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1.
María De La Fuente Ana M. González Antonio M. De Ron Marta Santalla 《Molecular breeding : new strategies in plant improvement》2013,31(3):501-516
Most studies on the genetic diversity of common bean (Phaseolus vulgaris L.) have focussed on accessions from the Mesoamerican gene pool compared to the Andean gene pool. A deeper knowledge of the genetic structure of Argentinian germplasm would enable researchers to determine how the Andean domestication event affected patterns of genetic diversity in domesticated beans and to identify candidates for genes targeted by selection during the evolution of the cultivated common bean. A collection of 116 wild and domesticated accessions representing the diversity of the Andean bean in Argentina was genotyped by means of 114 simple sequence repeat (SSR) markers. Forty-seven Mesoamerican bean accessions and 16 Andean bean accessions representing the diversity of Andean landraces and wild accessions were also included. Using the Bayesian algorithm implemented in the software STRUCTURE we identified five major groups that correspond to Mesoamerican and Argentinian wild accessions and landraces and a group that corresponds to accessions from different Andean and Mesoamerican countries. The neighbour-joining algorithm and principal coordinate clustering analysis confirmed the genetic relationships among accessions observed with the STRUCTURE analysis. Argentinian accessions showed a substantial genetic variation with a considerable number of unique haplotypes and private alleles, suggesting that they may have played an important role in the evolution of the species. The results of statistical analyses aimed at identifying genomic regions with consistent patterns of variation were significant for 35 loci (~20 % of the SSRs used in the Argentinian accessions). One of these loci mapped in or near the genomic region of the glutamate decarboxylase gene. Our data characterize the population structure of the Argentinian germplasm. This information on its diversity will be very valuable for use in introgressing Argentinian genes into commercial varieties because the majority of present-day common bean varieties are of Andean origin. 相似文献
2.
Allozyme evidence supporting southwestern Europe as a secondary center of genetic diversity for the common bean 总被引:4,自引:0,他引:4
Santalla M Rodiño P De Ron M 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2002,104(6-7):934-944
Genetic diversity within a common bean ( Phaseolus vulgaris L.) collection, comprising 343 accessions from the Iberian Peninsula, was examined using six allozyme markers. Two major clusters corresponding to the Andean and Mesoamerican gene pools were identified. Both gene pools were characterized by specific alleles, with the former exhibiting Skdh(100), Me(100), Rbcs(100 or 98) and Diap-1(100), and the latter exhibiting Skdh(103), Me(100), Rbcs(100) and Diap-1(95). Some accessions from both clusters, deviating from these allozyme patterns, exhibited Skdh(100), Me(100), Rbcs(100) and Diap-1(95) or Skdh(103), Me(100), Rbcs(100) and Diap-1(100) allozyme profiles and were considered as putative hybrids.The levels of genetic variation has not been eroded since the introduction of the common bean from the American centers of domestication to the Iberian Peninsula. Instead, obvious signs of introgression between the two gene pools were observed, mainly among white-seeded genotypes. The intermediate forms adapted to the Iberian Peninsula could have emerged from initial recombination between Mesoamerican and Andean gene pools. The Iberian common bean germplasm is therefore more complex than previously thought, and contains additional diversity that remains to be explored for genetic and breeding purposes. The Iberian Peninsula could be considered as a secondary center of genetic diversity of the common bean, especially the large white-seeded genotypes. 相似文献
3.
Tania Gioia Giuseppina Logozzo Giovanna Attene Elisa Bellucci Stefano Benedettelli Valeria Negri Roberto Papa Pierluigi Spagnoletti Zeuli 《PloS one》2013,8(10)
Common bean diversity within and between Mesoamerican and Andean gene pools was compared in 89 landraces from America and 256 landraces from Europe, to elucidate the effects of bottleneck of introduction and selection for adaptation during the expansion of common bean (Phaseolus vulgaris L.) in Europe. Thirteen highly polymorphic nuclear microsatellite markers (nuSSRs) were used to complement chloroplast microsatellite (cpSSRs) and nuclear markers (phaseolin and Pv-shatterproof1) data from previous studies. To verify the extent of the introduction bottleneck, inter-gene pool hybrids were distinguished from “pure” accessions. Hybrids were identified on the basis of recombination of gene pool specific cpSSR, phaseolin and Pv-shatterproof1 markers with a Bayesian assignments based on nuSSRs, and with STRUCTURE admixture analysis. More hybrids were detected than previously, and their frequency was almost four times larger in Europe (40.2%) than in America (12.3%). The genetic bottleneck following the introduction into Europe was not evidenced in the analysis including all the accessions, but it was significant when estimated only with “pure” accessions, and five times larger for Mesoamerican than for Andean germplasm. The extensive inter-gene pool hybridization generated a large amount of genotypic diversity that mitigated the effects of the bottleneck that occurred when common bean was introduced in Europe. The implication for evolution and the advantages for common bean breeding are discussed. 相似文献
4.
