LOSS OF HYBRID LETHALITY DURING BACKCROSS PROGRAMS INVOLVING CHLAMYDOMONAS EUGAMETOS AND CHLAMYDOMONAS MOEWUSII (CHLOROPHYCEAE)1

Wild-type strains of the interfertile species Chlamydomonas eugametos (UTEX 9 and 10) and Chlamydomonas moewusii (UTEX 96 and 97) male readily and reciprocally; however, considerable lethality occurs among F₁ hybrid meiotic products. We prepared two hybrid backcross lineages using C. eugametos and C. moewusii. One lineage began with the cross C. eugametos mating-type-plus (mt⁺) × C. moewusii mating-type-minus (mt^?). An F₁ mt⁺ hybrid from this cross was back-crossed to C. moewusii mt^?, and a B₁ mt⁺ hybrid was recovered. The B₁ hybrid was again backcrossed to C. moewusii mt^?, and this process was repeated through the fifth backcross. The other backcross lineage began with the reciprocal cross C. moewusii mt⁺× C. eugametos mt^? and employed C. eugametos as the recurring mt^? parent. This lineage also was continued through the fifth backcross. Meiotic product survival in the reciprocal interspecific crosses was less than 10%. In successive back-cross generations associated with both lineages, this value increased progressively to a maximum of 85–90%, the level observed for the intraspecific crosses. These results are consistent with the hypothesis that multiple genetic differences exist between C. eugametos and C. moewusii and that these are the major source of meiotic product lethality associated with the interspecific crosses. The inheritance of chloroplast genetic markers for resistance to streptomycin (sr-2) and for resistance to erythromycin (er-nM1) was also scored w the interspecific crosses and in the backcrosses. Most hybrid zygospores transmitted the resistance markers of the mt⁺ parent only, or of both parents, with the former zygospore type being more common. Although the intraspecific C. eugametos and C. moewusii crosses differ conspicuously with respect to the fraction of zygospores which transmit chloroplast genetic markers of both parents, the inheritance of chloroplast genetic markers in the interspecific crosses and backcrosses at' scribed here failed to clarify the genetic basis for this difference.     

A COMPARATIVE STUDY OF SEXUAL REPRODUCTION IN FOUR SPECIES OF CHLAMYDOMONAS

Trainor , Francis R. (U. Connecticut, Storrs.) A comparative study of sexual reproduction in four species of Chlamydomonas. Amer. Jour. Bot. 46(2) : 65-70. 1959.—This paper reports results of comparative experiments on some factors affecting sexual reproduction in 4 species of Chlamydomonas. Sexuality can be controlled in 3 of these species (C. chlamydogama, C. eugametos and C. reinhardti) by the level of ammonium nitrate in the harvesting medium. It was demonstrated that periodicity of illumination was of importance for high zygospore yields with C. chlamydogama and C. eugametos. Other variables, e.g., various aspects of nitrogen level, illumination and inter-fertility, were investigated and the results summarized in tabular form.     

UNIPARENTAL INHERITANCE IN CHLAMYDOMONAS EUGAMETOS (CHLOROPHYCEAE)1,2

The gene sr-2 conferring resistance to 500 μ/ml streplomycin exhibits uniparental inheritance in Chlamydomonas eugametos Moewus. The mutation to neamine dependence (nd) is probably of the same type. All meiotic progeny from crosses involving these mutant genes have the phenotype of the historically designated male parent. Unlike C. reinhardtii Dang., no exceptional zygotes have been observed.     

A linear DNA molecule of 5.9 kilobase-pairs is highly homologous to the chloroplast DNA in the green alga Chlamydomonas moewusii

Summary The unicellular green alga Chlamydomonas moewusii contains small DNA species of unknown cellular location. We report that the most abundant of these DNAs, here designated low-molecular-weight DNA (LMW DNA), is a linear molecule of 5.9 kilobase pairs (kbp). Southern blot hybridization and restriction enzyme analysis revealed that the LMW DNA sequence also exists as an integrated sequence in a discrete region of the chloroplast genome. We have confirmed earlier reports that small DNA species related to the LMW DNA are absent from Chlamydomonas eugametos, an alga which is interfertile with C. moewusii. In the C. eugametos chloroplast genome we found only remnants of the LMW DNA sequence.     

