Arabidopsis mutants with increased organ regeneration in tissue culture are more competent to respond to hormonal signals.

Shoots and roots can be regenerated through organogenesis in tissue culture by subjecting plant explants to the appropriate regime of hormone treatments. In an effort to understand the control of shoot organogenesis, we screened for mutants in Arabidopsis thaliana (L.) Heynh. Columbia ecotype for enhanced shoot development at sub-optimal concentrations of cytokinin. Mutants in four different complementation groups were identified, one of which represents a new locus named increased organ regeneration1 (ire1) and another that is allelic to the previously identified pom1/erh2 mutant. Although the mutants were selected for their response to cytokinin, they were neither hypersensitive to, nor were they over-producers of cytokinins. The mutations identified in this study not only promote more robust shoot production in tissue culture, but also enhance green-callus and root formation. We interpret this to mean that, in tissue culture, IRE genes act before organ specification during the time when root explants acquire the competency to respond to organ formation signals. In normal plant development, IRE genes may down-regulate the competency of vegetative tissue to respond to hormonal signals involved in shoot and root organogenesis.

A comparative molecular-physiological study of submergence response in lowland and deepwater rice.

Survival of rice (Oryza sativa) upon an extreme rise of the water level depends on rapid stem elongation, which is mediated by ethylene. A genomic clone (OS-ACS5) encoding 1-aminocyclopropane-1-carboxylic acid (ACC) synthase, which catalyzes a regulatory step in ethylene biosynthesis, has been isolated from cv IR36, a lowland rice variety. Expression was induced upon short- and long-term submergence in cv IR36 and in cv Plai Ngam, a Thai deepwater rice variety. Under hypoxic conditions, abscisic acid and gibberellin had a reciprocal opposite effect on the activity of OS-ACS5. Gibberellin up-regulated and abscisic acid down-regulated OS-ACS5 mRNA accumulation. Growth experiments indicated that lowland rice responded to submergence with a burst of growth early on, but lacked the ability to sustain elongation growth. Sustained growth, characteristic for deepwater rice, was correlated with a prolonged induction of OS-ACS5. In addition, a more pronounced capacity to convert ACC to ethylene, a limited ACC conjugation, and a high level of endogenous gibberellin(20) were characteristic for the deepwater variety. An elevated level of OS-ACS5 messenger was found in cv IR36 plants treated with exogenous ACC. This observation was concomitant with an increase in the capacity of converting ACC to ethylene and in elongation growth, and resulted in prolonged survival. In conclusion, OS-ACS5 is involved in the rapid elongation growth of deepwater rice by contributing to the initial and long-term increase in ethylene levels. Our data also suggest that ACC limits survival of submerged lowland rice seedlings.

Cytokinins in tobacco and wheat chloroplasts. Occurrence and changes due to light/dark treatment.

Although cytokinins (CKs) affect a number of processes connected with chloroplasts, it has never been rigorously proven that chloroplasts contain CKs. We isolated intact chloroplasts from tobacco (Nicotiana tabacum L. cv SR1) and wheat (Triticum aestivum L. cv Ritmo) leaves and determined their CKs by liquid chromatography/tandem mass spectroscopy. Chloroplasts from both species contained a whole spectrum of CKs, including free bases (zeatin and isopentenyladenine), ribosides (zeatin riboside, and isopentenyladenosine), ribotides (isopentenyladenosine-5'-monophosphate, zeatin riboside-5'-monophosphate, and dihydrozeatin riboside-5'-monophosphate), and N-glucosides (zeatin-N(9)-glucoside, dihydrozeatin-N(9)-glucoside, zeatin-N(7)-glucoside, and isopentenyladenine-N-glucosides). In chloroplasts there was a moderately higher relative amount of bases, ribosides, and ribotides than in leaves, and a significantly increased level of N(9)-glucosides of zeatin and dihydrozeatin. Tobacco and wheat chloroplasts were prepared from leaves at the end of either a dark or light period. After a dark period, chloroplasts accumulated more CKs than after a light period. The differences were moderate for free bases and ribosides, but highly significant for glucosides. Tobacco chloroplasts from dark-treated leaves contained zeatin riboside-O-glucoside and dihydrozeatin riboside-O-glucoside, as well as a relatively high CK oxidase activity. These data show that chloroplasts contain a whole spectrum of CKs and the enzymatic activity necessary for their metabolism.

Ion-pair liquid chromatography-electrospray mass spectrometry for the analysis of cyclic nucleotides.

An LC-MS method has been developed combining ion-pair chromatography with an electrospray interface linking microbore and capillary HPLC to mass spectrometry. Separation of cyclic nucleotides on C18 reversed-phase columns, using tetrabutylammonium bromide as an ion pairing agent was evaluated with different mobile phase compositions. It was found that low ion-pairing agent concentration (50-500 microM) used in combination with low flow-rates (5-10 microl min(-1)) allowed the system to operate for up to several days without observing a reduced signal caused by source pollution. The loss of sensitivity expected in ion-pair chromatography could be remedied by using a 2-propanol coaxial sheath flow. Optimal conditions for negative ion electrospray resulted in a linear detection response in the femtomole to picomole range. Using biological samples this method was evaluated and compared with a classical ion-suppression RP-HPLC method using UV detection.

