Somatic embryo cycling: Evaluation of a novel transformation and assay system for seed-specific gene expression in soybean

Somatic embryo cycling, a modification of soybean somatic embryogenic suspension culture, was developed as an efficient and rapid method of producing tissue suitable for stable transformation of soybean germplasm by biolistic particle bombardment. Instead of using immature seed explants, cotyledon-staged somatic embryo hypocotyls were placed on auxin-containing medium, where they initiated new somatic embryos primarily from single epidermal cells. By bombarding hypocotyls prior to initiation of subsequent embryo formation, we have effectively transformed soybean somatic embryos with the reporter genes neomycin phosphotransferase,gb-glucuronidase, and a mammalian stearyl CoA delta-9 desaturase, controlled by a seed-specific promoter. These embryos contain significantly reduced levels of saturated palmitic and stearic fatty acids, and significant amounts of monounsaturated palmitoleic acid, which is not normally abundant in soybean seeds. This study demonstrates the effectiveness of somatic embryo cycling for soybean transformation, and for testing expression of genes for seed-specific proteins. Abnormal flower development in recovered plants is a limitation for application of the technique to produce transgenic seed at present.     

Somatic embryo cycling: Evaluation of a novel transformation and assay system for seed-specific gene expression in soybean

Somatic embryo cycling, a modification of soybean somatic embryogenic suspension culture, was developed as an efficient and rapid method of producing tissue suitable for stable transformation of soybean germplasm by biolistic particle bombardment. Instead of using immature seed explants, cotyledon-staged somatic embryo hypocotyls were placed on auxin-containing medium, where they initiated new somatic embryos primarily from single epidermal cells. By bombarding hypocotyls prior to initiation of subsequent embryo formation, we have effectively transformed soybean somatic embryos with the reporter genes neomycin phosphotransferase,gb-glucuronidase, and a mammalian stearyl CoA delta-9 desaturase, controlled by a seed-specific promoter. These embryos contain significantly reduced levels of saturated palmitic and stearic fatty acids, and significant amounts of monounsaturated palmitoleic acid, which is not normally abundant in soybean seeds. This study demonstrates the effectiveness of somatic embryo cycling for soybean transformation, and for testing expression of genes for seed-specific proteins. Abnormal flower development in recovered plants is a limitation for application of the technique to produce transgenic seed at present.     

Lipoxygenase is an abundant protein in cucumber exudates

The presence of lipoxygenase (LOX) has been reported in many plant organs. High LOX activity (1–2 katal/mg protein) was detected in exudates from cut cucumber (Cucumis sativus L.) stems and petioles. Exudate LOX had a pH optimum of 5.0, an estimated molecular weight of 95 kDa and cross-reacted on sodium-dodecyl-sulfate gels with anti-LOX antibodies raised against soybean leaf LOX isoenzymes. Lipoxygenase activity was detected on native gels stained with o-dianisidine using linoleic acid as a substrate. Enzyme activity was similar with linoleic and linolenic acid and 2 times greater with arachidonic acid as substrate. At pH 6.8, LOX metabolized linoleic acid into 13- and 9-hydroperoxides at a ratio of 12. Linolenic acid was preferentially oxidized at carbon 13. Lipoxygenase activity was inhibited by n-propyl gallate (IC₅₀ 300 nM) and nordihydroguaiaretic acid (IC₅₀ 25 nM), but not by nonsteroidal anti-inflammatory drugs. LOX activity was enhanced 4.5-fold by 300 mM Ca²⁺. Spermine at 1 mM, and putrescine and spermidine at 2 mM completely inhibited LOX activity, but at low concentrations spermine (100 mM) and spermidine (100–500 mM) significantly stimulated LOX activity: 8- and 4.5-fold, respectively. Tissue printing of stem, petiole and hypocotyl sections with subsequent incubation with the antiserum raised against soybean leaf LOX revealed the presence of LOX in the internal and external phloem and in the sieve tubes.Abbreviations DTT dithiothreitol - EDTA ethylenediaminetetraacetic acid - EGTA ethyleneglycol-bis(-aminoethyl ether) N,N,N,N-tetraacetic acid - 9(S)-HpOD 9-(S)-hydroperoxy-(E,Z)10,12-octadecadienoic acid - 13(S)-HpOD 13-(S)-hydroperoxy(Z,E)-9,11-octadecadienoic acid - IC inhibition constant - IEF isoelectrofocusing - LOX lipoxygenase - NDGA nordihydroguaiaretic acid - PBS phosphate buffered saline - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulfate We would like to thank Ulla Jarlfors for exellent technical assistance with the histological analysis. The research reported in this paper was supported in part by grants to J.K. from the R.J. Reynolds Tobacco Company and Cooperative Agreement 43YK-5-0030 of the USDA-ARS. Journal paper 93-11-12 of the Kentucky Agricultural Experiment Station, Lexington.     

