Cytological,morphological and molecular analyses of controlled progenies from meiotic mutants of alfalfa producing unreduced gametes

A program of sexual polyploidization was carried out in alfalfa using plants from wild diploid species that produced male or female unreduced gametes. Sixteen progenies from 2x-4x and 2x-2x crosses were examined with a combination of morphological, cytological and molecular analyses. The chromosome counts revealed diploid, tetraploid and aneuploid plants. Plants with B chromosomes were also detected. The leaf area of the plants was a useful characteristic for distinguishing tetraploid from diploid plants obtained by unilateral or bilateral sexual polyploidization. Leaf shape and leaf margin were not correlated with the ploidy levels. Plants with supernumerary chromosomes displayed obovate or elliptic leaves which differed markedly from the range of forms typical of diploid and tetraploid alfalfa plants. RAPD markers were investigated in all progeny plants to determine maternal and paternal amplification products. Three alfalfa-specific primers proved to be effective in revealing the hybrid origin of the plants. A combination of cytological, morphological and molecular analyses is essential for a detailed genetic characterization of progenies in programs of sexual polyploidization.     

Flavonoid variation in the genus briza

During a survey of 6 Eurasian and 10 South American Briza species for leaf flavonoids, 27 components were found. Twelve of these were identified: tricin 5-glucoside, tricin 7-glucoside, quercetin 3-glucoside, kaempferol 3-glucoside, vitexin, isovitexin, orientin, iso-orientin, and the 4′-O-glucoside of all 4 glycoflavones, 3 of which are reported for the first time. The Eurasian species, with the exception of Briza maxima, are remarkably uniform in their flavonoid pattern, accumulating mainly vitexin and isovitexin; whereas the South American species are characterized by the presence of orientin, iso-orientin and 9 unidentified flavonoids. In Briza media and the South American species, ploidy level is shown to play a large part in flavonoid variation. Examination of 12 diploid and 8 autotetraploid plants of B. media revealed that diploids accumulate vitexin and isovitexin, whereas tetraploids accumulate orientin and iso-orientin, autotetraploidy having apparently upset regulatory genes in the formation of the flavone C-glycosides. Mild alkaline treatment of both isovitexin and iso-orientin was found to give 100% conversion to the corresponding 8-C-glucoside.     

PARTHENOGENESIS IN TETRAPLOID LILIUM LONGIFLORUM

Emsweller , S. L., and Joseph Uhring . (U.S.D.A., Beltsville, Md.) Parthenogenesis in tetraploid Lilium longiflorum. Amer. Jour. Bot. 49(9): 978–984. Illus. 1962.—Nine maternal polyhaploids from 1 capsule and 1 tetraploid from another were produced following pollination of 2 tetraploid Lilium longiflorum plants with pollen from diploids of the same species. One of the 9 plants had 25 chromosomes; the extra chromosome was identified as a modified D. Two other plants had 2 new chromosomes each and the remaining 6 had 24 unmodified chromosomes. Translocations in meiosis of the tetraploid produced the new chromosomes. One plant obtained from a second capsule had 48 chromosomes. The 9 plants were smaller than diploids and the 48-chromosome plant was considered a diploid until mitosis was observed. The 9 plants originated from unfertilized eggs of the tetraploid, and the 48-chromosome plant presumably from chromosome doubling of an egg cell.     

A and D genomes spatial separation at somatic metaphase in tetraploid cotton: evidence for genomic disposition in a polyploid plant

Chromosomal dispositions were analyzed on the metaphase plate of tetraploid cotton (AADD). At metaphase, the two subgenomes, A and D, were separated in a radial pattern in which the small D subgenome chromosomes tended to concentrate at the center and the large A subgenome chromosomes were scattered about the periphery on the metaphase plate. Although the ordered chromosome arrangement was disturbed in an artificial hexaploid (AADDGG), the separation pattern could be recovered after the majority of the additional genome (GG) chromosomes were removed by backcrossing the artificial hexaploid with the tetraploid cotton (AADD). A similar genome separation phenomenon was also found in synthesized tetraploid cotton (AAGG). These results indicate that the genome separation pattern could be established immediately after tetraploid cotton formation and could be stably inherited in tetraploid cotton. Given the evidence of parental genome separation in other plants and animals, we speculated that genome separation might be a normal phenomenon in diploid and polyploid species. These finding will shed light on the chromosome conformation in plant cells.     

