Differential biosynthesis and accumulation of picrosides in an endangered medicinal herb Picrorhiza kurroa

Picrorhiza kurroa Royle ex Benth (Family: Scrophulariaceae) is a medicinal herb, mainly found in the North-Western Himalayas. Extensive harvesting for pharmaceutical purposes, lack of organized cultivation and unorganized methods of uprooting the plants because of unawareness has brought an endangered status to this important herb in nature. The medicinal property of this plant is attributed to monoterpenoid picrosides. The influence of developmental status of different growth stages on picrosides content is poorly understood in Picrorhiza kurroa. Picroside-I (P-I) content increased from 0.05 % to 0.76 % in different growth stages of shoots. Significant increase in the contents of P-I (0.15–0.50 %) and Picroside-II (P-II) (0.1–0.45 %) was observed in rhizomes of different developmental stages. Highest amounts of P-I (8.7 %) and P-II (5.3 %) was detected in uppermost part of mature dried rhizomes compared to bottom part with 2.9 % and 2.2 % of P-I and P-II, respectively. P. kurroa grown at high altitude (Sairopa, 4,500 amsl) showed 1.75-folds increase in P-I in leaves whereas exponential increase in the P-I content was detected (0.05–1.7 %) in the leaves of different developmental stages (L1-L5) of P. kurroa grown at lower altitude (Jagatsukh, 1,900 m). Variable amounts of P-I and P-II in different growth and developmental stages of P. kurroa imply importance of selection of plant material (rhizomes and roots). The study undertaken explored the status of metabolites accumulation and biosynthesis in the field grown plants of P. kurroa where not only environmental parameters but different morphogenetic stages of its developmental cycles, different age groups and different parts of plantlets were extensively analysed and estimated for medicinally important picrosides.     

Modulation of Picroside-I Biosynthesis in Grown Elicited Shoots of <Emphasis Type="Italic">Picrorhiza kurroa</Emphasis> In Vitro

Elicitors are considered as biostimulants for growth improvement and enhancement of secondary metabolite content. To date, only seaweed extract (SWE) powder has been studied for its effect on picroside-I (P-I) production in in vitro grown Picrorhiza kurroa plants. However, little is known at the molecular level about P-I production in P. kurroa plants upon SWE treatment. Here, we investigated the relative effects of supplying different elicitors including methyl jasmonate (MeJa), sodium nitroprusside (SNP), and abscisic acid (ABA) with SWE on plant growth and P-I production in addition to their effects at the molecular level reflecting the metabolic status of P-I biosynthesis. Our results indicated that only SWE, ABA, and SNP stimulated P-I production by 2.60-, 2.01-, and 1.35-fold, respectively, whereas MeJa decreased P-I content. Interestingly, SWE modulated all four integrating secondary metabolic pathways, covering almost all critical steps in the methylerythritol phosphate (MEP), mevalonate (MVA), iridoid, and phenylpropanoid pathways to stimulate P-I biosynthesis. SNP targeted the MVA/MEP pathways in conjunction with the iridoid pathway, whereas ABA modulated the phenylpropanoid pathway to increase the P-I content in P. kurroa. This is apparently the first report on treatment of different elicitors in in vitro grown P. kurroa plants for eliciting P-I content and exploring the role of different elicitors at the molecular level.     

Isolation and HPLC assisted quantification of two iridoid glycoside compounds and molecular DNA fingerprinting in critically endangered medicinal Picrorhiza kurroa Royle ex Benth: implications for conservation