Structure of genetic diversity in the two major gene pools of common bean (Phaseolus vulgaris L., Fabaceae) 总被引:1,自引:0,他引:1
Myounghai Kwak Paul Gepts 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2009,118(5):979-992
Domesticated materials with well-known wild relatives provide an experimental system to reveal how human selection during
cultivation affects genetic composition and adaptation to novel environments. In this paper, our goal was to elucidate how
two geographically distinct domestication events modified the structure and level of genetic diversity in common bean. Specifically,
we analyzed the genome-wide genetic composition at 26, mostly unlinked microsatellite loci in 349 accessions of wild and domesticated
common bean from the Andean and Mesoamerican gene pools. Using a model-based approach, implemented in the software STRUCTURE,
we identified nine wild or domesticated populations in common bean, including four of Andean and four of Mesoamerican origins.
The ninth population was the putative wild ancestor of the species, which was classified as a Mesoamerican population. A neighbor-joining
analysis and a principal coordinate analysis confirmed genetic relationships among accessions and populations observed with
the STRUCTURE analysis. Geographic and genetic distances in wild populations were congruent with the exception of a few putative
hybrids identified in this study, suggesting a predominant effect of isolation by distance. Domesticated common bean populations
possessed lower genetic diversity, higher F
ST, and generally higher linkage disequilibrium (LD) than wild populations in both gene pools; their geographic distributions
were less correlated with genetic distance, probably reflecting seed-based gene flow after domestication. The LD was reduced
when analyzed in separate Andean and Mesoamerican germplasm samples. The Andean domesticated race Nueva Granada had the highest
F
ST value and widest geographic distribution compared to other domesticated races, suggesting a very recent origin or a selection
event, presumably associated with a determinate growth habit, which predominates in this race.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
5.
I. N. Wagara A. W. Mwang'ombe J. W. Kimenju R. A. Buruchara R. Jamnadass P. A. O. Majiwa 《Journal of Phytopathology》2004,152(4):235-242
Genetic diversity of 50 Phaeoisariopsis griseola isolates collected from different agroecological zones in Kenya was studied using group‐specific primers and amplified fragment length polymorphism (AFLP) markers. Group‐specific primers differentiated the isolates into Andean and Mesoamerican groups, corresponding to the two common‐bean gene pools. Significant polymorphisms were observed with all the AFLP primer combinations used, reflecting a wide genetic diversity in the P. griseola population. A total of 207 fingerprints was generated, of which 178 were polymorphic. Cluster analysis of the polymorphic bands also separated the isolates into the two groups defined by group‐specific primers. All the isolates examined were grouped into three virulence populations; Andean, Afro‐Andean and Mesoamerican, and their genetic diversity measured. On average, greater diversity (91%) was detected within populations than between populations (9%). The genetic distance between Andean and Mesoamerican populations was higher (D = 0.0269) than between Andean and Afro‐Andean (D = 0.0095). The wide genetic diversity reported here has significant implications in breeding for resistance to angular leaf spot and should be taken into consideration when screening and deploying resistant bean genotypes. 相似文献
6.
