Isoenzyme variation in the generaPhaseolus andVigna (Fabaceae) in relation to their systematics: Aspartate aminotransferase and superoxide dismutase

Evolutionary variation of aspartate aminotransferase and superoxide dismutase isoenzymes in 14 wild and cultivated species ofPhaseolus andVigna has been studied by electrophoresis and isoelectric focusing in polyacrylamide gel. The American cultivated beans of the genusPhaseolus s. str.,P. vulgaris, P. coccineus, P. lunatus andP. acutifolius, form a homogeneous group with only minor isoenzyme variation. The genusVigna, on the contrary, proves to be heterogeneous in isozyme characters. Several clusters of taxa can be distinguished in close correspondence with modern treatments of the genus. The isoenzyme data support the inclusion of the Asian Azuki beans of subg.Ceratotropis inVigna, but argue against the transfer of the S. American speciesP. adenantha. The cowpea complexV. unguiculata s. lato of sect.Catiang forms an uniform and isolated group, distinct from other sections of subg.Vigna, and shows affinity toPhaseolus s. str. by some isoenzymes. It is suggested to removeV. unguiculata s. lato from subg.Vigna and to recognize it as a separate subg.Catiang (DC.)Jaaska & Jaaska, stat. nov.     

Molecular phylogeny of genus Vigna subgenus Ceratotropis based on rDNA ITS and atpB-rbcL intergenic spacer of cpDNA sequences

The genetic diversity and phylogenetic relationships among species in the genus Vigna subgenus Ceratotropis were investigated using sequence data from the ribosomal DNA ITS and atpB-rbcL intergenic spacer of chloroplast DNA regions. While both sets of sequences were of similar lengths about 700bp the rDNA-ITS was more informative than atpB-rbcL having 170% more polymorphic sites and five times as many parsimony-informative sites. The atpB-rbcL spacer may be appropriate for analysis of taxa above the species level in the genus Vigna. Results of analyzing rDNA-ITS revealed, with low level of statistical bias, separation of the subgenus into three groups that correspond to the three sections Aconitifoliae, Angulares, and Ceratotropis. The ancestral section is Aconitifoliae based on comparison with the outgroup species cowpea, Vigna unguiculata. The V. minima complex, V. minima, V. riukiuensis, and V. nakashimae, has a distinct evolutionary path within section Angulares. Other species in section Angulares are very closely related except V. trinervia. Vigna trinervia has an intermediate position between sections. Sequence data suggests one genome donor to V. reflexo-pilosa came from a lineage within section Angulares close to V. exilis, V. hirtella, and V. umbellata. Data presented supports the view that section Angulares is the most recently diversified section in the subgenus, as inferred by short terminal branch lengths among the species of this section.     

Development of intron length polymorphism markers in cowpea [Vigna unguiculata (L.) Walp.] and their transferability to other Vigna species

Expressed sequence tag (EST) sequences available in the public databases provide a cost-effective and valuable genomic resource for the development of molecular markers. Introns which are non-coding DNA sequences of the gene could be used as potential molecular markers as they are highly variable compared to the coding sequences. This study reports the development of intron length polymorphism markers in cowpea [Vigna unguiculata (L.) Walp.]. The ESTs of cowpea were aligned with genomic sequences of Arabidopsis and soybean to predict the position and number of introns in cowpea. Of the 110 PCR primer pairs designed to amplify the intronic regions, 98 primer pairs resulted in successful amplification and were identified as cowpea intron length polymorphism (CILP) markers. Out of the 45 randomly selected CILP markers, 36?% markers produced length variation in the ten cowpea genotypes, collectively yielding 33 alleles with an average of 2.0 alleles/locus. The polymorphism information content of the CILP markers ranged from 0.18 to 0.64 with an average of 0.34. Of the 98 CILP markers, 93 markers (95?%) showed transferability to other Vigna species. Dendrograms based on CILP markers clearly distinguished the cowpea genotypes as well as other Vigna species, demonstrating the utility of CILP markers in genetic diversity and phylogenetic studies. These CILP markers will be very useful in the genome analysis and marker-assisted breeding of cowpea and other Vigna species.     

