Studies on plant growth-regulating substances: XXXII. Chlorosubstituted α-hydroxy-and α-methoxy-phenylacetic acids

The plant growth-regulating activities of all the mono- and di-chloro-substituted α-hydroxy-phenylacetic (mandelic) acids and their methoxy derivatives have been determined in the wheat coleoptile cylinder, pea segment and pea curvature tests. In general, chloro-substituted α-hydroxy acids were less active in all three tests than the corresponding α-methoxy acids. The α-methoxy compounds and the dichloromandelic acids were more active in pea than in wheat tissues. These results are discussed in relation to the plant growth-regulating activities of the corresponding phenylacetic and phenoxyacetic acids.     

Studies on plant growth-regulating substances XXV. The plant growth-regulating activity of cinnamic acids

Effects of ring substitution on the plant growth-regulating activities of trans- and cis-cinnamic acids have been investigated in the wheat cylinder, pea segment and pea curvature tests. Most of the cis- acids were shown to be active. Substitution of fluorine, chlorine or bromine into the ring of cis-cinnamic acid in most cases increased the activity. The results are discussed in relation to mode of action and chemical structure/biological activity relationships: 4-chlorobenzoic acid is shown to act as a competitive antagonist towards 4-chloro-cis-cinnamic acid.     

STUDIES ON PLANT GROWTH-REGULATING SUBSTANCES. XIII CHLORO- AND METHYL-SUBSTITUTED PHENOXYACETIC AND BENZOIC ACIDS

The physiological activity of complete series of mono- and di-substituted chloro-and methyl-phenoxyacetic and benzoic acids have been investigated using the wheat cylinder, pea segment and pea curvature tests. In the phenoxyacetic acids, high activity was associated with substitution in the 3-, 4-, 2:4-, 2:5- and 3:4-positions and in general, chlorine had a greater effect than methyl in conferring activity.
With the benzoic acids, 2:3-, 2:5- and 2:6-, disubstitution gave active compounds, the chloro-derivatives again being the more active. The 2:5-compound was the most active in the dichloro- series, all members of which were less active than the 2:3:6-trichloro- and 2:3:5:6-tetrachloro-acids. Benzoic acids substituted in the 4- position were either inactive or exhibited only weak growth-promoting activity.
The results are discussed in relation to recent theories which attempt to relate growth-promoting activity with the position of substituents in the aromatic ring.     

Studies on plant growth-regulating substances XXVI. Isatic and anthranilic acids

The plant growth-regulating activities of isatic acid and twenty-six of its derivatives, together with the twenty-seven corresponding anthranilic acids, have been assessed in the wheat cylinder, the pea segment and the pea curvature tests. Activity was sustained by substitution in the 4- and 5-positions of isatic acid but decreased by substitution in the 3- and 6-positions. In the anthranilic acid series, the parent acid was inactive but the introduction of a large grouping (bromine or iodine) into the 5-position conferred activity. The 3,6- and 5,6-dichloro and the 3,6-dibromo acids were also active; compounds substituted in the 4-position to the carboxyl group or disubstituted in the 3,5-positions, were, as expected, inactive. In metabolism experiments on wheat and pea tissues with isatic and 5-chloroisatic acids the corresponding anthranilic acid was formed, together with an unidentified non-acidic metabolite in each case. There was no evidence that the growth regulating activity of isatic acids was related to this breakdown and it is concluded that the acids possess activity per se. The results are briefly discussed in terms of recent theories relating chemical structure to plant growth-regulating activity.     

STUDIES ON PLANT GROWTH-REGULATING SUBSTANCES XI. AUXIN ANTAGONISM IN RELATION TO A THEORY ON MODE OF ACTION OF ARYL- AND ARYLOXY-ALKANECARBOXYLIC ACIDS

A study has been made of the antagonistic effects of a range of phenoxy and other acids on the growth-promoting activity of a number of auxins as assessed by the Avena cylinder and pea curvature tests. The compounds examined as inhibitors were selected on a logical basis, these molecules not possessing the structural requirements considered necessary for growth-regulating activity, yet possessing groupings which might allow them to accumulate at a site of action from which the growth response by auxins might be initiated. Our previous demonstrations that inactive stereoisomers of x-aryloxy propionic acids can competitively inhibit the activity of their active enantiomorph has been confirmed and a similar antagonism has been found to operate with other inactive aryloxy acids. Such competitive antagonism is discussed in relation to a 'three-point' contact theory on mode of action.     