Matthew W. Blair Lucy M. Díaz Hector F. Buendía Myriam C. Duque 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2009,119(6):955-972
Cultivated common bean germplasm is especially diverse due to the parallel domestication of two genepools in the Mesoamerican
and Andean centers of diversity and introgression between these gene pools. Classification into morphological races has helped
to provide a framework for utilization of this cultivated germplasm. Meanwhile, core collections along with molecular markers
are useful tools for organizing and analyzing representative sets of these genotypes. In this study, we evaluated 604 accessions
from the CIAT core germplasm collection representing wide genetic variability from both primary and secondary centers of diversity
with a newly developed, fluorescent microsatellite marker set of 36 genomic and gene-based SSRs to determine molecular diversity
and with seed protein analysis to determine phaseolin alleles. The entire collection could be divided into two genepools and
five predominant races with the division between the Mesoamerica race and the Durango–Jalisco group showing strong support
within the Mesoamerican genepool and the Nueva Granada and Peru races showing less diversity overall and some between-group
admixture within the Andean genepool. The Chile race could not be distinguished within the Andean genepool but there was support
for the Guatemala race within the Mesoamerican genepool and this race was unique in its high level of diversity and distance
from other Mesoamerican races. Based on this population structure, significant associations were found between SSR loci and
seed size characteristics, some on the same linkage group as the phaseolin locus, which previously had been associated with
seed size, or in other regions of the genome. In conclusion, this study has shown that common bean has very significant population
structure that can help guide the construction of genetic crosses that maximize diversity as well as serving as a basis for
additional association studies. 相似文献
7.
S. A. Angioi D. Rau G. Attene L. Nanni E. Bellucci G. Logozzo V. Negri P. L. Spagnoletti Zeuli R. Papa 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2010,121(5):829-843
This study focuses on the expansion of Phaseolus vulgaris in Europe. The pathways of distribution of beans into and across Europe were very complex, with several introductions from
the New World that were combined with direct exchanges between European and other Mediterranean countries. We have analyzed
here six chloroplast microsatellite (cpSSR) loci and two unlinked nuclear loci (for phaseolin types and Pv-shatterproof1). We have assessed the genetic structure and level of diversity of a large collection of European landraces of P. vulgaris (307) in comparison to 94 genotypes from the Americas that are representative of the Andean and Mesoamerican gene pools.
First, we show that most of the European common bean landraces (67%) are of Andean origin, and that there are no strong differences
across European regions for the proportions of the Andean and Mesoamerican gene pools. Moreover, cytoplasmic diversity is
evenly distributed across European regions. Secondly, the cytoplasmic bottleneck that was due to the introduction of P. vulgaris into the Old World was very weak or nearly absent. This is in contrast to evidence from nuclear analyses that have suggested
a bottleneck of greater intensity. Finally, we estimate that a relatively high proportion of the European bean germplasm (about
44%) was derived from hybridization between the Andean and Mesoamerican gene pools. Moreover, although hybrids are present
everywhere in Europe, they show an uneven distribution, with high frequencies in central Europe, and low frequencies in Spain
and Italy. On the basis of these data, we suggest that the entire European continent and not only some of the countries therein
can be regarded as a secondary diversification center for P. vulgaris. Finally, we outline the relevance of these inter-gene pool hybrids for plant breeding. 相似文献
8.
Cortés AJ Chavarro MC Blair MW 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2011,123(5):827-845
Single nucleotide polymorphism (SNP) markers have become a genetic technology of choice because of their automation and high
precision of allele calls. In this study, our goal was to develop 94 SNPs and test them across well-chosen common bean (Phaseolus vulgaris L.) germplasm. We validated and accessed SNP diversity at 84 gene-based and 10 non-genic loci using KASPar technology in
a panel of 70 genotypes that have been used as parents of mapping populations and have been previously evaluated for SSRs.
SNPs exhibited high levels of genetic diversity, an excess of middle frequency polymorphism, and a within-genepool mismatch
distribution as expected for populations affected by sudden demographic expansions after domestication bottlenecks. This set
of markers was useful for distinguishing Andean and Mesoamerican genotypes but less useful for distinguishing within each
gene pool. In summary, slightly greater polymorphism and race structure was found within the Andean gene pool than within
the Mesoamerican gene pool but polymorphism rate between genotypes was consistent with genepool and race identity. Our survey
results represent a baseline for the choice of SNP markers for future applications because gene-associated SNPs could themselves
be causative SNPs for traits. Finally, we discuss that the ideal genetic marker combination with which to carry out diversity,
mapping and association studies in common bean should consider a mix of both SNP and SSR markers. 相似文献
9.
