Osmotic Adjustment and Osmotic Constituents in Roots of Mung Bean Seedlings

Osmotic adjustment in roots of mung bean seedlings (Vigna mungo(L.) Hepper) and the effect of cotyledon excision on the osmoticadjustment were investigated. The major osmotic constituentsin roots of intact seedlings were K⁺, Cl^–, free aminoacids and sugars (glucose, fructose and sucrose). All theseintracellular concentrations distinctly increased under osmoticstress and contributed to about 80% of the intracellular osmoticpressure of the root cell sap. Cotyledon excision remarkablysuppressed both the osmotic adjustment and the elongation inroots. However, the effect of cotyledon excision on intracellularK⁺ and Cl^– concentrations in roots was quite small. Twodifferent mechanisms are likely for the osmotic adjustment inroots. One is the K⁺ and Cl^–-dependent osmotic adjustmentwhich is cotyledon-independent, and the other is the osmoticadjustment dependent on the supply of free amino acids and sugarsfrom cotyledons. (Received September 20, 1986; Accepted January 14, 1987)     

Requirement of cotyledons for gibberellic acid-induced hypocotyl elongation in lettuce seedlings. Isolation of the cotyledon factor active in enhancing the effect of gibberellic acid

The role of cotyledons in hypocotyl elongation caused by gibberellicacid was studied using young seedlings of lettuce, Lactuca saliva,var. ‘Grand Rapids’. Removal of cotyledons fromintact seedlings resulted in a depression of hypocotyl elongationcaused by gibberellic acid. Gibberellic acid-induced hypocotylelongation in decotylized seedlings, was however, substantiallyenhanced by incubating the seedlings together with excised cotyledons.The exudate from excised cotyledons also enhanced the effectof gibberellic acid on hypocotyl elongation in decotylized seedlings.This active principle (named the cotyledon factor) in the cotyledonexudate was stable against heating at 100?C for 15 min, permeatedthe dialysis membrane, and was extractable with ethyl acetate.Biological activity of the cotyledon factor was not replacedby indole-3-acetic acid, kinetin, cyclic AMP, vitamins, sucroseor inorganic nutrients. The biological significance of the cotyledonfactor is discussed in relation to the action of gibberellicacid. (Received February 14, 1973; )     

Accumulation of a Glycoprotein That is Homologous to a Seed Storage Protein in Mung Bean Hypocotyls at the Late Stage of Tissue Elongation

Physiological changes were examined in the amount of a 50-kDaglycoprotein (gp50) that was recovered in a nuclear fractionfrom hypocotyls of mung bean (Vigna radiata) seedlings. Immunoblotanalysis indicated that the glycoprotein was present in hypocotylsand epicotyls from 4- and 5-day-old seedlings but not in hypocotylsfrom 2-day-old seedlings. The glycoprotein was not detectedin leaves or roots. When we divided hypocotyls of 3-day-oldseedlings into the elongating region (0 to 1.5 cm below thecotyledon) and the mature region, we found gp50 in the matureregion only. The results suggest that the 50-kDa glycoproteinis synthesized de novo and accumulates at the late stage duringelongation of cells in the hypocotyl. Furthermore, an antibodyspecific to gp50 reacted with a major 50-kDa protein in cotyledons,which is known as a storage protein in mung bean cotyledon.Eighteen amino acid residues among 22 amino-terminal residuesof gp50 were identical to those of the storage protein fromcotyledon. A peptide map of the glycoprotein after digestionwith V8 protease was similar to that of the storage protein.Overall, our findings suggest that the glycoprotein recoveredin the nuclear fraction is an isoform of the seed storage proteinthat is expressed only in the mature cells of hypocotyls andepicotyls. ⁴ Present address: Bioscience and Chemistry Division, HokkaidoNational Industrial Research Institute, Agency of IndustrialScience and Technology, Sapporo, 062 Japan     

Growth and osmoregulation in Pisum sativum subhooks as affected by gibberellic acid and cotyledon excision

