PCR-RFLP analysis of the whole chloroplast DNA from three cultivated species of cotton (Gossypium L.)     

Rashid Ismael Hag Ibrahim  Jun-Ichi Azuma  Masahiro Sakamoto 《Euphytica》2007,156(1-2):47-56

Variations of the chloroplast DNA (cpDNA) from three of the four cultivated species of cotton (Malvaceae); Gossypium barbadense L., Gossypium hirsutum L., Gossypium arboreum L. and its synonym Gossypium nanking Meyen., were analyzed. Using specific set of primers, the whole circular cpDNAs from the four test species were amplified. These were subsequently digested with the use of seven restriction enzymes. The amplified fragments of the whole cpDNAs of the diploid cultivated cotton G. arboreum and its synonym G. nanking did not show any differences. However, the allotetraploid cultivated cottons G. barbadense and G. hirsutum, showed some fragment length differences directly visible after amplification and two types of restriction fragment length polymorphism (RFLP), the first appeared as slightly lengthened bands and the other as gain or loss of a restriction site. The results also showed that the chloroplast genomes of the allotetraploid cultivated cottons are highly similar to the diploid cultivated cottons tested in terms of length and digestion patterns. The detected amplified length differences, RFLPs and the restriction sites can be considered as species specific markers for the allotetraploid cultivated cottons, which could be a useful tool for future studies of the cpDNA of the genus Gossypium L.  相似文献   

Expression of the “<Emphasis Type="Italic">glanded-plant</Emphasis> and <Emphasis Type="Italic">glandless-seed</Emphasis>” trait of Australian diploid cottons in different genetic backgrounds     

Halima Benbouza  George Lognay  Jodi Scheffler  Jean Pierre Baudoin  Guy Mergeai 《Euphytica》2009,165(2):211-221

The expression of the “glanded-plant and glandless-seed” trait was assessed using High Performance Liquid Chromatography (HPLC) analysis methods in different Gossypium hybrids obtained by crossing Australian diploid cottons and various diploid and tetraploid species. Significant variation in the gossypol content in the seed was observed among the analyzed genotypes. HPLC data demonstrated that the gossypol synthesis repression mechanism in the Australian diploid species belonging to C and G genomes was dominant but did not confirm its preferential functioning against A genome species bearing GL₂ locus. About 10% of the produced seeds had total gossypol content lower than the limit imposed by the World Health Organisation (600 ppm) for the use of cotton flour in food and feed. HPLC analysis of the terpenoids aldehyde (TA) contents in the aerial parts of the hybrids showed important qualitative and quantitative variability. This result could indicate a certain separation between pigment gland morphogenesis and terpenoid synthesis mechanisms in cotton.  相似文献   

Studies on the use of Solanum acaule as a bridge between Solanum tuberosum and species in the series Bulbocastana,Cardiophylla and Pinnatisecta     

L. A. Dionne 《Euphytica》1963,12(3):263-269

Preliminary results have indicated that Solanum acaule can serve as an intermediate for gene transfer from Solanum species in the Mexican series Bulbocastana, Cardiophylla and Pinnatisecta to Solanum tuberosum. Clones of S. acaule vary in their effectiveness as female parents in crosses with the Mexican species. The F1 hybrids obtained were sterile triploids. Fertile hexaploids were produced from the triploids by colchicine treatment. The hexaploid from the cross S. acaule x S. pinnatisectum was successfully crossed with diploid and tetraploid forms of series Tuberosa. Some of the resultant triple hybrids were self-fertile.  相似文献   

Overcoming obstacles to interspecific hybridization between <Emphasis Type="Italic">Gossypium hirsutum</Emphasis> and <Emphasis Type="Italic">G. turneri</Emphasis>     

Yu Chen  Yu Chen  Shouli Feng  Ting Zhao  Baoliang Zhou 《Euphytica》2018,214(2):35

