Metabolism of Inositol Phosphates: I. Phytase Synthesis during Germination in Cotyledons of Mung Beans, Phaseolus aureus

The degradation of phytin in germinating mung bean seeds has been found to be associated with the increased activity of phytase in the cotyledon. In the differentiated embryo the increase of this activity is very low all throughout the growth periods studied. Phytase appears in the cotyledon during germination. No activity has been detected in the cotyledons of unsoaked seeds. Cycloheximide (10⁻⁶ M) inhibits the appearance of phytase by 61% during 24 and 48 hours after the start of germination. This phytase increase is dependent on the synthesis of new RNA in the cotyledon. Synthesis of DNA is not detected in the cotyledon during germination.     

Regulation of agmatine iminohydrolase activity in germinating groundnut seeds

Activity of agmatine iminohydrolase present in the embryo of germinating Groundnut seeds was reduced by removal of both of the cotyledons after soaking of the seeds, but removal of one cotyledon had no effect. The enzyme activity in the cotyledons and the embryo was decreased by feeding ethrel and ethylene chlorohydrin to the seedlings. The enzyme activity was inhibited when polyamines were added to the assay mixture but feeding these amines to the seedlings had no effect on the enzyme activity.     

The GURKE gene encoding an acetyl-CoA carboxylase is required for partitioning the embryo apex into three subregions in Arabidopsis

In Arabidopsis, three major regions, which ultimately develop into the two cotyledons, the cotyledon boundaries and the shoot apical meristem (SAM), are formed at the apex of the globular stage embryo. To reveal the molecular mechanism underlying this pattern formation, we isolated a cotyledon-defective mutant from EMS mutagenized lines. This mutant completely lacks cotyledons in the most severe cases, and is allelic to gurke (gk), which was previously reported as a mutant defective in apical patterning of the embryo. To evaluate the morphological effects of the mutation in the GK gene, we investigated the expression patterns in gk embryos of SHOOT MERISTEMLESS (STM), AINTEGUMENTA (ANT) and CUP-SHAPED COTYLEDON1 (CUC1), which are markers of the SAM, cotyledons and cotyledon boundaries, respectively. Expression of all these genes largely overlapped in gk, suggesting a failure to partition the apex of the embryo into the three subregions. Enlargement of the CUC1 expression domain was also observed and may explain the inhibition of cotyledon development in gk. Moreover, we cloned the GK gene, and confirmed that it encodes ACC1, an acetyl-CoA carboxylase which catalyzes malonyl-CoA synthesis. Our results suggest that metabolites derived from malonyl-CoA are required for partitioning of the apical part of the embryo.     

Ultrastructural and biochemical investigations of protein mobilization of Mucuna pruriens (L.) DC. cotyledons and embryo axis

The mobilization of storage reserves, with particular emphasis on storage proteins of Mucuna pruriens (L.) DC., cotyledons, and embryo was investigated from the ultrastructural and biochemical points of view. Proteins and starch were the two main storage substances in cotyledons, and proteins and lipids were the main ones in the embryo. Embryo protein bodies were smaller and fewer in number than those of cotyledons. Structural and ultrastructural data determined between 24 and 48 h after imbibition and between 48 and 72 h after imbibition, the end of significant embryo and cotyledon protein mobilization, respectively, indicating more precocious storage protein mobilization in the axis than cotyledons. Moreover, storage protein mobilization in embryo and cotyledons occurred before the end of germination. Water soluble proteins were separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis, producing 29 bands with molecular weights from 14 to 90 KDa. Embryo extract contained more proteins than cotyledon extract, contained seven characteristic bands, and showed a higher variability of the optical density trend than cotyledon.     