Picrorhiza kurroa is a medicinally important, high altitude perennial herb, endemic to the Himalayas. It possesses strong hepato-protective bioactivity that is contributed by two iridoid picroside compounds viz Picroside-I (P-I) and Picroside-II (P-II). Commercially, many P. kurroa based hepato-stimulatory Ayurvedic drug brands that use different proportions of P-I and P-II are available in the market. To identify genetically heterozygous and high yielding genotypes for multiplication, sustained use and conservation, it is essential to assess genetic and phytochemical diversity and understand the population structure of P. kurroa. In the present study, isolation and HPLC based quantification of picrosides P-I and P-II and molecular DNA fingerprinting using RAPD, AFLP and ISSR markers have been undertaken in 124 and 91 genotypes, respectively. The analyzed samples were collected from 10 natural P. kurroa Himalayan populations spread across four states (Jammu & Kashmir, Sikkim, Uttarakhand and Himachal Pradesh) of India. Genotypes used in this study covered around 1000 km geographical area of the total Indian Himalayan habitat range of P. kurroa. Significant quantitative variation ranging from 0.01 per cent to 4.15% for P-I, and from 0.01% to 3.18% in P-II picroside was observed in the analyzed samples. Three molecular DNA markers, RAPD (22 primers), ISSR (15 primers) and AFLP (07 primer combinations) also revealed a high level of genetic variation. The percentage polymorphism and effective number of alleles for RAPD, ISSR and AFLP analysis varied from 83.5%, 80.6% and 72.1%; 1.5722, 1.5787 and 1.5665, respectively. Further, the rate of gene flow (Nm) between populations was moderate for RAPD (0.8434), and AFLP (0.9882) and comparatively higher for ISSR (1.6093). Fst values were observed to be 0.56, 0.33, and 0.51 for RAPD, ISSR and AFLP markers, respectively. These values suggest that most of the observed genetic variation resided within populations. Neighbour joining (NJ), principal coordinate analysis (PCoA) and Bayesian based STRUCTURE grouped all the analyzed accessions into largely region-wise clusters and showed some inter-mixing between the populations, indicating the existence of distinct gene pools with limited gene flow/exchange. The present study has revealed a high level of genetic diversity in the analyzed populations. The analysis has resulted in identification of genetically diverse and high picrosides containing P. kurroa genotypes from Sainj, Dayara, Tungnath, Furkia, Parsuthach, Arampatri, Manvarsar, Kedarnath, Thangu and Temza in the Indian Himalayan region. The inferences generated in this study can be used to devise future resource management and conservation strategies in P. kurroa.Supplementary InformationThe online version contains supplementary material available at 10.1007/s12298-021-00972-w.     

Pharmacological properties and in vitro shoot production of Barleria argillicola – A critically endangered South African species

Barleria argillicola Oberm. is a critically endangered species, endemic to a small area in the KwaZulu-Natal Province, South Africa. Animals are known to forage on this plant species, suggesting its therapeutic or nutraceutical potential. This study investigated the antibacterial, acetylcholinesterase inhibition, antioxidant and phytochemical properties of this species with a view to exploring its medicinal potential. The possibility of in vitro propagation as a conservation strategy was also examined. Dichloromethane extract showed a good antibacterial activity (with minimum inhibitory concentration less than 1 mg/ml) against all the tested micro-organisms. Methanol extract exhibited a stronger antibacterial activity against the Gram-negative bacteria Escherichia coli and Pseudomonas aeruginosa than the Gram-positive bacterium Staphylococcus aureus. Extracts obtained from the aerial parts and roots demonstrated a dose-dependent acetylcholinesterase inhibition and antioxidant activities. Higher iridoid, flavonoid and condensed tannin contents were recorded in the aerial parts compared to the roots although the total phenolic content was higher in the roots. The highest in vitro shoot proliferation of 4.60 ± 0.51 and 4.0 ± 0.47 shoots per explant was achieved using shoot-tip and single nodal explants respectively, after four weeks of culture in Murashige and Skoog medium supplemented with 5 μM benzyladenine riboside (BAR). Further supplementation of the medium with naphthalene acetic acid (NAA) or indole butyric acid (IBA) concentrations did not significantly increase shoot proliferation.     