Gossypium turneri, a wild cotton species (2n = 2X = 26, D₁₀D₁₀) originating from Mexico, possesses invaluable characteristics unavailable in the cultivated tetraploid cotton gene pool, such as caducous involucels at anthesis, resistance to insects and tolerance to abiotic stresses. However, transferring desired characteristics from wild species into cultivated cotton is often fraught with diverse obstacles. Here, Gossypium hirsutum (as the maternal parent) and G. turneri were crossed in the Hainan Province of China, and the obtained hybrid seeds (2n = 3X = 39, ADD₁₀) were treated with 0.075% colchicine solution for 48 h to double the chromosome complement in order to overcome triploid F₁ sterility and to generate a fertile hexaploid. Chromosome doubling was successful in four individuals. However, the new synthetic hexaploids derived from these individuals were still highly sterile, and no seeds were generated by selfing or crossing. Therefore, an embryo rescue technique was employed in an attempt to produce progenies from the new synthetic hexaploids. Consequently, a total of six large embryos were obtained on MSB2K medium supplemented with 0.5 mg l^?1 KIN and 250 mg l^?1 CH using ovules from backcrossing that were 3 days post-anthesis. Four grafted surviving seedlings were confirmed to be the progenies (pentaploids) of the new synthetic hexaploids using cytological observations and molecular markers. Eight putative fertile individuals derived from backcrossing the above pentaploids were confirmed using SSR markers and generated an abundance of normal seeds. This research lays a foundation for transferring desirable characteristics from G. turneri into upland cotton.  相似文献   

Cytological and genetical studies on hybrids between sorghum almum parodi (2n=40) and some diploid (2n=20) species of sorghum     

A. J. Pritchard 《Euphytica》1965,14(3):307-314

Hybridization between S. almum (2n=40) and diploid (2n=20) species of Sorghum resulted in plants with 2n=40 and 2n=30 chromosomes. As segregation for many characters occurred in the offspring of those with 2n=40, hybrids of this type provide a means of transferring genes from the diploid to the tetraploid species of Eu-sorghum. Segregations for some genes in the progeny of these hybrids revealed heterozygosity in S. almum which may indicate that one of the ancestors of S. almum was a variety of S. vulgare very similar to the commercial grain sorghum.The triploids were only slightly fertile and the chromosome numbers of plants resulting from backcrossing to S. almum ranged from 30 to 46. Some of the plants with the higher chromosome numbers were self-fertile and segregation for genes which were present in the original diploid and tetraploid parents were observed in their off-spring. Backcrossing the triploid to the diploid parent produced fertile plants with 2n=20 and it is possible that the triploids could be used to transfer genes from the tetraploid to the diploid species of Eu-sorghum.The chromosome pairing in the triploids was similar to that expected in an autotriploid, but some non-homologous pairing was detected which may be the result of duplication of some chromosomes or chromosome segments within the genome (n=10) of S. vulgare.  相似文献   

Characterization of resistance gene analogs from <Emphasis Type="Italic">Gossypium arboreum</Emphasis> and their evolutionary relationships with homologs from tetraploid cottons     

Muhammad Tehseen Azhar  Imran Amin  Aftab Bashir  Shahid Mansoor 《Euphytica》2011,178(3):351-362

Four cotton species (genus Gossypium) produce spinable fiber. The two diploid species of Asiatic origin, Gossypium arboreum and G. herbaceum, have been largely replaced by G. hirsutum. However, these diploid species are potentially a rich source of genes for the improvement of G. hrisutum, particularly in terms of providing resistance against biotic and abiotic stresses. As a first step towards understanding the mechanisms of resistance in cotton, we designed 24 non-degenerate primers based on resistance gene analogs (RGAs) cloned from G. hirsutum for screening a number of cotton species with the A and D genomes. Most of these RGAs are conserved on the A genome (G. arboreum), suggesting a bias towards this genome. The amplified RGAs from G. arboreum were cloned and their nucleotide and amino acid sequences compared with RGA sequences available in public databases. The majority of the RGAs identified were homologous to those isolated from G. hirsutum and G. barbadense, but their diversity was greater than expected at both the nucleotide and amino acid levels. These RGAs provide useful tools for the identification of full-length resistance genes from bacterial artificial chromosome and cDNA libraries.  相似文献   

Alien chromosome transmission and somatic elimination in monosomic addition lines of Gossypium australe F. Muell in G. hirsutum L.     

