Showing papers in "Journal of Plant Research in 1999"

Chromosomal Evolution in the Genus Brachyscome (Asteraceae, Astereae): Statistical Tests Regarding Correlation Between Changes in Karyotype and Habit Using Phylogenetic Information

Abstract: and 8 taxa of its allied genera, Australian Astereae. Statistical tests regarding correlations between changes in chromosome number, total chromosome length, mean chromosome length, karyotypic asymmetry and chromosome length heterogeneity and changes in habit were performed based on the matK molecular phylogenetic tree. The reductions in chromosome number and total chromosome length, and the increases in mean chromosome length, chromosome length heterogeneity and karyotypic asymmetry were found to be correlated with the change in habit from perennial to annual. A reduction in total chromosome length is favored to shorten the mitotic cell cycle and to produce smaller cells conducive to more rapid development of smaller annuals under the time-limited environment. Stepwise dysploidal reductions in chromosome number were achieved through the translocation of large chromosome segments onto other chromosomes, followed by the loss of a centromere, resulting in one fewer linkage group and one fewer haploid chromosome. The correlations between the dysploidal reduction in chromosome number and the increases in mean chromosome length, length heterogeneity and asymmetry in karyotype can be attributed to this mode of chromosomal change. These changes occurred independently in several different lineages in Brachyscome.

Differential Responses in Activity of Antioxidant Enzymes to Different Environmental Stresses in Arabidopsis thaliana

Abstract: . Three-week-old plants were exposed to a high temperature (30 C), an enhanced light intensity (200 μE/m2/sec), water deficiency (water deprivation for 2 days), a chilling temperature (5 C), or ultraviolet-B (UV-B) radiation (0.25 or 0.094 W/m2) for 1 week (except for water deficiency). The high temperature and enhanced light treatments increased only dehydroascorbate reductase (DHAR) activity. Water deficiency enhanced the activities of DHAR and guaiacol peroxidase (PER). Chilling temperature increased the activities of ascorbate peroxidase (APX) and glutathione reductase (GR), whereas it decreased catalase (CAT) activity. UV-B at an intensity of 0.25 W/m2 elevated the activities of APX, monodehydroascorbate reductase (MDHAR), GR, PER and superoxide dismutase (SOD). It was suggested that the amounts of phenylpropanoid compounds increased during treatments of plants with enhanced light intensity, chilling temperature, and UV-B. These results suggest that some differences exist among the oxidative stress conditions caused by the different treatments, although all of these treatments seem to be related to active oxygen production. We propose that in A. thaliana, environmental stresses may be classified into those which induce DHAR activity and those which induce APX activity.

Molecular Phylogeny of Magnolia (Magnoliaceae) Inferred from cpDNA Sequences and Evolutionary Divergence of the Floral Scents

Abstract: (disjuncts), however, have similar chemical profiles. A molecular phylogeny of Magnoliaceae was constructed to reveal phylogenetic relationships of taxa by sequencing the trnK intron (including the matK coding region), psbA-trnH, and atpB-rbcL intergenic spacer regions of chloroplast DNA from 25 Magnolia, two Michelia, and two Liriodendron taxa. The psbA-trnH spacer region showed twice the sequence divergence (0.0157) of the trnK intron (0.0073) or the matK coding region (0.0077). The strict consensus tree constructed from the combined data set (ca. 3,700 bp) indicated the genus Magnolia was polyphyletic containing Michelia species as ingroup. The clade of Magnolia liliifera var. obovata, M. coco, and M. delavayi formed the first branch. Among the remaining species, two additional large clades were recognized, i.e., one comprised of American evergreen Magnolia species and another of subgenus Yulania. The relationship among sect. Rytidospermum taxa was not clearly resolved. Parsimonious mapping of the floral scent chemical characters was performed onto the molecular phylogenetic tree to discuss evolutionary trends of the floral scent chemistries.

Cold Acclimation in Plants: Relationship Between the Lipid Composition and the Cryostability of the Plasma Membrane

Abstract: Cold acclimation of plants requires an orchestration of many different, seemingly disparate processes. However, many of these processes that occur during cold acclimation ultimately contribute to the increased stability of cellular membranes during freeze-induced dehydration-the destabilization of which is the primary cause of the freezing injury. Among all cellular membranes, the plasma membrane is of primary importance to maintain its structural integrity because of the central role it plays during a freeze/ thaw cycle. We will describe here that there is a close association between the alterations of the plasma membrane lipid composition and the difference in the incidence of freeze-induced membrane lesions during cold acclimation. The stability of the plasma membrane during freezeinduced dehydration is also affected by factors associated with the endomembranes (the chloroplast envelope lipid composition) and the cytoplasm (the accumulation of sugars and the cold-regulated gene expression). Collectively, these results indicate that the structural integrity of the plasma membrane during freeze-induced dehydration is maintained by a complex but well-coordinated manner.