Isolation and partial characterization of chromoprotein from the larval hemolymph of the Japanese oak silkworm (Antheraea yamamai)

A total of two different hemolymph proteins (designated P-I and P-II) of the Japanese oak silkworm, Antheraea yamamai, were purified from the hemolymph of the fifth instar larvae using four chromatographic steps: (a) hydrophobic interaction chromatography; (b) ion exchange chromatography; (c) gel-filtration; and (d) reverse-phase high performance liquid chromatography (HPLC). These two proteins were separated by TSKgel Phenyl-5PW RP column chromatography. P-I has an apparent molecular weight of 31 000 or 35 000, as determined by gel-filtration and SDS-PAGE, respectively. P-II shows a molecular weight of 22 000 or 25 000, by gel-filtration and SDS-PAGE, respectively. The molecular weight of P-I and P-II were determined to be 31 076 and 21 500 by MALDI-TOF MS, respectively. These results suggest that both P-I and P-II are monomers. The N-terminal sequence analysis suggests that P-I is closely related to the ommochrome-binding protein (OBP) from the hemolymph of Manduca sexta, with 40% identity in the first 30 residues, while P-II is similar to the biliproteins (BPs) from other lepidopteran insects (50% identity). Spectroscopic analysis shows that the blue chromophore of A. yamamai BP is not biliverdin IX, which is present in the biliproteins of most insects.     

Identification of a peptide sequence involved in association of subunits of yeast hexokinases

The chemistry of the proteolytic conversion of the native yeast hexokinases P-I and P-II to the respective modified forms S-I and S-II was studied in detail. The conversion of P-I to S-I was found to involve the removal of one six and one five residue peptide from P-I; these peptides were isolated and sequenced, and a comparison with the partial sequence of native P-I demonstrated that they were cleaved from the amino terminal end. Since results indicated that exactly the same peptides were cleaved from P-II during conversion to S-II, it is concluded that the first 11 amino acids in P-I and P-II have the same sequence. That sequence is: val · his · leu · gly · pro · lys · lys · pro · gln · ala · arg The basicity of these peptides was reflected in the decrease in isolectric point observed when a P-form is converted to an S-form. The peptides are clearly involved in the association of the subunits of yeast hexokinase, since their removal greatly weakens the tendency of the subunits to dimerize.     

Involvement of root ABA and hydraulic conductivity in the control of water relations in wheat plants exposed to increased evaporative demand

We studied the possible involvement of ABA in the control of water relations under conditions of increased evaporative demand. Warming the air by 3°C increased stomatal conductance and raised transpiration rates of hydroponically grown Triticum durum plants while bringing about a temporary loss of relative water content (RWC) and immediate cessation of leaf extension. However, both RWC and extension growth recovered within 30 min although transpiration remained high. The restoration of leaf hydration and growth were enabled by increased root hydraulic conductivity after increasing the air temperature. The use of mercuric chloride (an inhibitor of water channels) to interfere with the rise on root hydraulic conductivity hindered the restoration of extension growth. Air warming increased ABA content in roots and decreased it in shoots. We propose this redistribution of ABA in favour of the roots which increased the root hydraulic conductivity sufficiently to permit rapid recovery of shoot hydration and leaf elongation rates without the involvement of stomatal closure. This proposal is based on known ability of ABA to increase hydraulic conductivity confirmed in these experiments by measuring the effect of exogenous ABA on osmotically driven flow of xylem sap from the roots. Accumulation of root ABA was mainly the outcome of increased export from the shoots. When phloem transport in air-warmed plants was inhibited by cooling the shoot base this prevented ABA enrichment of the roots and favoured an accumulation of ABA in the shoot. As a consequence, stomata closed.     

New approaches for shoot production and establishment of in vitro root cultures of Cleome rosea Vahl.