Djibril Sarr  Jean-Marc Lacape  Jean-Marie Jacquemin  Halima Benbouza  André Toussaint  Jean-Pierre Baudoin  Guy Mergeai 《Euphytica》2012,183(1):55-64

The efficiency of using monosomic alien addition lines (MAALs) to introgress agronomical traits of interest carried by wild diploid Gossypium species into the main cultivated cotton species G. hirsutum depends on the opportunities of confronting the alien chromosome with the recipient background genome at each generation and on the occurrence of translocations and homoeologous recombinations. The selfed-progeny of five MAALs of G. australe in G. hirsutum was screened with SSR markers to determine the transmission frequency of the alien chromosome and monitor its integrity. Three MAALs revealed a transmission frequency significantly lower than the expected ratio and one MAAL presented an exclusive transmission of the additional chromosome. In these four MAAL the alien chromosome was transmitted almost unaltered. With the fifth MAAL the alien chromosome was normally transmitted but was altered in half of the plants carrying it. In one MAAL, normally carrying brown fiber, the emergence of some plants carrying white and brown fiber revealed the somatic elimination of the additional chromosome. The loss of this chromosome seems to be triggered by its deletion.  相似文献   

Genetics of hairiness transferred from gossypium raimondii to G. hirsutum     

J. H. Saunders 《Euphytica》1965,14(3):276-282

The successful transference of a hairiness gene, H₆ from the wild diploid G. raimondii to G. hirsutum race punctatum has been described. Its usefulness as hairiness gene for jassid resistance is considered to be less important than its value as a marker of a D₅ genome chromosome segment introduced into the cultivated tetraploid cottons. New commercially useful variability may be obtained from the introduced segment.The presence in the D genome of a hairiness gene similar in its effects as H₁ of the A genome suggests the possibility that these are homoeologous genes.Empire Cotton Growing Corporation  相似文献   

Hybridization between diploid (Gossypium arboreum) and tetraploid (Gossypium hirsutum) cotton through ovule culture     

Manjeet S. Gill  Y. P. S. Bajaj 《Euphytica》1987,36(2):625-630

Summary With in vitro culture of ovules, interspecific hybrids have been obtained in an otherwise incompatible cross between a diploid (Gossypium arboreum) and a tetraploid (G. hirsutum) cultivated cotton. The early abortion of the embryo was prevented by repeated treatment of the flowers, immediately after pollination with a solution of gibberellic acid and naphthalene acetic acid. The ovules excised three days after pollination and cultured in a liquid medium underwent profuse proliferation, whereas on an agar-solidified medium supplemented with casein hydrolysate, indoleacetic acid and kinetin they germinated to form hybrid plants.  相似文献   

Cytology and leafspot resistance in Arachis hypogaea x wild species hybrids     

M. Company  H. T. Stalker  J. C. Wynne 《Euphytica》1982,31(3):885-893

Summary Introgression of germplasm from diploid wild Arachis species to A. hypogaea has great potential for improving pest resistance in cultivated peanuts. This investigation evaluated methods for incorporating exotic germplasm into cultivated peanuts, especially for Cercospora arachidicola Hori resistance. Interspecific hybrids between A. hypogaea (cvs. NC 2 and NC 5) and the wild species A. cardenasii Krap. et Greg. nom. nud. and A. chacoense Krap. et Greg. nom. nud. were analyzed cytologically and for leafspot resistance. All F₁ hybrids were sterile, had irregular meiosis, and very few multivalents. They were highly resistant to C. arachidicola in field tests and had a 10-fold reduction of conidia per lesion in the greenhouse as compared to A. hypogaea cultivars. After colchicine treatments of F₁ hybrids, hexaploids (2n=60) and aneuploids (2n=54, 56, 63) were observed. The hexaploids had up to 18 univalents per pollen mother cell and very few multivalents, indicating a low frequency of intergenomic chromosome pairing. For C. arachidicola resistance, significant differences were not found among wild species parents, F₁ hybrids and two generations of hexaploids. Most hexaploids were stable at 2n=60 and embryos aborted when backcrosses with the respective wild species were attempted. However, when hexaploids were backcrossed to A. hypogaea, several fertile pentaploid (2n=50) offspring were obtained. Use of self-pollinating pentaploids is believed to be the quickest method to recover 40-chromosome hybrid derivatives in these hybrids.  相似文献   

Parental effects on the performance of cultivated × wild species hybrids in potato     