Further Analysis of Intraspecific Sequence Variation of Chloroplast DNA in Primula cuneifolia Ledeb. (Primulaceae): Implications for Biogeography of the Japanese Alpine Flora

Abstract: Ledeb. (Primulaceae), we analyzed intraspecific variation of the nucleotide sequences of non-coding regions of chloroplast DNA: the intergenic spacers between trnT (UGU) and the trnL (UAA) 5′exon, the trnL (UAA) 3′exon and trnF (GAA), and atpB and rbcL. In 20 populations of P. cuneifolia, 22 nucleotide substitutions and five insertions/deletions were inferred, and their genetic distances ranged from 0.001 to 0.008. Eight distinct haplotypes could be recognized and each haplotype was found to be geographically structured. Three major clades (the Northern, Hokkaido and Southern clades) were revealed in phylogenetic analyses of the haplotypes. The haplotypes of the Northern clade had a wider distribution area in the populations of Mt. Rausu and Rishiri Island of eastern and northern Hokkaido in Japan, northward to Unalaska Island in the Aleutians, and those of the Hokkaido clade were distributed in the populations of central Hokkaido and Mt. Iwaki of the northern Honshu in Japan; in addition, those of the Southern clade were observed only in the populations of the central Honshu. It was shown that the genetic diversifications of the Southern clade were higher than those of the Northern and Hokkaido clades. Furthermore, it was shown that the topology within the Southern clade was hierarchical, and the haplotypes of the Southern populations in the clade were derivative. From these results, we concluded that the cpDNA haplotypes of the three clades in P. cuneifolia arose and assumed the present distribution areas through several cycles of glacial advance and retreat in the Pleistocene.

Increased molecular mass of hemicellulosic polysaccharides is involved in growth inhibition of maize coleoptiles and mesocotyls under hypergravity conditions.

Abstract: mays L. cv. Cross Bantam T51) coleoptiles and mesocotyls was suppressed by hypergravity at 30 g and above. Acceleration at 300 g significantly decreased the mechanical extensibility of cell walls of both organs. Hypergravity increased the amounts of hemicellulose and cellulose per unit length in mesocotyl walls, but not in coleoptile walls. The weight-average molecular masses of hemicellulosic polysaccharides were also increased by hypergravity in both organs. On the other hand, the activities of β-glucanases extracted from coleoptile and mesocotyl cell walls were decreased by hypergravity. These results suggest that the decreased activities of β-glucanases by hypergravity cause an increase in the molecular mass of hemicellulosic polysaccharides of both organs. The upshift of molecular mass of hemicellulosic polysaccharides as well as the thickening of cell walls under hypergravity conditions seems to be involved in making the cell wall mechanically rigid, thereby inhibiting elongation growth of maize coleoptiles and mesocotyls.

Phylogeny of Osmundaceae Inferred from rbcL Nucleotide Sequences and Comparison to the Fossil Evidences

Abstract: sequences of 11 of 15 extant species of Osmundaceae which represent all three genera, Osmunda, Todea and Leptopteris. Our phylogenetic analysis concluded: 1) Osmunda subg. Osmunda and subg. Plenasium are monophyletic groups, but subg. Osmundastrum is not. The genus Osmunda is not monophyletic because Todea and Leptopteris are positioned within Osmunda. 2) Osmunda cinnamomea is the most basally positioned species in Osmundaceae, and it can be called as “a living fossil” because a fossil species (O. claytoniites) with almost the same morphology as this species was recorded from the Triassic. 3) Osmunda japonica and O. regalis are very closely related with only one nucleotide difference in the rbcL gene. 4) Greater nucleotide variation (5–7 nucleotides) was found between conspecific samples of O. cinnamomea and O. claytoniana collected from Japan and United States. Each of these two species may comprise more than two biologically differentiated species.