Alternative methods for in vitro shoot culture of Cleome rosea, a Brazilian herbaceous species with ornamental value and medicinal potential, were evaluated. A protocol for rapid in vitro multiplication of roots, a valuable source of medicinal compounds, was also developed. Stem explants were cultured in liquid media (continuous immersion and paper bridge), while root explants were cultivated in continuous immersion and on solidified media. The highest numbers of shoots, 20 ± 4.6 shoots/explant, were obtained from stem explants incubated in a continuous immersion system in a liquid medium supplemented with 2.2 μM BA. Root explants cultivated in liquid media produced only hyperhydrous adventitious shoots. However, these explants generated 5.8 ± 0.8 shoots/explant by indirect organogenesis when cultivated on solidified medium supplemented with 2.2 μM BA. In addition, root multiplication was achieved in liquid medium in the presence of α-naphthaleneacetic acid. Adventitious shoots developed on newly formed roots when inoculated on solidified medium supplemented with 2.2 μM BA. Shoot microcuttings developed roots when transferred onto solidified MS medium without growth regulators. Rooted microcuttings were efficiently acclimatized when transferred ex vitro.     

Effect of Whole Plant and Local Heating on the ABA Content in Cucumber Seedling Leaves and Roots and on Their Heat Tolerance

The effects of heating at 38°C of whole cucumber (Cucumis sativus L.) seedlings or local heating of their shoots and roots on ABA content and heat tolerance of leaves and roots were investigated. During the initial period of the high-temperature treatment of whole seedlings, the ABA concentration in leaves and roots increased considerably. Local heating of the shoot or root resulted in an increase in the ABA concentration not only in the heated organ, but also in unheated seedling parts. A high-temperature treatment of the whole seedlings and the local treatment of shoots or roots caused an increase in the heat tolerance of leaf cells. The heat tolerance of root cells virtually did not change after heating of the whole seedlings or shoots, but decreased after heating of roots. The possible role of ABA in changing the heat tolerance of leaf and root cells by local heating of the seedling is discussed.     

Identification of an ascorbate-dependent cytochrome<Emphasis Type="Italic"> b</Emphasis> of the tonoplast membrane sharing biochemical features with members of the cytochrome<Emphasis Type="Italic"> b</Emphasis>561 family

Two membrane-bound, ascorbate-dependent b-type cytochromes were identified in etiolated bean (Phaseolus vulgaris L.) hypocotyls. Following solubilization of microsomal membranes and anion-exchange chromatography at pH 8.0, two major cytochrome peaks (P-I and P-II) were separated. Both cytochromes were reduced by ascorbate and re-oxidized by monodehydroascorbate, but P-I reduction by ascorbate was higher and saturated at far lower concentrations of ascorbate with respect to P-II. The -band was symmetrically centered at 561 nm in P-I, but it was asymmetric in P-II with a maximum at 562 nm and shoulder at 557 nm. Ascorbate reduction of P-II, but not P-I, was inhibited by diethyl pyrocarbonate. Reduced P-II but not P-I was readily oxidized by certain ferric chelates, including FeEDTA and Fe-nitrilotriacetic acid. Purified P-I, associated with the plasma membrane, showed up as a 63-kDa glycosylated protein during sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS–PAGE) and behaved as a monomer of about 70 kDa during size-exclusion chromatography. P-I identified with a previously purified ascorbate-dependent b-type cytochrome of bean hypocotyl plasma membranes [P. Trost et al. (2000) Biochim Biophys Acta 1468:1–5]. Partially purified P-II, on the other hand, correlated with a heme-protein of 27 kDa in SDS–PAGE gels, was dimeric (60 kDa) during size-exclusion chromatography, and was associated with the tonoplast marker V-ATPase in sucrose gradients. The sequence of a peptide of 11 residues obtained by tryptic digestion of P-II was found to be identical to a segment of a putative cytochrome b561 of Zea mays and highly conserved in other related plant sequences, including that of Arabidopsis thaliana cytochrome b561-1 (CAA18169). The biochemical features fully support the assignment of P-II cytochrome to the family of cytochrome b561, ascorbate-dependent (CYBASC) cytochromes, which also includes cytochrome b561 of animal chromaffin granules. The presence of a cytochrome reducing ferric chelates on the tonoplast is consistent with the role of plant vacuoles in iron homeostasis.     

Shoot regeneration and determination of iridoid levels in the medicinal plant <Emphasis Type="Italic">Castilleja tenuiflora</Emphasis> Benth.