Effect of plumule and radicle on somatic embryogenesis in the cultures of ginseng zygotic embryos

Immature zygotic embryos of ginseng produced somatic embryos on MS medium without growth regulators. However, in the culture of mature zygotic embryos, excision of the embryo was required for somatic embryo induction. Somatic embryos formed only on excised cotyledons without an embryo axis or on excised embryos without the plumule and radicle of the axis. This observation suggests that the axis tip of the embryo might suppress somatic embryo production although the cotyledon tissues have predetermined embryogenic competency. To clarify the role of the embryo axis on somatic embryo formation, excised plumules or radicles were placed in direct contact with the basal cut-ends of cotyledons. The adhesion of plumules or radicles highly suppressed somatic embryo formation from cotyledon explants. When an agar block containing exudate from excised plumules or radicles was placed in contact with the cut end of the cotyledon, a similar inhibition was observed. These results suggest that embryogenic competence is suppressed by endogenous inhibitors present in the axis tip of the zygotic embryo.     

Does osmotic regulation of amylase activity in bean cotyledons exist?

The hypothesis that the promotive effect of the embryo axis of the germinating bean seed on amylase activity in the cotyledons is mediated by an osmoregulative mechanism was examined. After 2 days of germination the action of the axis on amylolytic activity was already clearly revealed, whereas at the same time it did not have any influence on osmotic pressure in the cotyledons. When the axis was attached to one cotyledon during 4 days of incubation, osmotic pressure in the cotyledon was lower than its value in the cotyledons of the intact seedling, whereas amylolytic activity was similar in both treatments. It was concluded that the tested hypothesis is not valid in the case of the bean seedling. External osmotic agents brought about a decrease in the level of amylase in the cotyledons, but this does not prove that osmotic changes which are brought about by production of internal metabolites are involved in the regulation of amylase synthesis.     

Roles of extensins in cotyledon primordium formation and shoot apical meristem activity in Nicotiana tabacum

Extensins are cell wall basic glycoproteins with a polypeptide backbone that is extremely rich in hydroxyproline. In this paper, the function of extensins in embryo development was studied in Nicotiana tabacum. By using Western blot and immunohistochemistry, the extensin JIM20 epitopes were found to express in different developmental stages of embryos, and specifically in the top of the embryo proper (EP) and the suspensor of the late globular embryos. In order to clarify the functions of extensins, a potent hydroxyproline synthesis inhibitor, 3,4-dehydro-L-proline (3,4-DHP), was used in ovule and embryo culture. The results showed that the addition of 3,4-DHP caused abnormal embryos with single, asymmetry and supernumerary cotyledon primordia, and continuous culture led to cotyledon defects in the germinated seedlings. Histological sections showed that the shoot apical meristem (SAM) of the abnormal seedlings was dissimilar from the controls, especially in the seedlings with cup-shaped cotyledons. Furthermore, the vasculature of the abnormal cotyledons was in an out-of-order format and contained at least two main veins. Finally, both the hydroxyproline assay and fluorescent immunolocalization confirmed that 3,4-DHP treatment reduced the level of extensins in the cultured ovules and embryos. These results indicate that extensins may play important roles in the cotyledon primordium formation, SAM activity, and vasculature differentiation during embryo development.     

The development of isocitric lyase activity in germinating cotton seed

In cotyledons of germinating cotton (Gossypium hirsutum L. var. Stoneville 213) seedlings, in the dark, isocitric lyase (EC 4.1.3.1) activity peaks after 2 days and thereafter slowly declines to a negligible value after 8 days. The maximum activity of this enzyme in cotyledons of 2-day-old seedlings was 16.2 μmoles of glyoxylate formed/15 min·10 cotyledon pairs. Actinomycin D at a concentration of 10 μg/ml, if added to the imbibing solution, completely prevents the development of isocitric lyase activity in these germinating seed. In cotyledons of germinating cotton seedlings, in the light, isocitric lyase activity peaks after 2 to 3 days and sharply declines to a negligible value after 4 days. The maximum activity of this enzyme in cotyledons of 2- to 3-day-old seedlings was 13.2 μmoles of glyoxylate formed/15 min·10 cotyledon pairs. Actinomycin D at a concentration of 10 μg/ml, if added to the imbibing solution, severely inhibits the development of enzyme activity.     

