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1.
The successful interspecific cross is reported for the first time between kenaf (Hibiscus cannabinus L.), a diploid species (2n=36) and roselle (Hibiscus sabdariffa L.), a tetraploid species (2n=72). Kenaf, grown for its bast fiber and also under investigation as a source of paper pulp, is fast-growing and well adapted to mechanical harvesting, but susceptible to root-knot nematodes. Roselle, also grown for its bast fiber, is slower growing, not well adapted to mechanical harvesting, but certain varieties are resistant to root-knot nematodes. Five hybrid plants were produced from the pollination of 4,445 flowers of kenaf with pollen from roselle; no hybrid plants were produced from 2,655 pollinations made in the reciprocal direction. One line of roselle was the parent of 3 of the 5 hybrids; one line of kenaf was the parent of 2 of these 3. The F1 hybrids were triploid, and varied in vigor, growth habit and vegetative morphology, but had similar flowers. Two of the F1 hybrids showed high pollen fertility, apparently as a result of restitution at first meiotic division leading to unreduced spores. These two hybrids each produced a small amount of seed, which gave rise to an F2 population of 22 plants. The F2 plants vary in vigor but are morphologically uniform, have thick leaves with mosaic sectors, and are presumably spontaneous allohexaploids. The theoretical possibilities of increasing the percentage of recovery of the F1 interspecific hybrids and of developing a synthesized hybrid variety useful for bast fiber and paper pulp are discussed. 相似文献
2.
Regenerating calluses of Allium fistulosum × A. cepa interspecific F1 hybrids were treated in vitro with colchicine. A factorial experiment was designed to test the effects of colchicine concentration
and time on the recovery of tetraploid plants from in vitro-colchicine-treated calluses. Shoot production of regenerating
calluses following in vitro colchicine treatment decreased with increasing colchicine concentration and treatment time. Cytological
analyses of root tip cells from regenerated plantlets showed that chromosomes of control plantlets (not treated with colchicine)
were not doubled. Chromosome number of some plantlets regenerated from in vitro-colchicine-treated calluses were doubled,
resulting in tetraploids. Calluses treated with 0.1 or 0.2% colchicine in BDS liquid medium for 48 or 72 hours yielded the
highest numbers of tetraploid plantlets. Chromosome bridges at anaphase or early telophase were observed in diploid and tetraploid
plants; their potential use is discussed. These results demonstrate that in vitro-colchicine treatment of regenerating calluses
of interspecific F1 hybrids is effective in recovering tetraploid plants.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
3.
Summary The pre-and post-fertilization barriers in the interspecific crosses between Vigna umbellata and V. minima were investigated. In the reciprocal crosses (V. minima as the parent) the entry of pollen tubes into the ovary was delayed by about 4 h, and no seed set was observed. However, no pre-fertilization barriers were encountered in crosses involving V. minima as the parent and V. umbellata as the parent (normal cross). The delay/absence of divisions in the endosperm and the failure of embryo to divide were the post-fertilization barriers responsible for somatoplastic sterility in normal crosses which yielded a few hybrid seeds. The hybrid seeds showed poor germinability. The F1 hybrids were intermediate between the parents in most morphological characters, and are completely sterile for pollen. Backcrossing of F1 hybrid with both the parents did not restore fertility in the progenies. V. minima is considered as the tertiary gene pool of the rice bean. 相似文献
4.
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
5.
Alisa Kongjaimun Prakit Somta Norihiko Tomooka Akito Kaga Duncan A. Vaughan Peerasak Srinives 《Euphytica》2013,189(2):217-223
Yardlong bean [Vigna unguiculata ssp. unguiculata cv.-gr. sesquipedalis] is an important vegetable legume, particularly in Asia. Tenderness and sweetness of fresh pods are the key factors in deciding the commercial acceptance of yardlong bean. We report here for the first time quantitative trait loci (QTL) mapping of these traits from crosses between the yardlong bean accession JP81610 and wild cowpea (V. unguiculata ssp. unguiculata var. spontanea) accession JP89083. Two SSR-based linkage maps developed from BC1F1 [(JP81610?×?JP89083)?×?JP81610] and F2 (JP81610?×?JP89083) populations were used for QTL analysis of pod tenderness and total soluble solid (TSS) content. Composite interval mapping (CIM) identified three QTLs for pod tenderness with phenotypic variance explained (PVE) of 5.6?C50?% and alleles from JP81610 increased the tenderness. CIM detected two QTLs for pod TSS with PVE of 7 and 9?%, and alleles from JP89083 increased TSS. Locations of these QTLs were compared with those of QTLs controlling domestication-related traits identified in the same populations. All QTLs for pod tenderness co-localized with QTLs for pod length. QTLs for pod TSS co-located with QTLs for pod dehiscence and/or pod length. The implications of these QTLs in breeding new yardlong bean and cowpea cultivars are discussed. 相似文献
6.