Blair MW Giraldo MC Buendía HF Tovar E Duque MC Beebe SE 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2006,113(1):100-109
A diversity survey was used to estimate allelic diversity and heterozygosity of 129 microsatellite markers in a panel of 44 common bean (Phaseolus vulgaris L.) genotypes that have been used as parents of mapping populations. Two types of microsatellites were evaluated, based respectively on gene coding and genomic sequences. Genetic diversity was evaluated by estimating the polymorphism information content (PIC), as well as the distribution and range of alleles sizes. Gene-based microsatellites proved to be less polymorphic than genomic microsatellites in terms of both number of alleles (6.0 vs. 9.2) and PIC values (0.446 vs. 0.594) while greater size differences between the largest and the smallest allele were observed for the genomic microsatellites than for the gene-based microsatellites (31.4 vs. 19.1 bp). Markers that showed a high number of alleles were identified with a maximum of 28 alleles for the marker BMd1. The microsatellites were useful for distinguishing Andean and Mesoamerican genotypes, for uncovering the races within each genepool and for separating wild accessions from cultivars. Greater polymorphism and race structure was found within the Andean gene pool than within the Mesoamerican gene pool and polymorphism rate between genotypes was consistent with genepool and race identity. Comparisons between Andean genotypes had higher polymorphism (53.0%) on average than comparisons among Mesoamerican genotypes (33.4%). Within the Mesoamerican parental combinations, the intra-racial combinations between Mesoamerica and Durango or Jalisco race genotypes showed higher average rates of polymorphism (37.5%) than the within-race combinations between Mesoamerica race genotypes (31.7%). In multiple correspondance analysis we found two principal clusters of genotypes corresponding to the Mesoamerican and Andean gene pools and subgroups representing specific races especially for the Nueva Granada and Peru races of the Andean gene pool. Intra population diversity was higher within the Andean genepool than within the Mesoamerican genepool and this pattern was observed for both gene-based and genomic microsatellites. Furthermore, intra-population diversity within the Andean races (0.356 on average) was higher than within the Mesoamerican races (0.302). Within the Andean gene pool, race Peru had higher diversity compared to race Nueva Granada, while within the Mesoamerican gene pool, the races Durango, Guatemala and Jalisco had comparable levels of diversity which were below that of race Mesoamerica. 相似文献
10.
A. Maquet I. Zoro Bi M. Delvaux B. Wathelet J.-P. Baudoin 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1997,95(5-6):980-991
Genetic diversity and structure within a Lima bean (Phaseolus lunatus L.) base collection have been evaluated using allozyme markers. The results obtained from the analysis of wild and cultivated
accessions confirm the existence of Andean and Mesoamerican gene pools characterised by specific alleles. Wild and cultivated
accessions of the same gene pool are grouped. The Andean natural populations have a very limited geographic distribution between
Ecuador and northern Peru. The Mesoamerican wild form extends from Mexico up to Argentina through the eastern side of the
Andes. Andean and Mesoamerican cultivated accessions of pantropical distribution contribute substantially to the genetic diversity
of the Lima bean base collection. Population genetic parameters, estimated from allozymes, confirmed the predominant selfing
mating system of the Lima bean. The selfing mating system, the occurrence of small populations, and low gene flow lead to
an interpopulation gene diversity (DST=0.235) higher than the intrapopulation gene diversity (HS=0.032). On the basis of the results, guidelines are given to preserve and exploit the genetic diversity of this threatened
species. The results also confirm the independent domestication of the Lima bean in at least two centres, one of which is
located at medium elevation in the western valleys of Ecuador and northern Peru.
Received: 3 June 1997 / Accepted: 17 June 1997 相似文献
11.
S. A. Angioi D. Rau M. Rodriguez G. Logozzo F. Desiderio R. Papa G. Attene 《Molecular breeding : new strategies in plant improvement》2009,23(3):413-429
Studies of the level and the structure of the genetic diversity of local varieties of Phaseolus vulgaris are of fundamental importance, both for the management of genetic resources and to improve our understanding of the pathways
of dissemination and the evolution of this species in Europe. We have here characterized 73 local bean populations from Sardinia
(Italy) using seed traits and molecular markers (phaseolins, nuSSRs and cpSSRs). American landraces and commercial varieties
were also included for comparison. We see that: (a) the Sardinian material is distinct from the commercial varieties considered;
(b) the variation in the seed traits is high and it mostly occurs among populations (95%); (c) compared to the American sample
and the commercial varieties, the Sardinian collection has a low level of diversity; (d) the majority (>95%) of the Sardinian
individuals belong to the Andean gene pool; (e) the Sardinian material shows a strong genetic structure, both for cpSSRs and
nuSSRs; (f) the nuSSRs and cpSSRs concur in differentiating between gene pools, but a lack of congruence between nuclear and
chloroplast has been observed within gene pools; and (g) there are three putative hybrids between the Andean and Mesoamerican
gene pools. Despite the relatively low level of diversity, which is probably due to a strong founder effect, the Sardinian
landraces are worth being conserved and studied further because of their distinctiveness and because hybridization within
and between the gene pools could generate variation that will be useful for breeding.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
12.
