Interaction of eugenol-based anti-tuberculosis nanoemulsion with bovine serum albumin: A spectroscopic study including Rifampicin, Isoniazid, Pyrazinamide, and Ethambutol

Tuberculosis (TB), a deadly infectious disease, is primarily caused by the bacterium Mycobacterium tuberculosis. The misuse of antibiotics has led to the development of drug resistance, prompting researchers to explore new technologies to combat multidrug-resistant Tuberculosis (MDR TB). Phospholipid-based nanotherapeutics, such as nanoemulsions, are gaining traction as they enhance drug solubility, stability, and bioavailability. Our study focuses on the interaction between Bovine Serum Albumin (BSA) and a drug-loaded nanoemulsion based on Eugenol. This nanoemulsion incorporates Eugenol, Clove, cinnamon oil, and first-line anti-tuberculosis drugs like Rifampicin, Isoniazid, Pyrazinamide, and Ethambutol. The primary objective is to assess the biosafety profile of the nanoemulsion upon interaction with BSA. We employed Fluorescence, UV-visible, and Fourier Transform Infrared Spectroscopy (FTIR) to analyze this interaction. UV-visible spectroscopy detected changes in hydrophobicity due to structural alterations in BSA near the tryptophan residue, leading to the formation of ground-state complexes. Fluorescence spectroscopy demonstrated that the nanoemulsion effectively quenched fluorescence originating from tryptophan and tyrosine residues. Studies using synchronous and three-dimensional spectroscopy point to a potential modification of the aromatic environment of BSA by the nanoemulsion. Resonance light scattering spectra indicated the formation of large aggregates due to the interaction with the nanoemulsion. The second derivative FTIR spectra showed an increase in the magnitude of secondary structure bands, suggesting a conformational shift. This research has significant pharmacological implications for developing safer, more targeted drug delivery systems. The information obtained from the interaction of the nanoemulsion with the blood carrier protein is vital for the future development of superior carriers with minimal adverse effects on patients. It is crucial to remember that conformational changes brought on by drug-ligand complexes attaching to carrier proteins may have negative consequences. Therefore, this study enhances the in vitro evaluation of potential adverse effects of the nanoemulsion on serum proteins.

Novel and rapid agar plate methods for in vitro assessment of bacterial biocontrol isolates' antagonism against multiple fungal phytopathogens

Biological control of plant diseases with antagonistic bacteria is a promising alternative to conventional chemical control strategies. In vitro screening for inhibition of mycelial growth of phytopathogenic fungi by bacterial isolates is the first step in selecting putative bacterial biocontrol agents. Dual culture plate assay is the most common method involved in this first-line selection process. However, it needs independent agar plates to test antagonism by a specific bacterial isolate against each of the fungal phytopathogen. Two modified in vitro antagonism tests are proposed here. Antagonistic activity of a putative biocontrol bacterial strain against four different fungal phytopathogens could be assessed in a single agar plate simultaneously. A comparison of the new methods with conventional dual culture plate assay was also done. The proposed methods are easy to perform and results of antagonism are obtained rapidly. Results of fungal inhibition were qualitatively comparable with that generated through dual culture plate assay. Quantity of resources such as agar medium and plates required for the modified antagonistic assays is several folds less than that required for dual culture plate assay.

Tetracycline removal using green synthesized bimetallic nZVI-Cu and bentonite supported green nZVI-Cu nanocomposite: A comparative study

