Isozyme gene markers in the dioecious species Asparagus officinalis L.

Summary Extracts from phylloclads of Asparagus officinails were electrophoretically analyzed for isozyme polymorphism. Fourteen enzyme systems were examined using four buffer systems: seven enzymes (acid phosphatase, catalase, glutamate-oxaloacetate transaminase, isocitrate dehydrogenase, malate dehydrogenase, peroxidase, and 6-phosphogluconate dehydrogenase) exhibited clear and consistent banding patterns. Isozyme polymorphism was studied in seven pairs of male and female doubled haploids and in their male F₁s. Segregation of polymorphic loci was examined in the backcross progenies and was found to be consistent with a simple Mendelian inheritance in all cases, except for three anodical peroxidases, where two factors have been hypothesized. No linkage could be found between isozyme markers that were segregating in the same cross, but association was demonstrated between one malate dehydrogenase locus and the sex determining genes. The availability of isozyme markers may be useful in breeding and, in particular, the localization of one malate dehydrogenase locus on the sex chromosomes may be helpful in mapping the sex genes.     

Four new species of Asparagus (Asparagaceae) from the Flora Zambesiaca area

Summary  Four new species of Asparagus (Asparagaceae) from the Flora Zambesiaca area are described and illustrated; the need for more collections is highlighted to assess their conservation status. Asparagus botswanicus Sebsebe is known from a single locality in Botswana; A. chimanimanensis Sebsebe occurs in Zimbabwe and Mozambique; A. richardsiae Sebsebe is known in Zambia and A. radiatus Sebsebe is from a small restricted area (Goba) in Mozambique and Umbeluzi Gorge in Swaziland.     

Different kinds of male flowers in the dioecious plant Asparagus of officinalis L.

Summary In the dioecious plant Asparagus officinalis L. the female plants bear flowers that are all strictly of the same type, with well-developed pistils and collapsed and consistently sterile rudiments of anthers, while male plants, on the contrary, show a great variety of vestigial female organs, from small, rudimentary ovaries with no style and stigma, up to pistils provided with a rather long style that is often enlarged in a stigma. In our investigations, we used homozygous male and female doubled haploid plants obtained from in vitro anther culture, the all-male F₁ progeny and male individuals from subsequent backcrosses. The results showed that: (1) the character length of the style is genetically inherited and involves at least two genes, the influence of the environment being quite negligible; (2) in male pistils provided with style and stigmatic papillae, the pollination and growth of the pollen tubes up to the ovules do actually occur as a rule, the only barrier to fertilization being the absence of normal embryo sacs inside the ovules; (3) the character length of the style is a very reliable marker of the trend towards hermaphroditism in Asparagus, since a correlation always exist between length of the style, size of the ovary, tendency to self-pollination, vascularization and rate of development of the ovules inside the male ovaries. On the whole, most of our observations, together with the high inbreeding depression observed when occasional andromonoecious plants are selfed, are consistent with the hypothesis of the origin of dioecy in Asparagus from hermaphroditism via the gynodioecy pathway.     

The physical map of the chloroplast DNA from Asparagus officinalis L.

The genus Asparagus consists of 100–300 species of both dioecious and hermaphrodite plants. Since there are diploid, tetraploid, and hexaploid plants in this genus, RFLP (restriction fragment length polymorphism) analysis of chloroplast DNA (ctDNA) is suitable for examining the phylogenetic relationships. We have constructed a physical map of the ctDNA of garden asparagus (A. officinalis L. cv Mary Washington 500 W) using five restriction endonucleases, namely, BamHI, PstI, SalI, HindIII, and XhoI. Asparagus ctDNA was digested with restriction enzymes and cloned into plasmid and phage vectors, and a clone bank was constructed that covered 70% of the genome. A physical map was constructed by Southern hybridization of total DNA from asparagus with homologous and heterologous probes. The asparagus ctDNA was about 155 kb long and it contained two inverted repeats (23kb each) separated by a large single-copy region (90kb) and a small single-copy region (19kb). Fifteen genes, encoding photosynthesis-related proteins, rDNAs, and tRNAs, were localized on the physical map of asparagus ctDNA. Comparing the length and the gene order of asparagus ctDNA with that of other plants, we found that asparagus ctDNA was similar to tobacco ctDNA but different from rice ctDNA. The restriction patterns of the ctDNAs from several varieties of A. officinalis and three species of Asparagus were analyzed. The restriction patterns of the varieties of A. officinalis were very similar, but polymorphisms were detected among the three species of Asparagus.     

