Synthesis of Novel Plant Growth Inhibitors Structurally Related to Abscisic Acid

When paraffin wax is dispersed in medium as emulsion, some kinds of bacteria and yeasts readily grow on it. This paper presents a study on microbial cell production from solid paraffin. In this study a paraffin wax which contains 91% of normal paraffins ranging from C₂₅ to C₃₇ with the melting point of 62.5°C was used as a substate, but no solvent was used for the dispersion of the wax.

As a result of this study, the following have been found out. (1) Many strains of liquid normal paraffin assimilating bacteria and yeasts can assimilate paraffin wax. (2) Dried cell yields on added hydrocarbons of Corynebacterium hydrocarboclastus S-12-B2 and Candida tropicalis S-315-Y1 are 70% and 56% respectively, when they are cultured by wax emulsion of 0.6% concentration. (3) When nonion surface-active agent (Plysurf A210G) was added as an emulsifing agent, highly concentrated wax emulsion was obtained, but the growth of microorganisms on it was slower. Further investigation is needed to obtain better strains of bacteria and yeasts and also to find out optimum culture conditions.     

Syntheses and Biological Activities of Analogs of Abscisic Acid

Selenium dioxide oxidation of methyl α-ionylideneacetate (IIb) in ethanol afforded methyl 1′-and 4′-hydroxy-α-ionylideneacetate (IIIb and IV), methyl 3′-hydroxy-β-ionylideneacetate (V) and crude dihydroxy-ionylideneacetate (VI). The latter was oxidized with active manganese dioxide to give methyl abscisate (Ib). The growth and germination-inhibitory activity of compounds related to abscisic acid on Azuki bean seedlings and some species of seeds were examined.     

Syntheses of New Quarternary Ammonium Iodides as Plant Growth Retardants and Their Biological Activities

Twelve new quarternary ammonium compounds were synthesized and their plant growth retarding activities were examined. Among the candidates, N,N,N-trimethyl-l-methyl-3-(3′,3′5′-trimethylcyclohexyl)- and N,N,N-trimethyl-l-methyl-3-(3′,3′,5′,5′-tetramethylcyclohexyl)-2-propenylammonium iodides were the most effective to suppress the growth of rice and cucumber seedlings, and their activities were far stronger than those of any growth retardants hitherto known.     

Inhibitory Activities of 3-Thiophenecarboxylic Acid and Related Compounds on Plant Growth

3-Thiophenecarboxylic acid (1) showed strong growth-inhibitory activity toward the following plants but not Glycine max Merrill; Brassica campestris subsp. rapa Hook. fil. et Anders, Sesamum indicum L., Lactuca sativa L. var. longifolia Lam, Echinochloa utilis Ohwi et Yabuno and Allium tuberosum Rottler. Compound 1 strongly inhibited the growth of roots of S. indicum and L. sativa even at the low concentration of 5.0 × 10^?5 m. The growth-inhibitory activity of 1-related compounds (2–6) on S. indicum was also studied. Among the compounds, 3-thiopheneacetic acid (6) showed the strongest inhibitory activity, but 3-thiophenecarboxaldehyde (2), 3-thiophenemethanol (3), and 3-thiophenecarboxamide (5) showed no activity. The radicles of plants treated with these active compounds showed negative geotropism.     

Syntheses of Several Compounds Related to Helminthosporol and their Plant Growth-regulating Activities

Several compounds related to helminthosporol (I), a natural plant-growth promoter, were prepared from I and their plant-growth regulating activities were examined together with those of the derivatives reported in the previous paper, using rice and lettuce seedlings. Among the compounds tested, helminthosporic acid (III) exhibited marked elongation effect to the shoot growth of rice and lettuce seedlings, whereas the effect of I was specific to the former. Results of the biological test are reported in details.     