RFLP and RAPD mapping in flax (Linum usitatissimum)

A map of flax (Linum usitatissimum) using restriction fragment length polymorphisms (RFLPs) and random amplified polymorphic DNAs (RAPDs), and comprising 15 linkage groups containing 94 markers, has been developed covering about 1000 cM. The mapping populations were the F₂ populations from two crosses between diverse cultivars. From one cross, CI1303 and Stormont Cirrus, 20 RFLP and 520 RAPD markers were analyzed. Thirteen RFLP and 80 RAPD markers were on the 15 linkage groups, in addition to one sequence-tagged site (STS). Seven polymorphic RAPD markers were found to have unusual segregation patterns. RAPDs were expressed as dominant markers, but for these markers a prevalence of the progeny lacked a band rather than the expected one-fourth ratio. However, these exceptions may be related to the instability of the genome of Stormont Cirrus in which stable and heritable genomic changes can be induced by environmental factors. The current map could be used for the identification of markers linked to loci controlling the ability to generate heritable changes in response to environmental growth conditions, and to develop anchor loci with STSs for a more general application. Received: 20 March 1999 / Accepted: 16 December 1999     

Isolation and characterization of 31 polymorphic microsatellite markers in barfin flounder (Verasper moseri) and the cross-species amplification in spotted halibut (Verasper variegatus)

The construction of a genetic linkage map and evaluation of population genetic diversity both require large numbers of polymorphic molecular markers. In the present study, we report 31 polymorphic microsatellite markers, of which 28 were isolated from two repeat-enriched libraries constructed from genomic DNA, and three were detected in two genes (MCH-R1 and MCH-R2) of barfin flounder (Verasper moseri). A total of 94 alleles were detected with an average of 3.0 alleles per locus. The number of alleles, observed and expected heterozygosity per locus ranged from two to six, from 0.30 to 1.00 and from 0.33 to 0.78, respectively. Three loci significantly deviated from Hardy-Weinberg equilibrium after Bonferroni correction (P < 0.0016) and no significant linkage disequilibrum between pairs of loci was found. Cross-species amplification of these markers was evaluated using the closely related species spotted halibut (Verasper variegatus). This study will potentially be useful for stock management, constructing of a genetic linkage map, mapping economically important quantitative trait loci (QTL), and studying the population genetic diversity of barfin flounder (Verasper moseri).     

Linkage between Frl (Fusarium oxysporum f.sp. radicis-lycopersici resistance) and Tm-2 (tobacco mosaic virus resistance-2) loci in tomato (Lycopersicon esculentum)

A study was carried out on the linkage relationship between the Frl locus carrying resistance to Fusarium oxysporum f.sp. radicis-lycopersici and the Tm-2 locus carrying resistance to several races of tobacco mosaic virus in the tomato inbred line IRB-301-31. The inbred line Motelle (Frl⁺/Frl⁺, Tm-2⁺/Tm-2⁺) was crossed with the inbred line IRB-301-31 (Frl/Frl, Tm-2/Tm-l). The resulting 222 F₂ plants were selfed, and from each F₃ family groups of 15–60 seedlings were tested for resistance to either F. oxysporum f.sp. radicis-lycopersici or tobacco mosaic virus race 0. Segregation data indicated a very tight linkage between Frl and Tm-2, equal to 5.1 ± 1.07 map units.     