Demographic factors shaped diversity in the two gene pools of wild common bean Phaseolus vulgaris L.
Wild common bean (Phaseolus vulgaris L.) is distributed throughout the Americas from Mexico to northern Argentina. Within this range, the species is divided into two gene pools (Andean and Middle American) along a latitudinal gradient. The diversity of 24 wild common bean genotypes from throughout the geographic range of the species was described by using sequence data from 13 loci. An isolation–migration model was evaluated using a coalescent analysis to estimate multiple demographic parameters. Using a Bayesian approach, Andean and Middle American subpopulations with high percentage of parentages were observed. Over all loci, the Middle American gene pool was more diverse than the Andean gene pool (πsil=0.0089 vs 0.0068). The two subpopulations were strongly genetically differentiated over all loci (Fst=0.29). It is estimated that the two current wild gene pools diverged from a common ancestor ∼111 000 years ago. Subsequently, each gene pool underwent a bottleneck immediately after divergence and lasted ∼40 000 years. The Middle American bottleneck population size was ∼46% of the ancestral population size, whereas the Andean was 26%. Continuous asymmetric gene flow was detected between the two gene pools with a larger number of migrants entering Middle American gene pool from the Andean gene pool. These results suggest that because of the complex population structure associated with the ancestral divergence, subsequent bottlenecks in each gene pool, gene pool-specific domestication and intense selection within each gene pool by breeders; association mapping would best be practised within each common bean gene pool. 相似文献
13.
Oliveira Josiele Polzin Galli-Terasawa Lygia Vitoria Enke Chirlei Gli Cordeiro Vanessa Kava Armstrong Larice Carolina Tavares Hungria Mariangela 《World journal of microbiology & biotechnology》2011,27(3):643-650
Brazil is the largest producer and consumer of common bean worldwide, and the crop can benefit from its symbiosis with a variety
of rhizobia by means of biological nitrogen fixation in root nodules. In this study, the role of Mesoamerican and Andean genotypes
of common bean in trapping rhizobia directly from a Brazilian oxisol in the field or in pots in greenhouse conditions with
unaltered or diluted soil solutions was investigated. Genetic diversity was evaluated by the profiles of BOX-PCR obtained,
and by estimates of Shannon and Abundance-based Coverage Estimator (ACE) indices. Rhizobia trapped by Mesomaerican genotypes
had greater diversity, reinforcing the hypothesis of an important and long-time contribution of this genetic center to the
establishment of common bean in Brazil. Greater diversity was also seen in rhizobia trapped straight from the soil than from
plants inoculated with diluted soil solutions, emphasizing a highly diverse and competitive rhizobial indigenous population.
Studies on genetic diversity of common bean rhizobia are important not only for helping to understand the evolution of the
legume-rhizobia symbiosis, but also to devise strategies to increase the contribution of the biological nitrogen-fixation
process. 相似文献
14.
Fourteen microsatellite markers were used to describe genetic diversity in a sample of 128 common bean (Phaseolus vulgaris L.) accessions cultivated within the territory of Slovenia and its nearby regions between 1800 and 2000. The accessions were
grouped into three periods: period I comprising accessions from the beginning of the 19th century, while the other two periods
included accessions from the middle (period II) and the end of the 20th century (period III). Seven control accessions of
known Mesoamerican and Andean origin were also included in the study. A total of 130 alleles were generated. Allelic richness,
in terms of number of alleles per locus, was 6.07 for period I, 6.71 for period II, and 6.07 for period III. In the UPGMA
dendrogram, all studied accessions were intermixed in three main clusters, indicating that the diversity in the time periods
overlapped. Two clusters consisted of accessions of Andean and Mesoamerican origin, while the third represents additional
variation, which existed in this area already 200 years ago. The analysis of molecular variance showed that a great part of
genetic diversity has been preserved till today, confirming the results of cluster analysis. The calculation of number of
alleles per locus revealed no significant quantitative change in genetic diversity over the last 200 years of common bean
cultivation. However, the calculation of genetic distances indicated slight qualitative shifts in genetic diversity of common
bean germplasm over time, while the calculations of allelic frequency variation and polymorphic information content revealed
recent decline of some alleles’ frequencies. These findings should stress the need for establishing an appropriate strategy
of genetic resources management.
