨论了贝叶斯概率的若干推广应用。     

Assessing genetic potential in germplasm collections of crop plants by marker-trait association: a case study for potatoes with quantitative variation of resistance to late blight and maturity type

Genetic diversity of crop plants resulting from breeding and selection is preserved in gene banks. Utilization of such materials for further crop improvement depends on knowledge of agronomic performance and useful traits, which is usually obtained by phenotypic evaluation. Associations between DNA markers and agronomic characters in collections of crop plants would (i) allow assessment of the genetic potential of specific genotypes prior to phenotypic evaluation, (ii) identify superior trait alleles in germplasm collections, (iii) facilitate high resolution QTL mapping and (iv) validate candidate genes responsible for quantitative agronomic characters. The feasibility of association mapping was tested in a gene bank collection of 600 potato cultivars bred between 1850 and 1990 in different countries. The cultivars were genotyped with five DNA markers linked to previously mapped QTL for resistance to late blight and plant maturity. Specific DNA fragments were tested for association with these quantitative characters based on passport evaluation data. Highly significant association with QTL for resistance to late blight and plant maturity was detected with PCR markers specific for R1, a major gene for resistance to late blight, and anonymous PCR markers flanking the R1 locus at 0.2 Centimorgan genetic distance. The marker alleles associated with increased resistance and later plant maturity were traced to an introgression from the wild species S. demissum. These DNA markers are the first marker that are diagnostic for quantitative agronomic characters in a large collection of cultivars.     

Transposable element Ds at the shrunken locus in Zea mays

Summary Maize DNAs isolated from wild type and from mutants caused by the insertion of transposable genetic element Ds at the gene encoding endosperm sucrose synthase (Sh) are compared in Southern blotting experiments by hybridization to Sh-cDNA cloned in pBR322. Differences observed between the DNAs of the wild type and the mutants indicate the presence of additional DNA at the Sh locus and/or DNA alterations that have occurred subsequent to the insertion of Ds. A double mutant exhibiting the recessive phenotype of both sh and the closely linked gene bz lacks DNA hybridizing to the probe and may be a deletion.     

Molecular mapping of the rf1 gene for pollen fertility restoration in sorghum (Sorghum bicolor L.)

We report the molecular mapping of a gene for pollen fertility in A1 (milo) type cytoplasm of sorghum using AFLP and SSR marker analysis. DNA from an F₂ population comprised of 84 individuals was screened with AFLP genetic markers to detect polymorphic DNAs linked to fertility restoration. Fifteen AFLP markers were linked to fertility restoration from the initial screening with 49 unique AFLP primer combinations (+3/+3 selective bases). As many of these AFLP markers had been previously mapped to a high-density genetic map of sorghum, the target gene (rf1) could be mapped to linkage group H. Confirmation of the map location of rf1 was obtained by demonstrating that additional linkage group-H markers (SSR, STS, AFLP) were linked to fertility restoration. The closest marker, AFLP Xtxa2582, mapped within 2.4 cM of the target loci while two SSRs, Xtxp18 and Xtxp250, flanked the rf1 locus at 12 cM and 10.8 cM, respectively. The availability of molecular markers will facilitate the selection of pollen fertility restoration in sorghum inbred-line development and provide the foundation for map-based gene isolation. Received: 22 August 2000 / Accepted: 18 October 2000     

Identification of SCAR marker linking to longer frond length of <Emphasis Type="Italic">Saccharina japonica</Emphasis> (Laminariales,Phaeophyta) using bulked-segregant analysis

To construct a molecular-marker-assisted selection (MAS) system, research was done on identifying molecular markers linking to longer frond length, a crucial selection index in the breeding of the commercially important seaweed Saccharina japonica. An F₂-segregant population of 92 individuals was obtained by crossing two prominent S. japonica strains. Genomic DNA from ten individuals with the longest frond and ten individuals with the shortest frond in the F₂-segregant population were mixed to create two DNA pools for screening polymorphic markers. In bulked-segregant analysis (BSA), out of 100 random amplified polymorphic DNA (RAPD) primers only two produced three polymorphic RAPD markers between the two DNA pools. In conversion of the three RAPD markers into sequence-characterized amplified region (SCAR) markers, only one was successfully converted into a SCAR marker FL-569 linking to the trait of longer frond. Test of the marker FL-569 showed that 80% of the individuals with longest fronds in a wild population and 87.5% of individuals with the longest fronds in an inbred line “Zhongke No. 2” could be detected by FL-569. Additionally, genetic linkage analysis showed that the SCAR marker could be integrated into the reported genetic map and QTL mapping showed that FL-569 linking to qL1-1. The obtained marker FL-569 will be beneficial to MAS in S. japonica breeding.     