Summary Derivatives of a cross between cultivated peanuts, Arachis hypogaea L. (2n=40), and the wild species collection GKP 10017 (2n=20) were compared morphologically, for leafspot resistance and for yield. The objective of the study was to determine the effects of wild species germplasm on the A. hypogaea genome. The sterile F1 hybrid which resulted from crossing the two species was treated with colchicine to restore fertility at the 6x ploidy level. The resulting hexaploid was cytologically unstable and progeny lost chromosomes until stability was regained at the 2n=40 chromosome level. Forty-seven characters were used to analyze the variation among plants in the tetraploid interspecific hybrid population. The plants were compared to four cultivated lines plus GKP 10017. Many hybrids were intermediate to the two parents in morphology. Individual traits such as growth habit, pod and seed size, elongation of the constricted area between pods, nodulation and leaflet size were altered by the presence of GKP 10017 germplasm in many of the hybrid plants. Cercospora arachidicola
Hori and Cercosporidium personatum
(Berk. & Curt.) Deighton resistances were evaluated for all plants. Several hybrids had few lesions due to either leafspot pathogen. In addition, 24 largeseeded interspecific hybrid selections were compared to the cultivated variety NC 5 for yield. Five selections were superior to both parents at p=0.01. Morphology, disease resistance and yields appeared to be greatly influenced by the wild species GKP 10017 germplasm in plants of the interspecific hybrid population. The potentials of using wild species for improvement of the cultivated peanut are discussed.Paper number 5948 of the journal series of the North Carolina Agricultural Research Service, Raleigh, NC 27650. The investigation was supported in part by ICRISAT and SEA-CR grant no. 701-15-51. 相似文献
7.
The wild Ceratotropis species which occur in Japan consist of Vigna angularis var. nipponensis, V. nakashimae, V. riukiuensis and V. reflexo-pilosa. The main aim of the present study is to detect cross-compatibility of adzuki bean and rice bean with these wild relatives. The cross of V. nakasbimae with adzuki bean was successful in both directions and viable seeds were produced, while the cross with rice bean was not successful. V. riukiuensis is cross-compatible with adzuki bean and rice bean only when V. riukiuensis is used as male parent and the hybrid seeds showed normal germination. The cross between V. reflexopilosa and the two cultigens adzuki bean and rice bean did not succeed in either direction. The present results suggest that V. nakashimae and V. riukiuensis could be used as gene sources for the adzuki bean breeding programme through interspecific hybridization. Successful hybrids between adzuki bean and rice bean cannot easily be produced. However, since V. riukiuensis is cross-compatible with both adzuki bean and rice bean, V. riukiuensis could be useful as a bridge species between adzuki bean and rice bean. 相似文献
8.
《Postharvest Biology and Technology》2009,54(3):155-158
The aim of this study was to evaluate the efficacy of silver nanoparticles (SNP) and essential oils as novel antimicrobial agents in extending the vase-life of gerbera (Gerbera jamesonii cv. ‘Dune’) flowers. The vase-life of flowers held in a solution containing 5 mg L−1 SNP plus 6% sucrose was found to be significantly higher than with 8-HQC (8-hydroxyquinoline citrate) or control treatments. However, the vase-life was not different to that of flowers held in similar concentrations of silver nitrate. All gerbera flowers held in SNP solutions showed significantly higher relative fresh weight than the control. Vase-life of gerbera flowers was extended by addition of either 50 or 100 mg L−1 carvacrol and either 1 or 2 mg L−1 SNP from 8.3 to 16 d. In addition, the relative fresh weight and solution uptake of gerbera flowers were increased by addition of 100 mg L−1 essential oils and 1 or 2 mg L−1 SNP as compared to that of control flowers. Our results suggest the potential application of essential oils or SNP as novel alternatives to common chemicals used in preservative solutions for gerbera flowers. 相似文献
9.