Effects of Benzylaminopurine and Abscisic Acid on Distribution of rRNA in the Palisade Cells of Excised Cucurbita Pepo Cotyledons

rRNA was labelled with RNase-gold complexes applied to ultrathin Lowicryl sections of excised Cucurbita pepo L. (zucchini) cotyledons grown in darkness. Benzylaminopurine-caused stimulation of cotyledon growth decreases the density of ribosomes in palisade cells despite stimulating rRNA synthesis. Abscisic acid inhibits RNA synthesis and transport, but does not visibly affect the number of pre-existing ribosomes in retarded growth cells. The amount of rRNA in the cells of 24 h treated cotyledons is rather consequence of the growth rate than its leading factor.     

Sequential Expression of Trypsin Inhibitors in Developing Fruit of Cowpea (Vigna unguiculata (L.) Walp)

Trypsin inhibitor (TI) activity was followed in the pod (pericarp),seed coat, cotyledon and embryo axis during fruit developmentof cowpea. On the basis of seed fresh weight, three phases couldbe distinguished from anthesis to fruit maturity. In the podTI activity increased from the beginning of Phase I to a maximumin the middle of the phase. From then on the activity declineduntil no activity could be detected before the end of phaseII. The cotyledons did not contain any TI in Phase I. TI activitywas first detected in the cotyledon in the beginning of PhaseII at the same time that globulin synthesis started. The TIactivity in the cotyledon increased to a maximum at the endof Phase II before decreasing in Phase III. In the embryo axisa similar pattern of TI activity to that of the cotyledon wasfound. No protein TI could be detected in the seed coat at anystage. In the pod there is a TI with a mol. wt of 12500 andpI of 4.4. Mature cotyledon and embryo axis have two TI withmol. wt 10800 and 24700 with pI 4.7 and 5.0 respectively. Duringdevelopment the smaller TI (mol. wt 10800) was synthesised beforethe larger TI (mol. wt 24700). There were large differencesbetween the maximum absolute amounts of TI present in the pericarp,cotyledon and embryo axis.     

Is the wild oat embryo monocotylous?

The embryogeny of the wild oat (Avena fatua L.) was studied in detail. The pattern of embryo development was observed to be similar to the other investigated grass taxa, conforming to thePoa variation of the Asterad type. The embryogeny and anatomy of young seedlings showed that the embryo of the wild oat was not monocotylous, but dicotylous. The scutellum of the embryo, as reported for other grasses, was regarded as the first cotyledon, and the first leaf primordium, which developed later into a photosynthesizing leaf and situated opposite the scutellum, was interpreted as the second cotyledon. Observations indicated that the cotyledons of the embryo were placed lateral to the shoot apical meristem, which was terminal in position. The cotyledons were found to be dimorphic in structure and function. The scutellum, a modified cotyledon, functioned as a suctorial organ, transporting nutrients from the endosperm to the embryo axis. The second cotyledon or the first true leaf supplied nutrients directly to the embryo axis through the process of photosynthesis.     

single cotyledon (sic) mutants of pea and their significance in understanding plant embryo development

Angiosperms are divided into two distinct classes—the dicotyledons (dicots) and monocotyledons (monocots)—based in part on the number of cotyledons in mature embryos. In this paper, we describe single‐cotyledon pea mutants, termed sic (single cotyledon), all of which show a degree of fusion between the cotyledons. The fusion in sic1 is along the margin of one cotyledon and is less complete than in sic2 embryos, but the effects of the mutations are additive in the double mutant. Occasionally sic2 mutants will show fusion of the two cotyledons into one cylindrical embryo in which the shoot apex becomes surrounded by the cotyledons. Both sic1 and sic2 mutants produce fertile plants. In the sic3 embryo, a single cotyledon is generated under the shoot apex that breaks the vascular connection between root and shoot, causing embryo lethality. The pattern of cotyledon development in all these mutants is identified by in situ mRNA hybridization and antibody labeling, using the storage protein vicilin as a cotyledon‐specific marker. These patterns indicate that the joining of the cotyledons was due to zonal growth. The results indicate that there are genes in pea that influence the positioning and the morphology of the cotyledon. A model for cotyledon development in pea is proposed that is based on the regulation of the positioning of cell clusters by the sic genes. Dev. Genet. 25:11–22, 1999. © 1999 Wiley‐Liss, Inc.     

