Showing total 4 results

1. Exogenously applied 24-epi brassinolide reduces lignification and alters cell wall carbohydrate biosynthesis in the secondary xylem of Liriodendron tulipifera.

Author

Jin H, Do J, Shin SJ, Choi JW, Choi YI, Kim W, and Kwon M

Subjects

Brassinosteroids chemistry, Cell Wall metabolism, Liriodendron growth & development, Liriodendron metabolism, Molecular Structure, Plant Growth Regulators chemistry, Plant Stems drug effects, Plant Stems growth & development, Plant Stems metabolism, Steroids, Heterocyclic chemistry, Xylem cytology, Xylem growth & development, Xylem metabolism, Brassinosteroids pharmacology, Carbohydrates biosynthesis, Cell Wall drug effects, Lignin metabolism, Liriodendron drug effects, Plant Growth Regulators pharmacology, Steroids, Heterocyclic pharmacology, Xylem drug effects

Abstract

The roles of brassinosteroids (BRs) in vasculature development have been implicated based on an analysis of Arabidopsis BR mutants and suspension cells of Zinnia elegans. However, the effects of BRs in vascular development of a woody species have not been demonstrated. In this study, 24-epi brassinolide (BL) was applied to the vascular cambium of a vertical stem of a 2-year-old Liriodendron, and the resulting chemical and anatomical phenotypes were characterized to uncover the roles of BRs in secondary xylem formation of a woody species. The growth in xylary cells was clearly promoted when treated with BL. Statistical analysis indicated that the length of both types of xylary cells (fiber and vessel elements) increased significantly after BL application. Histochemical analysis demonstrated that BL-induced growth promotion involved the acceleration of cell division and cell elongation. Histochemical and expression analysis of several lignin biosynthetic genes indicated that most genes in the phenylpropanoid pathway were significantly down-regulated in BL-treated stems compared to that in control stems. Chemical analysis of secondary xylem demonstrated that BL treatment induced significant modification in the cell wall carbohydrates, including biosynthesis of hemicellulose and cellulose. Lignocellulose crystallinity decreased significantly, and the hemicellulose composition changed with significant increases in galactan and arabinan. Thus, BL has regulatory roles in the biosynthesis and modification of secondary cell wall components and cell wall assembly during secondary xylem development in woody plants., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

2. Improved somatic embryo maturation in loblolly pine by monitoring ABA-responsive gene expression.

Author

Vales T, Feng X, Ge L, Xu N, Cairney J, Pullman GS, and Peter GF

Subjects

DNA, Complementary, Gene Expression Profiling, Genes, Plant, Pinus taeda metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Abscisic Acid pharmacology, Gene Expression Regulation, Plant, Pinus taeda embryology, Pinus taeda genetics, Plant Growth Regulators pharmacology

Abstract

During loblolly pine zygotic embryo development, increases in mRNAs for three ABA-responsive LEA-like genes coincided with the two developmental stage-specific peaks of endogenous ABA accumulation (Kapik et al. 1995). These ABA concentration profiles from zygotic embryo development were used to develop several tissue culture approaches that altered the exposure of somatic embryos to exogenous ABA. Elevating exogenous ABA at a time corresponding to mid-maturation improved the germination and resulted in more zygotic-like expression of selected genes in somatic embryos. Extending the time on maturation medium for a fourth month increased embryo yield, dry weight, and germination in high-and low-yield genotypes. Optimizing the amounts of embryogenic suspension, plated and exogenous ABA concentration increased from 22 to 66% in the early-stage bipolar embryos that developed to the cotyledonary stage.

Published

2007

3. Achieving desired plant growth regulator levels in liquid plant tissue culture media that include activated carbon.

Author

Van Winkle SC and Pullman GS

Subjects

Charcoal chemistry, Culture Media chemistry, Linear Models, Picea drug effects, Picea embryology, Seeds drug effects, Seeds growth & development, Cell Culture Techniques methods, Charcoal pharmacology, Culture Media pharmacology, Picea growth & development, Plant Growth Regulators pharmacology

Abstract

This paper is part of a series considering the impact of activated carbon (AC) on the composition of plant tissue culture media. Using liquid culture media for initiation of Norway spruce embryogenic tissue and eight different ACs, we present a method for achieving target plant growth regulator (PGR) levels in AC-containing medium based on sorption isotherms for individual PGRs. Linear relationships were found between PGR adsorption and specific BET (Brunauer, Emmett, Teller theory) surface area and specific total pore volume of AC. When using a new AC, this linear relationship allows one to achieve multiple PGR levels similar to historic levels through adjustment of the mass of AC based on its relative BET surface area or relative total pore volume. Target levels of PGRs and an initiation success similar to that in medium without AC were achieved with several different AC types when AC mass was adjusted on the basis of pore volume.

Published

2005

4. Gibberellin inhibitors improve embryogenic tissue initiation in conifers.

Author

Pullman GS, Mein J, Johnson S, and Zhang Y

Subjects

Culture Techniques, Germination physiology, Herbicides pharmacology, Tracheophyta drug effects, Germination drug effects, Gibberellins antagonists & inhibitors, Plant Growth Regulators pharmacology, Tracheophyta growth & development

Abstract

Somatic embryogenesis (SE), the most promising technology to multiply high-value coniferous trees from advanced breeding and genetic engineering programs, is expected to play an important role in increasing productivity, sustainability, and uniformity of future forests in the United States. For commercial use, SE technology must work with a variety of genetically diverse trees. Initiation in loblolly pine (LP; Pinus taeda L.), our main focus species, is often recalcitrant for desirable genotypes. Initiation of LP, slash pine (SP; Pinus elliottii), Douglas-fir (DF; Pseudotsuga menziesii), and Norway spruce (NS; Picea abies) were improved through the use of paclobutrazol, a gibberellin synthesis inhibitor. Paclobutrazol was effective at concentrations ranging from 0.25 mg/l to 3.0 mg/l (0.85-10.2 microM) and optimal in LP at 1.0 mg/l. Using control media (no paclobutrazol) and 0.33-1.0 mg/l paclobutrazol, initiation percentages in LP, SP, DF, and NS were improved from 37.7% to 44.2% (across experiments), 19.3% to 28.5%, 16.9% to 23.7%, and 38.8% to 48.5%, respectively. Other gibberellin inhibitors such as flurprimidol, chlormequat-Cl, and daminozide also caused statistically significant increases in LP initiation when added to the medium at concentrations of 0.34, 10.0, and 1.0 microM, respectively. No detrimental effects on subsequent embryo development were observed when 29 new initiations from medium without GA inhibitor and 28 new initiations from medium containing paclobutrazol were tracked through culture capture, liquid culture establishment, cotyledonary embryo development, and germination.

Published

2005