The Biology of Allium monanthum (Liliaceae) I. Polyploid Complex and Variations in Karyotype

Abstract Plants of Allium monanthum Maxim., whose gender expression are usually dioecious, but rarely hermaphrodite or gynomonoecious, proved to constitute a polyploid complex, consisting of diploid, triploid, and tetraploid individuals. The basic chromosome complement of this species consists of seven metacentric or submetacentric chromosomes and one acrocentric, the latter possessing a satellite on the short arm. Thus, the karyotype formula is expressed as 7V+11 (x=8). The diploid plants (2n = 16) were confined to central Honshu, Japan. Typical female plants possessed the standard karyotype, whereas male plants were heterozygous for two kinds of translocations. The 3x plants (2n=24) are somewhat widely distributed in the areas from the Kanto to Hokuriku district in Honshu. All female triploid plants possessed the standard karyotype. The geographical distribution of 4x plants (2n=32) which express mostly a female phenotype occurred nearly throughout the whole areas investigated; they are geographically isolated from the 2x plants. A majority of 4x plants had the standard karyotype. The remaining tetraploids were of the aberrant type, 4x/51, which has five acrocentric chromosomes, and two aneuploids 4x+1 and 4x-1. Both 3x and 4x forms seem to be of autopolyploid origin. Three kinds of aberrant nucleolar chromosomes with an extra satellite or an inseried secondary constriction were found in the heterozygotes for translocations of 2x plants and also in some plants of the 3x form. These aberrant plants usually form their own homogeneous populations, but were somewhat scattered throughout the range in their distribution. Thus, these individuals are considered to have perpetuated these types of chromosome aberrations which originated in the remote past.     

Chromosome doubling of 2x Solanum species by oryzalin: method development and comparison with spontaneous chromosome doubling in vitro

A potato breeding scheme implies the possibility of ploidy level manipulation either by reducing the chromosome number of cultivars from 48 to 24 to be able to cross them with diploid related species or by doubling diploid material to reach the generally optimal tetraploid level. In vitro spontaneous chromosome doubling is widely used but can lead to somaclonal variation. Since oryzalin has proven to be efficient as a chromosome doubling agent on potato cell suspension cultures, we tried this herbicide on various Solanum species and interspecific diploid hybrids. A 24 h dip in a 28.8 M aqueous oryzalin solution applied on apical buds was the most efficient treatment in terms of tetraploid plant production (mean = 4.1 tetraploid plants for 10 treated buds over 4 genotypes). However 50–100% of the regenerated tetraploid plants acclimatized after in vitro treatment proved to be chimaeric. Consequently, a selection procedure in the progeny was necessary to obtain real and stable doubled clones and final yields were low. This technique is easy to apply and could be a good alternative to chromosome doubling by spontaneous in vitro regeneration in the case of refractory genotypes especially where somaclonal variation is problematic. Percentage of tetraploids among the regenerated plants varied from 6 to 29% with the oryzalin doubling technique while it varied from 20 to 78% by in vitro spontaneous doubling for five diploid genotypes. An observation of the progeny indicated that chimaeras were more frequent using oryzalin (50–100% of the initially supposed tetraploid plants) than when chromosomes doubled spontaneously (4–67% of the initially supposed tetraploid plants).     

Variation in flavonoid patterns in relation to chromosome changes in Gibasis schiedeana

The distribution of $\text{C-}\text{glycoflavones}$ has been examined in the leaves of plants from five diploid and 12 tetraploid populations of Gibasis schiedeana. Five different chromatographic patterns were found; one occurs only in a single population of diploid plants, two were found in seven populations of tetraploids and the other two in the remaining plants from both diploid and tetraploid populations. Flavonoids were also investigated in three different types of artificially produced triploids. The effects of the changes in ploidy, which are accompanied by Robertsonian fusion and variation in the number of B chromosomes as contributory factors in the observed differences in flavonoid patterns are discussed.     

Genetic and chromosomal variation inPetunia hybrida plants regenerated from protoplast and callus cultures

Plants regenerated from callus cultures derived from leaf discs and mesophyll protoplasts ofPetunia hybrida cv. Rose of Heaven exhibit a high frequency of genetic and chromosomal variation. Of twelve leaf disc-derived plants examined, only three had the normal diploid chromosome number (2n=14) while seven were tetraploid and two were aneuploid (16 and 27 chromosomes). Of seventeen plants derived from two protoplasts, none had the diploid chromosome number. Most had 28 chromosomes, one 29, two 27, one 26 and one had variable numbers (14–28) in different root tip cells. In all cases aneuploidy was associated with developmental abnormality. In addition, heritable differences in growth, morphology and flower pigmentation were observed in callus-derived tetraploids and diploids, including one diploid which differed from parent plants in at least four characters. These results are discussed in terms of the importance ofPetunia in genetics research and for studies of somaclonal variation.     