Linkage Arrangement of RFLP loci in progenies from crosses between doubled haploid Asparagus officinalis L. clones

A preliminary genetic map of the dioecious species Asparagus officinalis L. (2n = 20) has been constructed on the basis of restriction fragment length polymorphism (RFLP) and isozyme marker data. With DNA samples digested with either EcoRI or HindIII 61 out of 148 probes (41%) identified RFLPs in six families of doubled haploid lines obtained through anther culture. A higher level of polymorphism (65%) was observed when a single family was screened for RFLPs using six distinct restriction enzymes. Segregation analysis of the BC progenies (40–80 individuals) resulted in a 418-cM extended map comprising 43 markers: 39 RFLPs, three isozymes and one morphological (sex). These markers are clustered in 12 linkage groups and four of them exhibited significant deviations from the expected 11 ratio. One isozyme and three RFLP markers were assigned to the sex chromosome.     

Expression of AODEF,a B-functional MADS-box gene,in stamens and inner tepals of the dioecious species Asparagus officinalis L.

Garden asparagus (Asparagus officinalis L.) is a dioecious species with male and female flowers on separate unisexual individuals. Since B- and C-functional MADS-box genes specify male and female reproductive organs, it is important to characterize these genes to clarify the mechanism of sex determination in monoecious and dioecious species. In this study, we isolated and characterized AODEF gene, a B-functional gene in the development of male and female flowers of A. officinalis. Southern hybridization identified a single copy of AODEF gene in asparagus genome. Northern blot analysis showed that this gene was specifically expressed in flower buds and not in vegetative tissues. In situ hybridization showed that during early hermaphrodite stages, AODEFgene was expressed in the inner tepal and stamen whorls (whorls 2 and 3, respectively), but not in the outer tepals (whorl 1), in both male and female flowers. In late unisexual developmental stages, the expression of AODEF gene was still detected in the inner tepals and stamens of male flowers, but the expression was reduced in whorls 2 and 3 of female flowers. Our results suggest that AODEF gene is probably not involved in tepal development in asparagus and that the expression of AODEF gene is probably controlled directly or indirectly by sex determination gene in the late developmental stages.     

Ribosomal RNA genes in species of theCynareae tribe (Compositae). II

Summary The structure of the ribosomal DNA has been analyzed in three species of theCynareae tribe using Southern blot hybridization.Silybum marianum possesses two types of ribosomal genes 12.3 and 13.4 kb long;Cirsium vulgare has at least four types of rDNA repeats 10.6, 10.5, 11.7 and 11.9 kb long;Carlina acaulis only one type of ribosomal genes 9.7 kb long. The rRNA genes of the three species studied showed an identical restriction mapping in the 18 S and 25 S regions. However species differentiation in length and/or nucleotide sequences are present in the external spacer and very probably in the internal transcribed spacer.By cytophotometric studies and byin vitro rRNA/DNA filter hybridization, the DNA amount/4 C nucleus and the rDNA percentage were calculated in nine species of theCynareae tribe:Cynara cardunculus subsp.scolymus (artichoke),Cynara cardunculus subsp.cardunculus (wild artichoke),Onopordon acanthium, O. illyricum, Galactites tomentosa, Carduus nutans, Silybum marianum, Cirsium vulgare andCarlina acaulis. The DNA amount/4 C nucleus in eight species are similar, ranging from 4.24 pg inGalactites tomentosa to 5.96 pg inCirsium vulgare, whileCarlina acaulis has a DNA amount/ 4C nucleus of 11.8 pg. The rDNA percentages range from 0.192% inOnopordon acanthium to 1.022% inSilybum marianum, whileCarlina acaulis has 0.038% of rDNA. This latter species is clearly distinct within theCynareae tribe.     

Isolation of Hox and Parahox genes in the hemichordate Ptychodera flava and the evolution of deuterostome Hox genes

Because of their importance for proper development of the bilaterian embryo, Hox genes have taken center stage for investigations into the evolution of bilaterian metazoans. Taxonomic surveys of major protostome taxa have shown that Hox genes are also excellent phylogenetic markers, as specific Hox genes are restricted to one of the two great protostome clades, the Lophotrochozoa or the Ecdysozoa, and thus support the phylogenetic relationships as originally deduced by 18S rDNA studies. Deuterostomes are the third major group of bilaterians and consist of three major phyla, the echinoderms, the hemichordates, and the chordates. Most morphological studies have supported Hemichordata+Chordata, whereas molecular studies support Echinodermata+Hemichordata, a clade known as Ambulacraria. To test these competing hypotheses, complete or near complete cDNAs of eight Hox genes and four Parahox genes were isolated from the enteropneust hemichordate Ptychodera flava. Only one copy of each Hox gene was isolated suggesting that the Hox genes of P. flava are arranged in a single cluster. Of particular importance is the isolation of three posterior or Abd-B Hox genes; these genes are only shared with echinoderms, and thus support the monophyly of Ambulacraria.     