Growth stimulation by gibberellic acid (GA) of the Alaska pea ( Pisum sativum L.) subhook was observed within 6 h after its application; the stimulation being larger in cuttings with cotyledons than in decotylized ones. The osmotic potential in the subhook increased as it grew, the rate of its increase being faster in cuttings without than in cuttings with cotyledons. GA had no effect on the change in the osmotic potential until 8 h after GA application, but afterwards it suppressed the increase in cuttings with cotyledons. This GA effect was not observed in decotylized cuttings. Changes in the osmotic potential were well correlated with changes in the concentration of soluble sugars, but not with changes in amino acids and K⁺, Soluble sugars accumulated in the subhook of cuttings with and without cotyledons in proportion to growth, irrespective of the presence or absence of GA. Cotyledon excision suppressed sugar accumulation, and GA promoted it in cuttings with cotyledons but not in decotylized ones. These results suggest that GA stimulates the translocation of sugars from the cotyledons to the subhook and, thereby, maintains the osmotic potential low, resulting in enhanced growth.     

Studies on energy status and mitochondrial respiration during growth and senescence of mung bean cotyledons

Several characteristics of mitochondrial respiration and energy status have been studied during growth and senescence of mung bean ( Phaseolus radiatus L.) cotyledons. The results showed that mitochondrial oxygen consumption, respiratory control, ADP:O ratios, and energy charge changed in the cotyledons during germination and growth of the seedlings. The respiration rate of intact cotyledons approximately reflected the trend of the oxidative activities of the isolated mitochondria. An increase was observed in both whole cotyledon respiration and mitochondrial oxygen uptake at the onset of senescence of mung bean cotyledons (day 3 after germination), which thereafter declined gradually. The capacity and activity of the alternative pathway increased markedly in mitochondria isolated from senescent cotyledons. After the onset of senescence, the mung bean cotyledon mitochondria exhibited a decrease both in the respiratory control ratios and ADP:O ratios, and the cotyledons exhibited a gradual decline in energy charge. All these results showed an irreversible deterioration of energy conservation in mung bean cotyledons. The role(s) of the alternative pathway in senescent mung bean cotyledons is discussed.     

Light-stimulated cotyledon expansion in the blu3 and hy4 mutants of Arabidopsis thaliana.

Cotyledon expansion in response to blue light was compared for wild-type Arabidopsis thaliana (L.) Heynh. and the mutants blu3 and hy4, which show reduced inhibition of hypocotyl growth in blue light. White, blue, and red light stimulated cotyledon expansion in both intact and excised cotyledons of wild-type seedlings (ecotypes No-0, WS, Co-0, La-er). Cotyledons on intact blu3 and hy4 seedlings did not grow as well as those on the wild type in response to blue light, but pretreatment of blu3 seedlings with low fluence rates of red light increased their responsiveness to blue light. Excision of cotyledons alleviated the mutant phenotype so that both mutant and wild-type cotyledons grew equally well in blue light. The loss of the mutant cotyledon phenotype upon excision indicates that the blu3 and hy4 lesions affect cotyledon expansion indirectly via a whole-plant response to light. Furthermore, the ability of excised, mutant cotyledons to grow normally in blue light shows that this growth response to blue light is mediated by a photosystem other than the ones impaired by the blu3 and hy4 lesions.     

Vigna Radiata Seed Germination under Salinity

Salinity reduced mung bean (Vigna radiata Wilczek) radicle and root elongation, delayed and inhibited hypocotyl elongation and mobilization of reserves from the cotyledons to the embryo axis. Fresh and dry masses and water content of the embryo axes were reduced. Under salinity, a net leakage of K to the media increased with time and increasing NaCl concentrations. Sugars present in the cotyledons of seeds were of primary importance for growth of the embryo axis upto 18 h after sowing whereas breakdown of starch by amylase contributed later, the contribution being delayed and reduced with increasing NaCl concentration. Even when amylase activity in the cotyledons was progressively reduced with increasing NaCl concentration, the increasing contents of soluble sugars in the cotyledons indicated that sugars were not limiting for mung bean seedling growth under salinity.     

