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1.
Eight genomic SSR markers with a M13 tail attached were used to assess the genetic diversity of 72 Ussurian Pear accessions
(Pyrus ussuriensis Maxim.) in China. The M13-tailed method was effective in discriminating all the 32 wild accessions. All the 40 Ussurian Pear
cultivars could be successfully discriminated with the exception of 4 sets of synonymies or spots. A total of 108 alleles
were obtained with an average of 13.5 per locus. The expected heterozygosity, observed heterozygosity, and power of discrimination
were 0.78, 0.63, and 0.86 respectively. Three triploid cultivars (‘Anli’, ‘Ruan’er’, and ‘Pitaiguo’), and one wild accession,
P. ussuriensis ‘Xilin-3’, showed three alleles at some SSRs. The number of alleles and observed heterozygosity per locus for 40 Ussurian
Pear cultivars were 9.1 and 0.62, respectively, lower than the values of 32 wild accessions which were 11.3 and 0.65, respectively.
A dendrogram based on the SSR genotypes was obtained, showing two major groups corresponding to cultivated group and wild
group. All the cultivars fell into the cultivated group. Some subgroups (Nanguoli subgroup, Zhibazi subgroup, Xiangshuili
subgroup, Balixiang subgroup, Anli subgroup) could be found in the cultivated group. A very close relationship between ‘Huagaili’
and ‘Miansuan’, and a close relationship between ‘Anli’ and a wild accession, P. ussuriensis ‘Huangshanli’ could be found in Anli subgroup. ‘Nanguoli’ and ‘Xiaowuxiang’ showed a close relationship with at least one
identical allele at each locus with the exception of NH015a. 相似文献
2.
Ten EST-SSRs previously isolated from Pyrus were used to identify 81 P. communis, 13 P. pyrifolia and 20 P. ussuriensis or P. × bretschneideri accessions. Cross-transference of these EST-SSRs was high in these species. PYC-008 and PYC-004 were the least informative
SSRs in each of the pear species and were monomorphic in P. pyrifolia while PYC-013, PYC-002 and PYC-009b were the most informative in all species. EST-SSRs were very valuable for identification
of incorrectly identified accessions, failed grafts and sets of synonyms in each of the species. Unsuspected relationships
were uncovered, including a parental relationship between ‘Anjou’ and ‘Farmingdale’, a clonal relationship between ‘Berger’
and ‘Bartlett’, and a very close relationship between ‘Beurre Superfin’ and ‘Doyenne du Comice’. One SSR marker was different
in one of three sports of ‘Doyenne du Comice’ (‘Doyenne du Comice Crimson Gem’) and in one of two sports of ‘Anjou’ (‘Gebhard
Red’ red skin sport of ‘Anjou’). UPGMA cluster analysis separated the pear accessions into a large European cluster and an
Asian group mostly according to common ancestry, geographical origin or time of ripening. High cross-transference of EST-SSRs
in Pyrus species is very valuable for germplasm management in such a highly diverse collection as found at the NCGR Pyrus genebank in Corvallis, OR. 相似文献
3.
Nora Scarcelli Serge Tostain Cédric Mariac Clément Agbangla Ogoubi Da Julien Berthaud Jean-Louis Pham 《Genetic Resources and Crop Evolution》2006,53(1):121-130
‘Domestication’ is a traditional farmers’ practice reported for yams (Dioscorea sp.) in Benin (West Africa). It involves introducing ‘spontaneous’ (naturally occurring) yams, supposedly wild (D. abyssinica and D. praehensilis), in varieties of the D. cayenensis–D. rotundata cultivated species complex. In this study, we established the genetic nature of ‘predomesticated’ yam plants using the amplified
fragment length polymorphism (AFLP) technique. A total of 213 accessions, consisting of 32 predomesticated yams, 70 D. cayenensis–D. rotundata, 86 D. abyssinica and 25 D. praehensilis yams were analysed. Using 91 AFLP markers, three groups of accessions were distinguished, broadly corresponding to the above
botanical species. Of the 32 predomesticated accessions, 16% were clustered with D. praehensilis, 37% with D. abyssinica and the remaining 47% with D. cayenensis–D. rotundata. These results demonstrated the use of wild plants by farmers in their domestication process, and suggested that plants derived
from intervarietal and interspecific hybridisation may also be subject to this process. This study has shown that through
domestication farmers influence and increase the genetic diversity in yam by using sexual reproduction of wild and possibly
cultivated yams. 相似文献
4.