Castilleja tenuiflora is a medicinal plant that grows in pine–oak woods primarily in southern and central Mexico. It is highly valued for its medicinal properties, which have been attributed to aucubin-like iridoids. In the present study, we developed an efficient protocol for in vitro shoot proliferation and ex vitro rooting of C. tenuiflora. Using a colorimetric method, we determined total iridoid contents of various different tissues of propagated plants. The shoots were induced from nodal explants cultured on Murashige and Skoog (MS) (1962) medium supplemented with indole-3-butyric acid (IBA) (0 and 0.5 μM) and different concentrations of thidiazuron (TDZ), 6-benzyladenine (BA), or kinetin (KIN) (0–20 μM). Of the cytokinins tested, KIN was more effective for shoot induction than TDZ or BA, and the highest shoot proliferation rate was achieved with 5 μM KIN (4 shoots per explant). Plantlets were rooted on MS medium, nutrient solution, or potting mix, alone or in combination with auxins. The best responses (100% rooting efficiency) were obtained by dipping shoots in half-strength MS medium containing 7.5 μM IBA before transfer to potting mix. On average, each shoot formed 9 roots of 39.3 ± 3.8 mm in length after 21 days. These roots appeared to be more functional than those that developed in nutrient solution, and were associated with a high survival rate (95%) during acclimatization and cultivation in a greenhouse, where flowering occurred after 4 months. Propagated plants accumulated iridoids, thus representing a potential source of pharmacologically useful compounds.     

Hormones in the grains and roots in relation to post-anthesis development of inferior and superior spikelets in japonica/indica hybrid rice

Grain filling is usually not adequate in later-flowering inferior spikelets in japonica/indica (J/I) hybrid rice (Oryza sativa) although it shows stronger hybrid vigor than indica/indica (I/I) hybrid. This study investigated the potential causes by examining changes in zeatin (Z) + zeatin riboside (ZR), indole-3-acetic acid (IAA), gibberellins (GAs, GA₁ + GA₄), and abscisic acid (ABA) in spikelets and roots during the grain filling period. The inferior spikelets of J/I hybrid exhibited low rate of endosperm cell division and slow grain filling. During the early grain filing period, they had less Z + ZR, IAA, and ABA, but more GAs, than the earlier-flowering superior spikelets. If compared to the inferior spikelets of the I/I hybrid, the J/I inferior spikelets also had less Z + ZR, IAA, and ABA. Rates of endosperm cell division and grain filling were positively and significantly correlated with Z + ZR and ABA contents in both grains and roots or IAA in grains, whereas not significantly correlated with GAs either in grains or roots or IAA in roots. Applications of kinetin, IAA, or ABA to spikelets, or kinetin and ABA to roots, enhanced cell division and grain filling in the inferior spikelets. Results suggest that low contents of cytokinins and ABA in both grains and roots and low contents of IAA in grains may result in the poor filling of inferior spikelets in the J/I hybrid.     

Micropropagation of <Emphasis Type="Italic">Vitex agnus-castus</Emphasis>, (Verbenaceae)—a valuable medicinal plant

This study describes in vitro shoot induction and plant regeneration from a mature apical meristem and nodal explants of the endangered medicinal shrub Vitex agnus-castus. Multiple shoots were induced directly from the axis of nodal and apical meristem explants on Murashige and Skoog (MS) medium containing 3% sucrose and different concentrations (1.0, 1.5, 2.0, and 2.5 mg/l) of 6-benzyl aminopurine (BAP) in combination with Kinetin (Kin) and α-naphthalene acetic acid (NAA), both at 0.1 mg/l. BAP and Kinetin were used as supplements to MS basal medium, either individually or in combination with auxins. The optimal concentration of BAP for inducing bud break was found to be 2.0 mg/l when Kinetin was at 0.1 mg/l. Regeneration frequency was highest for both apical meristem and nodal explants (94.5% and 90.3%, respectively) when explants were cultured on MS medium supplemented with BAP (2.0 mg/l) and Kin (0.1 mg/l). A maximum of 7.7 ± 0.4 and 6.7 ± 0.2 shoots were obtained per explant for apical meristem and nodal explants, respectively. Regenerated shoots, transferred to MS medium supplemented with either 1.0 or 1.5 mg/l BAP combined with 0.1 mg/l GA₃, showed maximum elongation of 6.7 ± 0.4 and 6.0 ± 1.3 cm in apical meristem and nodal explants, respectively. In vitro regenerated shoots transferred to half-strength MS medium supplemented with 0.1 mg/l IBA induced 90.4% of the shoots to form roots after 30–35 d of culture. Up to 80% of the regenerated shoots were successfully established in soil in the greenhouse.     