Shelley Jansky 《Euphytica》2011,178(2):273-281

Valuable genetic diversity in diploid wild Solanum species can be accessed through crosses to haploids (2n = 2×) of the tetraploid cultivated potato, Solanum tuberosum. Haploid-wild species hybrids segregate for the ability to tuberize in the field. In addition, they vary in male fertility, vine size, stolon length, and tuber size. In this study, three haploids were crossed with nine diploid wild Solanum species and 27 hybrid families were evaluated in the field for two years. The proportion of male fertile hybrid clones varied depending on the wild species parent. A large effect of the female parent was detected for vine size, stolon length, tuber size, percent tuberization, and percent plants selected for agronomic quality. An exceptional haploid (US-W4) was identified for the production of agronomically desirable haploid-wild species hybrids. In hybrids derived from US-W4, differences among wild species parents were observed for agronomic quality. Superior hybrids were produced by S. berthaultii and S. microdontum. Reciprocal crosses were evaluated for a subset of families. When the wild species was used as the female parent, male fertility was restored, but tuberization and tuber size were reduced. Careful selection of both haploid and wild species parents can result in a large proportion of fertile, agronomically desirable hybrid offspring.  相似文献   

Ploidy Manipulation and Introgression of Resistance to Alternaria Helianthi from Wild Hexaploid Helianthus Species to Cultivated Sunflower (H. annuus L.) Aided by Anther Culture     

M. Sujatha  A. J. Prabakaran 《Euphytica》2006,152(2):201-215

The present investigation discusses the scope for transferring of resistance to leaf spot disease incited by Alternaria helianthi from two hexaploid wild species (H. tuberosus and H. resinosus) to diploid cultivated sunflower. Interspecific hybrids produced between sunflower and these two hexaploid species were partially fertile with tetraploid chromosome status. Backcrosses of these interspecific hybrids with cultivated sunflower resulted in the formation of sterile triploid plants. To overcome the problem of sterility and facilitate backcrosses with cultivated sunflower, anther culture of the tetraploid interspecific hybrids was carried out to bring down their chromosome number to diploid status. Anthers from both interspecific hybrids were cultured on basal Murashige and Skoog media supplemented with varying concentrations of organics and the growth regulators benzyladenine and naphthaleneacetic acid. Anthers of interspecific hybrids involving H. resinosus responded well and regenerated through an embryogenic route at a frequency of 98.7%. But in interspecific hybrids with H. tuberosus, anthers formed callus and subsequently regenerated shoots through an organogenic pathway. DNA ploidy analysis of anther culture plants of interspecific hybrids derived from H. tuberosus crosses was carried out to identify plants with desired diploid status. In vitro screening of parents, interspecific hybrids and anther culture plantlets against A. helianthi showed resistance in 68.5% of the anther culture plants of interspecific hybrids from H. tuberosus and in 24.3% of the plants derived from interspecific hybrids involving H. resinosus.  相似文献   

Somatic hybrids between Gossypium hirsutum L. (4×) and G. davidsonii Kellog (2×) produced by protoplast fusion     

Yuqiang Sun  Yichun Nie  Xiaoping Guo  Chao Huang  Xianlong Zhang 《Euphytica》2006,151(3):393-400

Somatic hybrids were obtained from electrofused protoplasts derived from embryogenic suspension cultures of tetraploid cotton (G. hirsutum L. cv. Coker 201) and embryogenic callus of diploid wild cotton G. davidsonii. The regenerants were initially identified as hybrids by RAPD (random amplified polymorphic DNA) analysis. Subsequently, observation on chromosome counting, morphology and SSR (simple sequence repeat) confirmed the hybrid status. Cytological investigation of the metaphase root-tip cells of the regenerated plants revealed there were 74 to 84 chromosomes in the plants, close to the expected 78 chromosomes. SSR analysis revealed the regenerated plants contained specific genomic fragments from both fusion partners, further confirmed their hybridity. The morphology of the plants was intermediate between the two fusion partners. The regenerants were difficult to develop into mature plants because their roots browned and they wilted from the stem apex before forming 3 to 5 true leaves. The hybrid plants were transferred to soil by grafting in vitro onto rootstocks.  相似文献   

Assessment of Gossypium sturtianum and G. australe as potential sources of Fusarium wilt resistance to cotton   总被引：1，自引：0，他引：1  