Effects of 3,4-dihydroxybenzoic acid on tobacco (Nicotiana tabacum L.) cultured in vitro. Growth regulation in callus and organ cultures

ABSTRACT

The influence of 3,4-dihydroxybenzoic acid (protocatechuic acid), a naturally occurring benzoic acid derivative, on tobacco (Nicotiana tabacum L.) cell and tissue cultures was examined. The response to 0.1, 10 and 1000 µM 3,4-dihydroxybenzoic acid was tested with regards to cell proliferation in leaf explants, callus growth and shoot formation. Effects on shoot and root growth in micropropagated plants were also analysed. The highest concentration of 3,4-dihydroxybenzoic acid strongly inhibited the proliferation of leaf tissues, callus growth, shoot regeneration and root growth in micropropagated plants. On the contrary, the lowest concentration (0.1 µM) showed auxin-like activity by stimulating cell dedifferentiation, callus induction and rooting of leaf tissues. The presence of auxins and cytokinins in the media contrasted 3,4-dihydroxybenzoic acid inhibition of callus growth at all tested concentrations.     

STUDIES ON PLANT GROWTH-REGULATING SUBSTANCES: CHLORO-SUBSTITUTED PHENYLACETIC ACIDS

The plant growth-regulating activity of all the mono- and di- chloro-substituted phenylacetic acids, together with the 2:3:6-trichloro- derivative, has been determined in the wheat cylinder, pea segment and pea curvature tests. Each of these compounds showed activity, the 2:3-dichloro- and the 2:3:6-trichloro- derivatives being extremely active. The 3:5-dichloro- acid was inactive in the wheat test but showed moderate activity in the pea tests.
All these findings are discussed in relation to the plant growth-regulating activity of corresponding benzoic and phenoxyacetic acids.     

Local regulation of auxin transport in root-apex transition zone mediates aluminium-induced Arabidopsis root-growth inhibition

Aluminium (Al) stress is a major limiting factor for worldwide crop production in acid soils. In Arabidopsis thaliana, the TAA1-dependent local auxin biosynthesis in the root-apex transition zone (TZ), the major perception site for Al toxicity, is crucial for the Al-induced root-growth inhibition, while the mechanism underlying Al-regulated auxin accumulation in the TZ is not fully understood. In the present study, the role of auxin transport in Al-induced local auxin accumulation in the TZ and root-growth inhibition was investigated. Our results showed that PIN-FORMED (PIN) proteins such as PIN1, PIN3, PIN4 and PIN7 and AUX1/LAX proteins such as AUX1, LAX1 and LAX2 were all ectopically up-regulated in the root-apex TZ in response to Al stress and coordinately regulated local auxin accumulation in the TZ and root-growth inhibition. The ectopic up-regulation of PIN1 in the TZ under Al stress was regulated by both ethylene and auxin, with auxin signalling acting downstream of ethylene. Al-induced PIN1 up-regulation and auxin accumulation in the root-apex TZ was also regulated by the calossin-like protein BIG. Together, our results provide insight into how Al stress induces local auxin accumulation in the TZ and root-growth inhibition through the local regulation of auxin transport.     