Identification of a maize linkage group related to apomixis in Brachiaria

 A bulked segregant analysis using RFLPs and RAPDs was carried out to identify molecular markers co-segregating with apomixis in a Brachiaria F₁ population. The test population used was a cross between sexual B. ruziziensis R44 and the aposporous apomictic Brachiaria brizantha cv Marandu. The Brachiaria genome was systematically scanned using 61 cDNA and genomic maize clones detecting 65 loci located at 40 cM, on average, one from each other in the maize genome. The finding of a clone that presented a polymorphic band co-segregating with apomixis (umc147) led to the identification of another marker within the same area (umc72). The clones belong to a duplicated linkage group that maps to the distal part of maize chromosome-1 long arm and chromosome-5 short arm. RAPD analysis using 184 primers from Operon sets yielded one more marker (OPC4) significantly linked to the trait mapping the same locus. OPC4 had been previously reported as a potential marker for apospory in Pennisetum. A map of the region was constructed using additional clones that belong to the same maize linkage group. Since that was the only genomic region that presented an apomixis-linked polymorphism our observations support the existence of a single locus directing apospory in Brachiaria. Received: 9 September 1996 / Accepted: 20 September 1996     

A linkage map of rye

A linkage map of rye (Secale cereale L.) is presented which comprises 60 loci including RFLPs, RAPDs, isozyme, morphological and physiological markers. The genetics and linkage relationships of these markers were investigated in several inbred lines of rye. For the RFLP mapping a genomic library of PstI-digested DNA was constructed from which 50 size-selected clones were analysed. The portion of single-copy and multi-copy DNA and the frequency of polymorphic DNA was determined. The markers are unequally distributed over the seven chromosomes of rye. Many of them exhibit a distorted segregation. The main region of deviating segregation ratios could be localized near the self-incompatibility loci.     

Construction of a linkage map of Lentinula edodes (shiitake) with the HEGS (high-efficiency genome scanning) system: use of versatile AFLP and PCR-based gene markers

An improved linkage map of Lentinula edodes (shiitake) was constructed with an HEGS (high-efficiency genome scanning) system. Two hundred twenty-one HEGS-derived amplified fragment length polymorphism (AFLP-H) markers and 21 gene markers were developed and combined with 203 previously developed sequencer-derived AFLP markers (AFLP-S markers) and 3 mating factor loci (A, Bα, and Bβ) to construct a comprehensive linkage analysis. As a result, a novel linkage map with 166 markers including 2 mating factors (A and B), 10 HEGS-derived gene markers, 72 AFLP-H markers, and 82 AFLP-S markers was obtained. Of the total 448 markers, 273 could not be located on a linear map and thus were assigned to linkage groups as accessory markers. The map covers a total length of 1398.4 centimorgans (cM) with an average marker interval distance of 8.4 cM. The map consists of 11 linkage groups (LGs) in agreement with our previous map, and 7 LGs among them were found to contain branched linkages, which may be the result of reciprocal translocations representing dynamic reorganization of the shiitake genome. The previously reported linkage map was improved in terms of number of markers, marker density, linear order of markers, and total map length. Contribution no. 384 of the Tottori Mycological Institute     

Construction of a genetic linkage map in <Emphasis Type="Italic">Fenneropenaeus chinensis</Emphasis> (Osbeck) using RAPD and SSR markers

The primary genetic linkage maps of Fenneropenaeus chinensis (Osbeck) were constructed by using the “two-way pseudo-testcross” strategy with RAPD and SSR markers. Parents and F1 progeny were used as segregating populations. Sixty-one RAPD primers and 20 pairs of SSR primers were screened from 460 RAPD primers and 44 pairs of SSR primers. These primers were used to analyze the parents and 82 progeny of the mapping family. About 146 primers (128 RAPDs, 18 microsatellites) in the female and 127 primers (109 RAPDs, 18 microsatellites) in the male were segregating markers. The female linkage map included eight linkage groups, nine triplets and 14 doublets, spanning 1,173 cM with the average marker density of 11.28 cM, and the observed coverage was 59.36%. The male linkage map included 10 linkage groups, 12 triplets and seven doublets, spanning 1,144.6 cM with the average marker density of 12.05 cM, and the observed coverage was 62.01%. The construction of the F. chinensis genetic linkage maps here opened a new prospect for marker-assisted selection program, comparative genomics and quantitative trait loci (QTL) gene location and cloning.     