Analysis of 3',5'-cAMP and adenylyl cyclase activity in higher plants using polyclonal chicken egg yolk antibodies.

Polyclonal antibodies were raised in chicken against an adenosine 3',5'-monophosphate-diphtheria toxoid antigen construct. The antibodies obtained show selectivity and high affinity toward 3',5'-cyclic nucleotides while exhibiting negligible affinity for 2',3'-cyclic nucleotides and other related adenine compounds. This paper reports on the development of an immunoaffinity purification procedure allowing both adenosine 3':5'-monophosphate (3',5'-cAMP) and adenylyl cyclase activity measurement in plant tissue samples. Basically, the technique consists of sequential purification of samples on solid-phase columns, the newly developed immunoaffinity columns, and quantitative analysis in ion-suppression HPLC coupled to photo diode array detection. The described method results in a drastic reduction of processing time compared to existing procedures and combines high yields (70-80%) and thorough purification, hence significantly increasing the sensitivity of quantification of 3',5'-cAMP content in higher plant material. Used in adenylyl cyclase activity measurement it also allows for a routine positive identification of the newly formed compound, 3',5'-cAMP, a feature generally lacking in existing adenylyl cyclase assays.

The metabolism of benzyladenine in Spathiphyllum floribundum 'Schott Petite' in relation to acclimatisation problems.

In Spathiphyllum floribundum 'Petite', which was cultured on medium containing benzyladenine (BA), uptake of this cytokinin and its conversion to 9-ß-D-ribofuranosyl-benzyladenine (9R-BA) or 9-ß-glucopyranosyl-benzyladenine (9G-BA) was monitored. BA and extremely large quantities of 9G-BA were exclusively located in the basal part of the plant (callus and meristems). 9R-BA was found in the basal part, the petioles and the leaf blades. After an acclimatisation period of 9 weeks the plants still contained high levels of 9G-BA, but BA and 9R-BA could no longer be detected after one week. The possible role of BA and its derivatives on inhibition of root initiation or irreversible chloroplast deficiency is discussed.

Relationship of ribonucleic Acid metabolism in embryo and aleurone to alpha-amylase synthesis in barley.

RNA metabolism of embryo and aleurone of barley grains (Hordeum vulgare L. cv. Himalaya) was studied to elucidate the role of these tissues in the control of alpha-amylase synthesis and germination. The extent of (3)H-uridine incorporated into various RNA classes of the embryo during the first 12 hours of germination was low but constant. Subsequently, there was a rapid increase in RNA synthesis of all fractions. In the aleurones, after 16 hours, a gradual decrease in (3)H-uridine incorporation was observed, and by the time the synthesis of RNA in the aleurones had stopped, alpha-amylase level was at its highest in the grain.On transfer to accelerated aging conditions (43 C; 85% relative humidity), the grains lost their viability within 4 weeks. That this was due to a rapid deterioration of the embryo and not of the aleurone was apparent in studies on alpha-amylase formation, RNA metabolism, and ATP content in grains in various physiological states reported here. Results presented here also reveal a marked influence of the embryo and GA(3) on the quality of the newly synthesized RNAs. Aleurones which lacked the impulse of embryo or GA(3) were capable of synthesizing RNA but these RNAs were less heterodisperse than RNAs from aleurones which were under the influence of an embryo or GA(3).

Embryoless Wheat Grain: A Natural System for the Study of Gibberellin-induced Enzyme Formation.

Yorkstar wheat, grown in New York State, has a high percentage (10-11) of grains without embryos. The embryoless grains have viable aleurone layers and show no sign of injury. These grains are able to support alpha-amylase synthesis only in the presence of gibberellin A(3) (GA(3)). In the absence of GA(3) some protein synthesis occurs in embryoless grains during the early hours of soaking, indicating that such activity occurs prior to and independent of GA(3) induction of alpha-amylase. The level of beta-amylase on a dry weight basis is the same in embryoless and normal grains and decreases with time of soaking. In the presence of GA(3), beta-amylase decreases at a slower rate. Isoenzymes of alpha-amylase from GA(3)-treated embryoless and normal grains show quantitative as well as qualitative differences. Cycloheximide (60 mug/ml) completely inhibits the synthesis of alpha-amylase by embryoless grains. Of the RNA synthesis inhibitors, actinomycin D (60 mug/ml) was ineffective while 6-methylpurine (60 mug/ml) gave 65% inhibition without decreasing the number of isoenzymes.

[Formation of α-amylase isozymes during germination of barley]. / La formation des isozymes de l' α-amylase durant la germination de l'orge.

The α-amylase formed in germinating barley has been separated into six isozymes by means of polyacrylamide gel electrophoresis. These isozymes do not appear from the beginning of germination but are formed gradually so that after six days all six α-amylase isozymes are present.When gibberellic acid is added to the culture medium the production of the α-amylase isozymes is accelerated considerably, whereas the addition of kinetin has no influence at all on the formation of the α-amylase isozymes.The α-amylase induced by gibberellic acid in the aleurone layers of isolated barley endosperms apparently consists of five isozymes, a number that does not change upon further incubation.The action of phytohormones such as gibberellic acid and kinetin on the formation of α-amylase and its isozymes during the germination of barley is discussed.