Hoy-Taek Kim Yutaka Hirata Hyun-Jung Kim Ill-Sup Nou 《Genetic Resources and Crop Evolution》2006,53(7):1375-1383
A PCR (polymerase chain reaction) amplification method using newly designed S-RNase primers was carried out in five Korean-bred
pear cultivars and ten Japanese-bred pear cultivars. A new S-RNase allele, designated as S10, was discovered from ‘Chengsilri’, containing a 1513 bp and two exons (213 bp in total) that coded for a peptide of 71 amino
acids. The S10-RNase allele contained the three conserved cysteine residues peculiar to S-RNase in Japanese pear and one histidine residue
essential for RNase activity. We compared nucleotide sequence similarity of the exon regions of ten pear S-RNase alleles.
The nucleotide sequence of S1 showed a high similarity to S4 (97.4%) and the new S10 shows 77.8% (S5) to 84.4% (S4) similarity with the other pear S-RNase alleles. S10 had a unique restriction endonuclease site for ‘HhaI’, with digests yielding fragments of 1235 and 491 bp. The S-genotype of pear cultivar (‘Chengsilri’) was determined to be
S5S10 by PCR–RFLP (restriction fragment length polymorphism). Cluster analysis of 49 known S-RNase alleles of the Rosaceae separated
into two divergent groups are as follows: group I: pear and apple, group II: almond, sweet cherry and mume. 相似文献
5.
Ali M. Missaoui Andrew H. Paterson Joseph H. Bouton 《Genetic Resources and Crop Evolution》2006,53(6):1291-1302
Information regarding the amount of genetic diversity is necessary to enhance the effectiveness of breeding programs and germplasm conservation efforts. Genetic variation between 21 switchgrass genotypes randomly selected from two lowland (‘Alamo’ and ‘Kanlow’) and one upland (‘Summer’) synthetic cultivars were estimated using restriction fragment length polymorphism (RFLP) markers. Comparison of 85 RFLP loci revealed 92% polymorphism between at least two genotypes from the upland and lowland ecotypes. Within ecotypes, the upland genotypes showed higher polymorphism than lowland genotypes (64% vs. 56%). ‘Kanlow’ had a lower percent of polymorphic loci than ‘Alamo’ (52% vs. 60%). Jaccard distances revealed higher genetic diversity between upland and lowland ecotypes than between genotypes within each ecotype. Hierarchical cluster analysis using Ward's minimum variance grouped the genotypes into two major clusters, one representing the upland group and the other the lowland group. Phylogenetic analysis of chloroplast non-coding region trnL (UAA) intron sequences from 34 switchgrass accessions (6 upland cultivars, 2 lowland cultivars, and 26 accessions of unknown affiliation) produced a neighbor-joining dendrogram comprised of two major clusters with 99% bootstrap support. All accessions grouped in the same cluster with the lowland cultivars (‘Alamo’ and ‘Kanlow’) had a deletion of 49 nucleotides. Phenotypic identification of greenhouse-grown plants showed that all accessions with the deletion are of the lowland type. The deletion in trnL (UAA) sequences appears to be specific to lowland accessions and should be useful as a DNA marker for the classification of upland and lowland germplasm. 相似文献
6.