Inhibition of Abscisic Acid Biosynthesis in Cercospora rosicola by Inhibitors of Gibberellin Biosynthesis and Plant Growth Retardants

The fungus Cercospora rosicola produces abscisic acid (ABA) as a secondary metabolite. We developed a convenient system using this fungus to determine the effects of compounds on the biosynthesis of ABA. Inasmuch as ABA and the gibberellins (GAs) both arise via the isoprenoid pathway, it was of interest to determine if inhibitors of GA biosynthesis affect ABA biosynthesis. All five putative inhibitors of GA biosynthesis tested inhibited ABA biosynthesis. Several plant growth retardants with poorly understood actions in plants were also tested; of these, six inhibited ABA biosynthesis to varying degrees and two had no effect. Effects of plant growth retardants on various branches of the isoprenoid biosynthetic pathway may help to explain some of the diverse and unexpected results reported for these compounds. Knowledge that certain inhibitors of GA biosynthesis also have the ability to inhibit ABA biosynthesis in C. rosicola indicates the need for further studies in plants on the mode of action of these compounds.     

Syntheses and Biological Activities of 1-O-Glucopyranosyl Fatty Acid Esters

1-O-Palmitoyl-d-glucopyranose was prepared by the selective 1-O-acylation of 4,6-O-benzylideneglucose followed by hydrogenolysis of the protecting group. 1-O-Oleoyl-d-glucopyranose was synthesized from the corresponding benzylidene derivative by selective hydrolysis in acetic acid. This procedure constitutes a useful method for the synthesis of 1-O-acyl-d-glucopyranoses containing unsaturated carboxylic acids. However, 4,6-O-benzylidene-l-O-linolenoyl-d-glucopyranose was converted to 3-O-linolenoyl-d-glucopyranose by the acidic hydrolysis due to acyl migration.

Synthesized glucosyl esters were inactive in the bean second-internode bioassay. However, it was found that 3-O-linolenoyl-d-glucopyranose had a promoting activity on germination of pollen and growth of pollen tube.     

糖和脱落酸及乙烯互作及其与植物生长发育的关系

从分子角度介绍和讨论了植物(主要是拟南芥)生长发育过程中,植物糖信号的复杂信号网络和作用,特别是它与脱落酸和乙烯合成的关系.     

Synthesis of Oligosaccharides Structurally Related to Hyaluronic Acid Fragments

Russian Journal of Bioorganic Chemistry - Hyaluronic acid (HA) is a natural polysaccharide constructed from the alternating residues of β-D-glucuronic acid and N-acetyl-β-D-glucosamine....     

Isolation,Identification and Biological Activities of Growth Inhibitors in Peanut

Three acidic growth inhibitors were isolated from leaves of peanut and were identified as ferulic acid, p-cumaric acid and salicylic acid, respectively.     

Structure-Activity Correlations with Compounds Related to Abscisic Acid

Inhibition of cell expansion of excised embryonic axes of Phaseolus vulgaris was used to evaluate the growth-inhibiting activity of abscisic acid and related compounds. None of the 13 compounds tested was as active as abscisic acid. 4-Hydroxyisophorone, a substance representative of the abscisic acid ring system was essentially inactive; cis, trans-3-methylsorbic acid, a compound resembling the side chain of abscisic acid, had low activity; and cis, trans-beta-ionylideneacetic acid was one-sixth as active. Loss of the ring double bond results in a drastic decrease in biological activity. Comparison of our results with those reported previously leads to the suggestion that the double bond of the cyclohexyl moiety may have an important function in determining the degree of activity of cis, trans-ionylideneacetic acids. Two modes of action are discussed. It seems possible that the ring double bond is involved in covalent bonding in binding of the abscisic acid analogue to macromolecules. This may require formation of an intermediate epoxide. It can also be argued that stereochemical differences between cyclohexane derivatives are important factors in determining the degree of biological activity.     

Biological Activities of an Abscisic Acid Analog in Barley, Cress, and Rice

Biological activities of an abscisic acid (ABA) analog, RCA-7a[l-(3-carboxyl-5-methylphenyl)-l-hydroxy-2,6,6-trimethyl-4-oxo-2-cyclohexene],carrying a phenyl group in the side chain are reported. ( +)-RCA-7a was approximately 3-fold less active than ( + )-ABAin the inhibition of      

Inhibition of Hydrolytic Enzyme Activities and Plant Pathogen Growth by Invertase Inhibitors

The invertase inhibitory protein isolated from Cyphomandra betacea Sendt and Solanum tuberosum inhibited the invertase activity from different species, genera and even plant family. Furthermore, proteinaceous inhibitors are not invertase specific; fungal, bacterial and higher plant enzymes including polygalacturonase, pectinase, pectin lyase, α - l -arabinofuranosidase and β -glucosidase are also shown to be inhibited. Both inhibitors exhibited an in vitro antibacterial action against phytopathogenics strains of Xanthomonas campestris pvar vesicatoria CECT 792, Pseudomonas solanacearum CECT 125, Pseudomonas corrugata CECT 124, Pseudomonas syringae and Erwinia carotovora var carotovora.     