The text was submitted by the authors in English. 相似文献
15.
Asrat Asfaw Matthew W. Blair Conny Almekinders 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2009,120(1):1-12
The East African highlands are a region of important common bean production and high varietal diversity for the crop. The
objective of this study was to uncover the diversity and population structure of 192 landraces from Ethiopia and Kenya together
with four genepool control genotypes using morphological phenotyping and microsatellite marker genotyping. The germplasm represented
different common bean production ecologies and seed types common in these countries. The landraces showed considerable diversity
that corresponded well to the two recognized genepools (Andean and Mesoamerican) with little introgression between these groups.
Mesoamerican genotypes were predominant in Ethiopia while Andean genotypes were predominant in Kenya. Within each country,
landraces from different collection sites were clustered together indicating potential gene flow between regions within Kenya
or within Ethiopia. Across countries, landraces from the same country of origin tended to cluster together indicating distinct
germplasm at the national level and limited gene flow between the two countries highlighting divided social networks within
the regions and a weak trans-national bean seed exchange especially for landrace varieties. One exception to this may be the
case of small red-seeded beans where informal cross-border grain trade occurs. We also observed that genetic divergence was
slightly higher for the Ethiopian landraces compared to Kenyan landraces and that Mesoamerican genotypes were more diverse
than the Andean genotypes. Common beans in eastern Africa are often cultivated in marginal, risk-prone farming systems and
the observed landrace diversity should provide valuable alleles for adaptation to stressful environments in future breeding
programs in the region. 相似文献
16.
Mingli Chen Jing Wu Lanfeng Wang Xiaoyan Zhang Matthew W. Blair Jizeng Jia Shumin Wang 《Molecular breeding : new strategies in plant improvement》2014,33(2):489-496
Microsatellite or single sequence repeat (SSR) markers have been commonly used in genetic research in many crop species, including common bean (Phaseolus vulgaris L.). A limited number of existing SSR markers have been designed from high-throughput sequencing of the genome, warranting the exploitation of new SSR markers from genomic regions. In this paper, we sequenced total DNA from the genotype Hong Yundou with a 454-FLX pyrosequencer and found numerous SSR loci. Based on these, a large number of SSR markers were developed and 90 genomic-SSR markers with clear bands were tested for mapping and diversity detection. The new SSR markers proved to be highly polymorphic for molecular polymorphism, with an average polymorphism information content value of 0.44 in 131 Chinese genotypes and breeding lines, effective for distinguishing Andean and Mesoamerican genotypes. In addition, we integrated 85 primers of the 90 polymorphism markers into the bean map using an F2 segregating population derived from Hong Yundou crossed with Jingdou. The distribution of SSR markers among 11 chromosomes was not random and tended to cluster on the linkage map, with 14 new markers mapped on chromosome Pv01, whereas only four loci were located on chromosome Pv04. Overall, these new markers have potential for genetic mapping, genetic diversity studies and map-based cloning in common bean. 相似文献
17.
Common beans (Phaseolus vulgaris L.) have centers of origin in both Mesoamerica and Andean South America, and have been domesticated in each region for perhaps 5000 years. A third major gene pool may exist in Ecuador and Northern Peru. The diversity of the rhizobia associated with beans has also been studied, but to date with an emphasis on the Mesoamerican center of origin. In this study we compared bean rhizobia from Mexico and Andean South America using both phenotypic and phylogenetic approaches. When differences between the rhizobia of these two regions were shown, we then examined the influence of bean cultivar on the most probable number (MPN) count and biodiversity of rhizobia recovered from different soils. Three clusters of bean rhizobia were distinguished using phenotypic analysis and principal-component analysis of Box AIR-PCR banding patterns. They corresponded principally to isolates from Mexico, and the northern and southern Andean regions, with isolates from southern Ecuador exhibiting significant genetic diversity. Rhizobia from Dalea spp., which are infective and effective on beans, may have contributed to the apparent diversity of rhizobia recovered from the Mesoamerican region, while the rhizobia of wild Phaseolus aborigineus from Argentina showed only limited similarity to the other bean rhizobia tested. Use of P. vulgaris cultivars from the Mesoamerican and Andean Phaseolus gene pools as trap hosts did not significantly affect MPN counts of bean rhizobia from the soils of each region, but did influence the diversity of the rhizobia recovered. Such differences in compatibility of host and Rhizobium could be a factor in the poor reputation for nodulation and N2 fixation in this crop. 相似文献
18.