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
10.
Crosses between Hordeum vulgare L. and H. bulbosum L. I. Production,morphology and meiosis of hybrids,haploids and dihaploids 总被引:1,自引:0,他引:1
W. Lange 《Euphytica》1971,20(1):14-29
Summary From crosses between diploid and autotetraploid cytotypes of Hordeum vulgare L. (cultivated barley) and H. bulbosum L. (bulbous barley grass) diploid, triploid and tetraploid interspecific hybrids were produced. Both directly and after vegetative segregation crosses in either direction also gave rise to haploids and dihaploids resembling H. vulgare. The use of embryo culture was necessary. Plant morphology of the hybrids was much like that of H. bulbosum, although the hybrid plants were less vigorous. Meiosis in the hybrids was more or less disturbed, and this seemed to be the main cause of the high level of sterility. 相似文献
11.
Summary Colchicine induced tetraploid (2n=4x=36) Brachiaria ruziziensis were used as female parent in crosses with apomictic tetraploid species (2n=4x=36) Brachiaria decumbens and Brachiaria brizantha. Tetraploid B. ruziziensis pollinated with B. decumbens set significantly more seed than selfed or crossed with B. brizantha. The crossability between B. ruziziensis and B. decumbens is also better than between B. ruziziensis and B. brizantha. In addition, hybrid seedlings obtained in crosses involving B. brizantha are more frequently lethal. All the viable F1 hybrids are tetraploid with 36 chromosomes. Meiotic chromosome behaviour suggest that the three species belong to the same genomic group and therefore the same agamic complex. Chromosome associations at metaphase I do not allow to identify fertile and sterile hybrids. The interspecific hybrids averaged a lower fertility than their female parent, but some hybrids were more fertile than their apomictic male parent. 相似文献
12.
Self-pollinations of a diploid (2n = 2x = 16) interspecific hybrid Alstroemeria aurea × A. caryophyllaea, resulted in no seeds.
Backcrosses of the hybrid with parent A. aurea did not produce any seeds. In an attempt to restore the hybrid fertility, an
efficient in vitro procedure has been developed and applied effectively in the chromosome doubling of the diploid hybrid.
Forty-one percent of the treated plants were proven to be truly tetraploid by chromosome counts and stomatal measurements
after applying 0.2 to 0.6% colchicine for 6 to 24 hours. Over 87.5% of these colchicine-induced tetraploids were stable and
retained their tetraploidy after one year of growth. The fertility of the hybrid was not restored although the pollen stainability
was increased from 0 to 12% after chromosome doubling. Cytological studies on the pollen mother cells (PMCs) of the sterile
diploid hybrids revealed abnormal meiotic behaviors. In addition, aneuploid chromosome numbers, ranging from 2n = 1 to 2n
= 18, were observed in over 45% of the PMCs examined. PMCs of the colchicine-induced tetraploids showed that meiotic chromosome
pairings were normal in most cases (1.59I + 15.07II + 0.05III + 0.03IV). These results indicate that the sterility of this hybrid is not only caused by parental chromosome differences,
but other complex fertility/sterility-regulating mechanisms are involved too.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
13.
Summary F1 hybrids of triazine resistant Brassica napus and triazine susceptible B. oleracea were morphologically intermediate to the parent species. Of 49 hybrids examined, 44 had 28 chromosomes, two had 37, one had 38 and two had 56. The 38-chromosome plant was thought to be a matromorph, the others, A1C1C (28), A1C1CC (37) or A1A1C1C1CC (56) type hybrids. Pollen stainability averaged 9.0% in the sesquidiploid, 32.0% in the tetraploids and 89.5% in the hexaploids. All the interspecific hybrids were resistant to 1.0×10-4 mol L-1 atrazine. The sesquidiploid hybrids produced gametes with chromosome numbers ranging from 9 to 17 and the tetraploid hybrid gametes had chromosome numbers from 15 to 22. Most hybrids produced self-seed. The partial fertility of these hybrids may permit their backcrossing to one or both parents. 相似文献
14.