Eighty-nine accessions of wild and cultivated peas (12 Pisum fulvum Sibth. et Smith., 7 P. abyssinicum A. Br., 31 wild and 42 cultivated forms of P. sativum L.) were analysed for presence of the variants of three functionally unrelated polymorphic markers referring to different
cellular genomes. The plastid gene rbcL either contains or not the recognition site for restriction endonuclease AspLEI (rbcL+ vs. rbcL−); the mitochondrial gene cox1 either contains or not the recognition site for restriction endonuclease PsiI (cox1+ vs. cox1−); the nuclear encoded seed albumin SCA is represented by slow (SCAS) or fast (SCAF) variant. Most of the accessions possessed either of two marker combinations: 24 had SCAF
cox1+ rbcL+ (combination A) and 49 accessions had SCAS
cox1− rbcL− (combination B), 16 accessions represented 5 of the rest 6 possible combinations. All accessions of P. fulvum and P. abyssinicum had combination A, the overwhelming majority of cultivated forms of P. sativum had combination B while wild representatives of P. sativum had both combinations A and B, as well as rare combinations. This pattern indicates that combination A is the ancestral state
in the genus Pisum L., inherited by P. fulvum and P. abyssinicum, while combination B seems to have arisen in some lineage of wild P. sativum which rapidly fixed mutational transitions of the three markers studied, most probably via a bottleneck effect during the
Pleistocene. Then this ‘lineage B’ spread over Mediterranean and also gave rise to cultivated forms of P. sativum. Rare combinations may have resulted from occasional crosses between ‘lineage A’ and ‘lineage B’ in nature or during cultivation,
or represent intermediate evolutionary lineages. The latter explanation seems relevant for an Egyptian cultivated form ‘Pisum jomardii Schrank’ (SCAF
cox1− rbcL−) which is here given a subspecies rank. Wild representatives of P. sativum could be subdivided in two subspecies corresponding to ‘lineage A’ and ‘lineage B’ but all available subspecies names seem
to belong to lineage B only. Presently all wild forms would better be considered within a fuzzy paraphyletic subspecies P. sativum subsp. elatius (Bieb.) Schmalh. s. l. 相似文献
7.
M. Costea D. M. Brenner F. J. Tardif Y. F. Tan M. Sun 《Genetic Resources and Crop Evolution》2006,53(8):1625-1633
The ‘Morelos’ accessions of Amaranthus from Mexico demonstrate taxonomic ambiguity at the basic morphologic level. The main cause is the enormous morphological
and genetic variation exhibited by the species in the genus. Although basic morphological criteria can be applied to herbarium
specimens or germplasm collections for quick taxonomic identification, the morphological data alone can be misleading. To
ascertain the taxonomic identity of the ‘Morelos’ accessions and their hypothesized species affiliation to Amaranthus caudatus or Amaranthus cruentus, we conducted a comparative analysis of phylogenetic relationships among these taxa/accessions using amplified fragment length
polymorphism (AFLP) and micromorphology methods. Based on AFLP data, all the controversial ‘Morelos’ accessions can be consistently
placed into a single A. cruentus species clade, which is clearly separated from the A. caudatus species clade. The AFLP-based phylogenetic relationship of ‘Morelos’ and delimitation of A. cruentus and A. caudatus are further supported by micromorphology, showing that the combination of these techniques can provide more reliable data
for germplasm identification than each method used alone. 相似文献
8.
Cengiz Toker 《Genetic Resources and Crop Evolution》2009,56(1):7-12
Two distinct chickpeas of the domestic chickpea, C. arietinum L., exist and are referred to as ‘desi’ or microsperma and ‘kabuli’ or macrosperma. Cicer reticulatum Ladiz. is considered to be the wild progenitor of the domestic chickpea. However, the morphological variation in 18 original
accessions of C. reticulatum is narrower than those of the domestic chickpeas. The aim of the study is to increase the variability in C. reticulatum. In M2 generation, a mutant with white flower color was isolated despite of the fact that the parent has the pink flower. Although
seed coat color of the parent was dark brown, the mutant was cream like ‘kabuli’ chickpea. It is commonly accepted that the
large seeded domestic ‘kabuli’ chickpeas originated from the small seeded ‘desi’ chickpeas, but the induced mutants (white
flower and cream seed coat color) of C. reticulatum may suggest an additional path for the evolution of ‘kabuli’ chickpea. ‘Kabuli’ chickpeas could have originated from spontaneous
mutants of C. reticulatum. In M3 generation, multipinnate leaf, erect growth habit, green seed and double-podded chickpeas were isolated. Among these progenies,
morphologic variability increased and approached domesticated chickpea. Based on historical records and the induced mutants
obtained from this study, the domestic ‘kabuli’ chickpea could have directly emerged from C. reticulatum in ancient Eastern Turkey. 相似文献
9.