Studies on plant growth-regulating substances. XL. 2-Chloro-3-phenylpropionitriles

The complete series of chloro-, dichloro-, methyl-, dimethyl- and chloro-methyl-ring substituted 2-chloro-3-phenylpropionitriles and several related compounds have been prepared. Their auxin activities have been assessed in the wheat coleoptile, pea segment and pea curvature tests, and the results, which are discussed in relation to molecular structure, support the suggestion by other workers that the observed activity is due to rapid uptake of the nitriles by the plant tissues, followed by metabolism to the corresponding phenylacetic acid. The high growth promoting activity of 2-chloro-3-(3-chloro-2-methyl-phenyl)propionitrile (orthonil) is confirmed but 2-chloro-3-(2,3-dichloro-phenyl)propionitrile and 2-chloro-3-(2,3-dichlorophenyl)butyronitrile are shown to be the most active members of the series.     

Storage of Osmotically Active Compounds in the Taproot of Daucus carota L.

The osmotic potential of cell sap from the storage root, lateralroots and shoots of carrot (Daucus carota L., cv. AmsterdamseBak) was calculated from the concentration of osmotically activecompounds in these tissues. The osmotic potential of the taprootdid not change with age prior to and during the storage of osmoticallyactive sugars, as sucrose and reducing sugars. The increased contribution of soluble sugars in the osmoticpotential was accompanied by a proportionally decreased contributionof potassium and organic acids. Before storage of soluble sugarsin the taproot occurred, potassium and organic acids contributed80% to the total osmotic value, in contrast with lateral roottissue, where potassium and nitrate were the main osmotic solutes.The concentration of osmotically active solutes was lower inlateral root tissue than in storage root tissue. Shoot tissueresembled taproot tissue before storage, in having potassiumand organic acids as the main osmotic solutes. The concentrationof osmotically active solutes was highest in shoot tissue andit increased towards the end of the experimental period. The calculated osmotic potentials were in good agreement withthe experimental values, as determined from the molecular depressionof the freezing point of cell sap. Storage of reducing sugarsand sucrose is discussed in relation to acid and neutral invertaseactivities. Key words: Daucus carota, Osmotic solutes, Sugar storage, Invertase activity     

NAD- and NADP-Linked Glyceraldehyde-3-Phosphate Dehydrogenases in Light- and Dark-Germinated Seeds of Scots Pine (Pinus silvestris)

By means of arsenate in optical tests the occurrence of both NAD- and NADP-linked glyceraldehyde-3-phosphate dehydrogenase activity has been found in embryo and endosperm tissues from Scots pine seeds. By exclusion of arsenate also evidences for the activity of a non-phosphorylating NADP-linked form have been demonstrated. The results are sustained by inhibition experiments. The enzyme activities have been followed principally during the first 24 hours of the germination process and in relation to the germination-controlling light factor. Homogenates from complete seeds and partly also from separated embryo and endosperm tissues have been studied. The predominant activity in both of the tissues was linked to the NAD-form, expressed either on seed (part) or protein basis. No indications for a light-regulation of anyone of these enzymes have been found contrary to findings from other plant materials.     

Structure–activity relationships of lanostane-type triterpenoids from Ganoderma lingzhi as α-glucosidase inhibitors

A series of lanostane-type triterpenoids, identified as ganoderma alcohols and ganoderma acids, were isolated from the fruiting body of Ganoderma lingzhi. Some of these compounds were confirmed as active inhibitors of the in vitro human recombinant aldose reductase. This paper aims to explain the structural requirement for α-glucosidase inhibition. Our structure–activity studies of ganoderma alcohols showed that the OH substituent at C-3 and the double-bond moiety at C-24 and C-25 are necessary to increase α-glucosidase inhibitory activity. The structure–activity relationships of ganoderma acids revealed that the OH substituent at C-11 is an important feature and that the carboxylic group in the side chain is essential for the recognition of α-glucosidase inhibitory activity. Moreover, the double-bond moiety at C-20 and C-22 in the side chain and the OH substituent at C-3 of ganoderma acids improve α-glucosidase inhibitory activity.These results provide an approach with which to consider the structural requirements of lanostane-type triterpenoids from G. lingzhi. An understanding of these requirements is considered necessary in order to improve a new type of α-glucosidase inhibitor.     