Summary Unidirectional intergeneric crosses using octoploid and hexaploid Fragaria species as a female parent and diploid and tetraploid Potentilla species as a male parent were performed, producing in toto 1345 fruits with an estimated 46089 seeds. The germinating seeds obtained by using P. anserina mostly perished at the cotyledon stage, a few developing into matroclinous octoploid seedlings. The seeds obtained by using P. fruiticosa produced two types of seedlings: matroclinous octoploids and genuine intergeneric hybrids. It is considered that the matroclinous octoploids resulted from contamination during the emasculation process. A great majority of the hybrid seedlings were slow in growth and development and perished before reaching the flowering stage. No haploids have been recovered. Possible reasons for absence of haploid genotypes in the progenies of these intergeneric crosses are considered. Among the seedlings of F. x ananassa cv. Tioga x P. fruiticosa, a seedling of an unusual phenotype was noticed, which upon chromosome determination, proved to be 2n=9x=63. This genotype displayed complete male and female sterility. The implication of the sterility of this seedling for bridging of the two genera is discussed.This research was performed as part of a cooperative project on genetic improvement of cultivated strawberry between the Fruit Laboratory, USDA, Beltsville and NJAES. Paper of the Journal Series, D-12102-16-83. New Jersey Agricultural Experiment Station, Rutgers University, New Brunswick, NJ 08903. 相似文献
15.
Summary
Solanum verrucosum (2n=24) is easily crossable with many diploid species and haploids, but usually as a female partner only. All interspecific hybrids studied appeared male sterile due to interaction of S. verrucosum plasmons with genes from male parents. Seven male sterility types have been discovered in the investigations made on 21 S. verrucosum introductions and their interspecific hybrid derivatives. These are briefly discussed. S. verrucosum proves to possess at least four plasmons denoted as [Trs], [Pss], [Svs] and [nss]. Each produces a diagnostic type of male sterility in the presence of the specific plasmon-sensitive genes which are widely spread. The role of hybrid sterility as a barrier to gene exchange between populations is discussed. 相似文献
16.
Although the wild sunflower species Helianthus laevigatus has not been extensively studied it may be considered for sunflower breeding as a potential source of desirable genes for Sclerotinia stalk rot resistance and high contents of proteins and linoleic acid in the seed. A set of six H. laevigatus populations was crossed to cultivated sun~ower lines and produced nine F1 (2-14 plants) and 66 BC1F1 hybrid combinations (1-13 plants). Male sterility occurred in F1 and BC1F1 hybrid combinations and pollen viability was lower in the progenies than in the parents (51.6-77.2%in F1 and in F1 and 4.8-34.0% in BC1F1). Meiosis was normal in the H. laevigatus populations It was found that this tetraploid species also occurred in a hexaploid form Numerous irregularities were observed in the meiosis of the F1 interspecific hybrids During diakinesis, quadrivalents and hexavalents were recorded in addition to bivalents Dislocated chromosomes and chromosome bridges were present in the other phases The chromosome number in F1 was 68 (tetraploid). Irregularities in chromosome pairing were observed in the interspecific hybrids at BC1F1. There were many univalents, and trivalents quadrivalents and hexavalents were also present The chromosome number in the BC1F1 generation ranged from 34 to 60. The occurrence of meiotic irregularities in the F1 and BC1F1 interspecific hybrids indicates that H. laevigatus and the cultivated sunflower differ in genome constitution. 相似文献
17.