A genetic map of melon (Cucumis melo L.) based on amplified fragment length polymorphism (AFLP) markers

 Genetic maps facilitate the study of genome structure and evolution, and the identification of monogenic traits or Mendelian components of quantitative traits. We evaluated 228 RAPD, microsatellite and AFLP markers for linkage analysis in melon (Cucumis melo L.) varieties MR-1 (resistant to Fusarium wilt, powdery and downy mildews) and Ananas Yokneum (AY; susceptible to these diseases) and constructed a detailed genetic map. The mapping population consisted of 66 backcross progenies derived from AY×(MR-1×AY). Despite a relatively low level of polymorphism in the species, AFLP markers were found to be more efficient in mapping the melon genome than RAPD or microsatellite markers. The map contains 197 AFLPs, six RAPDs and one microsatellite marker assigned to 14 major and six minor linkage groups, and covers 1942 cM with the average distance between adjacent markers of approximately 10 cM. The maximum distance allowed between markers is 27.5 cM. About 11% of the intervals (20 out of 173) are over 20 cM (but less than 27.5 cM). The map has immediate utility for identifying markers linked to disease resistance genes that are suitable for marker-assisted breeding. The use of microsatellite markers for integration with other maps is also discussed. Received: 12 March 1997 / Accepted: 20 May 1997     

Genetic and physical mapping of Pi37(t), a new gene conferring resistance to rice blast in the famous cultivar St. No. 1

The famous rice cultivar (cv.), St. No. 1, confers complete resistance to many isolates collected from the South China region. To effectively utilize the resistance, a linkage assay using microsatellite markers (SSR) was performed in the three F₂ populations derived from crosses between the donor cv. St. No. 1 and each of the three susceptible cvs. C101PKT, CO39 and AS20-1, which segregated into 3R:1S (resistant/susceptible) ratio, respectively. A total of 180 SSR markers selected from each chromosome equally were screened. The result showed that the two markers RM128 and RM486 located on chromosome 1 were linked to the resistance gene in the respective populations above. This result is not consistent with those previously reported, in which a well-known resistance gene Pif in the St. No. 1 is located on chromosome 11. To confirm this result, additional four SSR markers, which located in the region lanked by RM128 and RM486, were tested. The results showed that markers RM543 and RM319 were closer to, and RM302 and RM212 completely co-segregated with the resistance locus detected in the present study. These results indicated that another resistance gene involved in the St. No. 1, which is located on chromosome 1, and therefore tentatively designated as Pi37(t). To narrow down genomic region of the Pi37(t) locus, eight markers were newly developed in the target region through bioinformatics analysis (BIA) using the publicly available sequences. The linkage analysis with these markers showed that the Pi37(t) locus was mapped to a ≈ 0.8 centimorgans (cM) interval flanked by RM543 and FPSM1, where a total of seven markers co-segregated with it. To physically map the locus, the Pi37(t)-linked markers were landed on the reference sequence of cv. Nipponbare through BIA. A contig map corresponding to the locus was constructed based on the reference sequence aligned by the Pi37(t)-linked markers. Consequently, the Pi37(t) locus was defined to 374 kb interval flanking markers RM543 and FPSM1, where only four candidate genes with the resistance gene conserved structure (NBS-LRR) were further identified to a DNA fragment of 60 kb in length by BIA.     

Comparison of RAPD and RFLP markers for mapping F2 generations in maize (Zea mays L.)

The F₂ generations from two maize crosses were used to compare the ability of RAPD and RFLP marker systems to create a genetic linkage map. Both RFLPs and RAPDs were shown to provide Mendelian-type markers. Most of the RFLPs (80%) could be placed with a good level of certainty (LOD>4) on the genetic linkage map. However, because of their dominant nature, only between 37% and 59% of the RAPDs could be placed with such a LOD score. The use of combined data from RFLPs and RAPDs increases the level of information provided by RAPDs and allows the creation of a combined RFLP/RAPD genetic linkage map. Thus, the RAPD technique was found to be a powerful method to provide improved probes coverage on a previously created RFLP map and to locate markers linked to chromosomal regions of interest.     