Antibacterial Activity of Long Chain Fatty Acids and the Reversal with Calcium, Magnesium, Ergocalciferol and Cholesterol

SUMMARY: Screening tests indicated that Gram positive bacteria are inhibited by long chain fatty acids. No inhibition was demonstrated with Gram negative bacteria. The minimum inhibitory concentrations (MIC) for a series of the fatty acids are presented. Growth curves in the presence of linolenic acid showed increases in lag phase duration and calcium addition reversed this effect, thus indicating the arbitrary nature of the MIC values. Bactericidal studies showed lauric acid to be the most active saturated fatty acid but the activity was less than that of the C₁₈ unsaturated fatty acids. Oleic acid was more effective than elaidic acid. Calcium ions, cholesterol and ergocalciferol reversed the activities of lauric and linoleic acids but magnesium ions effectively counteracted lauric acid only. A physicochemical explanation for the relative activities has been attempted.     

Substrate selectivity of bacterial monoacylglycerol lipase based on crystal structure

Lipases, which are conserved from bacteria to mammals, catalyze the hydrolysis of acylglycerol to free fatty acids and glycerol. Monoacylglycerol lipase (MGL) specifically catalyzes the hydrolysis of monoacylglycerol. Although there have been numerous studies of the structure of lipases, there have been few studies of MGL. Here, we report the crystal structure of authentic MGL isolated from Bacillus sp. H257 (bMGL). The crystal diffracts to 1.96 Å resolution. It belongs to space group P2₁2₁2, and the unit cell parameters are a = 99.7 Å, b = 106.1 Å and c = 43.0 Å. As in other lipases, three structural features for lipase activity are conserved in bMGL: the glycine-X-serine-X-glycine motif, catalytic triad and cap region. The structure of bMGL appears to be closed, as the cap region covers the active site entrance. The isolated bMGL hydrolyzed 2-AG, a known human MGL-specific substrate. Based on a 2-AG bound model, we discuss the substrate selectivity. The functional and structural features of bMGL provide insight how its substrate selectivity is determined and how specific inhibitors of bacterial MGL could be designed, which may be useful for development of novel antibiotics.     

Altitudinal Variations of Ground Tissue and Xylem Tissue in Terminal Shoot of Woody Species: Implications for Treeline Formation

1. The terminal shoot (or current-year shoot), as one of the most active parts on a woody plant, is a basic unit determining plant height and is potentially influenced by a variety of environmental factors. It has been predicted that tissues amount and their allocation in plant stems may play a critical role in determining plant size in alpine regions. The primary structure in terminal shoots is a key to our understanding treeline formation. The existing theories on treeline formation, however, are still largely lacking of evidence at the species level, much less from anatomy for the terminal shoot.2. The primary structures within terminal shoot were measured quantitatively for 100 species from four elevation zones along the eastern slope of Gongga Mountain, southwestern China; one group was sampled from above the treeline. An allometric approach was employed to examine scaling relationships interspecifically, and a principal components analysis (PCA) was performed to test the relation among primary xylem, ground tissue, species growth form and altitude.3. The results showed that xylem tissue size was closely correlated with ground tissue size isometrically across species, while undergoing significant y- or/and x-intercept shift in response to altitudinal belts. Further, a conspicuous characteristic of terminal shoot was its allocation of contrasting tissues between primary xylem and ground tissues with increasing elevation. The result of the PCA showed correlations between anatomical variation, species growth form/height classes and environment.4. The current study presents a comparative assessment of the allocation of tissue in terminal shoot across phylogenically and ecologically diverse species, and analyzes tissue, function and climate associations with plant growth forms and height classes among species. The interspecific connection between primary xylem ratio and plant size along an elevation gradient suggests the importance of primary xylem in explaining the treeline formation.     

