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1.
Amnon Levi Claude E. Thomas Anthony P. Keinath Todd C. Wehner 《Genetic Resources and Crop Evolution》2001,48(6):559-566
Genetic diversity was estimated among 42 U.S. PlantIntroduction (PI) accessions of the genusCitrullus (of these, 34 PIs are reported tohave disease resistance), and 5 watermelon cultivars, using 30RAPD primers. These primers produced 662 RAPD markers that could berated with high confidence. Based on these markers, geneticsimilarity coefficients were calculated and a dendrogram wasconstructed using the unweighted pair-group method witharithmetic average (UPGMA). The analysis delineated threemajor clusters. The first cluster consisted of a group of fivewatermelon cultivars, a group of C.lanatus var. lanatusaccessions, and a group of C.lanatus var. lanatusaccessions that contained some C.lanatus var. citroidesgenes. The second cluster consisted of the C.lanatus var. citroidesaccessions, while the third cluster consisted of theC. colocynthis accessions.The two C. lanatus clustersdifferentiated from each other and from the C.colocynthis cluster at the level of 58.8%and 38.9% genetic similarity, respectively. Assessment ofgenetic diversity among accessions that have been reported to havedisease resistance indicated that resistance to either anthracnose,downy mildew, powdery mildew, or watermelon mosaic virus is foundamong all major groups of Citrullus PIs.Additionally, resistance to gummy stem blight or Fusarium wilt mayexist among C. lanatus var.citroides PIs. This study demonstrates thatmolecular markers can be useful in assessing genetic diversity, andin sorting Citrullus PIs into phylogeneticgroups prior to their evaluation for disease or pestresistance. 相似文献
2.
Ilknur Solmaz Nebahat Sari Yildiz Aka-Kacar N. Yesim Yalcin-Mendi 《Genetic Resources and Crop Evolution》2010,57(5):763-771
Genetic diversity of the Turkish watermelon genetic resources was evaluated using different Citrullus species, wild relatives, foreign landraces, open pollinated (OP) and commercial hybrid cultivars by RAPD markers. The germplasm
was consisted of 303 accessions collected from various geographical regions. Twenty-two of 35 RAPD primers generated a total
of 241 reproducible bands, 146 (60.6%) of which were polymorphic. Based on the RAPD data the genetic similarity coefficients
were calculated and the dendrogram was constructed using UPGMA (Unweighted pair-group method with arithmetic average). Cluster
analysis of the 303 accessions employing RAPD data resulted in a multi-branched dendrogram indicating that most of the Turkish
accessions belonging to var. lanatus of Citrullus lanatus (Thunb.) Matsum et Nakai were grouped together. Accessions of different Citrullus species and Praecitrullus fistulosus (Stocks) Pangalo formed distant clusters from C. lanatus var. lanatus. Among 303 accessions, a subset of 56 accessions was selected representing different groups and a second dendrogram was constructed.
The genetic similarity coefficients (GS) within the Turkish accessions were ranged from 0.76 to 1.00 with 0.94 average indicating
that they are closely related. Taken together, our results indicated that low genetic variability exist among the watermelon
genetic resources collected from Turkey contrary to their remarkable phenotypic diversity. 相似文献
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L.-A. Minsart I. A. Zoro bi Y. Djè J.-P. Baudoin A.-L. Jacquemart P. Bertin 《Genetic Resources and Crop Evolution》2011,58(6):805-814
Citrullus lanatus ssp. vulgaris oleaginous type (West-African watermelon) is a crop cultivated in sub-Saharan Africa for its dried seeds reported to be rich
in nutrients. In previous studies, little polymorphism was found in watermelon—cultivated for its flesh with the use of microsatellite
(SSR) markers. Such study has never been applied to the oleaginous type until now. The objectives of the present study were
firstly to apply the SSR markers set up for watermelon to the West-African watermelon and secondly to study the genetic structure
of this type in Ivory Coast. For the first objective, 37 markers were studied on eight plants pertaining to four accessions.
For the second objective, the polymorphic markers were applied on three morphologically and geographically separated accessions
with twenty plants per accession. Multiple correspondence analysis (MCA), unweighted pair-group method with arithmetic averaging
(UPGMA), molecular analysis of variance (AMOVA) and assignments test structure were applied. The optimal annealing temperature
varied from 49 to 59°C according to the markers. Thirty-two markers that proved to amplify their respective loci were selected,
but only nine of them appeared to show polymorphism on the set of 8 plants studied. The application of these markers on the
three accessions revealed several features. No stucturation into sub-populations was observed inside a given accession. The
genetic variance proved to be substantially higher between the different accessions than inside a given accession. Moreover
this analysis is a first hint that the morphology classification does not match the genetic structure of C. lanatus. The results of this work provide the first quantitative information regarding the genetic variability of Citrullus lanatus oleaginous type. In order to sharpen our understanding of the mechanisms responsible for the genetic variance inter/intra
accessions, further studies based on a larger sample of plants and accessions are required. 相似文献
5.
Hironori Katayama Shiho Adachi Toshiya Yamamoto Chiyomi Uematsu 《Genetic Resources and Crop Evolution》2007,54(7):1573-1585
Iwateyamanashi (Pyrus ussuriensis var. aromatica) is one of the Pyrus species which grows wild in Japan. The number of Iwateyamanashi trees has been decreasing, so conservation and evaluation
is urgently needed. Over 500 accessions of Pyrus species collected from Iwate in northern Tohoku region are maintained at Kobe University as an Iwateyamanashi germplasm collection.
In order to investigate the genetic diversity, five SSR (simple sequence repeat) markers, developed from Japanese and European
pear were examined for 86 Pyrus individuals including 58 accessions from Iwate. These SSR loci could discriminate between all the Iwate accessions except
for 10 that bear seedless fruit, as well as determine the genetic diversity in Iwateyamanashi germplasms. High levels of variation
were detected in 41 alleles and the mean observed heterozygosity across 5 loci was 0.50 for the Iwate accessions. Seedless
accessions sharing identical SSR genotype with the local pear variety “Iwatetanenashi” were supposed to have been propagated
vegetatively via grafting. In an UPGMA phenogram, Japanese pear varieties (P. pyrifolia) were clustered into two groups with some Iwate accessions including seedless ones. Another 38 Iwate accessions were not
clustered clearly, and there was no clear relationship between these accessions and geographical distribution or morphological
characters. Allele frequency revealed that the Iwate accessions were genetically more divergent than the Japanese pear varieties.
Most Japanese pears possessed a 219 bp deletion at a spacer region between the accD and psaI genes in the chloroplast DNA (cpDNA), but other Pyrus species and two Iwateyamanashi trees did not. In the Iwate accessions, 79.3% had a deletion type cpDNA and others had a standard
type cpDNA without deletion. These results are indicative of the wide range of genetic diversity in the Iwate accessions which
include Japanese pear varieties. A combination of SSR and cpDNA analyses revealed high heterogeneity in Iwateyamanashi and
coexistence of Iwateyamanashi and hybrid progeny with P. pyrifolia. These could be reasons for the wide range of continuous morphological variation described previously. 相似文献