Anthocyanin Synthesis in Seedlings of Vigna radiata (L.) Wilczek: Interaction between Hypocotyl and Cotyledons

During the development of mung bean seedlings, cotyledons graduallyacquired the capacity to synthesize anthocyanins after red lightirradiation. When isolated from 36 hr old seedlings, cotyledonsaccumulated anthocyanins with a time-course similar to the oneobserved with cotyledons of intact seedlings (Dumortier andVendrig 1982). In both cases, there were two periods of rapidpigment accumulation separated by a stagnation phase. Experimentsin which the hypocotyl hook or the cotyledons had been shieldedduring irradiation led to the conclusion that cotyledons containphotoreceptors for anthocyanin accumulation in the hypocotylhook (which also had to be irradiated). The reverse was alsotrue: irradiation of the hypocotyl hook influenced pigment accumulationin the cotyledons in a positive way. A hypothesis is presentedconcerning the level at which P_FR exerts its influence. (Received January 18, 1982; Accepted April 30, 1982)     

Culture of Cotyledon and Hypocotyl Protoplasts from True Potato Seedlings in Solanum tuberosum L.

Culture of protoplast using cotyledon and hypocotyl as the donor tissue from true potato seedlings (TPSs) of 3 breeding lines (DTO-33, ND 860-2 and BN 9815-3) of Solanum tuberosum L. was studied. The cotyledons and hypocotyls of TPSs just extended were excised and digested in an enzyme solution containing 1 % cellulase and 0. 5 % macerozyme for 17—20 h after vacuum infiltration of the tissue in the solution. The protoplasts were cultured in an improved liquid medium and transferred onto solid media for callus culture and shoot regeneration. Some factors affecting the efficiency of cotyledon and hypocotyl protoplast culture were studied. The results showed that using the cotyledons and hypocotyls as donor tissues for protoplast isolation and culture in potato, the division frequency of protoplast derived cells was significantly higher than that using the leaves and shoot-tips of the test-tube plantlets: the yield and quality of the protoplast from TPSs cultured under continuous high light intensity (3000 Ix) were much higher than the TPSs cultured under low light intensity (1000 Ix), and no intact protoplast was ever obtained from the TPSs cultured in continuous dark condition. Vacuum infiltration of the cotyledon and hypocotyl segments in enzyme solution before digestion increased protoplast yield. The yield of protoplasts from hypocotyl tissue was significantly higher than from the cotyledon, but there was no significant difference in quality between the protoplast derived from the two tissues. The significance, advantages and shortcomings of using the cotyledons and hypocotyls as the donor tissues for isolation and culture of potato protoplasts are dicussed.     

Amino Acid transport in germinating castor bean seedlings

During germination and early growth of the castor bean (Ricinus communis) nitrogenous constituents from the endosperm are transferred via the cotyledons to the growing embryo. Exudate collected from the cut hypocotyl of 4-day seedlings contained 120 millimolar soluble amino nitrogen and glutamine was the predominant amino acid present, comprising 35 to 40% of the total amino nitrogen. To determine the nature of nitrogen transfer, the endosperm and hypocotyl were removed and glutamine uptake by the excised cotyledons was investigated. Uptake was linear for at least 2 hours and the cotyledons actively accumulated glutamine against a concentration gradient. The uptake was sensitive to respiratory inhibitors and uncouplers and efflux of glutamine from the excised cotyledons was negligible. Transport was specific for the l-isomer. Other neutral amino acids were transported at similar rates to glutamine. Except for histidine, the acidic and basic amino acids were transported at lower rates than the neutral amino acids. For glutamine transport, the K(m) was 11 to 12 millimolar and the V(max) was 60 to 70 micromoles per gram fresh weight per hour. Glutamine uptake was diminished in the presence of other amino acids and the extent of inhibition was greatest for those amino acids which were themselves rapidly transported into the cotyledons. The transport of amino acids, on a per seedling basis, was greatest for cotyledons from 4-to 6-day seedlings, when transfer of nitrogen from the endosperm is also maximal. It is concluded that the castor bean cotyledons are highly active absorptive organs transporting both sucrose and amino acids from the surrounding endosperm at high rates.     