Cytological studies on meiotic configurations of intraspecific aneuploids ofCarex blepharicarpa (Cyperaceae) in Japan

Chromosome configurations at meiotic metaphase I ofCarex blepharicarpa were determined for 245 individuals collected from 11 localities in the Chugoku District of Japan. Nine intraspecific aneuploids, 2n=26–33 and 41, were found. The most common diploid number was 29, and found in 73 individuals. No clear geographical pattern was suggested by a distribution of these aneuploids. A consecutive series of chromosome numbers from 2n=26 to 32 was found in two populations from Okayama Prefecture. At meiotic metaphase I, univalents and multivalents were found, and one to three trivalents were observed in each aneuploid. Heteromorphic chain trivalents comprising large, medium and small chromosomes were prevalent. Homomorphic trivalents, which are thought to be originated from chromosome duplications caused by unreduced gametes, were found in only one individual with 2n=41. The high frequency of heteromorphic trivalents in this species indicates that most aneuploidy probably results from fission and/or fusion of chromosomes.     

Genetics of gamma-irradiation-induced mutations in Arabidopsis thaliana: large chromosomal deletions can be rescued through the fertilization of diploid eggs.

Despite the demonstrated value of chromosomal deletions and deficiencies as tools in plant and animal genome research, in the genetic model plant species Arabidopsis thaliana, such mutations have not been extensively studied. For example, it is not known whether large deletions in different regions of the genome can be tolerated in diploid plants that are heterozygous for such mutations. Similarly the viability or inviability of monosomics has not been examined in detail. To investigate these questions, we have used gamma-irradiated haploid wild-type pollen to pollinate diploid and tetraploid multimarker lines of Arabidopsis. Examination of M1 progenies revealed that chromosome loss mutations and large deletions were induced in the irradiated pollen. Such mutations were eliminated in diploid M1 plants due to dominant lethality but could be rescued in triploid M1 progeny. The use of irradiated pollen and tetraploid marker lines of Arabidopsis is a convenient way of generating deletions and modified chromosomes and provides a genetic tool for deletion mapping and for analysis of chromosomal regions essential for chromosome maintenance.     

Aneuploidy in guava

Aneuploids have been identified cytomorphologically in progenies from triploid and diploid-triploid crosses. 30 trisomics, 2 double trisomics, 1 tetrasomic, and 2 higher aneuploids were obtained. Some of the aneuploids were found to be different from those reported earlier and higher aneuploids carried eight extra chromosomes. The plants with one extra chromosome occurred more frequently (67%) than the other aneuploid types. The changes in morphological traits such as a reduction in the amount of growth and the size of leaf etc. distinguished aneuploids from diploids. In the higher aneuploids the plant parts were highly exaggerated and pollen sterility was very high. The chromosomal counts in acetocarmine squashes confirmed the presence of extra chromosome(s). Aneuploids particularly trisomics were found to be promising and may lead to the production of commercially viable plants.     

Chemotaxonomy, variation and geographical distribution of the Empetraceae

Thirty-one flavonoids (and related phenolics) were found in leaves of the six species in the three genera of Empetraceae (90 populations studied) and five further pigments in fruits of Empetrum. Affinity with the Ericaceae is supported by the occurrence of the 3-galactosidesof gossypetin, malvidin, delphinidin, cyanidin and peonidin. The distribution of leaf flavonoids agrees with both the recognition of three genera and species-delimitation in Ceratiola and Corema. In Empetrum , the flavonoids differ modally in the three species usually accepted, thus confirming data on fruit colour and breeding systems, and suggesting that the genus comprises one species with about three subspecies at diploid and tetraploid levels. The black fruits of most Northern Hemisphere plants contain malvidin, petunidin and delphinidin, while the red fruits of almost all Southern Hemisphere populations ( E. rubrum ) contain cyanidin and peonidin and provide a rare example of the association of cyanidin (instead of delphinidin) with the wild-type allele.
In leaf flavonoid content the diploid E. nigrum is much closer to its presumed tetraploid derivative E. eamesii than to the diploid E. rubrum , which differs most from E. eamesii. Flavonoid patterns and breeding system distinguish most E. rubrum populations from those isolated in Tristan da Cunha-Gough Island. The phytogeographical importance of the phytOGhemical results is discussed.     