Growth and Development, and Auxin Polar Transport in Higher Plants under Microgravity Conditions in Space: BRIC-AUX on STS-95 Space Experiment

Abstract: The principal objectives of the space experiment, BRIC-AUX on STS 95, were the integrated analysis of the growth and development of etiolated pea and maize seedlings in space and a study of the effects of microgravity conditions in space on auxin polar transport in these segments. Microgravity significantly affected the growth and development of etiolated pea and maize seedlings. Epicotyls of etiolated pea seedlings were the most oriented toward about 40 to 60 degrees from the vertical. Mesocotyls of etiolated maize seedlings were curved at random during space flight but coleoptiles were almost straight. Finally the growth inhibition of these seedlings in space was also observed. Roots of some pea seedlings grew toward to the aerial space of Plant Growth Chamber. Extensibilities of cell walls of the third internode of etiolated pea epicotyls and the top region of etiolated maize coleoptiles, which were germinated and grown under microgravity conditions in space, were significantly low as compared with those grown on the ground of the earth. Activities of auxin polar transport in the second internode segments of etiolated pea seedlings and coleoptile segments of etiolated maize seedlings were significantly inhibited and promoted, respectively, under microgravity conditions in space. These results strongly suggest that auxin polar transport as well as the growth and development of plants is controlled under gravity on the earth.

Phylogenetic Relationships of Amaryllidaceae Based on matK Sequence Data

Abstract: gene, which is located in the chloroplast genome and evolves more quickly than the rbcL gene. A total of 31 species representing 31 of the 59 genera in the family were examined in this study. We also used 21 species from another ten families of Asparagales, four species from three families of Liliales and Acorus as outgroups. We obtained partial sequences of matK with lengths of 1,109–1,148 bp, corresponding to positions 230 to 1,343 of the Oryza sativa matK gene. The pairwise percentage sequence divergence ranged from 0 to 19.1% for all the species examined except Acorus, and 0 to 4.6% within Amaryllidaceae. Two methods of phylogenetic analysis, the Maximum Parsimony and Neighbor-Joining methods, were used. The trees obtained from these two analyses were fundamentally consistent. In both trees, the Amaryllidaceae sensu Dahlgren et al. formed a well-supported monophyletic clade with 100% bootstrap support. Amaryllidaceae were included in the Asparagales; however, its phylogenetic position within the Asparagales was not clearly resolved. Judging from the NJ tree, Agapanthus might be a sister group of the Amaryllidaceae, although bootstrap support for this was low. Character-state mapping was used to infer a center of origin and the biogeographic history of Amaryllidaceae. The result supports the hypothesis that the family evolved in Africa and subsequently spread to other continents, further suggesting that South America is the center of secondary diversification.

Extensive Mitochondrial Introgression from Pinus pumila to P. parviflora var. pentaphylla (Pinaceae)

Abstract: species exhibit a paternal chloroplast inheritance and a maternal mitochondrial inheritance. The levels and patterns of cpDNA and mtDNA introgression between the two pine species, P. pumila and P. parviflora var. pentaphylla, were examined at three mountain sites in Japan. The pine species were examined by using PCR-based diagnostic genetic markers of cpDNA and mtDNA. The survey which was carried out in multiple hybrid zones demonstrated a generality in the uni-directional pattern of cytoplasmic gene flow between the two pine species, i.e. paternal cpDNA flowed from P. parviflora var. pentaphylla to P. pumila, and in contrast, maternal mtDNA flowed from P. pumila to P. parviflora var. pentaphylla. Whenever plants which had a non-native combination of cpDNA and mtDNA were observed, they always had the cpDNA haplotype of P. parviflora var. pentaphylla and the mtDNA haplotype of P. pumila. The existence of only this type of cytoplasmic chimera may suggest that F1 hybrids are successfully produced only in the crossing of P. pumila as the maternal parent and P. parviflora var. pentaphylla as the paternal parent. The present study also detected extensive mtDNA capture in populations of P. parviflora var. pentaphylla located in the southern and middle parts of the Ohu Mountains, Tohoku, Japan. In that area, nearly all of the plants examined had the mtDNA haplotype of P. pumila. The extensive mtDNA introgression suggests that seed flow could be an effective medium for interspecific gene exchange.