稻属植物胚的形态结构与二（异）型子叶

长久以来植物学界认定稻 (OryzasativaL .)是单子叶植物。作者从稻胚发育的研究中确认稻胚具二型子叶 ,并非单子叶。稻属其他种的胚胎形态与O .sativa是否相同 ?是否具二型子叶 ?根据扫描电子显微镜的观察结果 ,稻属 (Oryza) 2 2个种和亚种的胚的形态结构可以分为两种类型。O .sativa等 16个种胚具腹鳞和侧鳞 ,属第一类型 ;O .meyeriana (Zoll.etMor.exSteud .)Baill.ssp .tuberculataW .C .WuetY .G .Lu ,G .C .Wang等 6个种 (亚种 )胚缺腹鳞和侧鳞 ,属第二类型。O .sativa和O .meyerianassp .tuberculata的胚胎发育过程所出现的盾片原基、胚根鞘原基、胚芽鞘原基和生长锥均来自原胚 ,前二者发育成胚套 ,是外围子叶 ;胚芽鞘原基发育成围在生长锥外并盖住生长锥的空心的倒锥状胚芽鞘 ,是顶生子叶。第一类型与第二类型稻胚都具有二型子叶。第二类型稻胚在盾片原基发育过程中并不分化出腹鳞和侧鳞 ,因而造成第二类型稻胚缺腹鳞与侧鳞。稻的二型子叶源于原胚的背腹极性分化     

Catalase Synthesis and Turnover during Peroxisome Transition in the Cotyledons of Helianthus annuus L

Based on measurements of total catalase hematin and the degradation constants of catalase hematin, zero order rate constants for the synthesis of catalase were determined during the development of sunflower cotyledons (Helianthus annuus L.). Catalase synthesis reached a sharp maximum of about 400 picomoles hematin per day per cotyledon at day 1.5 during the elaboration of glyoxysomes in the dark. During the transition of glyoxysomes to leaf peroxisomes (greening cotyledons, day 2.5 to 5) catalase synthesis was constant at a level of about 30 to 40 picomoles hematin per day per cotyledon. In the cotyledons of seedlings kept in the dark (day 2.5 to 5) catalase synthesis did not exceed 10 picomoles hematin per day per cotyledon. During the peroxisome transition in the light, total catalase hematin was maintained at a high level, whereas total catalase activity rapidly decreased. In continuous darkness, total catalase hematin decreased considerably from a peak at day 2. The results show that both catalase synthesis and catalase degradation are regulated by light. The turnover characteristics of catalase are in accordance with the concept that glyoxysomes are transformed to leaf peroxisomes as described by the one population model and contradict the two population model and the enzyme synthesis changeover model which both postulate de novo formation of the leaf peroxisome population and degradation of the glyoxysome population.     

银杏胚的培养及不定芽的产生

通过对银杏未成熟胚和近成熟胚的培养,研究其不定芽的发生情况.结果表明:(1)银杏的种胚存在生理后熟现象,10月上旬,胚未成熟,在360个种核中,小子叶胚数(1.0～3.0 mm)为26.1％,大子叶胚(3.0～5.0 mm)的种子数占总种核数的42.2％,种核的出胚率为71.1％;(2)大子叶胚和小子叶胚接种在不同的培...     