Isoenzyme Variation in Asian Beans

Electrophoretic variation of isoenzyme characters encoded by 20 gene loci has been studied in 9 species of Asian beans, comprising subgenus Ceratotropis of the genus Vigna. Four species of hypogeal germination type, V. angularis, V. umbellata, V. dalzelliana and V. minima, are shown to form a distinct monophyletic group in the subgenus, sharing common electromorphs of two major isoenzymes of aspartate aminotransferase. V. glabrescens is confirmed to be an allotetraploid derivate of two diploids closely related to V. radiata and V. umbellata, but divergent from their contemporary accessions analyzed. V. trilobata is the most variable species of the subgenus in isoenzyme characters. It reveals intraspecific differentiation at several isoenzyme loci correlated with the seed morphology and geographical localization.     

Relationships among strains of bean common mosaic virus and blackeye cowpea mosaic virus - members of the potyvirus group

In host-range studies, bean common mosaic virus strains (BCMV-NL1, -NL3 and -NY 15) usually induced distinct systemic symptoms in susceptible bean cultivars and latent infection in several Vigna genotypes (except NY15 which gave mosaic symptoms in the latter), while blackeye cowpea mosaic virus (B1CMV-W) caused distinct systemic symptoms in several Vigna genotypes and only weak systemic symptoms in a few bean genotypes only. Biologically, B1CMV-W was closest to BCMV-NY15 and less close to -NL1. When using antisera to the three BCMV strains and five strains of B1CMV (including a strain originally considered cowpea aphid-borne mosaic virus CAMV-Mor) in SDS-immunodiffusion and ELISA, BCMV-NL1 and -NY15 were found to be closely related to each other and to BICMV-Fla, -NR and -W, and less closely to BICMV-Ind and -Mor. Serological relationships of BCMV-NL1 and -NY15 to BCMV- NL3 were more distant, which is in line with the biological distinction of NL3 in causing temperature-independent necrosis in bean cultivars with the necrosis gene I. PAGE analysis of coat proteins revealed that the three strains of BCMV and B1 CMV-W have similar but non-identical molecular masses. Although molecular hybridisation may further elucidate quantitative relationships between potyvir-uses, variation within and among the potyviruses may continue to pose problems in their classification and identification.     

Comparative molecular mapping in Ceratotropis species using an interspecific cross between azuki bean (Vigna angularis) and rice bean (V. umbellata)

A genetic linkage map was developed with 86 F₂ plants derived from an interspecific cross between azuki bean (Vigna angularis, 2n=2x=22) and rice bean (V. umbellata, 2n=2x=22). In total, 14 linkage groups, each containing more than 4 markers, were constructed with one phenotypic, 114 RFLP and 74 RAPD markers. The total map size was 1702 cM, and the average distance between markers was 9.7 cM. The loci showing significant deviation from the expected ratio clustered in several linkage groups. Most of the skewed loci were due to the predominance of rice bean alleles. The azuki-rice bean linkage map was compared with other available maps of Vigna species in subgenus Ceratotropis. Based on the lineage of the common mapped markers, 7 and 16 conserved linkage blocks were found in the interspecific map of azuki bean ×V. nakashimae and mungbean map, respectively. Although the present map is not fully saturated, it may facilitate gene tagging, QTL mapping and further useful gene transfer for azuki bean breeding. Received: 20 March 1999 / Accepted: 29 April 1999     

Molecular characterization of intergenic spacer region of 5S ribosomal RNA genes in subgenus Vigna: extensive hybridization among V. unguiculata subspecies

We report the molecular analysis of the 5S ribosomal RNA intergenic spacer (IGS) region from 57 Vigna species of subgenus Vigna. Sequence analysis revealed that the 5S IGS was highly variable in length (189?C237?bp) and sequence (58% polymorphic sites). Most of the Vigna species analysed harboured a single type of 5S rRNA repeat unit, except V. unguiculata and V. reticulata that showed multiple ??intragenomic?? 5S types. The intragenomic 5S types among the six V. unguiculata subspecies were characterized by PCR-RFLP, genomic RFLP and sequencing. The 5S IGS was phylogenetically informative (comparable to ITS-1 and ITS-2 spacers) in inferring species relationships among the Vigna species analysed. However, due to the presence of multiple intragenomic 5S types and their incomplete homogenization among V. unguiculata subspecies the relationships in section Catiang could not be resolved below species level. The results presented indicate that intraspecies hybridization might have resulted in the ??horizontal transfer?? of 5S types among the V. unguiculata subspecies, while their maintenance could be due to a slow molecular drive.     