Phylogenetic Relationships of Pogoniinae (Vanilloideae, Orchidaceae): An Herbaceous Example of the Eastern North America-Eastern Asia Phytogeographic Disjunction

Abstract: cL DNA sequences, nuclear ribosomal ITS DNA sequences, morphology, and combined evidence. All these matrices produced patterns that agree on the broader Phylogenetic relationship within the clade. Duckeella is sister to all Pogoniinae, South American species of Cleistes are monophyletic, Pogonia is monophyletic and part of a larger clade of temperate taxa (Isotria, Pogonia, and Cleistes divaricata) from North America and Asia. The structure of the cladograms and the high levels of bootstrap support strongly indicate that the genus Cleistes is paraphyletic. The disjunction between tropical South American and temperate North American taxa as well as the disjunction between Pogonia ophioglossoides in eastern North America with P. minor and P. Japonica in eastern Asia are best explained by speciation following a northward longdistance dispersal and subsequent northwestward migration via Bering land bridges in the Tertiary. This phylogenetic study adds an additional herbaceous example to the growing list of plants that demonstrate this classical biogeographic pattern.

Morphogenesis of rice and Arabidopsis seedlings in space.

Abstract: L.) and Arabidopsis (A. thaliana L.) were cultivated for 68.5 hr in the RICE experiment on board during Space Shuttle STS-95 mission, and changes in their growth and morphology were analyzed. Microgravity in space stimulated elongation growth of both rice coleoptiles and Arabidopsis hypocotyls by making their cell walls extensible. In space, rice coleoptiles showed an inclination toward the caryopsis in the basal region and also a spontaneous curvature in the same direction in the elongating region. These inclinations and curvatures were more prominent in the Koshihikari cultivar compared to a dwarf cultivar, Tan-ginbozu. Rice roots elongated in various directions including into the air on orbit, but two thirds of the roots formed a constant angle with the axis of the caryopsis. In space, Arabidopsis hypocotyls also elongated in a variety of directions and about 10% of the hypocotyls grew into the agar medium. No clear curvatures were observed in the elongating region of Arabidopsis hypocotyls. Such a morphology of both types of seedlings was fundamentally similar to that observed on a 3-D clinostat. Thus, it was confirmed by the RICE experiment that rice and Arabidopsis seedlings perform an automorphogenesis under not only simulated but also true microgravity conditions.

Anatomical adaptations to xeric conditions in Maihuenia (Cactaceae), a relictual, leaf-bearing cactus

Abstract: and Pereskia, constitute Pereskioideae, the subfamily of Cactaceae with the greatest number of relictual features, but the two genera differ strongly in habit and ecological adaptations. Plants of Maihuenia occur in extremely xeric regions of Patagonia and are small cushion plants with reduced, terete leaves and soft, slightly succulent trunks. Plants of Pereskia occur only in mesic or slightly arid regions and are leafy trees with hard, woody trunks and thin, broad leaves. Maihuenias have many more anatomical adaptations to arid conditions than do pereskias: maihuenias lack sclerenchyma in their phloem and cortex (M. poeppigii also lacks xylem sclerenchyma and can contract during drought); their wood consists of vessels, axial parenchyma, and wide-band tracheids and can store water as well as minimize embolism damage; one species channelizes water flow by producing intraxylary bark; and at least some stem-based photosynthesis occurs because maihuenias have small patches of persistent stem epidermis that bears stomata and overlies a small amount of aerenchymatous chlorenchyma. Pereskias lack all these features. Although closely related, maihuenias have fewer relictual features than do pereskias, and plants of Pereskia probably are more similar to the ancestral cacti.

Fossil Flowers and Associated Plant Fossils from the Kamikitaba Locality (Ashizawa Formation, Futaba Group, Lower Coniacian, Upper Cretaceous) of Northeast Japan

Abstract: in situ spores, and megaspores also document the presence of Selaginellaceae and Schizaeaceae.

Conantiopteris schuchmanii, gen. et sp. nov., and the Role of Fossils in Resolving the Phylogeny of Cyatheaceae s.l.

Abstract: gen. et sp. nov. The specimen, 23.2 cm long and 11.7 cm wide, shows helically arranged persistent frond bases embedded in adventitious roots, and is clothed by multicellular trichomes. A parenchymatous pith with mucilaginous cells and sclerotic nests is surrounded by an amphiphloic distyostele, parenchymatous inner cortex, and outer sclerenchymatous cortex. Sclerenchyma also surrounds the cauline vasculature and leaf traces. Medullary and cortical bundles are absent. Phloem contains both axially elongated and tangential sieve elements. Frond bases are oval in outline with three vascular bundles, including an undulating abaxial arc and an adaxial pair. Protoxylem of the stipe is endarch and is associated with cavity parenchyma. These characters are indicative of tree fern affinities. A cladistic analysis using trunk characters of both living and fossil tree ferns was conducted to help establish relationships of the new species and other fossil ferns, and to test hypotheses of general tree fern relationships. Additional analyses of living taxa only were also performed. Results from the analysis using both living and fossil taxa compare favorably with those that included only living species when either morphological characters or molecular sequences of the chloroplast gene rbcL are utilized. Although there are variations in the topologies of the various trees, results indicate that the new genus is nested among a paraphyletic assemblage of dicksoniaceous, lophosoriaceous, and metaxyaceous species that subtend a monophyletic Cyatheaceae s.s.