An investigation was made of the phylogenetic relationships among wild accessions of Lima bean (Phaseolus lunatus) and wild allies of Mesoamerican and Andean origins, using electrophoresis of seed storage proteins and isozymes. Mesoamerican wild species are phylogenetically more distant fromP. lunatus than Andean species, and apparently belong to the tertiary gene pool of Lima bean. The Andean wild species, which are investigated for the first time, reveal a high similarity to the Lima bean, and particularly with its Mesoamerican gene pool. These Andean species probably constitute a secondary gene pool of Lima bean, and are thus of considerable interest in the context of genetic improvement of the crop. Based on these observations, an Andean origin is suggested for the Andean wild species and forP. lunatus. These results point out the importance of collecting and conserving AndeanPhaseolus germplasm. 相似文献
19.
Matthew W. Blair Laura F. González Paul M. Kimani Louis Butare 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2010,121(2):237-248
The Great Lakes region of Central Africa is a major producer of common beans in Africa. The region is known for high population density and small average farm size. The common bean represents the most important legume crop of the region, grown on over a third of the cultivated land area, and the per capita consumption is among the highest in the world for the food crop. The objective of this study was to evaluate the genetic diversity in a collection of 365 genotypes from the Great Lakes region of Central Africa, including a large group of landraces from Rwanda as well as varieties from primary centers of diversity and from neighboring countries of Central Africa, such as the Democratic Republic of Congo and Uganda, using 30 fluorescently labeled microsatellite markers and automated allele detection. In addition, the landraces were evaluated for their seed iron and zinc concentration to determine if genetic diversity influenced nutritional quality. Principal coordinate and neighbor-joining analyses allowed the separation of the landraces into 132 Andean and 195 Mesoamerican (or Middle American) genotypes with 32 landraces and 6 varieties intermediate between the gene pools and representing inter-gene pool introgression in terms of seed characteristics and alleles. Genetic diversity and the number of alleles were high for the collection, reflecting the preference for a wide range of seed types in the region and no strong commercial class preference, although red, red mottled and brown seeded beans were common. Observed heterozygosity was also high and may be explained by the common practice of maintaining seed and plant mixtures, a coping strategy practiced by Central African farmers to reduce the effects of abiotic and biotic stresses. Finally, nutritional quality differed between the gene pools with respect to seed iron and zinc concentration, while genotypes from the intermediate group were notably high in both minerals. In conclusion, this study has shown that Central African varieties of common bean are a source of wide genetic diversity with variable nutritional quality that can be used in crop improvement programs for the region. 相似文献
20.
Genetic diversity of Chinese common bean (Phaseolus vulgaris L.) landraces assessed with simple sequence repeat markers 总被引:1,自引:0,他引:1
Zhang X Blair MW Wang S 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2008,117(4):629-640
Common beans were introduced from the Americas to China over 400 years ago and presently constitute an important export crop in many areas of the country. Evaluation of the genetic diversity present in Chinese accessions of common beans is essential for conservation, management and utilization of these genetic resources. The objective of this research was to evaluate a collection of 229 Chinese landraces with 30 microsatellite markers to evaluate the genetic variability, genepool identity and relationships within and between the groups identified among the genotypes. A total of 166 alleles were detected with an average of 5.5 alleles per locus for all microsatellites. The landraces were clustered into two genepools with two subgroups each. The level of diversity for Chinese landraces of Andean origin was higher than for the Chinese landraces of Mesoamerican origin due to the presence of more infrequent alleles in this first group. The range of marker prevalence indices was from 0.288 to 0.676 within the Andean group and from 0.426 to 0.754 within the Mesoamerican group. Two subgroups were identified in each genepool group with one of the Mesoamerican subgroups arising from introgression. Gene flow (N ( m )) was 0.86 or below between subgroups from different gene pools and 2.6 or above between subgroups within the genepools. We discuss the existence of a secondary center of diversity for common beans in China and the importance of inter genepool introgression. 相似文献