Chromosomal localization of foreign genes in Petunia hybrida

Summary A F1 hybrid of Petunia hybrida, heterozygous for at least one marker on each of the seven chromosomes, was transformed with a modified strain of Agrobacterium tumefaciens in which the phytohormone biosynthetic genes in the transferred DNA (T-DNA) were replaced with a NOS/NPTII/NOS chimeric gene and a wildtype nopaline synthase (NOS) gene. The chimeric gene, which confers kanamycin resistance, was used as selectable marker during the transformation process and the NOS gene was used as a scorable marker in the genetic studies. After plants had been regenerated from the transformed tissues, the transgenic plants that expressed both of these markers were backcrossed to the parental lines. The offspring were examined for the segregation of the NOS gene and the Petunia markers. Genetic mapping was thus accomplished in a single generation.By Southern hybridization analysis we confirmed the presence of the expected T-DNA fragments in the transformed plants. Four out of the six plants presented here, had just one monomeric T-DNA insertion. The sizes of the plant/T-DNA junction fragments suggest that the integration occurred in different sites of the Petunia genome. One transformant gave a more complicated hybridization pattern and possibly has two T-DNA inserts. Another transgenic plant was earlier reported (Fraley et al. 1985) to have two, possibly tandemly repeated T-DNAs.Data is presented on the genetic localization of the T-DNA inserts in six independently obtained transgenic plants. The T-DNA inserts in three plants were mapped to chromosome I. However, the distances between the NOS gene and the marker gene on this chromosome were significantly different. In another transgenic plant the NOS gene was coinherited with the marker on chromosome IV. Two other transgenic plants have the T-DNA insert on chromosome III. A three point cross enabled us to determine that both plants have the NOS gene distally located from the peroxidaseA (prxA) marker and both plants showed about 18% recombination. However, Southern hybridization analysis shows that the sizes of the plant/T-DNA junction fragments in these transgenic plants are different, thus suggesting that the integrations occurred in different sites.     

Effect of auxotrophic starvation on mitochondrial marker transmission in the cdc8 mutant of Saccharomyces cerevisiae

Summary Crosses were made using strains of S. cerevisiae which carried mitochondrial markers conferring resistance to erythromycin and chloramphenicol. The effect of auxotrophic starvation of one parent prior to mating on the transmission of its mitochondrial markers was studied in different crosses relative to the presence of the cdc8 nuclear mutation (a temperature-sensitive DNA replication).In crosses between two cdc8 mutant strains, auxotrophic starvation of one of the haploid parental strains prior to mating caused a marked decrease of its mitochondrial marker transmission to the diploid progeny of the cross. The transmission decreased as a function of the time of starvation. This effect was not observed in the cross between two wild type strains and in crosses of starved cdc8 phenotypic revertants with cdc8 mutant strains. Only a small, if any, effect of starvation on mitochonrial marker transmission was observed when starved cdc8 mutant strains were crossed either with their phenotypic revettants or with the wild-type strains.In one of the haploid parental strains the starvation increased the frequency of petites as a function of starvation time, while in the other this effect was not observed.In the progeny of cdc8xcdc8 crosses (both in starvation experiments and in control crosses) an increased frequency of diploid petite cells accompanied by a decreased frequency of recombination between mitochondrial markers was noticed.The influence of the cdc8 mutation on the transmission of mitochondrial markers is discussed in terms of high frequency of ^– molecule formation in cdc8 strains.     

Identification of peanut (Arachis hypogaea L.) RAPD markers diagnostic of root-knot nematode (Meloidogyne arenaria (Neal) Chitwood) resistance

DNA markers linked to a root-knot nematode resistance gene derived from wild peanut species have been identified. The wild diploid peanut accessions K9484 (Arachis batizocoi Krapov. & W. C. Gregory), GKP10017, (A. cardenasii Krapov & W. C. Gregory), and GKP10602 (A. diogoi Hoehne) possess genes for ressitance to Meloidogyne arenaria. These three accessions and A. hypogaea cv. Florunner were crossed to generate the hybrid resistant breeding line TxAg-7. This line was used as donor parent to develop a BC₄F₂ population segregating for resistance. Three RAPD markers associated with nematode resistance were identified in this population by bulked segregant analysis. Linkage was confirmed by screening 21 segregatingh BC₄F₂ and 63 BC₅F₂ single plants. Recombination between marker RKN410 and resistance, and between marker RKN440 and resistance, was estimated to be 5.4±1.9% and 5.8±2.1%, respectively, on a per-generation basis. These two markers identified a resistance gene derived from either A. cardenasii or A. diogoi, and were closely linked to each other. Recombination between a third marker, RKN229, inherited from A. cardenasii or A. diogoi, and resistance was 9.0±3.2% per generation. Markers RKN410 and RKN229 appeared to be linked genetically and flank the same resistance gene. All markers were confirmed by hybridization of cloned or gel-purified marker DNA to blots of PCR-amplified DNA. Pooled data on the segregation of BC₅F₂ plants was consistent with the presence of one resistance gene in the advanced breeding lines. Different distributions of resistance in the BC₅F₂ progeny and TxAG-7 suggest the presence of additional resistance genes in TxAG-7.     

Validation of the high-throughput marker technology DArT using the model plant Arabidopsis thaliana

Diversity Arrays Technology (DArT) is a microarray-based DNA marker technique for genome-wide discovery and genotyping of genetic variation. DArT allows simultaneous scoring of hundreds of restriction site based polymorphisms between genotypes and does not require DNA sequence information or site-specific oligonucleotides. This paper demonstrates the potential of DArT for genetic mapping by validating the quality and molecular basis of the markers, using the model plant Arabidopsis thaliana. Restriction fragments from a genomic representation of the ecotype Landsberg erecta (Ler) were amplified by PCR, individualized by cloning and spotted onto glass slides. The arrays were then hybridized with labeled genomic representations of the ecotypes Columbia (Col) and Ler and of individuals from an F₂ population obtained from a Col × Ler cross. The scoring of markers with specialized software was highly reproducible and 107 markers could unambiguously be ordered on a genetic linkage map. The marker order on the genetic linkage map coincided with the order on the DNA sequence map. Sequencing of the Ler markers and alignment with the available Col genome sequence confirmed that the polymorphism in DArT markers is largely a result of restriction site polymorphisms.Electronic Supplementary Material Supplementary material is available in the online version of this article at