Molecular Taxonomic Study and Revision of the Three Japanese Species of Asplenium sect. Thamnopteris

Abstract: sect. Thamnopteris or A. nidus L. complex is defined by the synapomorphic character peculiar to Aspleniaceae, an anastomosing vein near the margin of the simple lamina. Thus, it is easily recognizable and its monophyly is quite clear. In spite of its naturalness as the whole group, species delimitation is very confusing. Three species of sect. Thamnopteris, A. antiquum Makino, A. australasicum (J. Smith) Hooker and A. nidus L. have been recognized in Japan, but the naturalness of each species is still not clear because their morphology is too simple to find good qualitative taxonomical characters. In the present work, we examined the intraspecific variation of allozymes and rbcL sequences in the Japanese plants of sect. Thamnopteris and compared them with those from other paleotropical localities in order to recognize natural units in such morphologically simple plants. We found a large amount of genetic variation in this section and inferred that A. antiquum is a species of ancient origin, though morphologically it is not so different from other species of the sect. Thamnopteris. It was also discovered that the so called “A. australasicum” in Japan has a very different rbcL sequence from A. australasicum sensu Holttum, which is distributed in Australia and South Pacific Islands. Based on these molecular data, we described the Japanese “A. australasicum” as a new species, Asplenium setoi N. Murak. et Seriz.

Alterations of Intracellular pH in Response to Low Temperature Stresses

Abstract: -ATPase is one of the primary cellular events directly resulting from cold exposure. We demonstrate here that cold-induced inactivation of the proton translocating enzyme is closely linked to the rapid acidification of the cytoplasm and the concomitant alkalization of the vacuoles, suggesting an important role of the enzyme in maintaining homeostasis of the cellular pH in a cold environment. The stability of the vacuolar H+-ATPase to cold both in vivo and in vitro is distinctly different between species sensitive and insensitive to cold. These findings provide further insight into the way in which the vacuolar H+-ATPase is involved in cold adaptation of plants. In addition, the temperature reduction and the concentration of the cytoplasm as a consequence of freeze-induced dehydration may also result in changes in the cellular pH. In fact, we demonstrate here that the cytoplasm is markedly acidified upon freezing; in particular, in cells of less hardy plants. Freeze-induced acidification is presumably due to changes in the physico-chemical properties of the cytoplasm and the changes in the permeability of the vacuolar membrane both of which result from severe dehydration. The physiological significance of freeze-induced acidification of the cytoplasm is discussed.

Determination of the Role of Cold Acclimation-Induced Diverse Changes in Plant Cells from the Viewpoint of Avoidance of Freezing Injury

Abstract: Cold acclimation is a complex adaptive mechanism by which plants survive freezing in winter. During cold acclimation, diverse intracellular and extracellular changes occur. Although most of these changes are related to the acquirement of freezing tolerance, the exact role of these changes in the attainment of freezing tolerance is still unclear. In this review, we suggest the possible role of some of these cold acclimation-induced changes in relation with increased freezing tolerance from the viewpoint of inhibition of freezing injury produced by close approach of membranes.

Molecular Systematics of Trilliaceae I. Phylogenetic Analyses of Trillium Using matK Gene Sequences

Abstract: was conducted using 41 Trillium taxa and two out-group taxa (Veratrum maackii and Helonias bullata). A total of 1608 base pairs were analyzed and compared., and then there were 61 variable (36 informative) sites among Trillium species. Fifteen insertion/deletion events (indels) of six or fifteen base pairs were also detected. Phylogenetic analyses of the sequence data revealed that the subgenus Phyllantherum (sessile-flowered species) forms a distinct monophyletic group, whereas the subgenus Trillium (pedicellate-flowered species) does not form a monophyletic group, and is composed of three distinct groups and three basally located species in the tree: (1) the Erectum group, (2) the Grandiflorum group, and (3) the Pusillum group and (4) the three species, including T. govanianum, T. undulatum, and T. rivale. T .rivale appears to be the most basally diverged and a very specialized taxon among the ingroup members. Our matK data indicated that the closest relative of the subgenus Phyllantherum is the Grandiflorum group. The results are concordant with the results of the RFLP analysis of cpDNA and also more or less with those of the cladistic analysis of morphological characters.