ELECTROPHORETIC ANALYSIS OF ENZYMES FROM THREE SPECIES OF CHLAMYDOMONAS

Isoenzyme patterns of acetone-extracted proteins revealed a close similarity between Chlamydomonas eugametos and C. moewusii but a distant relationship between the two and C. reinhardtii. Chlamydomonas eugametos and C. moewusii had identical banding patterns of malate dehydrogenase (MDH) and leucine aminopeptidase (LAP) in starch gels. These two species exhibited the same MDH distribution spectrum in analytical disc polyacrylamide gels but neither species showed definitive LAP or glutamate dehydrogenase (GDH) activity. There were differences in the starch gel alpha esterase (α-EST) patterns of C. eugametos and C. moewusii due to an additional weak band at Rf 0.75 in the latter species and a slight variation in the position of another band at Rf 0.80–0.82. Some variations between the two species also occurred in the α-EST banding in disc gels at Rf 0.70–0.85 and at Rf 0.06–0.14 with C. moewusii exhibiting the greatest number of bands. Chlamydomonas reinhardtii displayed patterns of all four enzymes but the band characteristics were distinctively different from those of C. eugametos and C. moewusii. There appeared to be no obvious isoenzyme difference between mating types of either species. It is concluded that C. eugametos and C. moewusii are not identical species but are closely related in regard to the enzymes assayed. Isoenzyme analysis is considered to be a useful approach to algal systematics.     

Molecular genetics of growth and development in Populus. III. A genetic linkage map of a hybrid poplar composed of RFLP,STS, and RAPD markers

We have evaluated three DNA-based marker types for linkage map construction in Populus: RFLPs detected by Southern blot hybridization, STSs detected by a combination of PCR and RFLP analysis, and RAPDs. The mapping pedigree consists of three generations, with the F₁ produced by interspecific hybridization between a P. trichocarpa female and a P. deltoides male. The F₂ generation was made by inbreeding to the maximum degree permitted by the dioecious mating system of Populus. The applicability of STSs and RAPDs outside the mapping pedigree has been investigated, showing that these PCR-based marker systems are well-suited to breeding designs involving interspecific hybridization. A Populus genome map (343 markers) has been constructed from a combination of all three types. The length of the Populus genome is estimated to be 2400–2800 cM.Abbreviations RFLP restriction fragment length polymorphism - STS sequence-tagged site - PCR polymerase chain reaction - RAPD random amplified polymorphic DNA     

A 21 kilobase-pair deletion/addition difference in the inverted repeat sequence of chloroplast DNA from Chlamydomonas eugametos and C. moewusii

Summary Our recent physical mapping of chloroplast DNA (cpDNA) from Chlamydomonas moewusii, a unicellular green alga which is interfertile with Chlamydomonas eugametos, has revealed a two-fold size difference between the inverted repeat sequences of these algae. With a size of 42 kbp, the inverted repeat of C. moewusii is the largest yet identified in any chloroplast genome. Here we have compared the arrangement of conserved sequences within the two algal inverted repeats by hybridizing cloned restriction fragments representing over 90% of these repeats to Southern blots of cpDNA digests from the two algae. We found that the size difference between the two algal inverted repeats is due to the presence of an extra DNA segment of 21 kilobase pairs (kbp) in C. moewusii. Except for this sequence, the C. moewusii inverted repeat is highly homologous to the entire C. eugametos repeat and the arrangement of conserved sequences in the two repeats is identical. Southern hybridizations with specific gene probes revealed that the conserved sequences include the rDNA region and the genes coding for the large subunit of ribulose 1,5 bisphosphate carboxylase-oxygenase (rbcL) and for the 32 kilodalton thylakoid membrane protein (psbA). With respect to the conserved sequences, the extra 21 kbp DNA segment of C. moewusii lies in the region of psbA, most probably slightly downstream from this gene.     

