Response of Pteris vittata to different cadmium treatments

Pteris vittata is known as an arsenic hyperaccumulator, but there is little information about its tolerance to cadmium and on its ability to accumulate this heavy metal. Our aim was to analyse the accumulation capacity, oxidative stress and antioxidant response of this fern after cadmium treatments. Cadmium content, main markers of oxidative stress and antioxidant response were detected in leaves of plants grown in hydroponics for both short- (5 days) and long- (15 days) term exposure to 0 (control) 60 and 100 μM CdCl₂. In leaves, the concentration of cadmium and oxidative stress were parallel with the increase of cadmium exposure. In the short-term exposure, antioxidant response was sufficient to contrast cadmium phytotoxicity only in 60 μM cadmium-treated plants. In the long-term exposure all treated plants, in spite of the increase in activity of some peroxide-scavenging enzymes, showed a significant increase in oxidative damage. As in the long-term stress markers were comparable in all treated plants, with no clear correlation with hydrogen peroxide content, at least part of cadmium-induced oxidative injury seems not mediated by H₂O₂. Based on our studies, P. vittata, able to uptake relatively high concentrations of cadmium, is only partially tolerant to this heavy metal.     

Cadmium uptake,localization and stress-induced morphogenic response in the fern Pteris vittata

Cadmium uptake, tissue localization and structural changes induced at cellular level are essential to understand Cd tolerance in plants. In this study we have exposed plants of Pteris vittata to different concentrations of CdCl₂ (0, 30, 60, 100 μM) to evaluate the tolerance of the fern to cadmium. Cadmium content determination and its histochemical localization showed that P. vittata not only takes up, but also transports and accumulates cadmium in the aboveground tissues, delocalizing it mainly in the less bioactive tissues of the frond, the trichomes and the scales. Cadmium tolerance in P. vittata was strictly related to morphogenic response induced by the metal itself in the root system. Adaptive response regarded changes of the root apex size, the developmental pattern of root hairs, the differentiation of xylem elements and endodermal suberin lamellae. All the considered parameters suggest that, in our experimental conditions, 60 μM of Cd may represent the highest concentration that P. vittata can tolerate; indeed this Cd level even improves the absorbance features of the root and allows good transport and accumulation of the metal in the fronds. The results of this study can provide useful information for phytoremediation strategies of soils contaminated by Cd, exploiting the established ability of P. vittata to transport, delocalize in the aboveground biomass and accumulate polluting metals.     

Naringin abates adverse effects of cadmium‐mediated hepatotoxicity: An experimental study using HepG2 cells

This study investigated the protective potential of Naringin (NIN) against cadmium chloride (CdCl₂) mediated hepatotoxicity using human hepatocellular carcinoma (HepG2) cells. An optimal concentration of NIN (5 μM) was potent enough to confer cytoprotection against CdCl₂ (50 μM) as was observed by MTT assay. Preconditioning with NIN maintained redox homeostasis, mitochondrial membrane potential, and reduced apoptosis as marked by decrease in the percentage sub‐G₀/G₁ and Annexin V‐FITC/propidium iodide positive cells (apoptotic). NIN pretreatment maintained the levels of protein thiol along with endogenous activities of Superoxide dismutase, Glutathione S‐transferase, and Catalase and lowered lipid peroxidation. Decreased Bax/Bcl2 ratio along with reduced Caspase 3 cleavage and Cytochrome c release indicated that NIN conditioning blocked mitochondrial‐mediated apoptosis. Increased Nrf2 and metallothionein (MT) acted as adaptive response in the presence of cadmium. Thus, the protective mechanism of NIN is attributed to its antioxidant potential which aids in redox homeostasis and prevents CdCl₂ mediated cytotoxicity.     