A genetic linkage map of azuki bean constructed with molecular and morphological markers using an interspecific population (Vigna angularis x V. nakashimae)

A genetic linkage map of azuki bean (Vigna angularis) was constructed with molecular and morphological markers using an F₂ population of an interspecific cross between azuki bean and its wild relative, V. nakashimae. In total, 132 markers (108 RAPD, 19 RFLP and five morphological markers) were mapped in 14 linkage groups covering 1250 cM; ten remained unlinked. The clusters of markers showing distorted segregation were found in linkage groups 2, 8 and 12. By comparing the azuki linkage map with those of mungbean and cowpea, using 20 RFLP common markers, some sets of the markers were found to belong to the same linkage groups of the respective maps, indicating that these linkage blocks are conserved among the three Vigna species. This map provides a tool for markerassisted selection and for studies of genome organization in Vigna species.     

Differences in shoot regeneration response from cotyledonary node explants in Asiatic Vigna species support genomic grouping within subgenus Ceratotropis (Piper) Verdc.

The efficiency of any plant regeneration system lies in part in its wide applicability to diverse genotypes. In Asiatic Vigna, cotyledon and cotyledonary node explants from 4-day-old seedlings of 27 genotypes were cultured in a medium consisting of MS salts, B5 vitamins, 3.0% sucrose and 1.0 mg l^-1 BA. Direct and efficient multiple shoot regeneration (80–100%) from the cotyledonary nodes was obtained in all epigeal species namely radiata, mungo, aconitifolia, subspecies radiata var. sublobata, mungo var. silvestris and in the hypogeal but allotetraploid glabrescens. In contrast, two other hypogeal species V. angularis and V. umbellata failed to initiate shoots from the nodes. However, adventititious shoots developed at the basipetal cut (hypocotyl) in 35–67% of V. angularis explants. These results provide evidence in support of the existing genomic grouping within subgenus Ceratotropis, which designates AA, A₁A₁ and A₁A₁/- to epigeal, hypogeal and the allotetraploid species, respectively. Mean shoot production ranged from 3.3 to 10.4 shoots per explant during the first subculture and varied significantly among the responsive genotypes within 4 species. Additional shoots were obtained in all genotypes after subsequent subculture. However, cotyledons were not as regenerable as cotyledonary node explants. Although significant differences in rooting were observed among the shoots of the 15 genotypes, the response was generally higher in MS basal medium (MSO) than in MS with 1.0 mg l^-1 IAA. Regenerated plants were successfully transferred to soil (50–100% survival rate) and all surviving plants were reproductively fertile. This revised version was published online in June 2006 with corrections to the Cover Date.     

Molecular-marker analysis of seed-weight: genomic locations,gene action,and evidence for orthologous evolution among three legume species

The objectives of this study were to use molecular markers to: (1) identify quantitative trait loci (QTL) controlling seed-weight in soybean, (2) characterize the genetic basis of seed-weight expression, and (3) determine whether soybean shares orthologous seed-weight genes with cowpea and/or mung bean. An F₂ population was developed between a large-seeded Glycine max breeding line and a small-seeded G. soja plant introduction. DNA samples from 150 F₂ individuals were analyzed with 91 polymorphic genetic markers, including RFLPs, RAPDs and SSRs. Seed-weight was analyzed by randomly sampling 100 seeds from each of 150 greenhouse-grown F₂ individuals, and their 150 F₂₃ lines, from a replicated field trial. Markers associated with seed-weight were identified using the computer program MapMaker-QTL and a one-way analysis of variance. Three and five markers were significantly associated with seed-weight variation (P<0.01) in the F₂ and F₂₃ generations, respectively. Tests for digenic epistasis revealed three significant interactions in both generations. In a combined analysis, these markers and interactions explained 50 and 60% of the phenotypic variation for seed-weight in the F₂ and F₂₃ generations, respectively. Comparison of our results in soybean (Glycine) with those previously reported in cowpea and mung bean (Vigna) indicated that soybean and cowpea share an orthologous seed-weight gene. In both species, a genomic region significantly associated with seed-weight spanned the same RFLP markers in the same linkage order. A significant digenic interaction involving this genomic region was conserved in all three species. These results suggest that the exploitation of comparative QTL mapping is an invaluable tool for quantitative geneticists working with poorly characterized plant systems.     