Bile acid derivatives of 5-amino-1,3,4-thiadiazole-2-sulfonamide as new carbonic anhydrase inhibitors: synthesis and investigation of inhibition effects

Bile acid amides (cholan-24-amides) of 5-substituted 1,3,4-thiadiazole-2-sulfonamide have been prepared from lithocholic, deoxycholic, cholic and dehydrocholic acids. Besides, the alcohol functional groups on the cholane ring systems were protected with acetyl group. Amides of the protected cholanes of lithocholic and cholic acids were also synthesized. Later, inhibition effects of these compounds on human carbonic anhydrase isozymes (HCA-I and II) have been investigated in vitro. For the most active compounds, inhibition constants ranged from 66 to 190nM for HCA-II with I(50) (molarity of inhibitor producing a 50% inhibition of CA activity). In addition, in vivo studies were performed for the synthesized compounds in Sprague-Dawley rats. The compounds (11 and 18) showed especially significant inhibition efficacy (p<0.001).     

An Improved Method for Determining Lipolytic Acyl-hydrolase Activity

The effects of 2-phthalimidooxyalkanoic acid derivatives on the germination and root-growth of cress were examined. Since 2-phthalimidooxypropionates were most effective, the optically active ethyl esters were prepared. As the result of biological testing, the (S)-(-)-isomer exhibited stronger activity than the (R)-(+)-isomer. This result is contrary to those from commercial herbicides with similar structures, phenoxy- and oxyphenoxy-propionate-type compounds, where the (R)-isomers are generally known to be the active principles.     

STUDIES ON PLANT GROWTH-REGULATING SUBSTANCES

A study has been made of the growth-regulating activity of a number of phenoxy acids possessing halogen or methyl substituents in the 2:6- or 33- positions of the nucleus. The pea curvature, Avena cylinder elongation and tomato-leaf epinasty tests have been used for assessing biological activity. The results show that in general 3:s- is more closely associated with inactivity than 2:6- substitution. The introduction of a further halogen atom into the 4- position does not enhance activity in the 2:6- compounds but does so in the 3:s- derivatives. Although the 2:4:6-trichloro- and 2:4:6-tribromo-phenoxyacetic acids are almost inactive, a:4-dichloro-6-fluoro- and 2:4-dibromo-6-fluoro- phenoxyacetic acids are very highly active. When a methyl group is substituted into the side-chain of certain phenoxyacetic acids possessing 2:6- substituents, growth-promoting activity is increased. Some of these findings conflict with recent theories on mode of action of phenoxy acids which are discussed in relation to the present work.     

Nonanoic acid, other alkanoic acids, and related compounds as antifeedants in Hylobius abietis pine weevils

A medium‐length, straight‐chain alkanoic acid, nonanoic acid, is known from laboratory microassays to be an antifeedant in adults of the large pine weevil, Hylobius abietis (L.) (Coleoptera: Curculionidae). Our hypothesis was that we could find new, less volatile alkanoic acids or related compounds suitable for field application and with improved long‐term duration. Alkanoic acids of varying chain lengths (C6–C13) were tested for antifeedant activity in H. abietis adults. Microassay choice tests showed that straight‐chain (C6–C11) alkanoic acids were active. However, high activities were restricted to the (C6–C10) acids, with the C9 (nonanoic acid) at 4 µmol cm^?2 being the most active one. In a no‐choice test on pine twigs, the antifeedant effect of C10 acid was lower than that of the C8 and C9 acids. In microassays, less volatile methyl‐branched alkanoic acids exhibited lower antifeedant activities than did the corresponding straight‐chain ones. However, the most active of the methyl‐branched acids, 2‐methyldecanoic acid, had an activity similar to that of nonanoic acid. Compounds related to nonanoic acid were either active (1‐nonanol), weakly active (nonanoic anhydride), or inactive (nonanal, sodium nonanoate). The anhydride was highly active in the microassay, but less active on twigs. The antifeedant effects of the straight chain (C8–C10) alkanoic acids against pine weevil feeding were tested in the field. In contrast to the results from the twig tests, the less volatile C10 acid was more active in the field for the protection of transplants on fresh clear cuts over a 3‐month period than both the C8 and C9 acids. Phytotoxic effects of the alkanoic acids were observed both in the field and in laboratory studies. If a protective layer of paraffin was applied to the stem prior to application of the alkanoic acids, these undesired side effects were reduced.