Nahla V. Bassil B. Gilmore J. M. Oliphant K. E. Hummer J. A. Henning 《Genetic Resources and Crop Evolution》2008,55(7):959-969
Eight genic SSR loci were evaluated for genetic diversity assessment and genotype identification in Humulus lupulus L. from Europe and North America. Genetic diversity, as measured by three diversity indices, was significantly lower in European
cultivars than in North American wild accessions. Neighbor Joining cluster analysis separated the hop genotypes into European
and North American groups. These eight SSRs were useful in uniquely identifying each accession with the exception of two sets
of European landraces and a pair of Japanese cultivars, ‘Shinshuwase’ and ‘Kirin II’. An accession from Manitoba grouped with
the European (EU) cluster reflecting the group’s genetic similarity to older Manitoba germplasm used to develop ‘Brewer's
Gold’ and the gene pool arising from this cultivar. Cultivars grouped closely with one of their immediate parents. ‘Perle’
grouped with its parent ‘Northern Brewer and ‘Willamette’ grouped with its parent ‘Fuggle H’. Wild American accessions were
divided into two subgroups: a North Central group containing mostly H. lupulus var. lupuloides and a Southwestern group containing H. lupulus var. neomexicanus accessions. These eight SSRs will be valuable for genotype identification in European and wild American germplasm and may
potentially prove useful for marker-assisted selection in hop. PCR products from four previously reported primer pairs that
amplify the same intronic SSR regions as do the genic SSRs in this study were compared in eight common cultivars. Different
primer pairs generated robust markers at the chs2 and chi loci. However, only the HLC-004B and HLC-006 primer pairs amplified successfully at the chs3 and chs4 loci.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
10.
B. Khadari L. Krichen P. Lambert M. Marrakchi J. M. Audergon 《Genetic Resources and Crop Evolution》2006,53(4):811-819
In order to give insights into the origin and historical selection process of Tunisian apricot propagated by grafting, 31
cultivars from three areas presenting contrasting ecological conditions – Kairouan, Testour and Ras Jbel were compared to
cultivars from Europe, North America, North Africa, Turkey, Iran and China, using 234 AFLP markers. The phenetic analysis
allowed to distinguish 5 clusters, the four previously defined groups: – ‘diversification’, ‘geographically adaptable’, ‘continental
European’ and ‘Mediterranean’ – groups and the Tunisian one. The partitioning of genetic diversity within and between cultivar
groups assessed according to the Bayesian approach and assuming Hardy–Weinberg equilibrium, showed a loss of 21.81–38.49%
of genetic diversity in Tunisian apricot compared to Mediterranean and diversification groups, respectively. Genetic variation
occurred within Tunisian subgroups rather than among (FST = 0.060) evidencing a narrow genetic pool. Mediterranean and Tunisian groups were the least differentiated. Comparing them,
24 AFLP fragments discriminated the Mediterranean group from the Tunisian group but most of them where also shared by the
other groups. Strongly differentiated gene pool and low genetic diversity are probably the result of bottleneck effects linked
to the occurrence of propagation by seedlings rather than by grafting during the introduction periods in the North and the
Centre of Tunisia. This study points at the propagation by seedlings as an important factor which should be taken into account
to understand the evolution of apricot in South Mediterranean areas. 相似文献
11.
Susheel Kumar K. Narayanan Nair Satya Narayan Jena 《Genetic Resources and Crop Evolution》2013,60(1):59-75
Molecular differentiation in 24 accessions representing 19 taxa of Indian Citrus has been examined through sequence analysis of Internal Transcribed Spacer (ITS) region of nrDNA. Sequence length in the 24 accessions of Citrus taxa ranged from 512 to 665 bp (ITS1 & ITS2 partial and 5.8S complete sequence). The ITS sequences were very rich in G+C content ranging from 61.40 to 66.60% with an average of 64.2%. Genetic distance within Citrus group ranged from 0 to 13.4% with an average of 4.6%, showing moderate rate of nucleotide divergence. The phylogeny was inferred using the Maximum parsimony (MP) and Neighbor-Joining (NJ) methods. Both MP and NJ trees separated all the 24 accessions of Citrus into six distinct clusters. The disposition of all the accessions of Citrus in separate clusters in ITS-derived dendrograms was partly in accordance with the morpho-taxonomic affinities of the target taxa. This study supports the concept of Citrus medica (citron), C. reticulata (mandarin), and C. maxima (pummelo) as the basic species of the genus. However, ITS marker could not find any clear cut differentiation between subgenera Citrus and Papeda as proposed in Swingle’s Citrus classification system. The present study also supports the distinctiveness of C. indica (Indian wild orange), C. latipes (Khasi papeda) and C. hystrix (Melanesian papeda) as true species, besides elucidating the probable hybrid origin and relationships among the cultivated species/biotypes, such as Citrus ×aurantiifolia (sour lime) C. ×limon (lemon), C. ×taitensis (Indian rough lemon), C. limettioides (sweet lime), C. ×aurantium (including sour and sweet oranges and grapefruit), and other indigenous varieties of Indian origin: C. megaloxycarpa (sour pummelo), C. karna (karna orange), C. pseudolimon (Hill lemon), ‘Memang athur’, ‘Pummelo-lemon’ and ‘Kathairi nimbu’. 相似文献
12.