Stomatal control in tomato with ABA-deficient roots: response of grafted plants to soil drying

The hypothesis that ABA produced by roots in drying soil is responsible for stomatal closure was tested with grafted plants constructed from the ABA-deficient tomato mutants, sitiens and flacca and their near-isogenic wild-type parent. Three types of experiments were conducted. In the first type, reciprocal grafts were made between the wild type and sitiens or flacca. Stomatal conductance accorded with the genotype of the shoot, not the root. Stomates closed in all of the grafted plants in response to soil drying, regardless of the root genotype, i.e. regardless of the ability of the roots to produce ABA. In the second type of experiment, wild-type shoots were grafted onto a split-root system consisting of one wild-type root grafted to one mutant (flacca or sitiens) root. Water was withheld from one root system, while the other was watered well so that the shoots did not experience any decline in water potential or loss of turgor. Stomates closed to a similar extent when water was withheld from the mutant roots or the wild-type roots. In the third type of experiment, grafted plants with wild-type shoots and either wild-type or sitiens roots were established in pots that could be placed inside a pressure chamber, and the pressure increased as the soil dried so that the shoots remained fully turgid throughout. Stomates closed as the soil dried, regardless of whether the roots were wild type or sitiens. These experiments demonstrate that stomatal closure in response to soil drying can occur in the absence of leaf water deficit, and does not require ABA production by roots. A chemical signal from roots leading to a change in apoplastic ABA levels in leaves may be responsible for the stomatal closure.     

A submerged culture system for rapid micropropagation of the commercially important aquarium plant, ‘Amazon sword’ (Echinodorus ‘Indian Red’)

Echinodorus ‘Indian Red’ is an underwater plant, used worldwide for aquarium ornamentation. An efficient method for in vitro propagation and plantlet acclimatization of this popular aquarium plant was standardized. Surface-disinfected shoot-tips were cultured in submerged conditions in a solid–liquid bilayer medium, consisting of an upper, liquid layer (sterile distilled water) and a lower, solid layer Murashige and Skoog (MS) basal medium supplemented with 3.0% (w/v) sucrose, 0.8% (w/v) agar-agar, and plant growth regulators (PGRs) in different combinations and concentrations. The combination of 2.5 mg L⁻¹ 6-benzylaminopurine and 1.0 mg L⁻¹ α-naphthaleneacetic acid improved the multiplication rate to a maximum of 26.8 ± 0.51 shoots per explant after 60 d of culture. The number of multiplied shoots increased with each regeneration cycle, thus from only 26.8 ± 0.51 shoots per explant (first regeneration cycle), this number increased to 33.5 ± 0.58 (second regeneration cycle), and to 38.3 ± 0.62 for the third regeneration cycle with the same medium composition. The highest number of roots (8.3 ± 0.28) per shoot was induced in the presence of 1.0 mg L⁻¹ indole-3-butyric acid, but further growth of these roots was stunted. The best rooting was achieved on PGR-free ½-strength MS medium, where 6.1 ± 0.21 roots per shoot were induced with 5.8 ± 0.35 cm length after 30 d of culture. The regenerated plantlets were successfully acclimatized to submerged underwater conditions, with 100% survival rate. The present protocol is suitable for the commercial propagation of Echinodorus ‘Indian Red’ for aquarium-industries.