Development and validation of immunoassay for whole cell detection of Brucella abortus and Brucella melitensis

Brucella is alpha-2 Proteobacteria mainly responsible for multi-factorial bacterial zoonotic disease brucellosis with low concentration (10–100 CFU) required to establish the infection. In this study, we developed sandwich ELISA with detection range of 102 to 108 cells mL−1 and limit of detection at 103 cells mL−1 by employing polyclonal rabbit IgG (capture antibody, 10 µg mL−1) and mice IgG (detection antibody, 50 µg mL−1) antibody for its detection. Surface Plasmon Resonance evaluated the interaction of detection antibody with whole cell spiked serum samples at LOD of 102 cells mL−1 along with non co-operative interaction of protein albumin. Further, kinetic evaluation study using detection antibody against cell envelope antigen was performed whereby, Equilibrium Dissociation Constant (KD) and Maximum Binding Capacity (Bmax) were found to be 16.48 pM and 81.67 m° for Brucella abortus S99 and 0.42 pM and 54.50 m° for Brucella melitensis 16 M, respectively. During interference study, sandwich ELISA assay cross-reacted with either of the polyclonal antibody of above Brucella species. Upon validation, no cross-reactivity observed with bacteria-closely related to Brucella. In conclusion, developed semi-quantitative sandwich immunoassay is sensitively rapid in whole cell detection of Brucella and will be useful in development of detection assays from environmental and clinical matrices.

Brucellosis is re-emerging infectious bacterial zoonosis caused by small gram-negative, cocco-bacilli, facultative intracellular bacteria belongs to genus Brucella 1 . It is 0.5-0.7 µm in diameter and 0.6-1.5 µm in length, first reported by Sir David Bruce from military personnel in Malta 2,3 . It causes contagious reproductive disease in livestock and predominantly transmitted to human through Brucella melitensis, Brucella abortus, Brucella suis and Brucella canis 4,5 . Brucella outer membrane proteins (OMPs) major virulent determinants facilitate infection and elicits cell-mediated and humoral response enabling early recognition in acute cases 6,7 . Its transmission perpetuates through direct contact and by consuming contaminated raw or under-cooked animal products 8 . Disease eradication delays due to its poor sero-prevalence and being un-reported and under-diagnosed 9,10 . Diagnostic threshold relies on combinatorial serological tests including Rose Bengal Test (RBT), Serum Agglutination Test (SAT) and Complement Fixation Test (CFT), although sensitive but suffers high false-positive rates in chronic cases 11 . Biochemical and Bacteriophage Typing tests are gold standard to detect Brucella as type-biovars 12 . PCR based molecular approach as URS-PCR with unique repeat sequence locus on chromosome 1 of Brucella specifically differentiate Brucella abortus and Brucella melitensis at species (spp.) level 13 . For the detection of Brucella in water and buffalo milk samples, standard serological and microbiological methods were compared with molecular assays to evaluate the feasibility of PCR and rtPCR methods in combined use rather than one test alone for detection 14 . Also, techniques like Lateral Flow assay, Multiplex and quantitative Real Time PCR (rtPCR, qPCR) and Isothermal based amplification are rapidly used along with gold standard for reporting incidence of low-disease burden in pre-clinical and sub-cellular intracellular infections [15][16][17] . The molecular based detection usually requires person-in-expertise for handling and sample pre-treatments made it difficult for employing in field applications 18 . However, a novel isothermal amplification technique of multiple cross displacement amplification (MCDA) coupled with nanoparticles-based lateral flow biosensor (LFB) potentially resulted in specific detection of Brucella (targeting Bscp31 species-specific gene) with simple and rapid visual detection of Brucella-specific amplicons 19 . The serological tests and true gold standard alone cannot be defined as appropriate to differentiate Brucella related or non-related infections with accuracy due to low specificity in endemic areas 20 . Although the sensitivity of indirect and quantitative ELISA is well-known in standard determination of anti-LPS antibody, recently a new indirect ELISA was reported with high diagnostic performance of sensitivity (PPV = 95.7%) and specificity (NPV = 97.8%) based on whole cell (WC) Brucella abortus S99 lysate for IgM anti-Brucella antibody detection in human serum 21 . A new colorimetric immunoassay based on colored nanoparticles conjugated with polyclonal antibody against Brucella abortus was also developed to detect Brucella WC antigen with detection range of 1.5 ×10 3 to 1.5 ×10 8 CFU mL −1 at limit of detection (LOD) of 450 CFU mL −122 . The polyclonal antibody (pAb) as a capture antibody offers optimal maximum trap rate and intensify capture opportunities for more sensitivity of the assay 23 . Sandwich ELISA (S-ELISA) measures protein, antibodies (Ab) and cytokines (IFN-gamma) as a serial or parallel test for disease diagnostics in early detection 24,25 . In addition, chemically modified immuno-sensors based on conventional ELISA detecting IgG1 Ab (characteristic of acute and chronic stage) to elucidate the health related complexities in a timely manner were reported [26][27][28] . Bio-sensors are simple, accurate with high speed, specific and sensitive in detection to provide direct sample testing with considerable analytical interests 29 . Surface Plasmon Resonance (SPR) validates immobilization of IgG antibody, viable WC and DNA by detecting high molecular analytes whereby ligand binding (association) increases mass on the chip surface and on dissociation decreases the mass. Such changes produce direct detectable signal by affecting the refractive index, RI 30,31 . Escherichia coli detection by SPR was reported by immobilizing anti-Escherichia coli antibody having LOD at 10 4 CFU mL −1 with functionalized gold substrate (acid-thiol) and 10 3 CFU mL −1 with gold nanoparticles respectively 32 . Recently, SPR detected immune responses in dengue virus (DENV) infection and modified (SiO 2 -coated) SPR chip detected WC with sensitive limit of 6 ×10 −7 refractive index unit, RIU [33][34][35] . Since, cell surface proteins are most appropriate target in pathogen detection. Thus, in our proposed study, we have raised pAbs against intact whole cell of Brucella and developed a semi-quantitative S-ELISA employing SPR based evaluation and validation (with WC spiked serum) of mice IgG detection antibody in direct whole cell detection of Brucella. Also, we characterized these high affinity antibodies in recognizing certain cell-surface components to develop a conventional S-ELISA for fast, direct and convenient detection of Brucella.

Results
Production of pAbs against Brucella WC Ag. The obtained Ab titer (see Supplementary Fig. S1a to d online) with whole cell based I-ELISA for mice and rabbit is ≥ 64000 with OD value comparatively more with anti-sera raised against WC Ag of Brucella abortus S99. Titer of Ab defines to be the reciprocal of the highest Ab dilution that presents an absorbance greater than or equal to 2.1 fold of the background absorbance (i.e. blank OD value or negative control) 23 . Polynomial regression co-efficient value (R 2 ) obtained is almost equal to 1 with linear model equation, y = − 0.009× 4 + 0.160× 3 − 0.878× 2 + 2.037×− 1.189 with R 2 = 0.999 and y = − 0.019× 3 + 0.233× 2 − 0.181× + 0.103 with R 2 = 0.994 for mice and rabbit pAb titer raised against Brucella abortus S99 and y = 0.012× 3 − 0.085× 2 + 0.252×− 0.130 with R 2 = 0.999 and y = − 0.005× 3 + 0.066× 2 + 0.071× + 0.266 with R 2 = 0.995 respectively against Brucella melitensis 16 M having linearity with best fit for capturing data pattern at low bias.  Checker-board S-ELISA for determining detection range and LOD. Standard checker-board S-ELISA was performed with different concentration of Brucella abortus S99 and Brucella melitensis 16 M inactivated WC Ag, detected by 2 fold serial dilution of detection Ab (Fig. 1a,b). WC were detected with different concentration of mice IgG detection Ab to obtain a standard curve best fit to linear model equation y = − 0.1254×+ 1.8518 for B. abortus S99 and y = − 0.2068×+ 2.2743 for B. melitensis 16 M respectively. Standard curve with linear regression co-efficient of R 2 = 0.8953 and R² = 0.9424 respectively, is the working range (i.e. Detection range, 10 2 µg mL −1 to 1.56 µg mL −1 at detection limit of 10 3 CFU mL −1 for B. abortus S99 and 10 2 µg mL −1 to 0.78 µg mL −1 at detection limit of 10 3 CFU mL −1 for B. melitensis 16 M) of the standard assay. LOD is derived Interference study for cross-reactivity and evaluation of effective concentration of detection and capture antibody. Brucella abortus S99 and Brucella melitensis 16 M along with bacteria closely related to Brucella spp. (Table 1) were evaluated for cross-reactivity and for determining the effective (best working) concentration of mice IgG detection Ab and rabbit IgG capture Ab with minimal cross-reactivity for the developed assay (Fig. 2a-f). On measuring the absorbance values, effective concentration was found to be 50 µg mL −1 for mice IgG detection Ab. Concentration less than 50 µg mL −1 (≤ 0.2 OD value in S-ELISA detecting Brucella abortus) and more than 50 µg mL −1 (≥ 0.5 OD value in S-ELISA detecting Brucella melitensis) were cross-reactive. And, minimum cross-reactivity was observed with bacteria closely related to Brucella spp. at 50 µg mL −1 of detection Ab. On evaluating capture antibody at 10 and 20 µg mL −1 of concentration with 50 µg mL −1 of optimized detection antibody (Fig. 2g,h), OD at 495 nm was analysed with standard curve of polynomial regression co-efficient best fit to linear equation, y = − 0.0121× 3 + 0.2078× 2 − 1.161×+ 2.3865 with R 2 = 0.9431 and, y = − 0.0083× 3 + 0.1399× 2 − 0.7553×+ 1.5328 with R 2 = 0.9444 for the two concentrations respectively. On comparing the OD values experimentally, it was found that 10 µg mL −1 of capture antibody sensitively detected WC Ag of Brucella at detection range of 10 2 to 10 8 CFU mL −1 with LOD at 10 3 CFU mL −1 respectively. The pAbs raised against WC of two Brucella spp. were cross-reacting in detection of either of the Brucella abortus and Brucella melitensis sensitively within the developed assay. Therefore, S-ELISA developed with rabbit IgG capture Ab at 10 µg mL −1 and mice IgG detection Ab at 50 µg mL −1 at LOD of 10 3 CFU mL −1 was cross reacting with both Brucella abortus and Brucella melitensis at spp. level.

Validation of S-eLiSA for Wc detection of Brucella in different matrices. Brucella WC spiked clin-
ical and non-clinical samples ( Fig. 3a-d) were subjected for WC detection. It was found that on initial validation in different matrices, cow milk was showing more detection with detection limit of 10 3 CFU mL −1 followed by urine and human sera at linear equation, y = − 0.0737×+0.765 with R 2 = 0.9116 comparatively linear for Brucella melitensis 16 M WC detection and on further increasing the sample size with two more human serum and FBS,  www.nature.com/scientificreports www.nature.com/scientificreports/ cow milk followed by urine and human sera 1 showed more detection for both the spp. comparative to rest of the clinical samples. Also, on test validation for optimized effective concentration of capture antibody at two different concentrations (10 and 20 µg mL −1 ) with Brucella melitensis 16 M WC spiked matrices presented standard curve of polynomial regression co-efficient having linear equation, y = − 0.002× 3 + 0.057× 2 − 0.500×+ 2.026 with R 2 = 0.953 and, y = − 0.007× 3 + 0.122× 2 -0.652×+ 1.438 with R 2 = 0.911 for two concentrations (see Supplementary Fig. S4a,b online) respectively. The cow milk showed more detection followed by cow urine, human sera and bovine sera with maximum OD value ≥ 1 and R 2 value near to 1 for best fit of standard curve at 10 µg mL −1 of optimized concentration and non-linear trend was obtained at 20 µg mL −1 concentration. The detection range obtained was 10 2 to 10 8 CFU mL −1 at an LOD of 10 3 CFU mL −1 . Also, on performing validation with Brucella WC spiked human whole blood as an important clinical sample for detection (Fig. 3e), a linear detection of R 2 = 1 at equation, y = −0.723×+ 2.588 was obtained showing more detection with Brucella melitensis followed by Brucella abortus at lower detection limits of OD ≥ 0.5 respectively.
Cross-reactive screening of S-ELISA for assay validation. For further validation of S-ELISA, an assay with Brucella melitensis 16 M along with Brucella abortus S99 and seven closely Brucella related spp. was test evaluated on similar spiked studies (Fig. 3f). It was observed that assay optimized was not cross-reactive with closely Brucella related spp. at detection limit and simultaneously, cross-reactive with Brucella abortus S99 at spp. level. Although, the assay was sensitive in detecting WC of Brucella spp. with LOD of 10 3 CFU mL −1 , further needs specificity for detection at spp. level.

Immobilization of anti-Brucella mice IgG pAb on 4-MBA modified SPR-Au Chip.
Immobilization of detection Ab depends on pH of the solution in which ligand was concentrated on 4-MBA modified SPR-Au Chip surface 37 . IgG pAb was pre-concentrated in neutral buffer, PBS (pH 7.2). Activation of biosensor chip by EDC/NHS carboxyl groups produces negative charge higher than the pH 3.5. Therefore, pre-concentration of Ab was done with buffer at pH 7.2 less than the ligand iso-electric point PI 38 . Suitable pH between PI of ligand and sensor surface pKa, facilitates ligand pre-concentration. Moreover, the PI of the Ab is 9 and EDC (for conventional amine coupling) requires uncharged amine groups. Therefore, neutral pH at value 7.2 results in efficient immobilization with noise-free enhanced signals on SPR 35 . In SPR, sensogram (see Supplementary Fig. S5a,b online) was showing nine major steps for immobilization of detection Ab raised against the two Brucella spp. respectively.

interaction study of Brucella WC with mice IgG pAb immobilized on 4-MBA modified SPR-Au
Chip. Mice IgG pAb was immobilized on modified SPR-Au chip for sensing different concentration of Brucella WC (as analyte) for two Brucella spp. Sensogram for Brucella abortus S99 (Fig. 4a) and for Brucella melitensis 16 M (Fig. 4c) attributes to concentration-dependent interaction, gradually varied from 10 2 to 10 6 CFU mL −1 and 10 2 to 10 7 CFU mL −1 respectively. The schematic illustration for above interaction was shown (Fig. 4b,d) for both the spp. LOD, as to minimum concentration at which the response during interaction with immobilized Ab was measured and found to be 10 2 CFU mL −1 . Even on increasing the SPR probing depth (beyond 1 µm) employing long-range surface plasmons, dry mass of whole bacterium was measurable at minimum LOD observed for kinetic study 39,40 . Kinetic evaluation study of mice IgG detection pAb with cell envelope Ag of Brucella. Sensitivity for LOD of mice IgG pAb was evaluated against immobilized whole CE (Cell envelope surface) Ag of two Brucella spp. with 10 fold serial dilutions (10 2 µg mL −1 to 10 −1 pg mL −1 ). Limit of detection (LOD) was found to be 10 −1 ng mL −1 (see Supplementary Fig. S6 a, b online) with linear SPR angle shift, detected at concentration 1 µg mL −1 to 10 −1 ng mL −1 . K D value was calculated for binding interaction using data fitted into simple 1:1 interaction model, (A) + (B) = (AB), indicating (A) as analyte (mice IgG pAb) injected, (B) as CE Ag immobilized and (AB) as Ab-Ag complex (analyte-ligand) formed in SPR system during interaction. Hence, K D value and B max was found to be 16.48 pM and 81.67 m° for Brucella abortus S99 and 0.42 pM and 54.50 m° for Brucella melitensis 16 M, respectively with high affinity towards Brucella melitensis 16 M. The K D value (<10 nM) signifies high affinity interaction among the complexes and signal R corresponds proportional to the amount of (AB) formed. Rmax is proportional to initial concentration of Ag (ligand) immobilized 41-43 . Serum-spiked validation for binding interaction of mice IgG pAb. Brucella abortus and Brucella melitensis intact WC (10 8 to 10 1 CFU mL −1 ) were spiked in serum (1:5000 of FBS in sterile PBS) samples to interact with immobilized mice IgG pAb (10 PPM) in real scenario. Ab-Ag binding avidity increases on increasing affinity between mice IgG pAb and WC Ag with number of specific interactions formed at each binding-regeneration cycle in response with SPR angle shift 44,45 . The SPR response of angle change (Fig. 5a,b) at concentration of 10 2 to 10 6 CFU mL −1 with LOD of 10 2 CFU mL −1 was monitored with no effect of serum on interactions validated with non-spiked FBS as experimental control.

Discussion
Brucellosis is an endemic and widespread zoonosis with a huge global burden of socio-economic importance and a potential biowarfare challenge to food and health security worldwide 46 . It mainly infects livestock and inhabiting human population with six potentially pathogenic species including Brucella abortus, Brucella melitensis, Brucella suis, Brucella canis, Brucella ovis and Brucella neotomae 47 . It has the ability to survive and multiply inside the host phagocytes causing febrile illness, undulant fever and significant reproductive in-efficiency like abortion and still-birth in cattle. The severity, pathogenicity and disease progression is a major call for new and improved treatment regimens to be provided in particular as a reliable tool for detection 48 . In this concern, we have developed an enzyme immunoassay which is detecting the intact WC of Brucella at sensitive representation in various matrices of clinical efficacy. Brucella shares maximum homology with type strains and similarity coverage is 98 to 99% at sub-type species level. Since, polyclonal antibody is reliable in potential capture of the antigen whereby we evaluated 10 µg mL −1 of WC rabbit IgG capture Ab as more sensitive in determining the lowest detection limits. Higher Ab-titer WC pAbs with an average ≥ 64,000 ranging upto 1,28,000 were used with no batch variations in optimizing the assay with linear detection range. Checker board S-ELISA provided multiple unique combinations of detection antibody and WC antigen concentrations evaluating the lower limit of detection for both test antibody and antigen respectively. The mice IgG detection Ab at 0.78 and 1.56 µg mL −1 concentration in checker board S-ELISA detected 10 3 CFU mL −1 of Brucella WC experimentally with 10 µg mL −1 of rabbit IgG capture Ab as the lowest effective working concentration of detection antibody. Similarly, on characterization for the potential immuno-reactivity of WC IgG pAbs with both CE and SA Ag determined group 1 Omps of Brucella to be more reactive with mice IgG detection pAb. The outer membrane proteins of Brucella are highly antigenic surface proteins responsible in establishing the pathogenicity inside the host 11 . The detection Ab at concentration 50 µg mL −1 determined the cross-reactivity within Brucella spp. and no cross-reactivity with closely related bacterial spp. during interference study. The capture antibody at 10 µg mL −1 concentration also enabled sensitive linear detection of Brucella WC Ag as compared with 20 µg mL −1 concentration. Also, the optimized sensitive capture antibody on test validation detected Brucella WC Ag in cow milk followed by cow urine, human sera and bovine sera for both Brucella spp. at R 2 value of 0.953 and similarly, detected Brucella in spiked human whole blood at R 2 value of 1 with no bias in linear detection. Therefore, for detection of Brucella in blood and sera in relation to early acute infections, persisted infection in vaccinated and reservoir groups and in relapsed cases of the disease where WC detection of Brucella is preliminary, a potent and sensitive double antibody S-ELISA can be addressed significantly. In our study, we have also evaluated the experimental LOD of the developed immunoassay with sensitive SPR based bio-sensor in spiked and non-spiked samples at detection limit of 100 CFU with detection range of 10 2 to 10 7 CFU mL −1 for both Brucella spp. used in the study. The kinetic study determined the sensitivity of detection Ab on interaction with cell envelope Ag at a linear shift of detection from 1 µg to 10 −1 ng mL −1 of antibody at K D value of 16.48 and 0.42 pM for Brucella abortus S99 and Brucella melitensis 16 M respectively. The K D value (<10 nM) represents high affinity interaction which is comparatively more towards Brucella melitensis 16 M WC detection. This study also relatively evaluated the efficacy of immunoassay experimentally at lowest detection limits, below 1 µg mL −1 for detection antibody at concentration ranging from 100 µg mL −1 to 1.56 and 0.78 µg mL −1 for two Brucella spp. respectively. Most of the immunoassay shows cross-reaction with inevidently characterized surface antigens which we attempted for validation using cross-reactive studies and revealed that both the Brucella spp. are cross-reacting with each other at spp. level due to similarity between sub-types 49 . No cross-reactivity was observed with other bacterial spp. at optimized concentration of capture and detection antibody. For further detection in human sera and whole blood, spiked WC Ag of Brucella was detected for evaluation of immunoassay in SPR and with S-ELISA at LOD of 10 2 and 10 3 CFU mL −1 respectively. For biological interference study on affinity interactions in SPR, co-operative binding of BSA protein resulted in no relative interference and Brucella WC Ag was detected at 10 1 to 10 7 CFU mL −1 . This study therefore, validated the detection of WC in different important samples in perspective to Brucella infection by applying bio-sensor and immuno-assay based platforms to evaluate the effective antigen-antibody interactions in concentration-dependent manner. Thus, Brucella WC detection using selective and sensitive set of double-antibody combination in S-ELISA format is potentially reliable and can be employed for detection at genus level as demonstrated for the use in various clinical and environment matrices.

conclusion
Our study indicated that pAb can detect whole bacterial cell with increased sensitivity and IgG pAb specific to Brucella captures WC bacteria with maximum affinity. We developed and validated the WC based sandwich-ELISA for detection of Brucella abortus and Brucella melitensis with LOD upto 10 3 CFU mL −1 . Moreover, it was found that both Brucella abortus S99 and Brucella melitensis 16 M were cross-reacting with each other at spp. level within the detection assay. The Polyclonal IgG Ab against WC Ag of Brucella abortus S99 was able to detect Brucella melitensis and vice-versa. It was therefore, concluded that the developed immunoassay was sensitive in detecting whole bacterial cell of Brucella. Also, Immunoblot studies using mice IgG detection pAb revealed that the characterized proteins belong to group 1 (94 or 88 kDa) minor immunogenic OMPs of Brucella which are known to be potentially immunogenic. Further, on kinetic evaluation using SPR, K D value calculated melitensis 16 M WC detection. OD value obtained is <1 at lower limits for both the spp. (f) S-ELISA graph plot showing detection in spiked matrices with 10 fold serial diluted WC Ag (10 8 CFU mL −1 to 10 2 CFU mL −1 ) of Brucella melitensis 16 M along with WC Ag of Brucella abortus S99 and closely Brucella related bacterial spp. for validation along x-axis and absorbance at 495 nm along y-axis for evaluation of cross-reactivity. Both Brucella spp. are cross-reactive on validation. (2020) 10:8543 | https://doi.org/10.1038/s41598-020-65347-9 www.nature.com/scientificreports www.nature.com/scientificreports/ for Brucella abortus S99 was 16.48 pM and for Brucella melitensis 16 M was 0.42 pM respectively, measuring high affinity towards Brucella melitensis 16 M for the developed assay. Thus, SPR based biosensor detected WC bacteria with increased sensitivity at LOD of 10 2 CFU mL −1 . Despite, SPR being more sensitive and accurate in determining the Ag-Ab interactions this may not be preferred for field deployment directly due to high cost, whereas the workability of developed S-ELISA can be deployed as an immunoassay for kit based detection system for Brucella. Therefore, upon validation of S-ELISA (as an ancillary diagnostic immunoassay for stability tests and performance evaluation) with spiked studies in clinical and non-clinical samples evaluated linear detection in cow's milk followed by urine and human sera for both Brucella abortus S99 and Brucella melitensis 16 M. We therefore, concluded in our study that the developed semi-quantitative S-ELISA is potent, rapid and sensitive in detecting intact-whole bacterial cell of Brucella. And, in future, can be made more specific by replacing detection Ab with mAb specific to recombinant Ag of Brucella spp. (specifically OMP derived) with minimum cross-reactivity and maximum specificity for the optimized available immunoassay.   www.nature.com/scientificreports www.nature.com/scientificreports/ WC based indirect ELISA (I-ELISA) for antibody titer. WC Ag (1.2 ×10 8 CFU mL −1 ) was immobilized on ELISA immuno-modules (Thermo-Nunc F8 Maxisorp) as per protocol 56,57 . Washed with PBS/PBS-T thrice and blocked with 1% Bovine Serum Albumin (BSA, Hi-media) O/N at 4 °C. Titrated with 2 fold dilution of mice and rabbit anti-serum and incubated at 37 °C for 1 hr. Washed and incubated at 37 °C for 1 hr with 100 µL of rabbit anti-mice and goat anti-rabbit (1:1000) IgG/HRP conjugate, respectively. Washed and developed with OPD and H 2 O 2 in 0.1 M Citrate Phosphate Buffer (pH-5.2) for 5 minutes. Ten µL of stop solution (1 N H 2 SO 4 ) was added per well and absorbance was measured at 495 nm on ELISA reader. High Containment Facility (DRDE-DRDO, Gwalior, India) for experiments was used to avoid aerosolization.

SDS-PAGE and western blot analysis of purified pAbs.
Purified pAbs developed against WC Ag of both Brucella spp. at 10 µg of protein concentration were applied on 12% SDS-PAGE for analysis and characterized by Immuno-blotting. Ten µL of heat-treated and WC Sonicated (SA) Ag at 5 µg protein concentration per antigen was applied for SDS gel electrophoresis (Heat-treated or boiled Ag was prepared by boiling bacterial pellet in 2X of lysis buffer). WC, SA and CE Ag were prepared with total yield of 1 to 2 mg mL −1 protein as per protocol 58

Determination of Detection range and LOD for WC S-ELISA.
Checker-board S-ELISA was performed whereby, ELISA plates were coated in duplicates and blocked (as above in S-ELISA assay) for two Brucella spp. respectively and incubated at 37 °C for 1 hr with 10 fold serial dilution of Brucella WC Ag (10 8 CFU mL −1 to 10 1 CFU mL −1 ) at 100 µL. Washed and incubated at 37 °C for 1 hr with 2 fold serially diluted (100 µg mL −1 to 0.19 µg mL −1 ) mice IgG pAb and pre-immunization sera (mice PIS) as a negative control (1:1000 at 100 µL).
Washed and incubated at 37 °C for 1 hr with rabbit anti-mice IgG/HRP conjugate (1:1000). Washed and developed (as above in I-ELISA). Absorbance was measured at 495 nm.
Interference study for cross-reactivity. Brucella abortus and Brucella melitensis along with closely related bacteria (Table 1) were subjected for detection with developed S-ELISA (as above). Whereby, 10 fold serial dilution of WC Ag (10 8 CFU mL −1 to 10 1 CFU mL −1 ) was detected by 2 fold serially diluted mice IgG pAb (at 100 µg mL −1 to 25 µg mL −1 ) respectively and absorbance was measured at 495 nm.
Validation of S-eLiSA for Wc detection of Brucella in different matrix. WC Ag of two Brucella spp.
(10 8 to 10 1 CFU mL −1 ) were spiked in different matrix for detection using S-ELISA (with capture Ab at 10 µg mL −1 and detection Ab at 50 µg mL −1 ) as above. Whereby, clinical samples were healthy human whole blood and serum from DRDE (1:1000), foetal bovine serum (FBS at 1:1000) and morning mid-stream bovine urine (1:1 in PBS). Unpasteurized healthy bovine morning raw-milk (1:1 in PBS) as non-clinical sample was used (collected from local dairy of Gwalior, India). Absorbance was measured at 495 nm.
Validation and cross-reactive screening of S-eLiSA with Brucella spp. For further validation and evaluation of cross-reactivity, S-ELISA was performed for Brucella melitensis 16 M along with Brucella abortus S99 and closely related bacterial spp. by spiking (at 10 8 to 10 1 CFU mL −1 ) similarly in different matrix (as above). Rabbit IgG pAb (capture Ab at 10 µg mL −1 ) and mice IgG pAb (detection Ab at 50 µg mL −1 ) raised against WC Ag of Brucella melitensis 16 M were used and absorbance was measured at 495 nm. SPR kinetic evaluation study for pAb based affinity investigation of Brucella. In this study, bio-molecular interactions were evaluated with detection Ab (mice IgG pAb) for measuring the LOD, K D and B max values using SPR.

Immobilization of anti-Brucella detection Ab and CE Ag on modified SPR-Au chip.
For baseline stabilization, 50 µL PBS buffer was allowed to pass through the channels at every 120 s interval for 600 s. Modified SPR-Au chip surface was chemically activated by injecting 75 µL (300 s) of carboxyl activating agents, EDC (400 mM) and NHS (100 mM) mixture (1:1 ratio). Conventional primary-amine coupling with amine-active NHS esters facilitates amide bond formation with proteins. Seventy-five µL of mice IgG pAb (detection Ab) at 10 PPM (10 µg mL −1 ) was injected for immobilization in SPR channel (900 s) and 75 µL of PBS buffer was injected in reference channel on SPR Au-chip (900 s). Non-reacted surface active free sites were blocked by injecting 75 µL of 1000 mM (1 M) Ethanolamine (pH-8.5) at 600 s. Ten mM HCl was injected for surface regeneration. Similarly, 75 µL of CE Ag (10 PPM) was also immobilized on SPR-Au chip.

Scientific RepoRtS |
(2020) 10:8543 | https://doi.org/10.1038/s41598-020-65347-9 www.nature.com/scientificreports www.nature.com/scientificreports/ SPR bio-sensing protocol. In an automated process, baseline stabilization was followed by interactive association (500 s), dissociation (400 s) and surface regeneration (120 s). Seventy-five µL of sample (analyte) was injected automatically into double channel SPR system from 384 well (24 ×16 well) microtiter plate and mixed at flow rate of 16.7 µL s −1 with series of such analyte acquisition repeated for each cycle. PBS as running buffer was used in channel washing. Analyte interaction on modified SPR-Au chip immobilized with mice IgG pAb was performed using inactivated WC Ag (10 8 to 10 1 CFU mL −1 ) of both Brucella spp. respectively. Interaction curve of binding (at each binding-regeneration cycle) was evaluated to study the concentration parameter. And, kinetic evaluation of mice IgG pAb as analyte (100 µg mL −1 to 10 −1 pg mL −1 ) was performed on interaction with immobilized CE Ag of Brucella to study the kinetic parameter of SPR response at equilibrium.
Similarly for real scenario, WC Ag of Brucella spp. was spiked in FBS (1:5000) and interacted with immobilized mice IgG pAb for measuring LOD. Seventy percent of serum albumin may elicit co-operative binding during SPR detection. Therefore, 10 fold dilution of BSA (100 µg mL −1 to 1 ng mL −1 ) along with WC Ag of Brucella abortus S99 (10 8 to 10 1 CFU mL −1 ) was interacted with immobilized mice IgG (10 PPM) pAb against Brucella abortus S99 to study the albumin interference.
(Data not shown is available as supplementary file and data sets along with the manuscript).