Molecular Phylogeny of Rhizophoraceae Based on rbcL Gene Sequences

Abstract: sequences to clarify the inter- and intrarelationships of Rhizophoraceae which have been variously discussed. The analyses included 12 of the 15 genera of Rhizophoraceae (4/7 of Macarisieae, 4/4 of Gynotrocheae, and 4/4 of Rhizophoreae) and a few putatively related taxa, including two of the four genera of Anisophylleaceae. The most parsimonious trees supported the monophyly of Rhizophoraceae as well as each of the three traditionally recognized tribes Macarisieae, Gynotrocheae, and Rhizophoreae. The family Rhizophoraceae is a sister taxon to Erythroxylum (Erythroxylaceae) and is further closely related to Byrsonima (Malpighiaceae), Passiflora (Passifloraceae), Turnera (Turneraceae), Ochna (Ochnaceae), Drypetes (Euphorbiaceae), and Humiria (Humiriaceae). Anisophylleaceae, which have often been included in Rhizophoraceae as a tribe or subfamily, are placed in a common clade with Begonia (Begoniaceae), Cucurbita (Cucurbitaceae), Coriaria (Coriariaceae), Corynocarpus (Corynocarpaceae), Datisca (Datiscaceae), Tetrameles (Datiscaceae), and Octomeles (Datiscaceae). Within Rhizophoraceae the mangrove tribe Rhizophoreae is sister to the inland tribe Gynotrocheae, with inland tribe Macarisieae positioned as a sister taxon to these two tribes. This pattern of relationships within the family basically agrees with those suggested by cladistic analyses based on morphological characters, except that Gynotrocheae are monophyletic with Crossostylis as a derived taxon within the tribe in the present study. Based on this cladogram for Rhizophoraceae, we discuss evolutionary trends of a few ecological and morphological characters, including the formation of aerial roots and the ovary position.

Patterns in size-related variations in current-year shoot structure in eight deciduous tree species

Abstract: ) and leaf display index (LDI: the ratio of leaf area to stem length) of current-year shoots are compared for eight deciduous tree species. Two patterns were found in the relationships. In seven species (Acer mono, Aesculus turbinata, Betula grossa, Carpinus tschonoskii, Fagus crenata, Pterocarya rhoifolia, and Quercus mongolica var. grosseserrata), LDI decreased exponentially with SL, which suggests that short current-year shoots favor leaf-display over space-acquisition, and the reverse for long current-year shoots. The decrease in LDI was much greater and sharper in B. grossa, which shows apparent differentiation of short and long shoots, than in the other six species, which do not show such differentiation. In another species that shows no differentiation of short and long shoots, Clerodendron trichotomum, LDI increased linearly and gradually with SL. This suggests that its long current-year shoots are superior to its short current-year shoots for both space-acquisition and leaf-display, and that the structural variation in its current-year shoots is small. The diverse patterns in the relationships between SL and LDI of current-year shoots are related to the variations among current-year shoots in the mean leaf number per unit stem length and the mean individual leaf area.

Evolution of Reproductive Organs in Land Plants

Abstract: gene is the positive regulator of the MADS-box genes in flower primordia. The number of MADS-box genes presumably increased by gene duplications before the divergence of ferns and seed plants. Most MADS-box genes in ferns are expressed similarly in both vegetative and reproductive organs, while in gymnosperms, some MADS-box genes are specifically expressed in reproductive organs. This suggests that (1) the increase in the number of MADS-box genes and (2) the subsequent recruitment of some MADS-box genes as homeotic selector genes were important for the evolution of complex reproductive organs. The phylogenetic tree including both angiosperm and gymnosperm MADS-box genes indicates the loss of the A-function genes in the gymnosperm lineage, which is presumably related to the absence of perianths in extant gymnosperms. Comparison of expression patterns of orthologous MADS-box genes in angiosperms, Gnetales, and conifers supports the sister relationship of Gnetales and conifers over that of Gnetales and angiosperms predicted by phylogenetic trees based on amino acid and nucleotide sequences.