Ribosomal gene variation in soybean (Glycine) and its relatives

Summary The genes encoding the 18S25S ribosomal RNA gene repeat in soybean (Glycine max) and its relatives in the genus Glycine are surveyed for variation in repeat length and restriction enzyme site locations. Within the wild species of subgenus Glycine, considerable differences in repeat size occur, with a maximum observed in G. falcata. Repeat length and site polymorphisms occur in several species, but within individual plants only single repeat types are observed. The rDNA of the cultivated soybean and its wild progenitor, G. soja are identical at the level of this study, and no variation is found in over 40 accessions of the two species. Data from rDNA mapping studies are congruent with those of previous biosystematic studies, and in some instances give evidence of divergences not seen with other approaches.     

Short-term responses of photosynthetic membrane lipids and photochemical efficiency in plants of <Emphasis Type="Italic">Phaseolus vulgaris</Emphasis> and <Emphasis Type="Italic">Vigna unguiculata</Emphasis> submitted to high irradiance

Primary leaves of young plants of common bean (Phaseolus vulgaris cv. Carioca and Negro Huasteco) and cowpea (Vigna unguiculata Walp cv. Epace 10) were exposed to high irradiance (HI) of 2 000 μmol m⁻² s⁻¹ for 10, 20, and 30 min. The initial fluorescence (F₀) was nearly constant in response to HI in each genotype except for Carioca. A distinct reduction of maximum fluorescence (F_m) was clearly observed in stressed genotypes of beans after 20 min followed by a slight recovery for the longer stress times. In common bean, the maximum quantum yield (F_v/F_m) was reduced slowly from 10 to 30 min of HI. In cowpea, only a slight reduction of F_v/F_m was observed at 20 min followed by recovery to normal values at 30 min. HI resulted in changes in the photochemical (q_P) and non-photochemical (q_N) quenching in both species, but to a different extent. In cowpea plants, more efficiency in the use of the absorbed energy under photoinhibitory conditions was related to increase in q_P and decrease in q_N. In addition, lipid peroxidation changed significantly in common bean genotypes with an evident increase after 20 min of HI. Hence the photosynthetic apparatus of cowpea was more tolerant to HI than that of common bean and the integrity of cowpea cell membranes was apparently maintained under HI.     

Comparative genome analysis of mungbean (Vigna radiata L. Wilczek) and cowpea (V. unguiculata L. Walpers) using RFLP mapping data

Genome relationships between mungbean (Vigna tradiata) and cowpea (V. Unguiculata) based on the linkage arrangement of random genomic restriction fragment length polymorphism (RFLP) markers have been investigated. A common set of probes derived from cowpea, common bean (Phaseolus vulgaris), mungbean, and soybean (Glycine max) PstI genomic libraries were used to construct the genetic linkage maps. In both species, a single F₂ population from a cross between an improved cultivar and a putative wild progenitor species was used to follow the segregation of the RFLP markers. Approximately 90% of the probes hybridized to both mungbean and cowpea DNA, indicating a high degree of similarity in the nucleotide sequences among these species. A higher level of polymorphism was detected in the mungbean population (75.7%) than in the cowpea population (41.2%). Loci exhibiting duplications, null phenotypes, and distorted segregation ratios were detected in both populations. Random genomic DNA RFLP loci account for about 89% of the currently mapped markers with a few cDNA and RAPD markers added. The current mungbean map is comprised of 171 loci/loci clusters distributed in 14 linkage groups spanning a total of 1570cM. On the other hand, 97 markers covered 684 cM and defined 10 linkage groups in the current cowpea map. The mungbean and cowpea genomes were compared on the basis of the copy number and linkage arrangement of 53 markers mapped in common between the two species. Results indicate that nucleotide sequences are conserved, but variation in copy number were detected and several rearrangements in linkage orders appeared to have occurred since the divergence of the two species. Entire linkage groups were not conserved, but several large linkage blocks were maintained in both genomes.     

