Mukesh Kumar Chaurasia

A prawn core histone 4: Derivation of N- and C-terminal peptides and their antimicrobial properties, molecular characterization and mRNA transcription

This study investigates the complete molecular characterization including bioinformatics characterization, gene expression, synthesis of N and C terminal peptides and their antimicrobial activity of the core histone 4 (H4) from freshwater giant prawn Macrobrachium rosenbergii (Mr). A cDNA encoding MrH4 was identified from the constructed cDNA library of M. rosenbergii during screening and the sequence was obtained using internal sequencing primers. The MrH4 coding region possesses a polypeptide of 103 amino acids with a calculated molecular weight of 11kDa and an isoelectric point of 11.5. The bioinformatics analysis showed that the MrH4 polypeptide contains a H4 signature at (15)GAKRH(19). Multiple sequence alignment of MrH4 showed that the N-terminal (21-42) and C-terminal (87-101) antimicrobial peptide regions and the pentapeptide or H4 signature (15-19) are highly conserved including in humans. The phylogenetic tree formed two separate clades of vertebrate and invertebrate H4, wherein MrH4 was located within the arthropod monophyletic clade of invertebrate H4 groups. Three-dimensional model of MrH4 was established using I-TASSER program and the model was validated using Ramachandran plot analysis. Schiffer-Edmundson helical wheel modeling was used to predict the helix propensity of N (21-42) and C (87-101) terminal derived Mr peptides. The highest gene expression was observed in gills and is induced by viral [white spot syndrome baculovirus (WSBV) and M. rosenbergii nodovirus (MrNV)] and bacterial (Aeromonas hydrophila and Vibrio harveyi) infections. The N and C terminal peptides were synthesized and their antimicrobial and hemolytic properties were examined. Both peptides showed activity against the tested Gram negative and Gram positive bacteria; however, the highest activity was noticed against Gram negative bacteria. Among the two peptides used in this study, C-terminal peptide yielded better results than the N-terminal peptide. Therefore, C terminal peptide can be recommended for the development of an antimicrobial agent.

A cytosolic glutathione s-transferase, GST-theta from freshwater prawn Macrobrachium rosenbergii: molecular and biochemical properties

Glutathione S-transferases play an important role in cellular detoxification and may have evolved to protect cells against reactive oxygen metabolites. In this study, we report the molecular characterization of glutathione s-transferase-theta (GST-θ) from freshwater prawn Macrobrachium rosenbergii. A full length cDNA of GSTT (1417 base pairs) was isolated and characterized bioinformatically. Exposure to virus (white spot syndrome baculovirus or M. rosenbergii nodovirus), bacteria (Aeromonas hydrophila or Vibrio harveyi) or heavy metals (cadmium or lead) significantly increased the expression of GSTT (P<0.05) in hepatopancreas. Recombinant GST-θ with monochlorobimane substrate had an optimum activity at pH7.5 and 35 °C. Furthermore recombinant GST-θ activity was abolished by the denaturants triton X-100, Gua-HCl, Gua-thiocyanate, SDS and urea in a dose-dependent manner. Overall, the results suggest a potential role for M. rosenbergii GST-θ in detoxification and possibly conferring immune protection.

Molecular characterization of a novel proto-type antimicrobial protein galectin-1 from striped murrel

In this study, we reported a molecular characterization of a novel proto-type galectin-1 from the striped murrel Channa striatus (named as CsGal-1). The full length CsGal-1 was identified from an established striped murrel cDNA library and further we confirmed the sequence by cloning. The complete cDNA sequence of CsGal-1 is 590 base pairs (bp) in length and its coding region encoded a poly peptide of 135 amino acids. The polypeptide contains a galactoside binding lectin domain at 4-135. The domain carries a sugar binding site at 45-74 along with its signatures (H(45)-X-Asn(47)-X-Arg(49) and Trp(69)-X-X-Glu(72)-X-Arg(74)). CsGal-1 shares a highly conserved carbohydrate recognition domain (CRD) with galectin-1 from other proto-type galectin of teleosts. The mRNA expressions of CsGal-1 in healthy and various immune stimulants including Aphanomyces invadans, Aeromonas hydrophila, Escherchia coli lipopolysaccharide and poly I:C injected tissues of C. striatus were examined using qRT-PCR. CsGal-1 mRNA is highly expressed in kidney and is up-regulated with different immune stimulants at various time points. To understand its biological activity, the coding region of CsGal-1 gene was expressed in an E. coli BL21 (DE3) cloning system and its recombinant protein was purified. The recombinant CsGal-1 protein was agglutinated with mouse erythrocytes at a concentration of 4μg/mL in a calcium independent manner. CsGal-1 activity was inhibited by d-galactose at 25mM(-1) and d-glucose and d-fructose at 100mM(-1). The results of microbial binding assay showed that the recombinant CsGal-1 protein agglutinated only with the Gram-negative bacteria. Interestingly, we observed no agglutination against Gram-positive bacteria. Overall, the study showed that CsGal-1 is an important immune gene involved in the recognition and elimination of pathogens in C. striatus.