Helen McFadden  Dean Beasley  Curt L. Brubaker 《Euphytica》2004,138(1):61-72

When challenged with Fusarium oxysporum f. sp. vasinfectum (Fov) from vegetative compatibility groups (VCGs) 01111 and 01112 in glasshouse tests, Gossypium australe Mueller and Gossypium sturtianum Willis accessions showed a variety of disease responses ranging from highly resistant to highly susceptible. Under high disease pressure G. sturtianum accession Gos-5275 was significantly more resistant than the commercial G. hirsutum cultivars that are designated standards for Fusarium resistance by Australian cotton breeders. Under low disease pressure G. sturtianum accession Gos-5250 was more susceptible than a highly susceptible commercial cultivar. A series of glasshouse tests was performed at two locations (Indooroopilly, QLD. and Canberra, ACT), and under low and high disease pressure. In these tests, a hexaploid cross (Gos-5271) generated from a Fusarium-resistant G. sturtianum (Gos-5275) and a Fusarium-susceptible G. hirsutum L. (CPI-138969) was significantly more resistant to Fusarium wilt than its G. hirsutum parent. Thus G. sturtianum, with a diploid genome and a range of responses to Fov challenge, has the potential to provide the basis for the elucidation of the genetic basis of resistance to Fusarium wilt in cotton species. In addition, resistant accessions of G. sturtianum are identified as a potential source of Fusarium wilt resistance genes for cotton breeding. In the glasshouse tests used to assess the resistance of various Gossypium accessions to Fusarium wilt disease, the scoring of vascular browning was found to give a more reliable indication of disease severity than the scoring of foliar symptoms. This revised version was published online in August 2006 with corrections to the Cover Date.  相似文献   

Polyploidy and sexual polyploidization in the genus Vaccinium     

P.M. Lyrene  N. Vorsa  J.R. Ballington 《Euphytica》2003,133(1):27-36

Genus Vaccinium,consisting of blueberries, cranberries, lingonberries and many related wild species, includes diploid, tetraploid, and hexaploid species. Most evidence indicates that the tetraploid species are autotetraploids, with non-preferential bivalent chromosome pairing. Although homoploid interspecific crosses usually produce numerous fertile hybrids if the parents are from the same section of the genus, inter sectional crosses at the diploid level normally produce no seedlings, weak seedlings, or seedlings that are very low in fertility. There is a strong but not complete triploid block within Vaccinium. Even with insections, tetraploid × diploid (and the reciprocal) crosses normally give only a few tetraploid and a few triploid hybrids. Hexaploid × diploid crosses within sections are very hard to make, and the few hybrids that have been obtained are pentaploid. The frequency of 2n gametes varies,both among genotypes within species and among species. Vaccinium pollen is normally shed in tetrads, and the frequency of large pollen grains shed in dyads can be used to estimate 2n gamete frequency. Cultivated blueberries occur at both the tetraploid and the hexaploid levels, and there are important genetic resources in the diploids. Unreduced gamete production has permitted transfer of genetic material from the diploid to the tetraploid level and from the diploids and tetraploids to the hexaploid level via triploid hybrids. Intersectional crosses can occasionally produce tetraploid Vaccinium hybrids that appear to behave as amphidiploids and have medium to high fertility. CommercialVaccinium cultivars are normally propagated by cuttings. Intersectional hybridization, chromosome doubling, and asexual propagation could permit the production of novel hybrid combinations with value as ornamentals or in fruit production. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

Effect of high temperature on the production of 2n pollen grains in diploid roses and obtaining tetraploids via unilateral polyploidization          下载免费PDF全文

Laurent Crespel  Camille Le Bras  Daniel Relion  Hanaé Roman  Philippe Morel 《Plant Breeding》2015,134(3):356-364

To integrate the gene pool of a wild species (primarily diploid) into a cultivated pool (primarily tetraploid), a crossing between a dihaploid cultivated rose and a hybrid of Rosa wichurana allowed to obtain interspecific diploid hybrids that produced 2n pollen grains. A return to a tetraploid level sought by breeders can then be considered using sexual polyploidization, obtained by crossing a tetraploid cultivated rose with these hybrids. Application of a high‐temperature regime led to a small but significant increase in the percentage of 2n pollen grains in these hybrids of up to 4.6%. This result was obtained by applying high temperatures close to 32°C during the day to plants cultivated in a glasshouse during recurrent cycles of bloom. Crosses were made between an unreleased tetraploid hybrid tea rose, as a female, and the diploid hybrid that produces the most 2n pollen grains. Tetraploid (42.1%) and triploid (57.9%) offspring were obtained. The use of these 2n pollen grains of the first division restitution type should facilitate the introgression of complex traits of interest.  相似文献   