RESTRICTION FRAGMENT ANALYSIS OF PINE PHYLOGENY

We used restriction fragment analysis of chloroplast, nuclear, and mitochondrial DNA to study phylogeny in the genus Pinus. Total genomic DNA of 18 to 19 pine species that spanned 14 of the 15 subsections in the genus was cut with 8 restriction enzymes, blotted, and then probed with up to 17 cloned DNA fragments—which were mostly from the chloroplast genome of Douglas-fir (Pseudotsuga menziesii [Mirb.] Franco). A total of 116 shared characters, the majority representing single point mutations, were subjected to Wagner and Dollo parsimony analyses, coupled with bootstrapping and construction of consensus trees. The hard (subgenus Pinus) and soft pines (subgenus Strobus) were distinct. The soft pines in section Parrya, represented by P. longaeva, edulis, monophylla, and gerardiana, were the group closest to the hypothesized root of the genus. They were also more diverse and more closely related to the hard pines than were their descendents in section Strobus, represented by P. koraiensis, albicaulis, griffithii, and lambertiana, all of which were remarkably similar. Except for a strong clade involving P. canariensis and pinea (section Ternatae), the hard pines were weakly differentiated. The high similarity within the most speciose groups of pines (sections Strobus and Pinus) suggests that the bulk of the genus radiated relatively recently. In contrast to a recent classification, P. leiophylla was not associated with section Ternatae; instead, it appears to belong in section Pinus, and showed a high similarity to P. taeda of subsection Australes. Subsection Oocarpae, represented by P. oocarpa and radiata, appears to be a natural group, and is related to subsection Contortae, represented by P. contorta. More extensive restriction fragment studies will yield many new insights into evolution in the genus. Other methods, however, such as DNA sequencing or fine structure analysis of restriction site mutations, are likely to be necessary for rooting pine phylogenies with respect to other coniferous genera, and for estimating divergence times.     

Para-aminophenylalanine in vigna: Possible taxonomic and ecological significance as a seed defence against bruchids

Seeds of eight wild species and varieties from Vigna subgenera Plectotropis and Vigna were screened for the non-protein amino acid p-aminophenylalanine (PAPA), previously reported to have a restricted taxonomic distribution and to be a growth inhibitor of Escherichia coli. The compound was detected in five wild species and its distribution found to have taxonomic value for assessing members of Plectotropis and intrageneric links with other taxa. Although quantitative variation in PAPA was detected between species and also between varieties of V. vexillata, toxicity tests confirmed that the levels detected in all accessions were sufficient for PAPA to be an important component of resistance against two important pest bruchids of Vigna and Phaseolus crops. The taxonomic and ecological significance of these findings is discussed.     

Development, inheritance and cross-species amplification of microsatellite markers from Acacia mangium

Microsatellite markers were developed in Acacia mangium Willd. to provide highly variable co-dominant markers for linkage mapping and studies of the breeding system. After an enrichment procedure 40% of colonies contained microsatellites in contrast with less than 1% from a non-enriched library. The majority of microsatellite sequences were AC repeats. Co-dominant segregation of alleles in two full-sib crosses of A. mangium was demonstrated at 33 microsatellite loci. The markers were highly variable relative to restriction fragment lengths polymorphisms (RFLPs). In the two pedigrees 53% of microsatellite loci were fully informative compared with 15% of RFLPs. Based on alleles detected among four parental genotypes, the microsatellites consisting of dinucleotide repeats were more polymorphic than those with tri- and tetra-nucleotide repeats. The microsatellite markers were not as transferable across species in the genus Acacia as RFLPs. Two thirds of the primers developed in A. mangium (subgenus Phyllodineae, section Juliflorae) amplified DNA from other species within the same section but failed to amplify in species from the subgenus Acacia. The availability of multiallelic, PCR-based, co-dominant microsatellite loci makes possible efficient studies of gene flow and breeding systems in A. mangium, a species with low allozyme variation. Received: 30 December 1999 / Accepted: 10 May 2000     

Restriction fragment length polymorphism diversity in soybean

Summary Fifty-eight soybean accessions from the genus Glycine, subgenus Soja, were surveyed with 17 restriction fragment length polymorphism (RFLP) genetic markers to assess the level of molecular diversity and to evaluate the usefulness of previously identified RFLP markers. In general, only low levels of molecular diversity were observed: 2 of the 17 markers exhibited three alleles per locus, whereas all others had only two alleles. Thirty-five percent of the markers had rare alleles present in only 1 or 2 of the 58 accessions. Molecular diversity was least among cultivated soybeans and greatest between accessions of different soybean species such as Glycine max (L.) Merr. and G. soja Sieb. and Zucc. Principal component analysis was useful in reducing the multidimensional genotype data set and identifying genetic relationships.     