Pairing Competition between Identical and Homologous Chromosomes in Rye and Grasshoppers

Meiotic pairing preferences between identical and homologous but not identical chromosomes were analyzed in spontaneous tetraploid/diploid chimeras of three male grasshoppers (Eyprepocnemis plorans) whose chromosome pair 11 were heterozygous for C-banding pattern and in four induced tetraploid/diploid chimaeral rye plants (Secale cereale) heterozygous for telomeric heterochromatin C-bands in chromosomes 1R and 2R. In the grasshoppers, a preference for identical over homologous pairing was observed, whereas in rye both a preference for homologous rather than identical pairing and random pairing between the four chromosomes of the set was found. From the results in rye, it can be deduced that pairing preferences do not depend exclusively on the similarities between chromosomes involved. It is suggested that genotypic or cryptic structural differences between the homologous chromosomes of each pair analyzed might be responsible for the pairing preferences found. This hypothesis can also explain the results obtained in grasshoppers, although the possibility of premeiotic association cannot be excluded in this material.     

Morphological, cytogenetic, and molecular evidence for introgressive hybridization in birch.

Extensive morphological variation of tetraploid birch (Betula pubescens) in Iceland is believed to be due to gene flow from diploid dwarf birch (B. nana) by means of introgressive hybridization. A combined morphological and cytogenetic approach was used to investigate this phenomenon in two geographically separated populations of natural birch woodland in Iceland. The results not only confirmed introgressive hybridization in birch, but also revealed bidirectional gene flow between the two species via triploid interspecific hybrids. The populations showed continuous morphological variation connecting the species, but karyotypically they consisted of only three types of plants: diploids, triploids, and tetraploids. No aneuploids were found. Some of the tetraploid plants had B. pubescens morphology as expected, but most of them had intermediate characters. Most of the diploid plants were B. nana, but some were intermediates and a few had B. pubescens morphology. The triploid plants were either intermediates or they resembled one of the two species. Similar introgressive variation was observed among the diploid and triploid progeny of open-pollinated B. nana in a garden. Birch samples including field plants and artificial hybrids were further examined using a molecular method based on genomic Southern hybridization. The experiments verified introgression at the DNA level.     

同源四倍体紫菜薹的诱导鉴定及其营养品质比较

该研究以二倍体紫菜薹为材料,采用浓度为0.1%、0.2%和0.3%的秋水仙素溶液,在二倍体紫菜薹生长至子叶期时对植株茎尖生长点进行4次点滴处理,鉴定筛选同源四倍体紫菜薹并进行二倍体和四倍体紫菜薹的营养品质比较。结果表明:(1)使用浓度为0.2%秋水仙素溶液点滴4次对紫菜薹的处理效果最好,四倍体紫菜薹的诱导率为6.62%。(2)在形态学上,四倍体植株的叶片、花簇、花器官、角果和种子与二倍体相比都在巨大性上呈现出明显差异;在解剖学上,四倍体植株在气孔密度减小的同时气孔变大,其花粉表现出矩形、梯形以及其他一些不规则的形状;在细胞学上,四倍体和二倍体植株的染色体数目分别为40条和20条;流式细胞仪鉴定结果显示,四倍体植株的DNA分子荧光强度(2 092 385.03)约为二倍体植株(956 725.15)的2倍。(3)植株营养品质方面,四倍体紫菜薹的游离氨基酸、叶绿素总浓度分别比二倍体植株显著增加了228.58%、110.02%,但四倍体紫菜薹的硝态氮、可溶性蛋白、维生素C、可溶性糖、纤维素总含量分别比二倍体植株显著减少了48.99%、43.20%、45.81%、44.50%、59.97%。(4)与二倍体植株相比,四倍体紫菜薹的单株质量、十叶厚、叶宽、叶柄宽都有不同程度的增加,叶片开展度有一定程度的降低。研究发现,秋水仙素诱导产生四倍体紫菜薹的最适浓度为0.2%;四倍体紫菜薹表现出明显的高产性,但多数营养品质极显著低于二倍体紫菜薹。     

Karyotype Analysis of Hypericum Perforatum L.

A karyotype study was made on Hypericum perforatum using plants differentiated in vitro with different ploidy level. The chromosomes of this species are small, morphologically similar, median and submedian. In the basic chromosome set the most distinguishable is chromosome number 1 which was subjected to detail analysis. It was found that there are two types of this chromosome which contribute differentially in diploid, triploid and tetraploid plants.     

Cytogenetic evidence of mixed disomic and polysomic inheritance in an allotetraploid (AABB) Musa genotype

Background and Aims

Edible bananas originated mainly from two wild species, Musa acuminata Colla (AA) and Musa balbisiana Colla (BB), and triploid cultivars with an AAA, AAB or ABB genome are the most widely used. In the present study, chromosome pairing affinities are investigated in a sterile AB Indian variety and in its fertile colchicine-induced allotetraploid (AABB) derivative to determine the inheritance pattern of the tetraploid genotype. The potential implications of interspecific recombination and chromosomal composition of diploid gametes for Musa improvement are presented.