Effects of the embryonic axis and exogenous growth regulators on sunflower cotyledon storage protein mobilization

Cotyledons of sunflower seedlings ( Helianthus annuus L. cv. Giant gray stripe) expand and their protein content first rises then begins to decrease during the first three days of growth. Storage protein structures, which are visible with scanning electron microscopy, undergo modification that leads to storage protein disappearance by day 4 post-imbibition. Expansion of cotyledons detached from seeds prior to imbibition is greatly reduced, total protein levels remain high, and storage protein structures remain visible in cells of these cotyledons. Incubation of excised cotyledons in 1.0 μM benzyladenine or kinetin increases the rates of cotyledon expansion and storage protein loss to levels higher than in intact seedling cotyledons, Incubation in 10 μM indole-3-acetic acid inhibits cotyledon expansion and protein mobilization. More rapid hydrolysis of storage proteins in cotyledons of intact seedlings or detached cotyledons treated with cytokinin is further indicated in day 2 specimens by SDS-polyacrylamide gel electrophoresis. These results suggest a possible mechanism for regulation of cotyledon development by interactions of the promotive effects of cytokinin and inhibitory effects of auxin.     

Developmental and structural aspects of somatic embryos formed on medium containing 2,3,5-triiodobenzoic acid

Cotyledon explants of ginseng (Panax ginseng C.A. Meyer) zygotic embryos produced somatic embryos at a high rate (68%) on medium without any growth regulators. Under this culture condition, apparent polar somatic embryogenesis occurred near the basal-excised portion of the cotyledons. When the cotyledon explants were cultured on medium containing 2,3,5-triiodobenzoic acid (TIBA), an auxin polar-transport inhibitor, the frequency of somatic embryo formation markedly decreased and was completely inhibited on medium containing 20 μM TIBA. On medium containing 5–10 μM, somatic embryos developed sporadically on the surface of the cotyledons and had a normal embryo axis but jar-shaped cotyledons. Embryos with jar-shaped cotyledons were also observed to occur at a high frequency when the early globular embryos formed on hormone-free medium were transferred to medium containing 20 μM TIBA. From these results, it was deduced that endogenous auxin in the cotyledon explants plays an important role in the induction of somatic embryos and that the cotyledon development in somatic embryos is also related to the polar transport of endogenous auxin. Received: 11 October 1996 / Revised version received: 8 January 1997 / Accepted: 26 January 1997     

The influence of the embryonic axis and cytokinins on reserve mobilization in germinating lupin seeds

The influence of the embryonic axis and cytokinins (CKs) onreserve mobilization has been examined in yellow lupin (Lupinusluteus L. cv. JSG 6167) seed during germination and during earlygrowth for up to 9 d in the dark. The study included determinationof starch, soluble sugars, proteins, and amino acid content.Amylolytic and proteolytic enzyme activity was also measuredin untreated cotyledons with intact embryo (attached) or detachedcotyledons (embryo removed), and in detached cotyledons followingtreatment with CKs namely, dihydrozeatin, (diH)Z, and 6-benzylaminopurine,BAP. Generally, the detached cotyledons showed reduced mobilizationand decreased enzymatic activity in comparison to attached cotyledons,indicating the importance of the embryonic axis in this process.However, a rise in protease activity and free amino acid contentwas detected in 9-d-old detached cotyledons suggesting thatthe end products do not necessarily inhibit enzyme activity.While (diH)Z was partially effective in inducing reserve mobilizationand enzymatic activity in detached cotyledons, the effect ofBAP was more pronounced and appeared to replace the embryonicaxis. The embryonic axis of this species has recently been shownto synthesize CKs which are transported to the cotyledons, arehighly stabe and induce cotyledon expansion and chlorophyllsynthesis. The results of the present investigation and previousstudies from this laboratory collectively indicate that theregulation of reserve mobilization in yellow lupin seeds appearsto be mediated, at least in part, by a stimulus, probably aCK, emanating from the embryonic axis. Key words: Lupinus luteus, cytokinins, benzylaminopurine, dihydrozeatin, embryonic axis, lupin seeds, reserve mobilization