Antibiotics, one of the most abundant contaminants in the natural water systems possess various difficulties to remediate through conventional water treatment methods. Tetracycline (TC) remains one of the most widely used antibiotics for human and veterinary applications because of its broad-spectrum antibacterial activity. In the current study, we have employed nano zero-valent technology-based antibiotic remediation. In a first of its kind work, we applied bimetallic nZVI-Cu nanoparticles synthesized using pomegranate rind extract for remediation. TC removal of 72 ± 0.5% (initial TC concentration 10 mg/L) was obtained with the nZVI-Cu concentration of 750 mg/L at pH 7. To overcome the colloidal instability and enhance TC removal further, the bimetallic nanoparticles were formed in-situ over bentonite. The bentonite supported composite (B/nZVI-Cu) was used to treat TC an initial concentration of 10 mg/L and the results confirmed significant enhancement in removal with a substantially decreased nanoparticle loading. Using only 150 mg/L of B/nZVI-Cu at pH 7, 95 ± 0.05% of TC could be removed. The nanoparticles and the composites were characterized by SEM, FT-IR, and XRD analyses. The removal process was followed by UV-Visible analyses in conjunction with TOC, ORP and LCMS measurements. For treatment using B/nZVI-Cu, the reusability of the composite was established up to three cycles of operation, and the process was validated in the real water systems. Substantially decreased residual toxicity of the composite treated TC solution lends credence to the environmental sustainability of the process.

Nucleic acid detection strategy using gold nanoprobe of two diverse origin

In recent years, nanoparticles especially with gold and silver nanoparticles based point of care diagnostic methods is being developed for the lethal diseases like dengue. This study focused to work on the dengue virus detection in a simplest method using gold nanoparticles probe (AuNPs) with thiol tagged single strand DNA (ss-DNA). A sensitive, fluorescence-based detection strategy was designed to examine and quantified the hybridisation process and also elucidated the behaviour of AuNPs before and after interaction of biomolecule. The detection process was focused on aggregation of gold nanoprobe in the presence of complementary strand (target region). Hence the percentage of aggregation was measured and as a result, the limit of detection was found to be 10-6 dilutions. Current detection method was highly sensitive, easy to perform and the reaction timing is rapid between 5 and 10 min, and it can be observed through naked eye.

Differential sensitivity of marine algae Dunaliella salina and Chlorella sp. to P25 TiO2 NPs

The use of P25 TiO₂ NPs in consumer products, their release, and environmental accumulation will have harmful effects on the coastal ecosystems. The sensitivity to TiO₂ NPs may vary depending on the structural property and physiological mechanism of algal species. Therefore, the present study investigates the differences in sensitivity of two marine algae, Dunaliella salina and Chlorella sp., towards P25 TiO₂ NPs. Among the two species, Chlorella sp. was more sensitive to TiO₂ NPs than Dunaliella salina. The different working concentrations of TiO₂ NPs, 0.1, 1, and 10 mg L^-1, were selected based on the EC₅₀ value. The EC₅₀ value of TiO₂ NPs for Dunaliella salina was found to be 1.8 and 13.3 mg L^-1 under UV-A and dark conditions, respectively. The EC₅₀ value of TiO₂ NPs for Chlorella sp. was found to be 1.6 and 5.0 mg L^-1 under UV-A and dark conditions, respectively. The decrease in cell viability was significantly higher for Chlorella sp. compared to Dunaliella salina at all concentrations except 0.1 mg L^-1. The cellular viability data was in correlation with the oxidative stress markers such as total ROS and LPO. A concentration-dependent increase in ROS and lipid peroxidation was noted under UV-A exposure, which was higher in Chlorella sp. compared to Dunaliella salina. The decrease in the SOD activity with NP concentration was more in Dunaliella salina than Chlorella sp. under both conditions, whereas Chlorella sp. showed increased CAT activity with increasing concentration. The uptake of TiO₂ NPs was more in Chlorella sp. than Dunaliella salina.