Phylogeny of Weigela and Diervilla (Caprifoliaceae) Based on Nuclear rDNA ITS Sequences: Biogeographic and Taxonomic Implications

Abstract: and three species of Diervilla were inferred from nucleotide sequence variation in the internal transcribed spacer (ITS) regions of 18-26S nuclear ribosomal DNA. Phylogenetic trees were obtained using parsimony, distance, and maximum likelihood methods. The ITS phylogenies did not support the monophyly of Weigela, which comprises three major clades. The first clade includes a single species, W. middendorffiana, which is more closely related with American genus, Diervilla. The second clade consisted of a single species, W. maximowiczii, but its relationship to other Weigela species is equivocal. The third one is a strongly supported core clade which contains the remaining Weigela species. Within the core group, W. hortensis exhibits the most distinct ITS sequence type. The hybrid origin of the species from the putative parents, W. florida and W. subsessilis, is not supported. The ITS sequence evidence favors the taxonomic hypothesis proposed by Nakai who recognized four distinct evolutionary lines (Diervilla, Macrodiervilla, Weigelastrum and Weigela). However, recognition of the two sections, Calysphyrum and Weigela was not supported in the ITS phylogenies. Substantial morphological differences between Diervilla and Weigela middendorffiana do not support the morphological stasis concept which has been considered as a general evolutionary mode among the Asian and North American disjunct taxa.

Physiological and Biochemical Significance of Antifreeze Substances in Plants

Abstract: Plants produce several compounds to protect cells against fatal intracellular ice formation. Many overwintering plants accumulate sugars, amino acids, and other solutes that induce supercooling in the plants tissues on the molar depression of the freezing point. Recently, several antifreeze proteins and antifreeze compounds have been isolated from plants. The frost inhibition mechanisms of those antifreeze proteins and antifreeze compounds have been found to be different. The former acts to inhibit ice crystal growth, while the latter acts to inhibit the nucleation of ice crystals. In this review, we will describe the physiological and biochemical roles of these compounds in the development of freezing tolerance in plants.

Effects of natural and synthetic auxins on the gravitropic growth habit of roots in two auxin-resistant mutants of Arabidopsis, axr1 and axr4: evidence for defects in the auxin influx mechanism of axr4

Abstract: The partially agravitropic growth habit of roots of an auxin-resistant mutant of Arabidopsis thaliana, axr4, was restored by the addition of 30-300 nM 1-naphthaleneacetic acid (NAA) to the growth medium. Neither indole 3-acetic acid (IAA) nor 2,4-dichlorophenoxyacetic acid (2,4-D) showed such an effect. Growth of axr4 roots was resistant to IAA and 2,4-D, but not at all to NAA. The differential effects of the three auxins suggest that the defects of axr4 result from a lower auxin influx into its cells. The partially agravitropic growth habit of axr1 roots, which was less severe than that of axr4 roots, was only slightly affected by the three auxins in the growth medium at concentrations up to 300 nM; growth of axr1 roots was resistant to all three of the auxins. These results suggest that the lesion of axrl mutants is different from that of axr4.

Akinete Formation in Tribonema bombycinum Derbes et Solier (Xanthophyceae) in Relation to Freezing Tolerance

Abstract: (Xanthophyceae), was examined. T. bombycinum shifted from vegetative cells to akinetes with starving by a prolonged batch culture, by culture with a diluted medium, or by culture with a single nutrient-deficient medium. In addition, akinetes developed by desiccation, but cold treatment at 4 C did not facilitate akinete formation. During starving, the vegetative cells, which had a large central vacuole in the protoplasm and thin cell walls, finally changed to akinetes, which had many small vacuoles and oil droplets in the protoplasm and thick cell walls. During akinete formation by starving, the freezing tolerance (LT50) increased gradually from −3 C in vegetative cells to far below −30 C in akinetes. When vegetative cells were subjected to equilibrium freezing, their size shrank greatly and aparticulate domains accompanied by fracture-jump lesions developed in the plasma membranes. Akinetes subjected to equilibrium freezing showed little shrinkage, and freezing-induced ultrastructural changes did not occur in the plasma membranes. The morphological changes in the process of akinete formation and the responses to equilibrium freezing resembled those of cold-acclimated terrestrial plants.

A spaceflight experiment for the study of gravimorphogenesis and hydrotropism in cucumber seedlings.