Syntheses and Biological Activities of Isonitrile Dipeptides

We investigated GroEL substrates from Bacillus subtilis 168 using the single-ring mutant of B. subtilis GroEL. We identified 28 candidates for GroEL substrates, of which Spo0B, Ald, Eno, SpoIIP, and FbaA were involved in spore formation, and Rnc, Tuf, Eno, Tsf, and FbaA were essential for B. subtilis growth. As observed at the protein level, the amount of SpoIIP interaction with GroEL increased at 3 h after initiation of sporulation.     

Syntheses and Biological Activities of Danicalipin A Derivatives

Synthesis of three derivatives of danicalipin A, tetrachloride, trisulfate and a fluorescent probe was achieved through Wittig reaction strategy. Toxicity of the derivatives against brine shrimp (Artemia salina) as also investigated to provide useful information for the biological activity; i) less chloride derivative showed similar toxicity to danicalipin A, ii) the amphiphilic property, a characteristic feature of danicalipin A, was crucial because trisulfate considerably decreased the toxicity and iii) fluorescent derivative kept brine shrimp toxicity of danicalipin A.     

The Biological and Structural Similarity between Lunularic Acid and Abscisic Acid

Lunularic acid (LA) inhibited not only the germination and the growth of cress and lettuce at 1 mM but also the gibberellic acid (GA₃)-induced α-amylase induction in embryoless barley seeds at 120 μM, which was recognized as a specific activity of abscisic acid (ABA). Moreover LA and ABA equally inhibited the growth of Lunularia cruciata A18 strain callus at 40 and 120 μM. A computational analysis revealed that the stable conformers of LA could be superimposed on the stable ABA conformers. In addition, the antibody raised against the conjugate of C₁-ABA-bovine serum albumin (ABA-BSA) reacted with LA-horse-radish peroxidase (LA-HRP) conjugate as well as ABA-HRP conjugate, apparently. These results can explain why LA has ABA-like activity in higher plants. Moreover the results suggest that LA and ABA bind to the same receptor in higher plants.     

脱落酸与植物细胞的抗氧化防护

水分胁迫是一种影响植物生长发育、限制植物产量的重要胁迫因子。植物能够通过感知刺激、产生和传导信号、启动各种防护机制来响应与适应水分胁迫。植物激素脱落酸(ABA)作为一种胁迫信号,在调节植物对水分胁迫的反应中起着重要的作用。ABA不仅能诱导气孔关闭,而且能诱导编码耐脱水蛋白的基因表达。正在增加的证据显示,ABA增强水分胁迫的耐性与其诱导抗氧化防护系统有关。本文综述了ABA在诱导活性氧(ROS)产生、调节抗氧化酶基因表达以及增强抗氧化防护系统方面的作用,着重讨论了在ABA诱导的抗氧化防护过程中Ca2 、NADPH氧化酶与ROS之间的交谈机制。     

脱落酸与植物细胞的抗氧化防护

水分胁迫是一种影响植物生长发育、限制植物产量的重要胁迫因子.植物能够通过感知刺激、产生和传导信号、启动各种防护机制来响应与适应水分胁迫.植物激素脱落酸(ABA)作为一种胁迫信号,在调节植物对水分胁迫的反应中起着重要的作用.ABA不仅能诱导气孔关闭,而且能诱导编码耐脱水蛋白的基因表达.正在增加的证据显示,ABA增强水分胁迫的耐性与其诱导抗氧化防护系统有关.本文综述了ABA在诱导活性氧(ROS)产生、调节抗氧化酶基因表达以及增强抗氧化防护系统方面的作用,着重讨论了在ABA诱导的抗氧化防护过程中Ca2 、NADPH氧化酶与ROS之间的交谈机制.