Development of a binary vector system for plant transformation based on the supervirulent Agrobacterium tumefaciens strain Chry5

This report describes the disarming of Agrobacterium tumefaciens Chry5, a strain highly tumorigenic on soybean. Disarming was achieved by removing an approximately 16.5-kb segment of the 285-kb Ti plasmid pTiChry5, including approximately 4 kb of the oncogenic T-DNA and an extended region right of the T-DNA, and replacing it with a gene for carbenicillin resistance, through homologous recombination. The deletion was confirmed with Southern analysis, and the loss of tumorigenicity was verified in tobacco and tomato plant stem inoculation assays. The deletion mutant, named KYRT1, successfully transferred the β-glucuronidase (GUS) gene into tobacco leaf tissue, producing GUS-expressing callus which could be regenerated into viable plants. In a comparative study, the transformation efficiency of A. tumefaciens KYRT1, GV3850, and EHA105 was assayed by inoculating cotyledonary node explants. The results of this study revealed that, in a binary vector system, KYRT1 is equally or more effective than EHA105 or GV3850 at delivering DNA into soybean. Received: 30 January 1997 / Revision received: 10 June 1997 / Accepted: 5 July 1997     

Effects of Long-Term Pioglitazone Treatment on Peripheral and Central Markers of Aging

Background

Thiazolidinediones (TZDs) activate peroxisome proliferator-activated receptor gamma (PPARγ) and are used clinically to help restore peripheral insulin sensitivity in Type 2 diabetes (T2DM). Interestingly, long-term treatment of mouse models of Alzheimer''s disease (AD) with TZDs also has been shown to reduce several well-established brain biomarkers of AD including inflammation, oxidative stress and Aβ accumulation. While TZD''s actions in AD models help to elucidate the mechanisms underlying their potentially beneficial effects in AD patients, little is known about the functional consequences of TZDs in animal models of normal aging. Because aging is a common risk factor for both AD and T2DM, we investigated whether the TZD, pioglitazone could alter brain aging under non-pathological conditions.

Methods and Findings

We used the F344 rat model of aging, and monitored behavioral, electrophysiological, and molecular variables to assess the effects of pioglitazone (PIO-Actos® a TZD) on several peripheral (blood and liver) and central (hippocampal) biomarkers of aging. Starting at 3 months or 17 months of age, male rats were treated for 4–5 months with either a control or a PIO-containing diet (final dose approximately 2.3 mg/kg body weight/day). A significant reduction in the Ca²⁺-dependent afterhyperpolarization was seen in the aged animals, with no significant change in long-term potentiation maintenance or learning and memory performance. Blood insulin levels were unchanged with age, but significantly reduced by PIO. Finally, a combination of microarray analyses on hippocampal tissue and serum-based multiplex cytokine assays revealed that age-dependent inflammatory increases were not reversed by PIO.

Conclusions

While current research efforts continue to identify the underlying processes responsible for the progressive decline in cognitive function seen during normal aging, available medical treatments are still very limited. Because TZDs have been shown to have benefits in age-related conditions such as T2DM and AD, our study was aimed at elucidating PIO''s potentially beneficial actions in normal aging. Using a clinically-relevant dose and delivery method, long-term PIO treatment was able to blunt several indices of aging but apparently affected neither age-related cognitive decline nor peripheral/central age-related increases in inflammatory signaling.     

Effect of volatile methyl jasmonate on the oxylipin pathway in tobacco, cucumber, and arabidopsis.

The effect of atmospheric methyl jasmonate on the oxylipin pathway was investigated in leaves of tobacco (Nicotiana tabacum L.), cucumber (Cucumis sativa L.), and Arabidopsis thaliana (L.). Differential sensitivities of test plants to methyl jasmonate were observed. Thus, different concentrations of methyl jasmonate were required for induction of changes in the oxylipin pathway. Arabidopsis was the least and cucumber the most sensitive to methyl jasmonate. Methyl jasmonate induced the accumulation of lipoxygenase protein and a corresponding increase in extractable lipoxygenase activity. Atmospheric methyl jasmonate additionally induced hydroperoxide lyase activity and the enhanced production of several volatile six-carbon products. It is interesting that lipid hydroperoxidase activity, which is a measure of hydroperoxide lyase plus allene oxide synthase plus possibly other lipid hydroperoxide-metabolizing activities, was not changed by methyl jasmonate treatment. Methyl jasmonate selectively altered the activity of certain enzymes of the oxylipin pathway (lipoxygenase and hydroperoxide lyase) and increased the potential of leaves for greatly enhanced six-carbon-volatile production.