An anti-apoptotic B-cell lymphoma-2 (BCL-2) from Channa striatus: Sequence analysis and delayed and advanced gene expression in response to fungal, bacterial and poly I:C induction.

B-cell lymphoma-2 (BCL-2) is a suppressor of apoptosis and inhibits the caspase dependent apoptosis pathway. In this study, we report molecular characterization of a cDNA sequence encoded of BCL-2 from striped murrel, Channa striatus. A partial cDNA sequence of CsBCL-2 was identified from the striped murrel cDNA library during annotation. Subsequently, the full length CsBCL-2 cDNA sequence was obtained by an internal sequencing method using a forward primer. The sequence contains 699 nucleotide base pairs which encode 232 amino acid residues. The domain and motif analysis revealed that the CsBCL-2 polypeptide consists of BCL-2 homologous domain BH4 at the N-terminal region between 4 and 21 and the BCL-2 homologous domains BH1, BH2 and BH3 between 87 and 187. The CsBCL-2 polypeptide sequence does not have a signal peptide region, but it consists of two novel transmembrane regions at 134-152 and 209-226. The sequence analysis showed that the CsBCL-2 has highest sequence identity (70%) with BCL-2 like protein 1 (BCL-2 L1) from pufferfish Takifugu rubripes. The phylogenetic analysis showed that the CsBCL-2 was situated in the BCL-2 L1 fish clade. The secondary analysis showed that the CsBCL-2 protein consists of 132 amino acid residues in the α-helical region and 100 amino acid residues in the random coil region. The validated 3D structure of CsBCL-2 showed the active residues Gly(135) and Arg(136) in the 7th α-helical position, whereas Trp(178) is in the 9th α-helical region. CsBCL-2 mRNA transcription is predominately present in spleen and is upregulated upon being induced with fungus Aphanomyces invadans, bacteria Aeromonas hydrophila, Escherichia coli LPS, Laminaria digitata beta-1,3-glucan and poly I:C. Overall, the CsBCL-2 mRNA transcription results indicate the potential involvement of CsBCL-2 in immune system of C. striatus. However, further research at proteomic level is necessary to examine these predictions.

Green synthesis of anisotropic zinc oxide nanoparticles with antibacterial and cytofriendly properties

Zinc oxide nanoparticles (ZnONPs) exhibit abundant biomedical applications. Anisotropic ZnONPs with a defined shape and size were synthesized using Bacillus megaterium (NCIM 2326) cell free extract as a bio-reductant. The study investigated the multidimensional effect of ZnONPs on Helicobacter pylori strains and assessed its biosafety in normal human mesenchymal stem cells (hMSc). The highly stable ZnONPs were produced using B. megaterium and Zinc nitrate as a precursor. The phase of ZnONPs formation and structural characterization were performed by UV- visible (UV-Vis), Fourier transform infrared (FTIR) spectroscopy, X-ray diffraction (XRD) and Field Emission Scanning electron microscopy (FESEM) analysis. Furthermore, the ZnONPs exhibited higher biocompatibility against human mesenchymal stem cells (hMSC) and proved to be potentially safe in mammalian cells. Corroborating the current investigation, we described the anti-H. Pylori dosage of ZnONPs was safe to hMSC and could efficiently use as nano-antibiotic.

Molecular profiles and pathogen-induced transcriptional responses of prawn B cell lymphoma-2 related ovarian killer protein (BOK)

In this study, we have reported a molecular characterization of the first B cell lymphoma-2 (BCL-2) related ovarian killer protein (BOK) from freshwater prawn Macrobrachium rosenbergii (Mr). BOK is a novel pro-apoptotic protein of the BCL-2 family that entails in mediating apoptosis to remove cancer cells. A cDNA sequence of MrBOK was identified from the prawn cDNA library and its full length was obtained by internal sequencing. The coding region of MrBOK yields a polypeptide of 291 amino acids. The analysis revealed that MrBOK contains a transmembrane helix at V(261)-L(283) and a putative BCL-2 family domain at V(144)-W(245). MrBOK also possessed four putative BCL-2 homology domains including BH1, BH2, BH3 and weak BH4. The BH3 contains 21 binding sites and among them five residues are highly conserved with the aligned BOK proteins. The homology analysis showed that MrBOK shared maximum similarity with the Caligus rogercresseyi BOK A. The topology of the phylogenetic tree was classified into nine sister groups which includes BOK, BAK, BAX, BAD, BCL-2, BCL-XL, NR13 and MCL members. The BOK protein group further sub-grouped into vertebrate and invertebrate BOK, wherein MrBOK located within insect monophyletic clad of invertebrate BOK. The secondary structural analysis showed that MrBOK contains 11 α-helices (52.2%) which are connected over random coils (47.7%). The 3D structure of MrBOK showed three central helices (α6, α7 and α8) which formed the core of the protein and are flanked on one side by α1, α2 and α3, and on the other side by α4, α5 and α11. MrBOK mRNA is expressed most abundantly (P < 0.05) in ovary compared to other tissues taken for analysis. Hence ovary was selected to study the possible roles of MrBOK mRNA regulation upon bacterial (Aeromonas hydrophila and Vibrio harveyi) and viral [white spot syndrome virus (WSSV) and M. rosenbergii nodovirus] infection. During bacterial and viral infection, the highest MrBOK mRNA transcription was varied at different time points. In bacterial infected ovary tissue, the highest mRNA expression was at 24 h post-infection, whereas in viral infection, the expression was highest at 48 h post-infection. Thus we can conclude that MrBOK functions as an apoptotic protein in intracellular programmed cell-death pathway to counteract the anti-apoptotic proteins released by bacterial and viral pathogens at the time of infection. This is the first study that emphasizes the importance of BOK during bacterial and viral infection in crustacean.