Łukasz Stępień Volker Mohler Jan Bocianowski Grzegorz Koczyk 《Genetic Resources and Crop Evolution》2007,54(7):1499-1506
Fifty-three wheat cultivars have been genotyped using 24 SSR (simple sequence repeat) markers in order to evaluate genetic
similarities among Polish wheats, i.e. 53 spring and winter cultivars; ‘Chinese Spring’ was taken as reference. ll but one
SSR marker allowed to identify DNA polymorphisms, giving in total 166 alleles (including nulls), from 3 to 13 alleles per
marker with mean of 7.22. Based on marker data, genetic similarities were calculated and a dendrogram was created. ‘Spring’
cultivars were less diverse than winter ones, showing the biggest similarity to ‘Chinese Spring’. Four sister cultivars (Nutka,
Tonacja, Zyta and Sukces), formed a cluster of very similar materials, of which Zyta and Sukces had the highest similarity
indices. Parental lines Jubilatka and SMH 2182 were more distant from each other (genetic similarity of 0.227). It was possible
to differentiate all the wheats using only four SSR markers: Xgwm186, Xgwm389, Xgwm459 and Xgwm577. 相似文献
13.
Elizabeth Rice 《Genetic Resources and Crop Evolution》2007,54(4):701-713
Using survey data from Jala, Mexico, this case-study evaluates in situ maize conservation of the variety ‘Jala’ (Zea mays L.). Though historically ‘Jala’ was the dominant variety grown in the valley of Jala, today less than 20% of farmers grow
it on only 5% of the maize area. Younger growers of the ‘Jala’ variety specialize in it, growing relatively large amounts
for niche markets. Older, diversified farmers grow small areas for household use and to compete in a local contest. Conservation
of the ‘Jala’ variety has been heavily influenced by shifting ideal concepts of maize, as determined by market and consumption
demands and by a contest designed to promote in situ conservation. The current move away from nationalized purchasing may
favor ‘Jala’s’ continued conservation. 相似文献
14.
Fulya Eylem Yediay Faheem Shehzad Baloch Benjamin Kilian Hakan ?zkan 《Genetic Resources and Crop Evolution》2010,57(1):119-129
Rye (Secale cereale L.) is a valuable source for alien chromosome translocations in wheat breeding, due to its capability to grow and sustain
under harsh environmental conditions. Wheat germplasm with 1AL.1RS and 1BL.1RS wheat-rye chromosome translocations have been
used worldwide by breeders. Determining 1AL.1RS and 1BL.1RS translocations in wheat is therefore of important practical value
for wheat improvement. In this study, nine rye-specific markers detecting the rye chromosome 1RS in wheat background were
evaluated. The markers PAWS5/S6, SCM9 and O-SEC5′-A/O-SEC3′-R amplified specific bands associated with 1AL.1RS and 1BL.1RS
translocations. These three markers therefore provide a quick and reliable tool to identify and to discriminate these two
wheat-rye translocations in wheat background. Six out of nine rye specific markers were subsequently used to determine the
frequency of these translocations in commonly grown bread and durum wheat cultivars from Turkey. One hundred seven wheat cultivars
and landraces were molecularly screened. Among them, only 4% (‘Seri-82’, ‘Yıldız-98’, ‘Tahirova’, and ‘Osmaniyem’) harbor
the 1BL.1RS translocation whereas the 1AL.1RS translocation was not found. The information provided here will contribute to
the creation of new Turkish wheat populations with a larger genetic diversity necessary for future requirements. 相似文献
15.