Cadmium Alters the Concentration of Fatty Acids in THP-1 Macrophages

Fatty acid composition of human immune cells influences their function. The aim of this study was to evaluate the effects of known toxicant and immunomodulator, cadmium, at low concentrations on levels of selected fatty acids (FAs) in THP-1 macrophages. The differentiation of THP-1 monocytes into macrophages was achieved by administration of phorbol myristate acetate. Macrophages were incubated with various cadmium chloride (CdCl₂) solutions for 48 h at final concentrations of 5 nM, 20 nM, 200 nM, and 2 μM CdCl₂. Fatty acids were extracted from samples according to the Folch method. The fatty acid levels were determined using gas chromatography. The following fatty acids were analyzed: long-chain saturated fatty acids (SFAs) palmitic acid and stearic acid, very long-chain saturated fatty acid (VLSFA) arachidic acid, monounsaturated fatty acids (MUFAs) palmitoleic acid, oleic acid and vaccenic acid, and n-6 polyunsaturated fatty acids (PUFAs) linoleic acid and arachidonic acid. Treatment of macrophages with very low concentrations of cadmium (5–200 nM) resulted in significant reduction in the levels of arachidic, palmitoleic, oleic, vaccenic, and linoleic acids and significant increase in arachidonic acid levels (following exposure to 5 nM Cd), without significant reduction of palmitic and stearic acid levels. Treatment of macrophages with the highest tested cadmium concentration (2 μM) produced significant reduction in the levels of all examined FAs: SFAs, VLSFA, MUFAs, and PUFAs. In conclusion, cadmium at tested concentrations caused significant alterations in THP-1 macrophage fatty acid levels, disrupting their composition, which might dysregulate fatty acid/lipid metabolism thus affecting macrophage behavior and inflammatory state.     

NF-κB Pathway Contributes to Cadmium-Induced Apoptosis of Porcine Granulosa Cells

To better understand the mechanism of cadmium (Cd)-induced apoptosis of porcine granulosa cells, we examined the nuclear factor-kappa B (NF-κB) p65 subunits intracellular translocation and the expression of some downstream apoptotic-related genes. Apoptosis and reactive oxygen species (ROS) production in porcine granulosa cells exposed to cadmium chloride (CdCl₂) were determined by acridine orange/ethidium bromide double staining and 2,7-dichlorodihydro-fluorescein-diacetate oxidation staining, respectively. The results showed that the apoptosis of porcine granulosa cells induced by CdCl₂ significantly increased in a time- and dose-dependent manner along with the increasing of ROS production, and 10 μM parthenolide, an inhibitor NF-κB, can accelerate the process of apoptosis. Moreover, immunofluorescence and western blot results showed that CdCl₂ could stimulate the translocation of p65 into nucleus in porcine granulosa cells. Furthermore, CdCl₂ also significantly stimulate the expression of Bcl-2 proteins in porcine granulosa cells than that in the control. In contrast, we did not find any change of Bax expression in granulosa cells upon exposure of cadmium. Taken together, these results demonstrate that the activation of NF-κB pathway may play a crucial role in cadmium-induced apoptosis of porcine granulosa cells.     

Toxicity of Chemically Spiked Sediment to the Carpet Shell Clam Ruditapes decussatus Embryos and Larvae

The objective of this research was to assess the toxicity of sediment contaminated with cadmium, DDT, chlorpyrifos, and fluoranthene to embryos and larvae of the European clam Ruditapes decussatus, exposed to two sediment fractions, the whole sediment and elutriate. The percentages of abnormal D-shaped larvae and larval mortality have been investigated. The median effective concentration (EC50) values, reducing 50% of the percentage of D-shaped larvae, in whole sediments and elutriates were, respectively, 1.17 mg/kg and 417.1 μgl^?1 (3.71 μM) for cadmium, 1.66 mg/kg and 97.8 μgl^?1 (0.48 μM) for fluoranthene, 1.71 mg/kg and 384.8 μgl^?1 (1.08 μM) for DDT, and 0.96 mg/kg and 339.5 μgl^?1 (0.96 μM) for chlorpyrifos. The 96h-median lethal concentrations (LC50) reducing larval survival by 50% were 4.04 mg/kg 654.3 μgl^?1 (5.82 μM) for cadmium, 17.41 mg/kg 8666.6 μgl^?1 (42.84 μM) for fluoranthene, 3.93 mg/kg and 457.4 μgl^?1 (1.29 μM) for DDT, and 2.53 mg/kg and 308.06 μgl^?1 (0.87 μM) for chlorpyrifos. Based on EC₅₀ and LC₅₀ comparisons to toxicity data for other marine species, these findings suggest that the R. decussatus embryotoxicity and larvae mortality bioassay were among the most sensitive tools for sediment quality assessment.     