The genetics of domestication of yardlong bean, Vigna unguiculata (L.) Walp. ssp. unguiculata cv.-gr. sesquipedalis

Background and Aims

The genetics of domestication of yardlong bean [Vigna unguiculata (L.) Walp. ssp. unguiculata cv.-gr. sesquipedalis] is of particular interest because the genome of this legume has experienced divergent domestication. Initially, cowpea was domesticated from wild cowpea in Africa; in Asia a vegetable form of cowpea, yardlong bean, subsequently evolved from cowpea. Information on the genetics of domestication-related traits would be useful for yardlong bean and cowpea breeding programmes, as well as comparative genome study among members of the genus Vigna. The objectives of this study were to identify quantitative trait loci (QTLs) for domestication-related traits in yardlong bean and compare them with previously reported QTLs in closely related Vigna.

Methods

Two linkage maps were developed from BC₁F₁ and F₂ populations from the cross between yardlong bean (V. unguiculata ssp. unguiculata cv.-gr. sesquipedalis) accession JP81610 and wild cowpea (V. unguiculata ssp. unguiculata var. spontanea) accession TVnu457. Using these linkage maps, QTLs for 24 domestication-related traits were analysed and mapped. QTLs were detected for traits related to seed, pod, stem and leaf.

Key Results

Most traits were controlled by between one and 11 QTLs. QTLs for domestication-related traits show co-location on several narrow genomic regions on almost all linkage groups (LGs), but especially on LGs 3, 7, 8 and 11. Major QTLs for sizes of seed, pod, stem and leaf were principally located on LG7. Pleiotropy or close linkage of genes for the traits is suggested in these chromosome regions.

Conclusions

This is the first report of QTLs for domestication-related traits in yardlong bean. The results provide a foundation for marker-assisted selection of domestication-related QTLs in yardlong bean and enhance understanding of domestication in the genus Vigna.     

Restriction fragment length polymorphism (RFLP) of wild perennial relatives of soybean

Summary Total DNA from callus tissue of 28 accessions representing seven wild perennial Glycine species was compared using recombinant genomic probes derived from G. max, the soybean. Using two probes, we show that this molecular approach both confirms and extends the model for the taxonomic relationships between the species derived from morphological and cytogenetic data, and that it provides clear evidence that RFLP analysis of genomic sequences has the potential for revealing the derivation of the member species of the wild perennial Glycine taxon. Although, in this preliminary report, the sample size for each species is small, it is clear that the greatest between-accession variation occurs in G. tabacina (B₂B₂) and G. clandestine (A₁A₁), suggesting that these may be the taxa from which further speciation occurred in the subgenus.     

Molecular phylogeny of Phalaenopsis Blume (Orchidaceae) based on the internal transcribed spacer of the nuclear ribosomal DNA

The internal transcribed spacer (ITS1, 5.8S rDNA, and ITS2) region of nuclear ribosomal DNA (nrDNA) was sequenced from 53 species, which represent most of the living species diversity in the genus Phalaenopsis (Orchidaceae). A phylogeny was developed for the genus based on the neighbor-joining and maximum parsimony analyses of molecular data. Results of these analyses provided support for the monophyly of the genus Phalaenopsis and concurred in that the genera Doritis and Kingidium should be treated as being parts of the genus Phalaenopsis as suggested by Christenson (2001). Within the genus Phalaenopsis, neither subgenera Aphyllae nor Parishianae were monophyletic, and they were highly clustered with subgenus Proboscidioides plus sections Esmeralda and Deliciosae of subgenus Phalaenopsis based on ITS data. Those species also have the same characters of morphology of four pollinia and similar biogeographies. Furthermore, neither subgenus Phalaenopsis nor Polychilos was monophyletic. Within the subgenus Phalaenopsis, only section Phalaenopsis was highly supported as being monophyletic. As for the subgenus Polychilos, only section Polychilos was moderately supported as being monophyletic. In conclusion, the present molecular data obtained from the ITS sequence of nrDNA of the genus Phalaenopsis provide valuable information for elucidating the phylogeny of this genus.