R. Moreno J. A. Espejo A. Cabrera T. Millán J. Gil 《Genetic Resources and Crop Evolution》2006,53(4):729-736
A study has been conducted into the genetic variation analysis of the tetraploid asparagus landrace ‘Morado de Huetor’ and
its relationship with current commercial cultivars using Random Amplified Polymorphic DNA (RAPD) molecular markers. The presence
of different ploidic levels in the ‘Morado de Huetor’ landrace has been also studied using cytogenetic analysis. Ten decamer
oligonucleotides were used to obtain RAPD markers and to characterise 52 individuals of ‘Morado de Huetor’, 7 of the tetraploid
cultivar ‘Purple Passion’, and 55 of 5 diploid hybrid commercial cultivars. Jaccard similarity index was calculated and a
cluster analysis using UPGMA (Unweighted Pair-Group Method using Arithmetic Average) was performed. Tetraploid asparagus,
‘Morado de Huetor’ and ‘Purple Passion’, were well differentiated from the diploid ones showing a higher genetic variability.
This result suggests a different origin for tetraploid and diploid asparagus varieties. Within the diploid cultivars a variety
distribution was obtained. A specific monomorphic band (OPB20883) was found in tetraploid varieties. Within the diploid cultivars, two bands (OPB20830, OPC15705) can be used to distinguish between the hybrid cultivars used in this study. Tri-, penta-, hexa-, and octoploid plants were
found in ‘Morado de Huetor’. The origin of these ploidic levels is discussed and their use in the development of new varieties
is proposed. In conclusion, ‘Morado de Huetor’ is a genetic resource that could be used to increase the narrow genetic background
reported in diploid asparagus cultivars. 相似文献
16.
Portuguese wheat landraces, ‘Arrancada’ were collected from the Aveiro region, Portugal before the 1950s. We found in eight
accessions of `Arrancada' hexaploid wheat with the long glume phenotype. We assessed the comparative genetic diversity among
Portuguese `Arrancada' wheat and Triticum petropavlovskyi Udacz. et Migusch. using AFLP assays and discuss the origin of long glumed `Arrancada' wheat. With the four primer pairs
a total of 4885 visible bands were scored corresponding to 99 AFLP markers as putative loci, of which 55 markers (54%) were
polymorphic. UPGMA clustering and PCO grouping showed that long glumed ‘Arrancada’ wheat and T. petropavlovskyi were genetically diverse. Long glumed ‘Arrancada’ hexaploid wheat separated into two clusters (groups) in both the UPGMA
dendrogram and in PCO analysis. Four long glumed accessions fell in the cluster of tetraploid wheat. A similar argument could
be made for another four accessions which belong to the cluster of hexaploid wheat. The substantial level of genetic variation
indicated that long glumed ‘Arrancada’ wheat and T. petropavlovskyi originated independently. It is most likely that the P-gene of long glumed ‘Arrancada’ hexaploid wheat was introduced from T. turgidum ssp. polonicum (L.) Thell. to T. aestivum via natural introgression or breeding. We suggest that the long glumed ‘Arrancada’ hexaploid wheat did not originate from
T. aestivum through spontaneous mutation at the P locus 相似文献
17.
Seven primitive races ofGossypium hirsutum L.punctatum, marie-galante, richmondi, latifolium, morrilli, palmeri, mexicanum and five F1 crosses were inoculated withFusarium f. sp.vasinfectum physiological strain I. in the wilt field of Cixi Cotton Institute in 1987. There were highly significant differences among
these primitive races.Punctatum andpalmeri were highly resistant. The resistances ofmarie-galante andmexicanum was similar with that of cultivar ‘Simian2’;richmondi, latifolium andmorrilli were susceptible. The disease incidence of F1 in five primitive races hybridized with cultivar ‘Simian2’ was generally higher than that of mid-parent value. Inheritance
of wilt resistance was partially dominant. In addition, 178 accessions of eight primitive races were evaluated for their resistance
as before in 1989. There were significant differences in resistance among races and intra-race accessions. There were wilt
resistance accessions among primitive races in which disease incidence was below 10%–25%. Inpalmeri, marie-galante, richmondi andpunctatum, one accession was immune with 0% disease incidence, respectively; 22.7–77.4% accessions were susceptible with 50% disease
incidence. It showed that primitive races were mixed populations. They should be evaluated and screened for their utilization
in cotton breeding program. Some best plants were selected from F2 of two crosses, ‘Simian2’ ×palmeri and ‘Simian2’ ×mexicanum, based on the resistance toFusarium wilt and the response to photoperiod. 11 lines had been obtained with good fiber quality and relatively high potential production
by backcrossing improvement. These lines are now being tested. 相似文献
18.