Pl-nectin,a discoidin family member,is a ligand for βC integrins in the sea urchin embryo

Pl-nectin is a component of the extracellular matrix that surrounds embryos of the sea urchin Paracentrotus lividus. Pl-nectin mediates adhesion of dissociated embryonic cells to substrates and interfering with ectodermic cells contacting Pl-nectin results in defects in skeleton growth and morphogenesis. Recently, we reported that Pl-nectin is a new member of the discoidin family, in agreement with the notion that many discoidin-containing proteins are involved in cell adhesion processes as integrin ligands. To better understand the molecular basis for the interaction of Pl-nectin with ectoderm, we investigated the hypothesis that Pl-nectin is an integrin ligand in sea urchin embryos. We show that in P. lividus embryos, βC-containing integrins localize to the apical surface of ectodermic cells, which are in contact with Pl-nectin. Immunoprecipitation experiments indicate that the two proteins are part of a complex in vivo and affinity chromatography indicates that βC-containing integrin receptors bind purified Pl-nectin. These data support a model in which ectodermic integrins binding to Pl-nectin mediate cellular adhesion to the hyaline layer. Regulated adhesion of cells to the hyaline layer is a critical component of several morphogenetic processes and the identification of the receptors and ligands involved provides new opportunities to investigate the underlying molecular mechanisms of ECM adhesion and morphogenesis.     

Comparative in situ remediation potential of Pseudomonas putida 710A and Commamonas aquatica 710B using plant (Vigna radiata (L.) wilczek) assay

A greenhouse study was conducted to determine the effect of cadmium (Cd)-resistant Pseudomonas putida strain 710A and Commamonas aquatica strain 710B, used either alone or as a binary mixture on the toxicity of cadmium to mungbean [Vigna radiata (L.) wilczek] plants. The bacterial strains 710A and 710B, isolated from the Semra mines in Ranchi, India, were resistant to 0.5 mM and 1 mM, CdCl₂ respectively. Moreover, both strains grew well at 10 °C and 30 °C. Of the two bacterial strains, strain 710B showed 129.6 and 83.5 times higher P solubilizing activity than strain 710A, when grown in liquid broth supplemented with cadmium at 10 °C and 30 °C, respectively. Furthermore, 16S ribosomal DNA (rDNA) sequencing identified 710A as a Pseudomonas putida strain and 710B as a Commamonas aquatica strain. The strain 710A significantly (p?<?0.05) stimulated the growth of roots (35.2 %) and shoots (30 %) of mungbean plants grown in soil treated with 110 μM CdCl₂. However, the increase in the case of 710B was found to be 15.4 % and 5.17 %, respectively. The loss of chlorophyll content was replenished by up to 80 %, 66 %, and 77.3 % by inoculation of 710A, 710B and binary mixture, respectively. Moreover the strains were able to reduce Cd accumulation in roots and shoots. Most significantly, residual Cd concentration in soil was reduced in the presence of bioinoculants. However, in terms of efficiency, the strains were found to be in the following order: 710A?>?710A +710B?>?710B. The results suggest that P. putida 710A strain is a potentially effective candidate metal to be used for sequestering and as a growth-promoting bioinoculant in Cd polluted soil.     

Heavy metal-induced oxidative damage is reduced by β-estradiol application in lentil seedlings

The protective effect of β-estradiol (E) application against heavy metal (HM) toxicity in lentil (Lens culinaris) seedlings was investigated. Seeds were treated with distilled water (control) or aqueous solutions of 100 μM CdCl₂, 200 μM CuCl₂ and 1 μM E singly or in combinations (1 μM E+100 μM CdCl₂ and 1 μM E+200 μM CuCl₂). HM treatments resulted in increase in the activities of antioxidative enzymes, including superoxide dismutase (SOD), catalase (CAT), guaicol peroxidase and ascorbate peroxidase. In a similar manner, Cd and Cu affected significantly oxidative injury indicators measured as electrolyte leakage (electrical conductivity of germination medium), lipoxygenase (LOX) activity and contents of malondialdehyde (MDA; lipoperoxidation marker), carbonyl groups (protein oxidation marker) and hydrogen peroxide (a reactive oxygen species). However, E was effective in reducing HM-induced toxicity. The steroid (1) alleviated HM-induced increase in the electrolyte leakage, LOX activity and contents of MDA, carbonyl and H₂O₂ and (2) improved the activities of SOD and CAT, but not the peroxidase ones, as compared to treatments with HM singly. In addition, E application prevented HM-induced decrease in dry weight production, but did not reduce the accumulation of Cd and Cu in tissues. Results of the present study suggest that E is able to protect lentil from HM-induced oxidative damage most likely by avoidance of H₂O₂ generation and improving antioxidative enzyme activities and, thereby, decreasing oxidative stress injury, but not by reducing Cd and Cu uptake.     