Enhanced tetracycline removal by in-situ NiFe nanoparticles coated sand in column reactor

The occurrence of various antibiotics in natural waters poses an emerging environmental concern. Tetracycline (TC) is a frequently used antibiotic in human therapy, veterinary industry, and agricultural sectors. In the current study, TC removal from aqueous solutions was studied using binary Nickel/nano zero valent iron particles (NiFe nano particles) and in-situ NiFe nanoparticles coated sand (IS-NiFe). Removal of TC using bimetallic NiFe particles was optimized with help of response surface methodology (RSM). Using the optimized parameters (concentration of TC: 20 mg/L; NiFe dose: 120 mg/L; time of interaction: 90 min), 99.43 ± 0.98% removal of TC was noted. Further, IS-NiFe was packed in the column reactors and effects of different parameters like flow rate (1-3 mL/min), bed height (3-10 cm) and inlet TC concentration (20-60 mg/L) on breakthrough characteristics were examined. Under the optimized conditions the removal capacity in the column reactor was 1198 ± 40.2 mg/g using IS-NiFe. The column kinetic data were successfully fitted with Adams- Bohart and Thomas models. TC removal efficiency of IS-NiFe in column reactors was tested with TC (20 mg/L) spiked lake water, ground water, and tap water and the removal capacity was noted to be 698.55 ± 11.21, 764.17 ± 6.78, and 801.7 ± 13.26 mg/g respectively.

DNA-triangular silver nanoparticles nanoprobe for the detection of dengue virus distinguishing serotype

There is always a substantial effort to develop a point of care detection for a severe and acute disease like dengue. In this work, we have described the detection of serotype-specific dengue virus using multicolor triangular silver nanoparticles (TAg) which could be a potential diagnosis method to distinguish between serotype. Functionalized TAg was prepared with polyA₁₀ DNA through pH-mediated process. Further, it was characterized with Transmission Electron Microscopy (TEM), Ultra Visible-visible spectroscopy (UV-vis) and gel electrophoresis and its stability towards NaCl concentration. The colorimetric detection was carried out based on the interaction of TAg-DNA probe with specific complimentary strand which was designed to form a network assembly between DNA probes and sample RNA. The hybridization process was enhanced in presence of NaCl (0.4 M) which makes the hybridization process more stable over probe compared to un-hybridization. Therefore a simple and effective colorimetric method was developed to detect the different dengue serotype RNA with high sensitivity and specificity.

Toxicity, uptake, and accumulation of nano and bulk cerium oxide particles in Artemia salina

Although the toxicological impact of metal oxide nanoparticles has been studied for the last few decades on aquatic organisms, the exact mechanism of action is still unclear. The fate, behavior, and biological activity of nanoparticles are dependent on physicochemical factors like size, shape, surface area, and stability in the medium. This study deals with the effect of nano and bulk CeO₂ particles on marine microcrustacean, Artemia salina. The primary size was found to be 15 ± 3.5 and 582 ± 50 nm for nano and bulk CeO₂ (TEM), respectively. The colloidal stability and sedimentation assays showed rapid aggregation of bulk particles in seawater. Both the sizes of CeO₂ particles inhibited the hatching rate of brine shrimp cyst. Nano CeO₂ was found to be more toxic to A. salina (48 h LC₅₀ 38.0 mg/L) when compared to bulk CeO₂ (48 h LC₅₀ 92.2 mg/L). Nano CeO₂-treated A. salina showed higher oxidative stress (ROS) than those treated with the bulk form. The reduction in the antioxidant activity indicated an increase in oxidative stress in the cells. Higher acetylcholinesterase activity (AChE) was observed upon exposure to nano and bulk CeO₂ particles. The uptake and accumulation of CeO₂ particles were increased with respect to the concentration and particle size. Thus, the above results revealed that nano CeO₂ was more lethal to A. salina as compared to bulk particles.

Effect of culture media and environmental factors on mycelial growth and pycnidial production of Lasiodiplodia theobromae in physic nut (Jatropha curcas)

Physic nut (Jatropha curcas) is an important commercial bio-diesel plant species and is being advocated for development of waste and dry land. The collar and root rot caused by Lasiodiplodia theobromae is an important soil borne disease which causes considerable yield loss in this crop. In this study, the effects of culture media, temperature, photoperiod, carbon and nitrogen sources and pH on mycelial growth and pycnidial production were evaluated. Among the growth media tested, potato dextrose agar supported the highest growth followed by potato sucrose agar and corn meal agar. Among several carbon sources tested, carboxy methyl cellulose and sucrose were found superior for growth and pycnidial production. The nitrogen sources viz., ammonium oxalate and ammonium dihydrogen phosphate were recorded maximum mycelial growth and pycnidial production. The fungus grows at pH 5.0-9.0 and optimum growth was observed at pH 7.0.

The differential stress response of adapted chromite mine isolates Bacillus subtilis and Escherichia coli and its impact on bioremediation potential

In the current study, indigenous bacterial isolates Bacillus subtilis VITSUKMW1 and Escherichia coli VITSUKMW3 from a chromite mine were adapted to 100 mg L(-1) of Cr(VI). The phase contrast and scanning electron microscopic images showed increase in the length of adapted E. coli cells and chain formation in case of adapted B. subtilis. The presence of chromium on the surface of the bacteria was confirmed by energy dispersive X-ray spectroscopy (EDX), which was also supported by the conspicuous Cr-O peaks in FTIR spectra. The transmission electron microscopic (TEM) images of adapted E. coli and B. subtilis showed the presence of intact cells with Cr accumulated inside the bacteria. The TEM-EDX confirmed the internalization of Cr(VI) in the adapted cells. The specific growth rate and Cr(VI) reduction capacity was significantly higher in adapted B. subtilis compared to that of adapted E. coli. To study the possible role of Cr(VI) toxicity affecting the Cr(VI) reduction capacity, the definite assays for the released reactive oxygen species (ROS) and ROS scavenging enzymes (SOD and GSH) were carried out. The decreased ROS production as well as SOD and GSH release observed in adapted B. subtilis compared to the adapted E. coli corroborated well with its higher specific growth rate and increased Cr(VI) reduction capacity.

Characterization of the fungicidal activity of Calothrix elenkinii using chemical methods and microscopy

An investigation was directed towards biochemical characterization of cyanobacterium Calothrix elenkinii and analysis of the chemical nature and mode of action of its fungicidal metabolite(s) against oomycete Pythium debaryanum. Biochemical characterization of the culture in terms of carbohydrate utilization revealed the facultative nature of C. elenkinii. Unique antibiotic markers were also found for this strain. 16S rDNA sequencing of the strain revealed 98% similarity with Calothrix sp. PCC7101. The fungicidal activity was tested by disc diffusion assay of different fractions of the culture filtrate. A minimum inhibitory concentration of 10 microl was recorded for ethyl acetate fraction of the 7-weeks old culture filtrates. HPLC, followed by NMR spectral analysis demonstrated the presence of a substituted benzoic acid in the ethyl acetate fraction. Microscopic examination revealed distinct granulation, followed by disintegration of the hyphae of Pythium sp., indicating the presence of an active metabolite in the culture filtrates of Calothrix sp. The fungicidal activity of C. elenkinii can be attributed to the presence of 3-acetyl-2-hydroxy-6-methoxy-4-methyl benzoic acid. This is the first report of a benzoic acid derivative having fungicidal activity in cyanobacteria.

Rediscovering cyanobacteria as valuable sources of bioactive compounds

Cyanobacteria are a simple, but primitive and diverse group of microorganisms, with characteristics in common to both bacteria and algae. Their success as a group in a wide range of habitats has been attributed to their unique physiological characters and high adaptive ability under a wide range of environmental conditions. The potential of cyanobacteria as a source of a variety of compounds such as polysaccharides, lipids, proteins, vitamins, sterols, enzymes, pharmaceuticals and other fine chemicals is well recognized, and their demand is now on an increasing trend. This compilation reviews the salient advances in the discovery of bioactive compounds from cyanobacteria and their significance in agriculture and industry.

Epidermoid cyst in a solitary testis: A case for non-surgical management

This is a case report of a 71-year-old man who presented with an incidental finding of a mass in a solitary right testis. A scrotal ultrasound scan showed the typical features of a testicular epidermoid cyst. Tumour markers were not elevated and the patient was managed non-operatively. On reviewing the literature, we found no previous report on the non-operative management of testicular epidermoid cysts

Immune responses of sheep to quadrivalent double emulsion foot-and-mouth disease vaccines: rate of development of immunity and variations among other ruminants

Despite representing the majority of the world's foot-and-mouth disease (FMD)-susceptible livestock, sheep and goats have generally been neglected with regard to their epidemiological role in the spread of FMD. In the present investigations, FMD virus quadrivalent double emulsion (Montanide ISA 206) vaccines were tested in sheep. The oil adjuvant elicited a better immune response at any time than did aluminum hydroxide gel vaccine, and the response developed quicker. The animals maintained their neutralizing antibody titers at >3 log(10) for the duration of the trial (90 days). Sheep were found to be late responders to serotypes A, C, and Asia-1; a clear upward shift in titer was observed at 60 days postvaccination. However, development of the immune response to serotype O in sheep was superior to that in cattle and goats.

Immune responses of goats against foot-and-mouth disease quadrivalent vaccine: comparison of double oil emulsion and aluminium hydroxide gel vaccines in eliciting immunity

The epidemiological role of small ruminants in foot-and-mouth disease (FMD) outbreaks has been generally neglected. Although, the disease in these species is sub-clinical in nature, their role as virus carriers represents a reservoir for further infection and spread of disease. Data on the usefulness of polyvalent FMD vaccine (FMDV) in goats is scant. Thus, the present study was undertaken to evaluate the benefits of a highly potent polyvalent FMDV in goats. In the present investigations, FMDV quadrivalent double oil emulsion (Montanide ISA 206) vaccines were tested in goats at reduced doses of 2 ml per animal (antigen payload 3.5 microg per serotype per dose). The oil adjuvant elicited superior immune response at any given period than aluminium hydroxide gel (AGS) vaccine and the rapidity of development of response was quicker. The duration of immunity also appeared to be maintained for long period. The differences in immune response between two adjuvant groups were statistically significant (P<0.05). The differences were apparent even in kinetics of immune response. Unlike cattle, goats were found to be late responders for oil-adjuvanted vaccine. Our results indicate possible universal usage of double oil emulsion vaccines for disease control programs irrespective of species of animals.

Early antibody responses of cattle for foot-and-mouth disease quadrivalent double oil emulsion vaccine

Foot-and-mouth disease (FMD) is an economically important disease of cloven-hoofed animals. The multiplicity of FMDV serotypes in animals poses a central problem in the policy of vaccination and is of much concern to health authorities. Hence it is the practice of vaccination with polyvalent vaccine for prophylactic measure. In the present report, we analysed the early antibody responses elicited by FMDV quadrivalent (FMDV O, A, C and Asia 1 serotypes) double emulsion (Montanide ISA 206) vaccines in cattle. We observed variations between various viral serotypes in eliciting early antibody response although neutralizing antibody response against all the four serotypes were detected as early as fourth day following vaccination. The duration of immunity also appeared to maintain for long period. The neutralizing antibody titres were maintained well above 2log(10) even after 6 months of vaccination irrespective of serotypes. Thus, allows the possibilities of two vaccinations per year for the maintenance of herd immunity.

Peroxisome proliferator-activated receptor-gamma agonists inhibit experimental allergic encephalomyelitis by blocking IL-12 production, IL-12 signaling and Th1 differentiation

Peroxisome proliferator-activated receptor-gamma (PPARgamma) is a nuclear receptor transcription factor that regulates adipocyte differentiation and glucose homeostasis. PPARgamma agonists are potent therapeutic agents for the treatment of type 2 diabetes and obesity. PPARgamma agonists also prevent inflammation in animal models, suggesting their use for the treatment of human inflammatory diseases. Experimental allergic encephalomyelitis (EAE) is a Th1 cell-mediated inflammatory demyelinating disease model of multiple sclerosis (MS) and IL-12 plays a crucial role in the pathogenesis of EAE and MS. In this study we have examined the effect of PPARgamma agonists on the pathogenesis of EAE. In vivo treatment of SJL/J mice with PPARgamma agonists, 15-deoxydelta(12,14) prostaglandin J2 or Ciglitazone, decreased the duration and clinical severity of active immunization and adoptive transfer models of EAE. PPARgamma agonists inhibited EAE in association with a decrease in IL-12 production and differentiation of neural antigen-specific Th1 cells. In vitro treatment of activated T cells with PPARgamma agonists inhibited IL-12-induced activation of JAK-STAT signaling pathway and Th1 differentiation. These findings highlight the fact that PPARgamma agonists regulate central nervous system inflammation and demyelination by inhibiting IL-12 production, IL-12 signaling and Th1 differentiation in EAE.

Integrity of GH-loop of foot-and-mouth disease virus during virus inactivation: detection by epitope specific antibodies

Vaccine against foot-and-mouth disease (FMD) is prepared after inactivating the virus produced in cell culture. Inactivation of the FMD virus (FMDV) was earlier done by formaline. However, several vaccine outbreaks, which occurred in Europe revealed that the formaline treatment is not highly effective for virus inactivation. Subsequently, binary ethyleneimine (BEI) was identified as an effective inactivation reagent for FMDV. However, these chemical reagents are likely to have effect on whole virus particle whose integrity is essential for vaccine potency. Therefore, a need is felt to develop non-chemical methods. We have studied induction of endonucleolytic activity as an alternative method for virus inactivation. This method of inactivation was compared with the chemical methods, and found to be highly effective for virus inactivation. The effects of endonucleolytic activity on the integrity of virus capsid was studied using antibodies raised against recombinant proteins, which elicited antibodies against major epitopes present on the surface of the virus. Further, the effect of the agents on the integrity of the virus capsid was studied by using antigen capture PCR (Ag-RT/PCR) which detects the whole virus. The studies showed that inactivation of the virus by induction of endonucleolytic activity is more effective besides maintaining virus integrity. The effect of various inactivating agents on four serotypes of FMDV has also been studied and found to have varying effects, depending on serotype.

Development and standardization of a piezo electric immunobiosensor for foot and mouth disease virus typing

An immunobiosensor using a piezo electric (PZ) crystal was developed and standardized for foot and mouth disease (FMD) diagnosis and virus typing. A 6MHz quartz crystal was used as the frequency determining element. Foot and mouth disease virus (FMDV) type specific antibody raised in rabbits/monoclonal antibody was coated on the crystal surface and the resonance measured. One microlitre of the 10% aqueous suspension of the clinical sample (tongue or foot epithelium) was applied on both surfaces of the crystal and the resonance recorded. A difference in resonance of more than -2.5Hz was obtained in positive samples (homologous antigen and antibody). The test was standardized initially using various dilutions of FMD tissue culture antigen. Repeatability and sensitivity were also tested and it was found that the crystals could be washed and reused eight times. The test could be used for FMDV type specifically and no cross-reaction between FMDV types was observed. The shelf-life of the antibody-coated crystal stored at room temperature was 18 weeks. Application of the biosensor test to the FMDV clinical samples confirmed virus typing results when compared with enzyme-linked immunoabsorbent assay (ELISA) and it could also detect virus in ELISA negative samples and mixed virus infections.

Pharmacokinetics/pharmacodynamics in drug development: an industrial perspective

In a health care environment dominated by the growth of managed care organizations, generic competition, therapeutic substitution and drug utilization review, drug development is an extremely risky proposition. Consequently, it is imperative to incorporate a mechanistic approach to drug development that combines a thorough understanding of a drug at the molecular/cellular level with a rigorous preclinical, and clinical pharmacology program. This should enable the sponsor to evaluate multiple hypotheses during the early "learning" phases of clinical development (Phases I and IIA) and to eliminate nonpromising candidates early on while drug development costs are low. Clinical research done properly in the early stages of drug development will also set the stage for designing and conducting optimal "confirming" registrational Phase IIB/III studies for promising drug candidates. Pharmacokinetics (PK) and pharmacodynamics (PD) modeling and simulation are crucial components of a mechanistic approach to optimal drug development and their application has significant impact in both early and late development efforts. This communication describes several applications of pharmacokinetics and pharmacodynamics modeling and simulation that were important in guiding, optimizing and ensuring the success of development efforts for drug candidates in the therapeutic areas of cardiology and oncology. These examples are used to illustrate and discuss the use of the current state-of-the-art in pharmacokinetics and pharmacodynamics modeling and simulation at numerous stages in the development cycle and to postulate on future directions in this area.

E. coli expressed proteins as diagnostic reagents for typing of foot-and-mouth disease virus

Truncated proteins corresponding to the C-terminal half of VP1 of four vaccine strains and two field variants of foot-and-mouth disease virus (FMDV) were expressed in E. coli. The expressed proteins were affinity purified and their type specific reactivity was confirmed by immunoprecipitation with anti-virus antibodies. Antibodies were raised against the purified proteins in guinea pigs and the type specificity of the anti peptide antibodies was confirmed by antigen capture reverse transcription polymerase chain reaction (Ag-RT/PCR) where the sera against a particular type captured the homologous virus. Antibodies were purified by immuno-affinity chromatography and tested for specificity by various serological tests. Using the purified proteins and the antibodies raised against them, tests like ELISA, Ag-RT/PCR, and latex agglutination test (LAT) were standardized. Application of the reagents in various tests was studied by screening a few field samples and by nucleotide sequencing. Specific reactivity of antibodies raised against expressed protein was seen with both vaccine virus and field samples. Thus E. coli expressed proteins and antibodies to them may form an alternative and cheap source of diagnostic reagents. The studies showed that antibodies against peptides were mono-specific and therefore may be used in LAT for rapid typing of FMDV and Ag-RT/PCR for typing ELISA negative field samples.

Capsid protein-encoding (P1) sequence of foot and mouth disease virus type Asia 1 ind 63/72

Variations in the amino acid sequence of Foot-and-Mouth Disease Virus (FMDV) structural proteins are the basis for the antigenic diversity of the virus. Majority of antigenic sites for the virus neutralization are present on VP1, the major immunogenic protein. However, a few conformational epitopes are present on the structural proteins VP2 and VP3. The nucleotide sequence encoding all the four structural proteins (P1 region) of FMDV type Asia 1 Ind 63/72 was determined. The nucleotide and the deduced amino acid sequence of P1 of Asia 1 of Indian strain was compared with that of Asia 1 Israel strain. Differences were observed at 284 (14%) nucleotide positions resulting in 69 (10%) amino acid changes. The variation in the derived amino acid sequence is the highest in VP1 (14.4%) followed by VP2 (10%), VP3 (6.4%) and VP4 (3%). Deletion of two amino acids, which was observed in the case of Indian strain as well as in Israel strain indicated that these deletions are specific for type Asia 1. The P1 sequence was also compared with the corresponding region of the other serotypes O1K, A12, Cl and SAT-1. The sequence has been submitted to EMBL data bank, under accession number Y09949.

Serotyping of foot-and-mouth disease virus by antigen capture reverse transcriptase/polymerase chain reaction

The technique of capturing of foot-and-mouth disease virus (FMDV) from clinical material in microcentrifuge tubes coated with type-specific antibodies and amplifying the viral sequences by RT/PCR in the same tube, promoted the detection and serotyping of FMDV with high sensitivity and specificity. The efficiency of antigen capturing and shelf life of the coated tubes was improved by glutaraldehyde fixation of antibodies to the tubes. Virus in infected tissues, even after storage for 25-30 years at 70 degrees C, could be successfully typed by this method. Conserved sequences flanking the variable region of immunoreactive VP1 gene of FMDV were used as primers in the assay and hence the nucleotide sequence analysis of the product could reveal the strain variation. The test has been found to be at least 125-fold more sensitive than type specific ELISA and of comparable sensitivity as other protocols for detection of FMDV by RT/PCR.