Evidence for in vitro induced mutation which improves somatic embryogenesis in Asparagus officinalis L.

Summary Somatic embryogenesis from different genotypes of Asparagus officinalis L. could be obtained by in vitro culture of shoot apices. Apices were first cultured on an auxin-rich inducing medium and then transferred onto a hormone-free development medium. All genotypes tested in this way produced a few somatic embryos. In some experiments, during the development phase, a new kind of friable highly embryogenic tissue appeared in a random manner. These tissues could be continuously subcultured on a hormone-free medium and were named embryogenic lines. Five of these embryogenic lines regenerated plants from somatic embryos. These regenerated plants exhibited an increased embryogenic response compared to the parent plants; e.g. apex culture produced somatic embryos without any auxin treatments. For one of the embryogenic lines, a genetic analysis showed that the improved embryogenic response of regenerated plants was controlled by a mendelian dominant monogenic mutation.Abbreviations LSEA low somatic embryogenesis ability - HSEA high somatic embryogenesis ability - NAA 1-naphthaleneacetic acid     

Ribosomal RNA genes in species of theCynareae tribe (Compositae). I.

Summary By means of Southern blot hybridization, the structure of the ribosomal DNA in six species of theCynareae tribe has been analyzed. Artichoke and wild artichoke possess only one type of ribosomal genes 13 kb long;Onopordum acanthium has at least two types of rDNA repeats 9.9 kb and 10.3 kb long andO. illyricum has a third gene type 9.7 kb long; inGalactites tomentosa there are at least four ribosomal gene types of 10.9, 11.6, 11.5, and 10kb;Carduus nutans possesses two ribosomal gene types of the same length of 12.5 kb that vary in the nucleotide sequence of the external spacer. The rRNA genes of all the species studied have an identical restriction mapping in the 18 S and 25 S regions, differences in length and/or nucleotide sequence are present in the external spacer.     

Evolutionary dynamics of Waxy and the origin of hexaploid Spartina species (Poaceae)

We investigated the evolutionary dynamics of duplicated copies of the granule-bound starch synthase I gene (GBSSI or Waxy) within polyploid Spartina species. Molecular cloning, sequencing, and phylogenetic analyses revealed incongruences between the expected species phylogeny and the inferred gene trees. Some genes within species were more divergent than expected from ploidy level alone, suggesting the existence of paralogous sets of Waxy loci in Spartina. Phylogenetic analyses indicate that this paralogy originated from a duplication that occurred prior to the divergence of Spartina from other Chloridoideae. Gene tree topologies revealed three divergent homoeologous sequences in the hexaploid S. alterniflora that are consistent with the proposal of an allopolyploid origin of the hexaploid clade. Waxy sequences differ in insertion–deletion events in introns, which may be used to diagnose gene copies. Both paralogous and homoeologous coding regions appear to evolving under selective constraints.     

Agrobacterium-mediated transformation of Asparagus officinalis L.: molecular and genetic analysis of transgenic plants

Four long-term embryogenic lines of Asparagus officinalis were co-cultured with the hypervirulent Agrobacterium tumefaciens strain AGL1Gin carrying a uidA gene and an nptII gene. 233 embryogenic lines showing kanamycin resistance and -glucuronidase (GUS) activity were obtained. Transformation frequencies ranged from 0.8 to 12.8 transformants per gram of inoculated somatic embryos, depending on the line. Southern analysis showed that usually 1 to 4 T-DNA copies were integrated. Regenerated plants generally exhibited the same insertion pattern as the corresponding transformed embryogenic line. T₁ progeny were obtained from crosses between 6 transformed plants containing 3 or 4 T-DNA copies and untransformed plants. They were analysed for GUS activity and kanamycin resistance. In three progenies, Mendelian 1:1 segregations were observed, corresponding to one functional locus in the parent transgenic plants. Southern analysis confirmed that T-DNA copies were inserted at the same locus. Non-Mendelian segregations were observed in the other three progenies. T₂ progeny also exhibited non-Mendelian segregations. Southern analysis showed that GUS-negative and kanamycin-sensitive plants did not contain any T-DNA, and therefore inactivation of transgene expression could not be responsible for the abnormal segregations.     