萌发绿豆子叶衰老期间蛋白质代谢的变化

萌发绿豆子叶自然衰老过程中可溶性蛋白质含量一直下降;从衰老开始到衰老前期,总游离氨基酸含量明显上升;但游离氨基酸各组分在子叶衰老期间的变化趋势并不相同。~3H-亮氨酸掺入蛋白质试验和多聚核糖体的相对量及其与总核糖体的比值(P/T)测定都证明在子叶衰老前期有蛋白质的新合成。子叶衰老期间。氨肽酶活性明显降低;而以酪蛋白为底物的蛋白水解酶活性却急剧上升,承担着催化蛋白质降解的主要功能。     

The Relationship Between the Activity of Cyanide-resistant Respiration and the Expression of Alternative Oxidase in Different Organs of Mung Bean Seedlings

Twelve peptides, including eight conservative amino acid residues in the amino acid sequence of hydrophilic S helix of the alternative oxidase (AOX), were synthesized by solid-phase method. The polypeptide was coupled to αchymotrypsinogen, and the antibodies against this complex were obtained in rabbit. By using these antibodies, which were raised to immunoreact with total proteins of purified mitochondria from different organs of mung bean (Phaseolous radiatus L.) seedlings, it was found that there were two hybridizable AOX fractions in the mitochondria of mung bean seedlings. Their molecular weight was about 35 kD and 38 kD, respectively. Moreover, among the respiratory parameters obtained in hypocotyl, true leaf and cotyledon of mung bean seedlings true leaf had the highest total respiration (Vt), alternative pathway (AP) capacity(Valt) and the activity of AP (ρValt). Hypocotyl Vt and ρValt were the lowest, but its Vt was higher than that of the cotyledon. The activities of total and cyanide-resistant respiration were consistant with the analysis of Western blotting of AOX expression. The highest Vt and ρValt in true leaf were accompanied by two hybridizable polypeptides of AOX protein. The next was cotyledon Vt and ρValt with only one 38 kD hybridizable polypeptide of AOX protein. Hypocotyl Vt and ρValt were the lowest and its immunobloting band was similar to that of the cotyledon, but the expression amount of 38 kD protein was less than that of the cotyledon. The 35 kD AOX may make the main contribution to the true leaf ρValt.     

The importance of root carbohydrate abundance in ammonium uptake

The influence of carbohydrates on ammonium uptake and ammonium transporter (AMT1) expression was investigated in roots of field pea (Pisum arvense) and rutabaga (Brassica napus var. rapifera). Ammonium transport into field pea seedlings diminished markedly following cotyledon removal, which indicated that uptake of ammonium was under control of reserves stored in the cotyledons. Excision of cotyledons decreased also the level of some amino acids, glucose and total reducing sugars in field pea roots. To investigate the importance of the sugar supply for the regulation of ammonium uptake at low external NH ₄ ⁺ level, 1 mM glucose or sucrose was supplied for several hours to the field pea seedlings deprived cotyledons or to intact rutabaga plants. Supply of both sugars resulted in a substantial increase in ammonium uptake by both plant species and enhanced markedly the expression of AMT1 in rutabaga roots. The results indicate that sugars may regulate ammonium transport at the genetic level.     

Comparative effects of gibberellic acid and N6-benzyladenine on dry matter partitioning and osmotic and water potentials in seedling organs of dwarf watermelon

Apical applications of 0.2 μg N⁶-benzyladenine (BA), a synthetic cytokinin, or 5 μg of gibberellic acid (GA₃) significantly enhanced hypocotyl elongation in intact dwarf watermelon seedlings over a 48-h period. Accompanying the increase in hypocotyl length was marked expansion of cotyledons in BA-treated seedlings and inhibition of root growth by both compounds. A study on dry matter partitioning indicated that both growth regulators caused a preferential accumulation of dry matter in hypocotyls at the expense of the roots; however, GA₃ elicited a more rapid and greater change than did BA. In comparison to untreated seedlings, BA decreased total translocation of metabolites out of the cotyledons. Water potentials of cotyledons and hypocotyls were determined by allowing organs to equilibrate for 2 h in serial concentrations of polyethylene glycol 4000. Osmotic potentials were determined by thermocouple psychrometry. During periods of rapid growth in cotyledons and hypocotyls of BA-treated seedlings and in hypocotyls of GA-treated seedlings, the osmotic potential increased and the turgor pressure decreased in relation to untreated seedlings, indicating that cell wall extensibility was being increased. Osmotic potentials were lower in hypocotyls of GA-treated than in those of BA-treated seedlings, even though growth rates were higher in GA-treated seedlings, indicating that the latter treatment was generating more osmotically active solutes in hypocotyls.     

