Stimulation of embryogenesis and haploid production in Brassica campestris anther cultures by elevated temperature treatments

Summary Culture of Brassica campestris anthers at 35°C for one or three days prior to culture at 25°C significantly stimulated the yield of microspore-derived embryos. More than 100 plants were regenerated from cultured embryos and haploids were identified amongst them. The haploid frequency was greater than 70% if all small-flowered sterile plants were considered to be haploid. The yield of microspore-derived plants in B. campestris is approaching the level where anther culture may be utilized as a practical breeding tool.     

Developmental and environmental regulation of anthocyanin pigmentation in wheat tissues transformed with anthocyanin regulatory genes

Summary Cell autonomous anthocyanin pigmentation, produced by the anthocyanin regulatory genes B and C1 controlled by the constitutive CaMV35s promoter (pBC1-7), was used to optimize biolistic gene delivery into embryogenic wheat (Triticum aestivum L. cv ‘Chris’) scutellum cultures. Intensely pigmented callus cells were observed 24 h postbombardment but these cells did not continue to divide and were developmentally terminal. A population of nonexpressing cells generated transgenic sectors which showed light-dependent anthocyanin pigmentation. Anthocyanin pigmentation was suppressed in regenerating shoot cultures but reverted to light-dependent production in the pericarp of developing seeds. Similarly, following microtargeted gene delivery into apical meristems, anthocyanin production was developmentally suppressed in leaf base meristems but prominent anthocyanin sectors developed in mature tissues beyond this region and persisted throughout leaf growth. In three developmental situations, callus proliferation, plant regeneration, and leaf growth, perpetuation of cells with anthocyanin regulator genes under the control of constitutive promoters was dependent on a higher level of regulation to suppress pigmentation at developmentally sensitive stages of meristematic activity. These findings provide additional evidence that the anthocyanin regulatory genes may be responsive to a variety of developmental and environmental stimuli. Present address: Genetics & Plant Breeding Department, G. B. Pant University of Agriculture Technology, Pantnagar, U.P., India, 263145.     

Development of transgenic rice plants expressing maize anthocyanin genes and increased blast resistance

The functional association of flavonoids with plant stress responses, though widely reported in the literature, remains to be documented in rice. Towards this end we chose a transgenic approach with well characterized regulatory and structural genes from maize involved in flavonoid biosynthesis. Activation of anthocyanin pathway in rice was investigated with the maize genes. Production of purple anthocyanin pigments were observed in transformed Tp309 (a japonica rice variety) calluses upon the introduction of the maize regulatory genes C1 (coloured-1), R (red) and the structural gene C2 (coloured-2, encoding chalcone synthase). In addition, stable transgenic plants carrying the maize C2 gene under the control of the maize Ubiquitin promoter were generated. A localized appearance of purple/red pigment in the leaf blade and leaf sheath of R₀ C2 transgenic seedlings was observed. Such a patchy pattern of the transgene expression appears to be conditioned by the genetic background of Tp309, which is homozygous for dominant color inhibitor gene(s) whose presence was unravelled by appropriate genetic crosses. Southern blot analysis of the transgenic plants demonstrated that c2 cDNA was integrated into the genome. Western blot analysis of these primary transgenics revealed the CHS protein while it was not detected in the control untransformed Tp3O9, suggesting that Tp309 might have a mutation at the corresponding C2 locus or that the expression of this gene is suppressed in Tp309. Further analysis of C2 transgenics revealed CHS protein only in three out of sixteen plants that were western-positive in the R₀ generation, suggesting gene silencing. Preliminary screening of these R₁ plants against the rice blast fungus Magnaporthe grisea revealed an increase in resistance.     