Striped murrel S1 family serine protease: immune characterization, antibacterial property and enzyme activities

We report a molecular characterization of S1 family serine protease (SP-1) from snakehead murrel (or called striped murrel) Channa striatus (Cs). CsSP-1 polypeptide contained a catalytic core domain (otherwise known as serine protease trypsin domain) between H20 and I237 along with a catalytic triad at H61, D104 and S197. Phylogenetic analysis confirmed that CsSP-1 belongs to serine protease S1 family. The tertiary structure showed that CsSP-1 contains 14 β-sheets as 2 separate β-barrels (the first β-barrel consists of 8 β-sheets in the N-terminal region and the second β-barrel consists of 6 β-sheets in the C-terminal region) and 3 α-helical regions. Significantly (P < 0.05) the highest CsSP-1 mRNA expression was observed in intestine, liver and kidney, moderate expression was seen in spleen, head kidney, skin and blood, and the lowest one in brain, gill, muscle and heart. Further, the expression was induced in intestine with fungus Aphanomyces invadans and bacteria Aeromonas hydrophila. The recombinant CsSP-1 protein showed antibacterial activity against both gram-negative and gram-positive bacteria. The optimum CsSP-1 enzyme activity against the substrate casein was determined at 8 mM casein concentration. Moreover, the activity was highly influenced by 5 mM phenyl-methylsulfonyl fluoride followed by ethylenediaminetetraacetic acid, 4-(2-aminoethyl)benzenesulfonylfluoride hydrochloride and calpain inhibitor I. The CsSP-1 enzyme exhibited the highest activity at pH 7.5 and temperature 35°C. The overall results showed the potential involvement of CsSP-1 in the immune system of murrels. However, further research is necessary to study the mechanism of implicit trypsin association in the defence process.

Differences in structure and changes in gene regulation of murrel molecular chaperone HSP family during epizootic ulcerative syndrome (EUS) infection

ABSTRACT Heat shock proteins (HSPs) are immunogenic, ubiquitous class of molecular chaperones, which are induced in response to various environmental and microbial stressful conditions. It plays a vital role in maintaining cellular protein homeostasis in eukaryotic cells. In this study, we described a comprehensive comparative data by bioinformatics approach on three different full length cDNA sequences of HSP family at molecular level. The cDNA sequences of three HSPs were identified from constructed cDNA library of Channa striatus and named as CsCPN60, CsHSP60 and CsHSP70. We have conducted various physicochemical study, which showed that CsHSP70 (666 amino acid) possessed a larger polypeptides followed by CsCPN60 (575) and CsCPN60 (542). Three dimensional structural analysis of these HSPs showed maximum residues in &agr;‐helices and least in &bgr;‐sheets; also CsHSP60 lacks &bgr;‐sheet and formed helix‐turn‐helix structure. Further analysis indicated that each HSP carried distinct domains and gene specific signature motif, which showed that each HSP are structurally diverse. Homology and phylogenetic study showed that the sequences taken for analysis shared maximum identity with fish HSP family. Tissue specific mRNA expression analysis revealed that all the HSPs showed maximum expression in one of the major immune organ such as CsCPN60 in kidney, CsHSP60 in spleen and CsHSP70 in head kidney. To understand the function of HSPs in murrel immune system, the elevation in mRNA expression level was analyzed against microbial oxidative stressors such as fungal (Aphanomyces invadans) and bacterial (Aeromonas hydrophila). It is interesting to note that all the HSP showed a different expression pattern and reached maximum up‐regulation at 48 h post‐infection (p.i) during fungal stress, whereas in bacterial stress only CsCPN60 showed maximum up‐regulation at 48 h p.i, but CsHSP60 and CsHSP70 showed maximum up‐regulation at 24 h p.i. The differential expression pattern showed that each HSP is diverse in function. Overall, the elevation in expression levels showed that HSPs might have potential involvement in murrel immune protection thus, protecting the organism against various external stimuli including environmental and microbial stress. HIGHLIGHTSThree murrel molecular chaperones characterized at molecular level.Heat shock cognate 60, HSP60 and 70 differed in their structure.The gene regulation was varied among three HSPs.These HSPs protect murrel from stress related environmental stimuli.