Abstract: , on the transition zone between hypocotyl and root. Our spaceflight experiment verified that the lateral positioning of a peg in cucumber seedlings is modified by gravity. It has been suggested that auxin plays an important role in the gravity-controlled positioning of a peg on the ground. Furthermore, cucumber seedlings grown in microgravity developed a number of the lateral roots that grew towards the water-containing substrate in the culture vessel, whereas on the ground they oriented perpendicular to the primary root growing down. The response of the lateral roots in microgravity was successfully mimicked by clinorotation of cucumber seedlings on the three dimensional clinostat. However, this bending response of the lateral roots was observed only in an aeroponic culture of the seedlings but not in solid medium. We considered the response of the lateral roots in microgravity and on clinostat as positive hydrotropism that could easily be interfered by gravitropism on the ground. This system with cucumber seedlings is thus a useful model of spaceflight experiment for the study of the gravimorphogenesis, root hydrotropism and their interaction.

Occurrence of Potential Brassinosteroid Precursor Steroids in Seeds of Wheat and Foxtail Millet

Abstract: L.) and foxtail millet (Setaria italica Beauv.) were found by GC-MS to contain, in addition to bulk sterols, 4-en-3-one steroids including 24-ethylcholesta-4,24(28)Z- dien-3-one (a new steroid), 24-methylcholest-4-en-3-one, 24-ethylcholesta-4,22E-dien-3-one and 24-ethylcholest-4-en-3-one, as well as 5α-steroidal 3-one compounds including 24-methyl-5α-cholestan-3-one, 24-ethyl-5α-cholestan-3-one and 24-ethyl 5α-cholest-22E-en-3-one (in S. italica only). Analysis of free sterol and steryl ester fractions indicated that campestanol and sitostanol were present at high levels in both seeds. These results suggest that the seeds of T. aestivum and S. italica synthesize campestanol from campesterol via 24-methylcholest-4-en-3-one and 24-methyl-5α-cholestan-3-one as has already been demonstrated in Arabidopsis thaliana L., and also produce sitostanol from sitosterol via 24-ethylcholest-4-en-3-one and 24-ethyl-5α-chotestan-3-one. Biosynthetic relationships of campestanol and sitostanol with C28 and C29 brassinosteroids are discussed.

Allozyme diversity and population structure in Korean populations of Cymbidium goeringii (Orchidaceae)

Abstract: (Orchidaceae). Mean observed population heterozygosity (H op=0.181), expected heterozygosity (H eP=0.240), and total genetic diversity (H T =0.351) were all higher than average values for species with similar life-history characteristics. A considerable deficit of heterozygotes relative to Hardy–Weinberg expectations was detected (77% of fixation indices were positive) with a mean F IS of 0.278. On average, 90% of the total genetic diversity was found within populations (mean G ST = 0.098). An indirect estimate of the number of migrants per generation (Nm=2.30, calculated from G ST , Nm=8.48, calculated from the frequencies of unique alleles) indicated that gene flow has been extensive in C. goeringii. Results of a spatial autocorrelation analysis based on allele frequencies of 16 populations revealed a trend with respect to the distance classes (0<63 km, six significant positive values; beyond that distance, 12 significant negative values). It is highly probable that C. goeringii has a history of relative large, continuous populations that had greater chance for gene movement among adjacent populations via large numbers of small seeds, following the last Ice Age. Factors contributing to the high levels of genetic diversity found within populations of C. goeringii include its large and continuous populations, its long-lived perennial habit, its widespread geographical distribution, and its ability for relatively long distance seed movement by wind.

Involvement of JIM13-and JIM8-Responsive Carbohydrate Epitopes in Early Stages of Cell Wall Formation

Abstract: L.). The spatial and temporal expression of both antigens was studied in suspension cells used as the source-tissue for protoplast isolation, in suspension- and mesophyll-derived protoplasts, and in cells which developed from both types of protoplast. Immunofluorescence and immunocytochemical-electron microscopic methods revealed that labeling was present in the cell walls of most suspension cells and also in the incipients of cell walls synthesized around the protoplasts. This signal became much more intense as rebuilding of the cell wall progressed during culture. Relatively weaker labeling was observed in the cytoplasm, where it was frequently associated with the vacuolar compartment. Signal intensity varied between individual cells of the same population and in successive stages of development, but was always stronger with JIM13 than with JIM8. The role of JIM13-responsive epitope in the development of suspension-derived protoplasts was further studied by its ability to bind antibody added to cultures of different ages. Both JIM8- and JIM13-responsive epitopes were widespread in sugar beet cells of different origin and stage of cell wall synthesis. These epitopes may play an important role in cell wall formation and growth under in vitro conditions.