中国蜘蛛抱蛋属二新记录种

首次报道了黄瓣蜘蛛抱蛋(Aspidistra lutea H.-J.Tillich)和吉婆岛蜘蛛抱蛋(A.arnautovii H.-J.Tillich)在中国的分布。这两种植物分别被发现于广西西南部的靖西县、龙州县。文中提供了形态学描述和图片。凭证标本存放于广西植物标本馆(IBK)。     

<Emphasis Type="Italic">AOM3</Emphasis> and<Emphasis Type="Italic"> AOM4</Emphasis>: two MADS box genes expressed in reproductive structures of<Emphasis Type="Italic"> Asparagus officinalis</Emphasis>

The MADS box genes participate in different steps of vegetative and reproductive plant development, including the most important phases of the reproductive process. Here we describe the isolation and characterisation of two Asparagus officinalis MADS box genes, AOM3 and AOM4. The deduced AOM3 protein shows the highest degree of similarity with ZAG3 and ZAG5 of maize, OsMADS6 of rice and AGL6 of Arabidopsis thaliana. The deduced AOM4 protein shows the highest degree of similarity with AOM1 of asparagus, the SEP proteins of Arabidopsis and the rice proteins OsMADS8, OsMADS45 and OsMADS7. The high level of identity between AOM1 and AOM4 made impossible the preparation of probes specific for one single gene, so the hybridisation signal previously described for AOM1 is probably due to the expression of both genes. The expression profile of AOM3 and AOM1/AOM4 during flower development is identical, and similar to that of the SEP genes. Asparagus genes, however, are expressed not only in flower organs, but also in the different meristem present on the apical region of the shoot during the flowering season: the apical meristem and the three lateral meristems emerging from the leaf axillary region that will give rise to flowers and lateral inflorescences during flowering season, and to phylloclades and branches during the subsequent vegetative phase. The expression of AOM3 and AOM1/AOM4 in these meristems appears to be correlated with the reproductive function of the apex as the hybridisation signal disappears when the apex switches to vegetative function.     

Molecular evolution of cycloidea-like genes in Fabaceae

The cycloidea (CYC) gene controls floral symmetry in snapdragon (Antirrhinum majus). We investigated the evolution of CYC-like genes in some species of legumes that have zygomorphic flowers. Two to four CYC-like genes were isolated from a single species. The results of NJ and ML analyses indicate that CYC-like genes in legumes group into two monophyletic clades; one group consists of eight CYC-like genes (Clade 1) and the other contains three CYC-like genes and TB1 of maize (Clade 2). These phylogenetic trees and the Shimodaira–Hasegawa test suggest that Clade 1 is a sister of the original CYC group (Clade 3). Moreover, the result of the GeneTree analysis showed that the CYC-like genes experienced repeated duplication events during the evolution of legumes. We herein speculate as to the role of CYC-like genes in legumes and discuss the evolutionary processes that these genes have undergone. Current address (Jun Yokoyama and Masayuki Maki): Division of Ecology and Evolutionary Biology, Graduate School of Life Sciences, Tohoku University, Aoba, Sendai 980-8578, Japan     

Ribosomal RNA genes structure in somePopulus spp. (Salicaceae) and their hybrids

The tandemly repeated multigene families encoding 18S and 25S rRNAs were studied at the restriction enzyme level inPopulus alba L.,Populus deltoides Bartr. exMarsh.,Populus trichocarpa Torr. & Gray and in the hybrids between the last two mentioned species. The analysis of single and double digestion with EcoRI, BamHI, XbaI, and SstI endonucleases showed the presence of single repetitive unit types of 12.25 and 11.75kb inP. alba andP. trichocarpa, respectively.P. deltoides showed two rDNA gene types having the same length (12.25Kb) but different nucleotide sequence in the IGS. The rDNAs genes ofP. deltoides andP. triochocarpa are inherited codominantly in their hybrids.     

Ploidy distribution in the explant tissue and the calluses induced during the initial stage of internode segment culture of Asparagus officinalis L.

Summary To pursue the causal factors of ploidy variation in tissue culture of asparagus (Asparagus officinalis L.), ploidy status of stem explants and the calluses induced from these explants were examined using flow cytometry (FCM). The frequency of higher ploidy (>8C) cells in the stem explants increased with increasing distance from the shoot apex. Calluses derived from sections far from the apex also showed higher ploidy distributions, and also higher ploidy (16C) in general than was observed in the explant tissue. Detailed studies using FCM and charge-coupled device (CCD)-equipped fluorescence microscopy showed that 16C cells appeared in the explant tissues within 1 wk of culture, possibly induced by the plant growth regulators (PGRs), especially 1-naphthaleneacetic acid (NAA), in the culture medium.