Methods

The pairing of different chromosome sets at diploid and tetraploid levels was investigated through a combination of conventional cytogenetic and genomic in-situ hybridization (GISH) analyses of meiotic chromosomes, leading to a likelihood model of the pairing behaviour. GISH analysis of mitotic chromosomes was also conducted to reveal the chromosome constitution of hybrids derived from crosses involving the allotetraploid genotype.

Key Results

Analysis of chromosome associations at both ploidy levels suggested that the newly formed allotetraploid behaves as a ‘segmental allotetraploid’ with three chromosome sets in a tetrasomic pattern, three sets in a likely disomic pattern and the five remaining sets in an intermediate pattern. Balanced and unbalanced diploid gametes were detected in progenies, with the chromosome constitution appearing to be more homogenous in pollen than in ovules.

Conclusions

Colchicine-induced allotetraploids in Musa provide access to the genetic background of natural AB varieties. The segmental inheritance pattern exhibited by the AABB allotetraploid genotype implies chromosome exchanges between M. acuminata and M. balbisiana species and opens new horizons for reciprocal transfer of valuable alleles.     

小麦属核型分析和BG染色体组及4A染色体的起源

应用植物有丝分裂染色体标本制备新方法和N—带技术对小麦属(Triticum)9个六倍体种(AABBDD),8个四倍体种(AABB,AAGG),3个二倍体种(AA,A~uA~u)及B组的可能供体沙融山羊草(Ae. shronensis)体细胞核型和N—带进行了分析。结果表明,小麦属全部为具中部或次中部着丝点染色体,核型属于“2A”类型,不对称性随倍性提高而有所增加。种问核型有一定差异。所有小麦B染色体组、G染色体组和4A染色体均显N—带,其它染色体则不显带或只显很浅的着丝点带。六倍体种B染色体组带型基本相同,四倍体小麦B组N—带种间有一定差异。提莫菲维小麦(T.Timopheevi)G组带纹数目和分布与B梁色体组有显著差别,作者认为两者非同源。沙融山羊草核型和带型都与小麦B组相近,是B组的可能供体。一粒系小麦A染色体组基本不显N—带,其中无与4A带型相同的染色体,4A起源尚待研究。     

Trisomics and aneuploids of ryegrass

Summary Primary trisomics (2 n + 1 = 15), double trisomics (2 n + 1 + 1 = 16) and aneuploids with 24 to 30 chromosomes, as well as a diploid and tetraploids, were found in the progeny of a hypertriploid (2 n = 22) plant of perennial ryegrass, Lolium perenne L. Trisomics and double trisomics differed in their mean chromosome association, chiasma number and spike morphology. A few aneuploids and tetraploids had reciprocal translocations. The diploid, primary trisomics and tetraploids were more fertile than the double trisomics and aneuploids. Most trisomics and aneuploids were probably produced through female transmission. One double trisomic had a high univalent number, a low chiasma number and loose chromosome coiling. Both the extra chromosomes carried secondary constrictions. The gene for desynapsis might be located on one of these chromosomes.     

Stable transformation of barley callus using biolistic® particle bombardment and the phosphinothricin acetyltransferase (bar) gene

We have previously studied chromosomal and morphological variation in protoplast cultures of diploid petunia (Petunia hybrida) plants. We found that 85% of the regenerants were tetraploid (2n=4x=28). These plants flowered and set seeds.In the present study, the cytological stability of plants regenerated from leaf mesophyll protoplast cultures derived from the progeny of the self-fertile tetraploid plants was assessed on the basis of mitotic analysis, morphological characters, and protein patterns. When we analyzed the root tip chromosomes of 117 regenerants derived from 39 protoclone calluses, all of the regenerants tested retained the parental chromosome number of 2n=4x=28. One hundred regenerants were further analyzed and displayed normal vegetative morphology and retained the floral characteristics of the seed-derived plants from which they were derived. No significant variations in any character were observed among regenerants. When leaf protein patterns from four regenerated tetraploid protoclones were analyzed by two-dimensional polyacrylamide gel electrophoresis and compared with those of seed-derived plants, the protein patterns exhibited great similarity.The data suggest that tetraploidization of petunia plant increases cytological stability during further in vitro cultures and may play an important role in the genetic stability of regenerant populations.Abbreviations BA benzylaminopurine - IAA indole-3-acetic acid - IEF isoelectric-focusing - PVP polyvinylpyrrolidone - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis