about
HIV-1 Tat biosensor: Current development and trends for early detection strategies.Potential blood clotting factors and anticoagulants.Aptamer-based 'point-of-care testing'.Biotin-Streptavidin Competition Mediates Sensitive Detection of Biomolecules in Enzyme Linked Immunosorbent Assay.Biopolymers Regulate Silver Nanoparticle under Microwave Irradiation for Effective Antibacterial and Antibiofilm Activities.Cell-targeting aptamers act as intracellular delivery vehicles.Molecular Detection of Methicillin-Resistant Staphylococcus aureus by Non-Protein Coding RNA-Mediated Monoplex Polymerase Chain ReactionSecretion of N- and O-linked Glycoproteins from 4T1 Murine Mammary Carcinoma CellsDetection of Human Papillomavirus 16-Specific IgG and IgM Antibodies in Patient Sera: A Potential Indicator of Oral Squamous Cell Carcinoma Risk FactorShape- and Size-Controlled Synthesis of Silver Nanoparticles Using Aloe vera Plant Extract and Their Antimicrobial Activity.High-performance integrated field-effect transistor-based sensors.Progression in sensing cardiac troponin biomarker charge transductions on semiconducting nanomaterials.Biotechnological Processes in Microbial Amylase Production.A direct detection of human papillomavirus 16 genomic DNA using gold nanoprobes.Variations in Spontaneous Assembly and Disassembly of Molecules on Unmodified Gold Nanoparticles.Characterization of Gold-Sputtered Zinc Oxide Nanorods-a Potential Hybrid Material.Microbial Enzymes and Their Applications in Industries and Medicine 2016Synthesis and characterization of cotton fiber-based nanocellulose.Designing probe from E6 genome region of human Papillomavirus 16 for sensing applications.DNA extraction on bio-chip: history and preeminence over conventional and solid-phase extraction methods.Feasibility of graphene in biomedical applications.Multi-analyte validation in heterogeneous solution by ELISA.Palladium nanoparticle-decorated reduced graphene oxide sheets synthesized using Ficus carica fruit extract: A catalyst for Suzuki cross-coupling reactions.Drug Encapsulated Nanoparticles for Treating Targeted Cells.Polymer Conjugated Gold Nanoparticles in Biomedical Applications.Highly sensitive Escherichia coli shear horizontal surface acoustic wave biosensor with silicon dioxide nanostructures.Fabrication of interdigitated high-performance zinc oxide nanowire modified electrodes for glucose sensing.Polysilicon nanogap lab-on-chip facilitates multiplex analyses with single analyte.A new nano-worm structure from gold-nanoparticle mediated random curving of zinc oxide nanorods.Separation and identification of bioactive peptides from stem of Tinospora cordifolia (Willd.) Miers.Enhanced halophilic lipase secretion by Marinobacter litoralis SW-45 and its potential fatty acid esters releaseGold nanorod embedded novel 3D graphene nanocomposite for selective bio-capture in rapid detection of Mycobacterium tuberculosisRed Spectral Shift in Sensitive Colorimetric Detection of Tuberculosis by ESAT-6 Antigen-Antibody Complex: a New Strategy with Gold NanoparticlePhyto-Mediated Photo Catalysed Green Synthesis of Silver Nanoparticles Using Durio Zibethinus Seed Extract: Antimicrobial and Cytotoxic Activity and Photocatalytic ApplicationsAmine-Aldehyde Chemical Conjugation on a Potassium Hydroxide-Treated Polystyrene ELISA Surface for Nanosensing an HIV-p24 AntigenSquamous Cell Carcinoma Biomarker Sensing on a Strontium Oxide-Modified Interdigitated Electrode Surface for the Diagnosis of Cervical CancerAmperometric determination of nitrite using natural fibers as template for titanium dioxide nanotubes with immobilized hemin as electron transfer mediatorDiagnosing human blood clotting deficiencyDiagnosing Perioperative Cardiovascular Risks in Noncardiac Surgery PatientsHigh-performance interactive analysis of split aptamer and HIV-1 Tat on multiwall carbon nanotube-modified field-effect transistor
P50
Q30382328-3B995074-2C83-4203-9D46-2285EABE2844Q33435584-379AA99B-ADC2-4664-96FD-EFC7BF753B42Q33447229-87EB97D3-D05E-4D5E-8708-0EA90B9F0AF4Q35949209-B5272F57-C835-461A-87B6-539272646037Q36052973-BD7190A4-E5E9-48B3-B43B-1D7E11CFD2C8Q36062913-60075194-6C00-4D43-8EDA-DEB8538E38FCQ36066135-9BE2F566-DC66-492C-A652-D4EACD8D904CQ36934474-D0786AAC-01E0-4EF9-BCF8-282B34FC266CQ36970051-4EF80CE4-D3D2-4A4B-B790-DB734327B11EQ37437933-15698723-402F-4289-B7AF-81D377597C23Q38793181-927EEBB7-1DAD-4BB0-9EBC-D9E579B929E1Q38829615-82E62B94-27E8-4640-898E-7246CEBF383EQ39172218-A5AEA53F-D7A7-476D-86AA-AE26450B992DQ40508933-304709D1-7F39-4562-B456-4893B1F3E9E8Q41095096-F900A26A-B776-41A3-9F61-EA86F4855856Q41829143-6DA3CC28-62D9-4A11-894B-50AA74A7D6CFQ42364368-973411F3-2736-495A-8C2B-BCE710C23FA5Q47353053-C255C0E6-C80A-4C92-805B-4B12EAFF4AF0Q47446106-C32C7983-6A55-4E98-8A68-1B4F5248AEFAQ47640339-54A81A99-69E0-497C-BCBC-45C6859FEF57Q47848111-EB9B97F4-D28E-4E1B-AAFA-72D52F4E77F8Q47895911-F9EBD63E-87AF-44A5-B36D-16FFC15B7D36Q50146214-A98D291F-EA52-4484-B9B4-D81D557E5CF8Q50892245-FA180642-BEDA-4BEB-8603-1ABF15A6A2DAQ51041671-D630A1BF-9A61-4109-98C4-080F589AA4FAQ51155639-7219F168-AADA-4BD5-A79E-E6AD519394D6Q51328429-33A50E50-D9F7-4D67-9D32-ABAE4179F5EAQ51476739-BF33E09F-D726-462F-B57F-01CF48F493EFQ51638679-82AC31D9-4C13-4717-BE59-19D082221DD5Q55036612-940F42C1-B778-49D9-957D-0AD51BF0BE07Q57063987-5F9E96F4-4780-4ACF-8056-CD7A9202B98AQ57129587-E840BD15-081E-4CAF-A475-52B5CC876ACEQ57798842-82DAB5D9-20B2-4BB9-B58E-72DE45DD49A8Q60957191-B00F09CF-0F56-4882-827C-590A76EE0B7DQ61448980-D1477774-6AFB-421D-9A7B-51D1366AD85BQ64068834-A7937099-7F81-4DCD-B05D-5CCC76BAE90BQ88209282-F9625507-C982-4E5A-99A0-67B3064EC7F8Q88727693-A2546B30-457A-46AA-A33C-7B960AA5E7F2Q90171293-EE94127D-C7EB-4A9D-81DD-76536FD5E6CEQ90358694-9AE3F47C-AAC7-4910-96E0-5A701905722E
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Subash C B Gopinath
@en
Subash C B Gopinath
@nl
type
label
Subash C B Gopinath
@en
Subash C B Gopinath
@nl
prefLabel
Subash C B Gopinath
@en
Subash C B Gopinath
@nl
P31
P496
0000-0002-8347-4687