Gert Poulsen Claus Holten Roland von Bothmer 《Genetic Resources and Crop Evolution》2007,54(5):1105-1115
Dead seeds of a fodder beet cultivar ‘Elvetham’ stored under ambient conditions since 1880 were compared to a homonymous sample
preserved in an on-farm situation in Denmark. DNA was isolated from single seeds and successfully applied to Amplified Fragment
Length Polymorphism (AFLP) analysis of the accessions. Six primer pairs were used to determine the similarity between the
two accessions based on 112 polymorphic bands. Furthermore, similarity among seven cultivars of fodder beets representing
the main types used in Scandinavia at the end of the 19th century was determined. This analysis was based on 152 polymorphic
bands. Differentiation among the seven cultivars was determined to a mean G
ST value of 0.438, while G
ST between the two ‘Elvetham’ accessions was 0.266. A principal coordinate analysis based on jaccards similarity index illustrates
that the two ‘Elvetham’ accessions are different from each other. The differentiation is higher than the value found between
two separate ‘Eckerndorfer’ accessions. The results indicate that the cultivated accession has changed. Additionally, the
value of applying old dead seed material for documentation in gene banks is demonstrated.
During the analysis it was found that DNA isolated from seeds and leaves behaved differently in the AFLP process, however,
the two fractions assigned to their common accession. 相似文献
19.
Intergeneric relationships in the Australian Vitaceae: new evidence from cpDNA analysis 总被引:1,自引:0,他引:1
Maurizio Rossetto Betsy R. Jackes Kirsten D. Scott Robert J. Henry 《Genetic Resources and Crop Evolution》2001,48(3):307-314
Taxa related to important agricultural species are likely to contain a considerable amount of potentially valuable genetic diversity. Nevertheless, before breeding programs or gene discovery projects can be initiated it is important to understand the phylogenetic relationships between the species involved. A component of a major gene discovery project in grapes at the Centre for Plant Conservation Genetics (Southern Cross University, Australia) is directed at the discovery of novel genes in native Vitaceae. As a result a study was conducted in order to assess the phylogenetic relationships between V. vinifera and the native members of the three major Australian genera: Cayratia, Cissus and Tetrastigma. CpDNA sequence analysis (from the trnL intron) adequately resolved intergeneric relationship between the majority of the species studied and provided some useful new information on the phylogenetic relationships within the Vitaceae. This preliminary project identified two species, C. hypoglauca and C. sterculiifolia, as being closely related to V. vinifera and worthy of further in-depth investigation. 相似文献
20.
Ten cpSCAR markers that show polymorphism in Prunus avium were used to fingerprint sweet cherry cultivars. The purpose of the study was also to contribute to identification and to
help determine their genetic interrelationships. Samples of ‘0900 Ziraat’, a superior Turkish variety, which were collected
in several locations all over Turkey, had identical cpSCAR patterns, and they resembled a common European haplotype, A. ‘Sweetheart’,
‘Summit’ and ‘Canada Giant’ and their haplotype are intermediate between the previously described haplotypes A and B, which
were originally found in Central and Eastern European sweet and wild cherries, and those from Northern Turkey, respectively.
The data therefore suggests a local maternal descent (within Europe and Asia Minor) of the cultivars analysed. Our results
show that chloroplast DNA analysis is a straightforward way to classify cherry cultivars. We compare our results to others
previously reported for sweet cherry cultivars, and conclude that cpSCAR diversity data could be considered for phylogenetic
studies in this group. 相似文献