Hypoxia-inducible factor 1α regulates branching morphogenesis during kidney development

The kidneys are exposed to hypoxic conditions during development. Hypoxia-inducible factor (HIF), an important mediator of the response to hypoxia, is believed to have an important role in development. However, the relationship between HIF and branching morphogenesis has not been elucidated clearly.     

Does transpiration have an essential function in long-distance ion transport in plants?

Abstract. Long-term effects of transpiration on growth and on long-distance ion transport were investigated in maize over a whole growth cycle. Maize plants were grown with nutrients supplied at adequate levels in hydroculture or in soil at 50–60% and at >95% relative humidity. Although the amount of water lost by the plants under these conditions differed by a factor 2 to 3, there was neither a decrease in growth (fresh weight and dry weight) nor in ash content of the 'humid'plants. This was also found when the upper part of the shoot (70–150 cm) was tested separately. It is suggested that transpiration is not essential for long-distance transport of mineral elements in plants. Alternatives are discussed.     

A general approach for developing a commercial micropropagation system

Summary Five distinct steps can be recognized in the establishment of a plant in a commercial micropropagation system, especially if the most utilized approach (shoot culture) is the focus. Failure at any one step can make the total system commercially unworkable. When one considers a plant without extensive previous history of microculture, the first step involves an analysis of the potential market (economic reality) as well as the plant’s general growth habit (biological reality). For the latter, the general growth habit of the plant can provide valuable predictive information as to the potential ease of microculture. For example, plants showing indeterminant herbaceous growth (e.g., Chrysanthemum, Solanum, Dieffenbachia) or continuous woody seasonal growth (e.g., Betula, Ulmus, Thuja) are generally much more amenable to microculture than those that are determinant herbaceous (e.g., Panix, Paeonia) or episodic woody organisms (e.g., Quercus, Pinus). At times, an episodic habitat can be overcome in microculture (Syringa, Rhododendron). The next four steps involve the actual manipulation and microculture of the plant and include the initiation, stabilization, optimization, and production phases. The most intensive analytical step is usually the optimization phase in which plant growth regulator response curves, replication, repetition through multiple subcultures, and evaluation of productivity and product quality are involved. The intent of this discussion is to help develop a decision tool to be used as a first approach to designing a potential new micropropagation system for an untested plant genotype.     

Towards automation: Radiata pine shoot hedges in vitro

A novel system for in vitro shoot production has been developed whereby shoot hedges are maintained in one vessel. Monthly crops of shoots are produced for rooting. Radiata pine shoot hedges were maintained on Lepoivre (LP) nutrient agar medium for 18 months using a weekly liquid-nutrient replenishment system. In a separate experiment liquid-LP-nutrient replenishment of shoots twice weekly without transfers (D) resulted in better shoot growth and health than monthly transfers to fresh agar medium (B), monthly transfers to fresh agar medium plus aeration twice weekly (C), or no transfers and no liquid nutrient addition (A). Liquid nutrient replenishment twice weekly was better than 2 weekly or 4 weekly replenishment. The percentage of normal waxy (abundant tubular epicuticular wax) shoots harvested monthly increased significantly over the culture period from 41% at the first harvest to 93% at the eight harvest, and remained high at 97% from the ninth to twelfth harvest. The percentage of wet (no tubular epicuticular wax, small amounts of globular epicuticular wax) shoots harvested showed a corresponding decline—from 59%, to 7% at the eighth harvest. Shoots were harvested at a rate of 672/h (1.19 cents/shoot at a labour cost of NZ$8.00/h) and approximately 1100 shoots were produced per square metre of agar surface per month. Initial problems of contamination and crowding were overcome. These results will greatly facilitate progress towards automation of shoot production and reduction of costs of micropropagated trees. An automated system used in combination with other cost-saving techniques or robotics could potentially result in a substantial reduction in costs. This is the first report of a method of culturing shoots as hedges for a period of up to 18 months without manual subculturing.     

Micropropagation ofAcacia mearnsii

Summary A micropropagation system was developed forAcacia mearnsii De Wild., which is the principal source of the world’s tanbark and an excellent firewood. Shoot tips 5-mm long from 3-wk-old seedlings germinated in vitro served as explants. The seeds were germinated on hormone-free MS medium and the shoot tips were cultured on three-fourth-strength MS medium supplemented with combinations of auxins [indole-3-butyric acid (IBA) andα-naphthaleneacetic acid (NAA)] and cytokinins [kinetin and benzylaminopurine (BAP)]. Cultures were maintained at 25° ± 5° C and exposed to 12-h photoperiods of cool-white fluorescent light (70 μEm⁻²·s⁻¹). Multiple shoot formation was promoted by BAP at 2 mg · liter⁻¹ (8.87μM) and higher combined with or without 0.01 mg · liter⁻¹ (0.049μM) IBA. Cytokinins at concentrations of less than 1 mg · liter⁻¹ combined with 0.01 to 0.1 mg · liter⁻¹ auxin inhibited multiple shoot formation and promoted rooting of the shoot tip explants. Shoot multiplication cultures were maintained by transferring segments of multiple-shoot clusters onto a medium containing 2 mg · liter⁻¹ BAP and 0.01 mg · liter⁻¹ IBA. Although higher levels of BAP promoted more multiple shoot formation, this BAP level allowed shoot elongation as well as multiplication. In-vitro-produced shoots were induced to root on a range of NAA concentrations (0.0 to 0.8 mg · liter⁻¹[4.3μM]) supplemented to half- or full-strength MS medium. The highest frequency of root proliferation was on half-strength MS medium supplemented with 0.6 mg · liter⁻¹ (3.22μM) NAA. Plantlets survived in potting soil and exhibited normal growth under greenhouse conditions.     

Induction of Multichotomous Branching by CLAVATA Peptide in Marchantia polymorpha

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The branching pattern of major groups of land plants inferred from parsimony analysis of ribosomal RNA sequences

The parsimony and bootstrap branching pattern of major groups of land plants derived from relevant 5S rRNA sequence trees have been discussed in the light of paleobotanical and morphological evidences. Although 5S rRNA sequence information is not useful for dileneating angiosperm relationships, it does capture the earlier phase of land plant evolution. The consensus branching pattern indicates an ancient split of bryophytes and vascular plants from the charophycean algal stem. Among the bryophytes,Marchantia andLophocolea appear to be phylogenetically close and together withPlagiomnium form a monophyletic group.Lycopodium andPsilotum arose early in vascular land plant evolution, independent of fem-sphenopsid branch. Gymnosperms are polyphyletic; conifers, Gnetales and cycads emerge in that order with ginkgo joiningCycas. Among the conifers,Metasequoia,Juniperus andTaxus emerge as a branch independent ofPinus which joins Gnetales. The phylogeny derived from the available ss-RNA sequences shows that angiosperms are monophyletic with monocots and dicots diverging from a common stem. The nucleotide replacements during angiosperm descent from the gymnosperm ancestor which presumably arose around 370 my ago indicates that monocots and dicots diverged around 180 my ago, which is compatible with the reported divergence estimate of around 200 my ago deduced from chloroplast DNA sequences. Since deceased.