枫香秋季变色期叶色变化及其生理基础

为探究秋季枫叶呈色的关键生理因素,该文以转色期叶色为绿色、黄色和红色的枫香单株为试材,研究了L^*、a^*、b^*值变化与叶片色素、可溶性糖及可溶性蛋白质含量变化的相关性。结果表明:(1)在变色期,3种色彩枫香叶片叶绿素a、叶绿素b、总叶绿素和类胡萝卜素均大量降解,花色素苷不同程度积累。(2)绿色叶单株叶绿素和类胡萝卜素始终保持较高含量,花色素苷含量上升4.2倍,叶片内色素含量比值始终保持稳定; 黄色叶单株叶绿素和类胡萝卜素含量最低,花色素苷含量上升4.4倍,b^*值与叶绿素含量极显著负相关,与类胡萝卜素含量显著负相关,与花色素苷/类胡萝卜素含量比值极显著正相关; 红色叶单株叶绿素和类胡萝卜素含量略高于黄色叶单株,花色素苷含量上升27.2倍,a^*值与叶绿素含量、类胡萝卜素含量极显著负相关,与花色素苷含量显著正相关,与色素含量比值无显著相关性。(3)红色叶单株具有较高的可溶性糖含量和可溶性蛋白质含量。因此,在枫香叶片变色期,保持较高的叶绿素和类胡萝卜素含量,维持色素含量比值稳定使叶片呈现绿色; 叶绿素和类胡萝卜素的大量降解,以及花色素苷/类胡萝卜素含量比值的升高使叶片呈现黄色; 叶绿素的降解和花色素苷的大量合成使叶片呈现红色。     

An investigation into the role of light during desiccation of three angiosperm resurrection plants

Under water‐limiting conditions excitation energy harnessed by chlorophyll can lead to the formation of reactive oxygen species (ROS). Resurrection plants minimize their formation by preventing the opportunity for light–chlorophyll interaction but also quench them via antioxidants. Poikilochlorohyllous species such as Xerophyta humilis break down chlorophyll to avoid ROS formation. Homoiochlorophyllous types retain chlorophyll. We proposed that leaf folding during drying of Craterostigma wilmsii and Myrothamnus flabellifolius shades chlorophyll to avoid ROS (Farrant, Plant Ecology 151, 29–39, 2000). This was tested by preventing leaf folding during drying in light. As controls, plants were dried without light, and X. humilis was included. Craterostigma wilmsii did not survive drying in light if the leaves were prevented from folding, despite protection from increased anthocyanin and sucrose and elevated antioxidant enzyme activity. Membranes were damaged, electrolyte leakage was elevated and plastoglobuli (evidence of light stress) accumulated in chloroplasts. Restrained leaves of M. flabellifolius survived drying in light. Leaf folding allows less shading, but the extent of chemical protection (anthocyanin content and antioxidant activity) is considerably higher in this species compared with C. wilmsii. Chemical protection appears to be light regulated in M. flabellifolius but not in C. wilmsii. Drying in the dark resulted in loss of viability in the homoiochlorophyllous but not the poikilochlorophyllous species. It is hypothesized that some of the genes required for protection are light regulated in the former.     

Spectral reflectance indices and pigment functions during leaf ontogenesis in six subtropical landscape plants

Pigment combinations are regulated during leaf ontogenesis. To better understand pigment function, alterations in chlorophyll, carotenoid and anthocyanin concentrations were investigated during different leaf development stages in six subtropical landscape plants, namely Ixora chinensis Lam, Camellia japonica Linn, Eugenia oleina Wight, Mangifera indica L., Osmanthus fragrans Lowr and Saraca dives Pierre. High concentrations of anthocyanin were associated with reduced chlorophyll in juvenile leaves. As leaves developed, the photosynthetic pigments (chlorophyll and carotenoid) of all six species increased while anthocyanin concentration declined. Chlorophyll fluorescence imaging of Φ_PSII (effective quantum yield of PSII) and of NPQ (non-photochemical fluorescence quenching) and determination of electron transport rate-rapid light curve (RLC) showed that maximum ETR (leaf electron transport rate), Φ_PSII and the saturation point in RLC increased during leaf development but declined as they aged. Juvenile leaves displayed higher values of NPQ and Car/Chl ratios than leaves at other developmental stages. Leaf reflectance spectra (400–800 nm) were measured to provide an in vivo non-destructive assessment of pigments in leaves during ontogenesis. Four reflectance indices, related to pigment characters, were compared with data obtained quantitatively from biochemical analysis. The results showed that the ARI (anthocyanin reflectance index) was linearly correlated to anthocyanin concentration in juvenile leaves, while a positive correlation of Chl NDI (chlorophyll normalized difference vegetation index) to chlorophyll a concentration was species dependent. Photosynthetic reflectance index was not closely related to Car/Chl ratio, while a structural-independent pigment index was not greatly altered by leaf development or species. Accordingly, it is suggested that the high concentration of anthocyanin, higher NPQ and Car/Chl ratio in juvenile leaves are important functional responses to cope with high radiation when the photosynthetic apparatus is not fully developed. Another two leaf reflectance indices, ARI and Chl NDI, are valuable for in vivo pigment evaluation during leaf development.     