萌发绿豆子叶衰老期间的呼吸作用与线粒体功能的改变

暗中培养的绿豆幼苗子叶在萌发后3—4天时,外观出现衰老征状,6天后子叶凋落。随子叶日龄的增加,子叶的呼吸强度一直下降,呼吸商始终小于1。当外加L—苹果酸、a—酮戊二酸、琥珀酸和NADH为底物测定离体线粒体氧化活性时,衰老子叶的线粒体对上述四种底物的氧化活性有不同程度的增加;抗氰呼吸也有所升高。子叶衰老时,线粒体的ADP／O和呼吸控制(RC值均降低);线粒体ATPase水解ATP的活性升高。衰老绿豆子叶线粒体氧化磷酸化偶联效率的降低和ATPase水解活性的增强是与线粒体结构改变相联系的一种功能变化,它导致能量亏缺,并进一步加速了衰老的恶化进程。     

Culture of isolated zygotic embryos of Pinus radiata D. Don. Part II: Biochemical changes associated with the conversion of isolated embryos

Summary Isolated zygotic embryos of Pinus radiata D. Don germinated and their cotyledons, hypocotyl and root grew and developed further on the optimized culture medium, named LPSH2 based on the accompanying paper. The resulting plantlets appeared normal, but were one-third the size of the natural seedlings grown on water-agar medium only. When the isolated embryos were cultured on water-agar medium, they grew little and more importantly root development did not occur. Studies on biochemical changes during germination and early seedling growth showed that the patterns of changes in soluble sugar and starch content were generally different between isolated embryos and seedlings. Early on during culture the cotyledons and hypocotyls of natural seedlings had higher levels of soluble sugars and starch than the counterparts of the isolated embryos grown on the LPSH2-medium. Conversely, the root of the isolated embryos contained more soluble sugars and starch than that of the seedlings throughout the 3 wk of culture. However, little difference was found between the isolated embryos and seedlings as far as total protein concentrations and their sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) protein profiles were concerned.     

Biochemical changes in the germinating seeds ofTrigonella foenum graecum L. in relation tos-triazine herbicides

Thes-triazine herbicides studied (atrazine and simazine) inhibited the growth of the seedlings ofTrigonella foenum graecum L.(Viciaceae). These herbicides caused a decrease in the contents of total water soluble carbohydrates and reducing sugars. Pentose sugars increased in the cotyledons. The total protein and free amino acid contents were enhanced. The activity of peroxidase was inhibited in the cotyledons, but was enhanced in the seedling axes.     

Influence of the axis on the enzymes of protein and amide metabolism in the cotyledons of mung bean seedlings

The growth of the mung bean (Vigna radiata) seedling is accompanied by the biosynthesis and accumulation of the endopeptidase vicilin peptidohydrolase and the catabolism of the reserve proteins in the cotyledons. If the axis is removed from the dry seeds and the cotyledons incubated on moist sand the accumulation of vicilin peptidohydrolase is reduced by 77% and the catabolism of reserve proteins slowed to 25% of the rate in intact seedlings. The cotyledons and the cotyledon exudate are rich in asparagine and this amino acid accounts for more than half of the reduced nitrogen exported from the cotyledons. Glutamine synthetase and asparagine synthetase, two key enzymes in the pathway of asparagine synthesis, are under temporal control in the cotyledons. Their activities increase 3.5- and 10-fold, respectively, then decline again. These increases in enzyme activity occur to the same extent in excised cotyledons and are prevented when the cotyledons are incubated in 5 micromolar cycloheximide. The results indicate that the axis may control certain key metabolic events in the cotyledons, such as the synthesis of vicilin peptidohydrolase, while many other anabolic activities may not depend on a growing axis.