Fourteen interspecific hybrids in sexual diploid Allium senescens var. minor× apomictic tetraploid Allium nutans L. crosses, and eight interspecific hybrids in sexual diploid A. senescens var. minor× apomictic hexaploid A. senescens L. crosses were produced. The number of chromosomes was 2n= 24 in interspecific hybrids of diploid × tetraploid, and 2n= 32 in diploid × hexaploid crosses. Triploid and tetraploid interspecific hybrids showed intermediate parental morphological characteristics. Tetraploid interspecific hybrids of A. senescens var. minor×A. senescens crosses formed two groups based on leaf colour and leaf width. Seeds were formed in 11 out of 14 triploid interspecific hybrids under natural conditions. In cytological observations of parthenogenesis, three out of 12 triploid interspecific hybrids and five out of eight interspecific tetraploid hybrids were observed. Parthenogenesis ranged from 26.0% to 86.0% in five tetraploid interspecific hybrids. Non-parthenogenesis to parthenogenesis segregated in a 3:5 ratio in A. senescens var. minor×A. senescens crosses. 相似文献
18.
Summary The frequency of haploid production following the interspecific pollination of eight tetraploid potato cultivars (Solanum tuberosum subsp. tuberosum) with Solanum phureja clone 1.22 was investigated. A total of 185 haploids were produced with an overall haploid frequency of 3.9 haploids/100 fruits. The haploid frequency was affected by the genotype of the maternal parent. Atlantic, ND860-2, Superior, Saginaw Gold, Spartan Pearl, Nooksack and Onaway had frequencies of 6.2, 5.1, 4.7, 3.9, 2.3 and 0.7 haploids/100 fruits, respectively. There were 60 and 57 haploids produced from Atlantic and Saginaw Gold, respectively, and no haploids were extracted from fruits of Lemhi Russet. Isozyme analysis and visual examination were performed independently to compare the efficiency of discriminating hybrids from haploids. Approximately 80% of total hybrids could be identified by electrophoretic analysis, while 77% were distinguished through visual examination. Pgm-2
1, which is unique in the clone 1.22 and absent from all seed parents, was found to be the most useful locus in hybrid identification and 50% of total hybrids could be distinguished by this allele. With similar rationale, Mdh-1
1 allozyme, which was absent in six of the eight parents, identified 37% of total hybrids. A combination of both visual and electrophoretic methods made hybrid identification even more efficient, with an average identification efficiency of 91%. A scheme was proposed to develop a new haploid inducer which would be homozygous for both Pgm-2
1 and embryo spot. 相似文献
19.
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
20.
Eileen Azevedo Santos Margarete Magalhães Souza Priscilla Patrocínio Abreu Leo Duc Haa Carson Schwartzhaupt da Conceição Ioná Santos Araújo Alexandre Pio Viana Alex-Alan Furtado de Almeida Jôsie Cloviane de Oliveira Freitas 《Euphytica》2012,184(3):389-399
Three new varieties of Passiflora hybrids were developed from crosses between P. sublanceolata J. M. MacDougal (ex P. palmeri var. sublanceolata Killip) versus P. foetida var. foetida L. Twenty putative hybrids were analyzed. Hybridizations were confirmed by RAPD and SSR markers. The RAPD primer UBC11 (5′-CCGGCCTTAC-3′)
generated informative bands. The SSR primer A08FP1 amplified species-specific fragments and heterozygote status was observed
with the two parent bands 240 and 280 bp. The molecular markers generated by primers were analyzed in terms of the presence
or absence of specific informative bands. The morphological characterization of the hybrids enabled their differentiation
into three groups, identified as: (1) Passiflora ‘Alva’, composed of five hybrid plants with white flowers, large corona, light purple filaments at base, white and purple/white
banding to apex; (2) P. ‘Aninha’, composed of six hybrid plants with pale pink flowers, corona filaments reddish/purple at base, white, purple/white
banding to apex; (3) P. ‘Priscilla’, composed of nine hybrid plants with white flowers, small corona, filaments dark purple at base, white and purple
to apex. The genomic homology of parent plants was verified by cytogenetic analysis. Both parents were 2n = 22. Meiosis was regular in genitors and hybrids. Aneuploidy was observed at hybrid groups P. ‘Alva’ and P. ‘Priscilla’ (2n = 20). Other authors had already observed the same number of chromosomes for some P. foetida genotypes. Obtaining valuable interspecific hybrids opens up new perspectives to offer opportunities in agribusiness for
producers and to arouse the interest of consumers into using passion flowers in the Brazilian ornamental plant market. 相似文献