Functional divergence within class B MADS-box genes TfGLO and TfDEF in Torenia fournieri Lind

Homeotic class B genes GLOBOSA (GLO)/PISTILLATA (PI) and DEFICIENS (DEF)/APETALA3 (AP3) are involved in the development of petals and stamens in Arabidopsis. However, functions of these genes in the development of floral organs in torenia are less well known. Here, we demonstrate the unique floral phenotypes of transgenic torenia formed due to the modification of class B genes, TfGLO and TfDEF. TfGLO-overexpressing plants showed purple-stained sepals that accumulated anthocyanins in a manner similar to that of petals. TfGLO-suppressed plants showed serrated petals and TfDEF-suppressed plants showed partially decolorized petals. In TfGLO-overexpressing plants, cell shapes on the surfaces of sepals were altered to petal-like cell shapes. Furthermore, TfGLO- and TfDEF-suppressed plants partially had sepal-like cells on the surfaces of their petals. We isolated putative class B gene-regulated genes and examined their expression in transgenic plants. Three xyloglucan endo-1,4-beta-d-glucanase genes were up-regulated in TfGLO- and TfDEF-overexpressing plants and down-regulated in TfGLO- and TfDEF-suppressed plants. In addition, 10 anthocyanin biosynthesis-related genes, including anthocyanin synthase and chalcone isomerase, were up-regulated in TfGLO-overexpressing plants and down-regulated in TfGLO-suppressed plants. The expression patterns of these 10 genes in TfDEF transgenic plants were diverse and classified into several groups. HPLC analysis indicated that sepals of TfGLO-overexpressing plants accumulate the same type of anthocyanins and flavones as wild-type plants. The difference in phenotypes and expression patterns of the 10 anthocyanin biosynthesis-related genes between TfGLO and TfDEF transgenic plants indicated that TfGLO and TfDEF have partial functional divergence, while they basically work synergistically in torenia.     

The characterization of herbicide tolerant plants in Brassica napus L. after in vitro selection of microspores and protoplasts

Brassica napus L.(cv Topas) plants tolerant to chlorsulfuron (CS) were isolated after selection experiments utilizing microspores and haploid protoplasts. The first microspore-derived plant (M-37,) was CS tolerant, haploid and sterile. Normal plant morphology and fertility was restored after colchicine doubling. A CS tolerant plant was also selected from protoplasts (P-26) isolated from microspore-derived embryo tissue and grown on medium containing CS. P-26 was aneuploid, CS tolerant and had very low fertility. The two selected lines produced selfed progeny which were tolerant to from 10–100 times the CS levels of the corresponding Topas plants. Microspores and protoplasts derived from the selfed plants were also CS tolerant. The segregation pattern for CS tolerance from reciprocally crossed progeny of M-37 and Topas was consistent with a semi-dominant nuclear mode of inheritance. Biochemical analysis of the two mutants indicated that the microspore-derived mutant and F1 crosses contained an altered acetohydroxyacid synthase (AHAS) enzyme, while the AHAS activity of the protoplast mutant was similar to Topas. Selfed seed from the M-37 plants have provided tolerance to CS in both greenhouse and field tests. S1 plants from a second microspore selected mutant (M-42) have tolerated 30 g/ha of CS in greenhouse tests. The two single-celled selection systems are discussed and the microspore selection system highlighted as a new method for in vitro selection.     

The inheritance of organogenic response in melon

Previous studies have demonstrated variation in organogenic competence among plants within a population ofCucumis melo. In order to determine if leaf explant response is under genetic control, we investigated the distribution of the shoot regeneration frequency in F₁ and F₂ generations from parents representing extreme values forin vitro organogenic response. Results suggest a genetic model with two genes, partial dominance, independent segregation and similar effects for both genes.     

Recovery of morphologically normal transgenic tobacco from hairy roots co-transformed with Agrobacterium rhizogenes and a binary vector plasmid

Summary Co-transformation of tobacco (Nicotiana tabacum) leaf explants with Agrobacterium rhizogenes harbouring pRi1855 and the binary vector pBin19 was achieved at a frequency of 67%. The kanamycin resistant hairy roots were cultured via a callusing phase to regenerate plants which were partially fertile when outcrossed with wild-type pollen. Phenotypic and molecular analysis of the F₁ progeny demonstrated the efficient segregation of the hairy root marker from the kanamycin resistance marker, enabling morphologically normal plants to be recovered which retained the binary vector marker gene. This co-transformation strategy provides a means of introducing non-selectable genes into plants in cases where antibiotic resistance markers are undesirable.