A rat homolog of the mouse deafness mutant jerker (je)

An autosomal recessive deafness mutant was discovered in our colony of Zucker (ZUC) rats. These mutants behave like shaker-waltzer deafness mutants, and their inner ear pathology classifies them among neuroepithelial degeneration type of deafness mutants. To determine whether this rat deafness mutation (−) defines a unique locus or one that has been previously described, we mapped its chromosomal location. F₂ progeny of (Pbrc:ZUC × BN/Crl) A/a B/b H/h+/− F₁ rats were scored for coat color and behavioral phenotypes. Segregation analysis indicated that the deafness locus might be loosely linked with B on rat Chromosome (Chr) 5 (RNO5). Therefore, 40 −/− rats were scored for BN and ZUC alleles at four additional loci, D5Mit11, D5Mit13, Oprd1, and Gnb1, known to map to RNO5 or its homolog, mouse Chr 4 (MMU4). Linkage analysis established the gene order (cM distance) as D5Mit11–(19.3)–B–(17.9)–D5Mit13–(19.2)–Oprd1–(21.5) − (1.2) Gnb1, placing the deafness locus on distal RNO5. The position of the deafness locus on RNO5 is similar to that ofjerker (je) on MMU4; the phenotypes and patterns of inheritance of the deafness mutation and je are also similar. It seems likely that the mutation affects the rat homolog of je. The rat deafness locus should, therefore, be named jerker and assigned the gene symbol Je. Received: 13 June 1995 / Accepted: 4 January 1996     

Development and Characterization of a Genetic Linkage Map of Cryptococcus neoformans var. neoformans Using Amplified Fragment Length Polymorphisms and Other Markers

A segregating population of single basidiospore isolates from a sexual cross was used to generate the first moderately dense genetic linkage map of Cryptococcus neoformans var. neoformans (Serotype D). Polymorphic DNA markers were developed using amplified fragment length polymorphisms, random amplified polymorphic DNA, and gene-encoding sequences. These markers were used to analyze 100 meiotic progeny. All markers were tested for distorted segregation with a goodness of fit test. Of the total of 181 markers, 148 showed balanced (1:1) segregation ratios. Segregation distortion was observed for 33 markers. Based on all the markers, a linkage map was generated that consists of 14 major linkage groups with 127 markers, several small linkage groups, and 2 linkage groups that consist only of highly skewed markers. The genetic distance of the linkage map is 1356.3 cM. The estimated total haploid genome size for C. neoformans var. neoformans was calculated using Hulberts method and yielded a map size of 1917 cM. The number of major linkage groups correlates well with the proposed number of 13 chromosomes for C. neoformans var. neoformans. Several genes, including CAP64, CnLAC, and the mating-type locus, were mapped, and their associations were consistent with published data. To date, 6 linkage groups have been assigned to their corresponding chromosomes. This linkage map should provide a framework for the ongoing genome sequencing project and will be a useful tool for studying the genetics and pathogenicity of this important medical yeast.     

Biochemical markers in rats: Linkage relationships of aconitase (Acon-1), aldehyde dehydrogenases (Ahd-2 and Ahd-c), alkaline phosphatase (Akp-1), and hydroxyacid oxidase (Hao-1)

We have examined the linkage relationships between five biochemical markers, Acon-1, Ahd-2, Ahd-c, Akp-1, and Hao-1, and 19 other genetic loci in five breeding combinations. The genetic locus that codes for a recently described aldehyde dehydrogenase in the liver (Ahd-c) has been assigned to linkage group X (LG X). Hydroxyacid oxidase is coded for by a locus (Hao-1) that is linked to genes that encode agouti coat color and seminal vesicle proteins in linkage group IV. Alkaline phosphatase (Akp-1) was linked to the locus that encodes the C6 component of complement and this association provisionally defines a new linkage group (LG XI) in the rat. The locus Acon-1 could not be positively assigned to a specific linkage group but the results from one breeding combination suggest that this locus may be included in linkage group II. No linkage relationship could be detected for the aldehyde dehydrogenase coded for by Ahd-2.This work was supported by Grant GM 32580 from the National Institutes of Health, United States Public Health Service.