Cadmium accumulation in Atriplex halimus subsp. schweinfurthii and its influence on growth,proline, root hydraulic conductivity and nutrient uptake

Atriplex halimus subsp. schweinfurthii is a newly found cadmium (Cd)-hyperaccumulator, but there have been no detailed studies on its physiological responses when Cd is hyperaccumulated. A. halimus was grown in hydroponic conditions to investigate the effect of cadmium chloride (CdCl₂) on growth, water status, leaf chlorophyll concentration, proline and Cd accumulation. Treatments were prepared by adding 0, 50, 100, 200 and 400 μM CdCl₂ to the nutrient medium. Plant growth was significantly affected at high-Cd treatments. Increased CdCl₂ decreased chlorophyll concentration, transpiration and root hydraulic conductivity (L₀). Hence water flux had only a little effect on the uptake of Cd in A. halimus seedlings. In contrast, proline content increased with increasing CdCl₂ concentration. Plants accumulated substantial amount of Cd in different plant parts (shoot and root). Most of the Cd taken up was retained in roots (606.51 μg g⁻¹DW after 15 d at 400 μM CdCl₂). The addition of Cd in the culture medium affected calcium (Ca) and potassium (K) nutrition in both shoot and root. A. halimus provides a new plant resource for exploring the mechanism of Cd hyperaccumulation and has potential for use in the phytostabilization of Cd-contaminated salt soils.     

Evaluation of heme oxygenase 1 (HO 1) in Cd and Ni induced cytotoxicity and crosstalk with ROS quenching enzymes in two to four leaf stage seedlings of <Emphasis Type="Italic">Vigna radiata</Emphasis>

Research on heme oxygenase in plants has received consideration in recent years due to its several roles in development, defense, and metabolism during various environmental stresses. In the current investigation, the role of heme oxygenase (HO) 1 was evaluated in reducing heavy metal (Cd and Ni) uptake and alleviating Cd and Ni toxicity effects in the hydroponically grown seedlings of Vigna radiata var. PDM 54. Seedlings were subjected to Cd- and Ni-induced oxidative stress independently at different concentrations ranging from 10 to 100 μM. After 96 h (fourth day) of treatment, the stressed plants were harvested to study the cellular homeostasis and detoxification mechanism by examining the growth, stress parameters (LPX, H₂O₂ content), and non-enzymatic and enzymatic parameters (ascorbate peroxidase (APX), guaicol peroxidase (GPX), and catalase (CAT)) including HO 1. At 50 μM CdCl₂ and 60 μM NiSO₄, HO 1 activity was found to be highest in leaves which were 1.39 and 1.16-fold, respectively. The greatest HO 1 activity was reflected from the reduction of H₂O₂ content at these metal concentrations (50 μM CdCl₂ and 60 μM NiSO₄) which is correlated with the increasing activity of other antioxidant enzymes (CAT, APX). Thus, HO 1 works within a group that generates the defense machinery for the plant’s survival by scavenging ROS which is confirmed by a time-dependent study. Hence, it is concluded that seedlings of V. radiata were more tolerant towards metal-induced oxidative stress in which HO 1 is localized in its residential area (plastids).     

Environmentally relevant cadmium concentrations affect development and induce apoptosis of <Emphasis Type="Italic">Paracentrotus lividus</Emphasis> larvae cultured in vitro

Sea urchin embryos and larvae represent suitable model systems on where to investigate the effects of heavy metals on development and cell viability. Here, we tested the toxic effects of low (10⁻¹² M), medium (10⁻⁹ M), and high (10⁻⁶ M) cadmium chloride concentrations, mimicking unpolluted, moderately and highly polluted seawaters, respectively, on Paracentrotus lividus sea urchins offspring. Larvae were continuously treated from fertilization and inspected at time intervals comprised between 10 and 30 days of development. Delays and/or morphological abnormalities were firstly evident in larvae treated for 15 days with high cadmium (10⁻⁶ M) and for 25 days with medium cadmium (10⁻⁹ M). Major defects consisted in the reduction and lack of arms and skeleton elongation. No obvious differences with respect to controls were observed in embryos/larvae exposed to low cadmium (10⁻¹² M), even after 30 days of exposure. Using in situ terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling assay (TUNEL) assay on larvae whole mounts, we detected apoptosis after 10 days of treatment with 10⁻⁶ and 10⁻⁹ M CdCl_2, when no morphological abnormalities were recognizable yet. Supernumerary apoptotic cells were found in arm buds, ciliary bands, and apex. In conclusion, echinoderm embryos and larvae represent candidates of choice for the study of stress and defense mechanisms activated by cadmium exposure.     