The production of multispecific octoploids from Fragaria species and the cultivated strawberry   总被引：2，自引：0，他引：2  

W. D. Evans 《Euphytica》1982,31(3):901-907

Summary A method of incorporating genetic material from five species of Fragaria and the cultivated strawberry into fertile octoploids is described. A synthetic octoploid derived from a hexaploid x diploid hybrid was crossed to octoploid cultivar breeding lines until a BC₂ hybrid was produced. A second synthetic octoploid in which two diploid species and a tetraploid species were combined was crossed to a cultivated strawberry to produce a hybrid breeding clone. The two breeding clones were crossed and 222 seedlings were produced. The seedlings were generally vigorous and fruitful, some having commercial potential.  相似文献   

Interspecific hybridization in the genus Arachis through embryo culture     

Y. P. S. Bajaj  P. Kumar  M. M. Singh  K. S. Labana 《Euphytica》1982,31(2):365-370

Summary The embryos of a cultivated tetraploid peanut (Arachis hypogaea), a wild diploid species (A. villosa), and their hybrid embryos, which generally abort in nature, were cultured in vitro and the plants have been successfully transferred to the soil. The hybrids showed triploid chromosome number (3x=30). The significance of wide hybridization in peanut-improvement programs is discussed.  相似文献   

Genetic variability for seed oil content and seed index in some wild species and perennial races of cotton     

V. GOTMARE  P. SINGH  C. D. MAYEE  V. DESHPANDE  C. BHAGAT 《Plant Breeding》2004,123(2):207-208

A 3‐year study was made on genetic variability of seed oil content and seed index with 20 wild species, two cultivated species and six perennial races of Gossypium arboreum cotton maintained at the Central Institute for Cotton Research, Nagpur, India. The mean seed oil content varied from 10.26 to 22.89% in 22 species of Gossypium and six races of G. arboreum. In this material the weight of delinted seed varied from 43.33 to 54.54 mg/seed. The highest seed oil content was recorded in the species G. lobatum followed by G. harknessii. On average, for both traits, the means were higher for G. arboreum and its races. However, G. africanum and G. harknessii reached the level of G. arboreum and its races for seed weight, while five wild species surpassed the best races and G. arboreum in seed oil content, among them was G. harknessii. To breed simultaneously for seed oil content and seed weight, crosses between races of G. arboreum and wild species of Gossypium seem to be promising.  相似文献   

Development of a core set of SSR markers for the characterization of <Emphasis Type="Italic">Gossypium</Emphasis> germplasm     

John Z. Yu  David D. Fang  Russell J. Kohel  Mauricio Ulloa  Lori L. Hinze  Richard G. Percy  Jinfa Zhang  Peng Chee  Brian E. Scheffler  Don C. Jones 《Euphytica》2012,187(2):203-213

Molecular markers such as simple sequence repeats (SSR) are a useful tool for characterizing genetic diversity of Gossypium germplasm. Genetic profiles by DNA fingerprinting of cotton accessions can only be compared among different collections if a common set of molecular markers are used by different laboratories and/or research projects. Herein, we propose and report a core set of 105 SSR markers with wide genome coverage of at least four evenly distributed markers per chromosome for the 26 tetraploid cotton chromosomes. The core marker set represents the efforts of ten research groups involved in marker development, and have been systematically evaluated for DNA polymorphism on the 12 genotypes belonging to six Gossypium species [known collectively as the cotton marker database (CMD) panel]. A total of 35 marker bins in triplex sets were arranged from the 105 markers that were each labeled with one of the three fluorescent dyes (FAM, HEX, and NED). Results from this study indicated that the core marker set was robust in revealing DNA polymorphism either between and within species. Average value of polymorphism information content (PIC) among the CMD panel was 0.65, and that within the cultivated cotton species Gossypium hirsutum was 0.29. Based on the similarity matrix and phylogenetic analysis of the CMD panel, the core marker set appeared to be sufficient in characterizing the diversity within G. hirsutum and other Gossypium species. The portability of this core marker set would facilitate the systematic characterization and the simultaneous comparison among various research efforts involved in genetic diversity analysis and germplasm resource preservation.  相似文献