A note on outbreaks caused by mixed foot-and-mouth disease virus infections

Two outbreaks of foot-and-mouth disease (FMD) in vaccinated cattle were investigated wherein a mixed infection due to FMD virus (FMDV) types O and Asia 1 was detected by sandwich enzyme-linked immunosorbent assay (ELISA) and confirmed by antigen capture polymerase chain reaction (PCR). The clinical picture and the epidemiological data on these outbreaks are presented. The isolated virus strains were compared to the respective vaccine strains by means of monoclonal antibody (MAb) profiling and nucleotide sequence analysis. The probable cause of the mixed FMDV infection and its significance in disease control are discussed.

Development and characterization of monoclonal antibodies to foot and mouth disease virus type 'C'

Five fusion experiments were conducted with spleen cells from Balb/c mice immunized with purified 146S antigen of foot and mouth disease virus type 'C' (vaccine strain). Monoclones (31) thus developed were isotyped as IgM (3), IgG1 (6), IgG2a (5), IgG2b (3) and IgG3 (14). Eleven clones isotyped as IgM, IgG2a and IgG2b showed neutralizing activity in virus neutralization and plaque reduction tests. Six of the neutralizing clones precipitated 146S virus in Ouchterlony reaction. On the basis of location of MAb reactive epitopes in relation to intact virus (146S), 12S particles and VP1 in ELISA test, the clones were classified as Class II (6), Class III (11) and Class IV (14). These clones may be useful for purposes of antigen detection from field isolates and for estimation of antibody titres in vaccinated animals.

Nucleotide sequence of DR-B exon of major histocompatibility complex from an Indian zebu cattle breed

The Indian cattle is known to be more tolerant to tropical infections than the European cattle. In order to verify the genetic basis of this variation, the DR B exon-2 of the major histocompatibility locus, known for coding the antigen recognition site, from the Hallikar breed of Indian cattle was amplified by PCR, cloned and sequenced. Comparison of this sequence with the information available on taurus cattle brought out six unique nucleotide changes and three amino acid changes. The amino acid positions were at 17, 72 and 87. A major variable region was observed at amino acid position 85 to 87 from all the alleles so far reported for the bovine locus.

The foot and mouth disease virus type O outbreak of 1992 is not related to vaccine strain (O/R2/75)

Vaccination is the only pragmatic approach to control foot and mouth disease in India. Strict quality control measures are essential to supply potent vaccine to the field application, in addition to monitoring the performance of the vaccine in the field. During the process of monitoring, an outbreak of FMD in vaccinated animals caused by type "O" virus in Tanjavur district of Tamil Nadu and a type "O" virus from unvaccinated herd of Karnataka were studied. Field isolates and vaccine virus were sequenced and analyzed. Data indicated that the virus from the outbreak in vaccinated cattle was a variant which could escape neutralization by antibodies against vaccine virus.

Antigenic variation in Foot and Mouth Disease Virus type Asia 1 isolates circulated during 1993-95 in India

The antigenic variation in Foot and Mouth Disease Virus (FMDV) is very high. The effective strategy to control the Foot and Mouth Disease (FMD) in India which is a habitat of four serotypes O, A, C and Asia 1, is by regular vaccination, using the vaccine strain most suitable for the local situation. India is an endemic country with the disease being widely distributed. Selection of vaccine strain should therefore need the information on the circulating viruses. Asia 1 causes the second largest number of disease outbreaks in India. As there is no information available with respect to the extent of antigenic variation in FMDV type Asia 1, we have studied FMDV isolates from vaccinated and unvaccinated animals from different parts of the country and compared their relationship with Asia 1 vaccine virus. The immunogenic, hypervariable region of viral protein 1 (VP1) gene was amplified by RT-PCR and sequenced. Analysis of sequence data showed that the viruses from two field outbreaks of Southern India were closely related to each other when compared to the isolate from the North and all the three isolates are away from the vaccine virus.