Plant regeneration via somatic embryogenesis in Drimia robusta

A simple efficient in vitro plant regeneration system was developed by direct and indirect somatic embryogenesis of Drimia robusta, a medicinal plant extensively used in South African traditional medicine. Different developmental stages of somatic embryos (SEs: globular embryos, partial pear-shaped embryos and club-shaped embryos), club-shaped cotyledon initiation, plumule initiation and plantlets were directly obtained from leaf explants on Murashige and Skoog (MS) medium containing 3.5 % (w/v) sucrose and different plant growth regulators (PGRs). In MS medium containing 3.5 % (w/v) sucrose and supplemented with 10 μM picloram, 1 μM thidiazuron (TDZ) and 20 μM glutamine, a higher number of SEs and plantlets were achieved. These were established onto half-strength MS medium followed by successful acclimatization (100 %) in the greenhouse. Liquid somatic embryo medium (SEM_L) containing 500 mg of friable embryogenic callus on MS medium supplemented with different concentrations and combinations of PGRs and organic elicitors produced different stages of SEs. Somatic embryo production was enhanced by 0.5 μM picloram, 1 μM TDZ and mebendazole treatment. The highest number of plantlets (9.0 ± 0.70) was obtained in SEM_L containing 0.5 μM picloram, 1 μM TDZ and 25 mg l^?1 haemoglobin. All the cotyledon and plumule embryos germinated on half-strength MS medium, however 90 % of SEs germinated on half-strength MS medium containing 0.5 μM naphthaleneacetic acid. All plantlets were successfully acclimatized in the greenhouse. This first report of D. robusta somatic embryogenesis provides an opportunity to control extinction threats, ensure germplasm conservation and provides a system for analysis of bioactive compounds and bioactivity.     

Enhanced production of recombinant human gastric lipase in turnip hairy roots

Somatic embryogenesis is a reliable and important tool, and the relevant genes controlling this process act as vital roles through the whole development of somatic embryos. However, regeneration via somatic embryogenesis in Chinese chestnut has been impeded and its molecular mechanism is not known. Therefore, firstly we described a protocol for somatic embryo initiation, development, maturation and germination. Embryogenic calli were obtained in embryo initiation medium containing 1.8 μM 2,4-D and 1.1 μM 6-BA, and then were transferred to embryo development medium without any hormones for at least 4 weeks, until cotyledonary embryos appeared. Next, the somatic embryos were transferred to embryo maturation medium containing Gamborg’s B-5 Basal Salt Mixture with 0.5 μM NAA and 0.5 μM 6-BA for 3 weeks. Finally, these mature embryos were germinated in embryo germination medium consisting of WPM with 0.5 μM NAA and 0.5 μM 6-BA, resulting in shoot regeneration with a 2.1% conversion rate. Additionally, eight embryogenesis-related genes were identified, and the expression profiles of these genes during embryogenesis were analyzed via quantitative real-time RT-PCR (qRT-PCR). The CmSERK, CmLEC1, CmWUS and CmAGL15 genes exhibited high expression in the initial embryo stages, which inferred that these genes played key roles during the initiation of embryogenesis. Studies on embryogenesis-related genes will provide an insight for further elucidating molecular mechanism during somatic embryogenesis of Chinese chestnut. Furthermore, the successful establishment of a somatic embryo regeneration system for Chinese chestnut will lay a significant foundation for a stable genetic transformation system and genetic improvement.     

β-Estradiol Protects Embryo Growth from Heavy-Metal Toxicity in Germinating Lentil Seeds

Mammalian sex hormones spread in the environment from both natural and anthropogenic origin. In the present study, we found that treatment with β-estradiol (E) could improve embryo growth and alleviate unsuitable availability of nutrients imposed by cadmium and copper toxicity during germination of lentil (Lens culinaris Medik.) seeds. The length of embryonic axes decreased in the presence of 100 μM CdCl₂ or 200 μM CuCl₂. Addition of 10^?6 M E in the germination media could greatly reverse the inhibitory effect of heavy-metal (HM) stress on post-germination events. The cotyledons of E-treated seeds also tended to (1) retain higher protease and amylase activities, (2) breakdown more storage compounds (albumin, globulin, and starch), and (3) have higher contents of free amino acids and glucose than controls without added E (Cd or Cu applied individually). Further investigations showed that exposure to HM dramatically provoked the solute leakage in imbibition medium, whereas the combination of HM with E significantly reduced the loss of nutrients. Moreover, the seed Cd and Cu contents were not significantly different between the cotreatment of Cd or Cu with E and no treatment, meaning that E was not responsible for preventing HM accumulation in seed tissues.     

In vitro studies on protective effect of Glycyrrhiza glabra root extracts against cadmium-induced genetic and oxidative damage in human lymphocytes

Cadmium is a modern environmental contaminant that is toxic and carcinogenic. Glycyrrhiza glabra is a traditional medicinal herb which grows in the various parts of the World. Recent studies demonstrated that G. glabra has antifungal, antimicrobial, antioxidant, and powerful antiinflammatory features. The purpose of this study was to investigate the genetic safety of extracts from G. glabra and its effects on cadmium (as CdCl₂) induced genotoxicity. Therefore we evaluated the capability of G. glabra extract to inhibit the rate of micronucleus (MN), sister chromatid exchange (SCE) formations induced by CdCl₂. Moreover, to assess the effects of G. glabra on cell viability and oxidative status, we performed 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) and total antioxidant capacity (TAC) assays. Our results showed that there were significant increases (P < 0.05) in both SCE and MN frequencies of cultures treated with CdCl₂ (5 ppm) as compared to controls. However, co-application of G. glabra extract (5, 10 and 20 ppm) and CdCl₂ resulted in decreases of MN and SCE rates as compared to the group treated with CdCl₂ alone. Again, the results of MTT and TAC assays clearly indicated dose dependent ameliorative effects of G. glabra extracts against CdCl₂ toxicity. In conclusion, this study demonstrated for the first time that G. glabra extracts provided increased resistance of DNA against CdCl₂ induced genetic and oxidative damage in human lymphocytes. So, the risk on target tissues of CdCl₂ could be reduced and ensured early recovery from its toxicity.     

In vitro propagation and conservation of Indian sarsaparilla, Hemidesmus indicus L. R. Br. through somatic embryogenesis and synthetic seed production

A protocol has been developed for achieving somatic embryogenesis from callus derived from nodal cuttings and production of synthetic seeds in Hemidesmus indicus L. R. Br. a highly traded ethnomedicinal plant. Proembryogenic, friable, light yellowish callus was induced from the basal cut end of the nodal cuttings on Murashige and Skoog (MS) medium supplemented with 3 μM indole-3-butyric acid (IBA). The highest rate of somatic embryogenesis (92 %) was observed when the callus was subcultured on half strength MS medium supplemented with 2 μM IBA. On induction medium somatic embryos were developed up to the torpedo stage. Further elongation and germination of somatic embryos were obtained in MS medium supplemented with 4 μM 6-benzylaminopurine (BA) in combination with 1.5 μM gibberellic acid (GA₃). Somatic embryos were collected and suspended in a matrix of MS medium containing sodium alginate (3 % W/V) dropped into 75 mM calcium chloride (CaCl₂·2H₂O) solution for the production of synthetic seeds and later transferred to MS medium for germination. The synthetic seeds were successfully germinated on medium even after 120 days of storage at 4 °C. The plantlets were eventually transferred to soil with 92 % success.     

In vitro shoot growth, direct organogenesis and somatic embryogenesis promoted by silver nitrate in Coffea dewevrei

Direct differentiation of shoot buds in Coffea dewevrei was evident from the seedling shoots with collar region and also from collar region end of hypocotyl segments in presence of 40 μM AgNO₃, 8.88 μM of BA and 2.85 μM of IAA. Apart from this, shoot end of hypocotyl explants mainly supported yellow friable callus or somatic embryos. Subsequent transfer to the same medium induced secondary somatic embryogenesis. The collar region of the hypocotyl explants not only showed direct organogenesis by producing 1–3 shoots per explant and also able to produce globular somatic embryos and embryogenic yellow friable callus. Similarly direct somatic embryogenesis along with yellow friable embryogenic callus formation on 1/2 strength MS medium comprising 1.47 μM IAA, 2.22 μM BA and 40 μM AgNO₃ was noticed from cut portion of in vitro leaf and stalk of regenerated plants. The microshoots rooted well upon subculturing onto the same medium in 6 weeks and showed 60 % survival in green house and resumed growth upon hardening.